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File POWERNET408.txt of Package nagios-plugins-snmp (Revision 15)
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-- ************************************************************************* -- AMERICAN POWER CONVERSION PowerNet-MIB -- ************************************************************************* -- Copyright (c) 2013 American Power Conversion, Inc. -- PowerNet is a Trademark of American Power Conversion Corp. -- -- Title: APC TOP LEVEL PowerNet MIB -- -- Version : 4.0.8 -- -- Generated by script: tomib.awk -- -- Input File: powernetPS.mib -- -- Created: Friday, March, 15, 2013 -- -- Revision History: -- ************************************************************************* -- - v3.2.0 Added functionality for MasterSwitch Plus -- - v3.3.0 Added functionality for MX28B (dcDM3) and 3-phase UPS -- - v3.3.2 New traps for Symmetra PX UPS -- 07/15/01 - v3.4.0 Added transfer switch -- - v3.4.3 Added functionality for External and Integrated Environmental Monitor -- 06/14/02 - v3.4.4 Added dcmim2(Siemens) branch, Battery Manager(Reading) traps, and -- Psx Traps for PDU and RM-PDU and Netlock branch/traps -- 12/13/02 - v3.5.0 netlock - Initial support for netlock (nl). Traps 261-265 added. -- rPDU - Initial support for rPDU. Traps 266-283 added. -- rARU - Initial support for rARU. -- gateway - Initial support for gateway (gw). Traps 230-260, 284-297 added. -- ups - upsSyncCtrlGroup and upsState sections added. -- 02/19/03 - v3.6.0 ups - UpsOutletGroups section added. Traps 298-299 added. -- smw - Traps 300-305 added. -- rPDU - General OID description cleanups. -- gw - Updated SNMP support for gw. -- 05/21/03 - v3.6.1 ups - Updated SNMP support for ups. -- ems - Environmental Management System OIDs renamed from gateway (gw). -- raru - Updated SNMP support for raru. -- 06/13/03 - v3.6.3 airFM - Initial support for airFM. Traps 306-311 added. -- nl - Traps 261-265 removed. -- 11/26/03 - v3.6.4 xPDU - Initial support for xPDU. Traps 312-344 added. -- airPA - Initial support for airPA. Traps 306-311 modified for airPA use. -- airFM - AirFMStatus OIDs cleaned up. -- 03/19/04 - v3.6.5 rPDU - Updated SNMP support for rPDU. -- airFM - AirFMGroup section added. -- 05/13/04 - v3.6.6 ups - Added several upsAdvBattery OIDs. -- ems - Added emsStatusHardwareStatus and emsHardwareState traps 345-346. -- aru - Trap 228 redefined to aruDeviceConfigChange. -- 08/04/04 - v3.6.7 ups - Added upsAdvConfigNumExternalBatteries and -- upsAdvConfigSimpleSignalShutdowns. -- ce - Custom Event traps 347-352 added. -- 11/22/04 - v3.6.8 ems - Many emsProbeConfig and emsProbeStatus OIDs added. -- ups - Traps 353-358 added. -- env - Traps 359-374 added. -- 01/26/05 - v3.6.9 battman - Initial support for battman, traps 375-380 added. -- xATS - Initial support for xATS, traps 381-478 added. -- generator - Initial support for generator. -- rPDU - Trap edits. -- xPDU - Trap edits. -- 05/26/05 - v3.7.0 consolePortServer - Initial support for consolePortServer (cpsAP930x). -- xPDU - Cleaned up many descriptions. -- xATS - Cleaned up many descriptions. -- ups - Added several upsAdvConfig OIDs. -- 09/28/05 - v3.8.0 modEnvMgr - Initial support for modEnvMgr (mem). -- rARU - Added functionality for Gen 2 ARU. -- ups/aru/mem - Traps 500-569 added. -- all - General cleanup on typos and spelling errors. -- 01/04/06 - v3.8.1 rARU - Added functionality for Gen 2 ARU -- 02/22/06 - v3.8.2 accessControl - Initial support for accessControl. -- Traps 570-592 added. -- accessPX - Initial support for accessPX. -- airIR - Initial support for airIR and airIRAlarms. -- airIRRC - Initial support for airIRRC. -- 05/24/06 - v3.8.4 apcLocalDisplay - Initial support for apcLocalDisplay. -- ups - UpsAdvOutputRedundancy, upsAdvOutputKVACapacity, -- upsAdvConfigBasicSignalLowBatteryDuration, and -- upsAdvConfigBypassPhaseLockRequired OIDs added. -- UpsAdvConfigMinReturnRuntime SYNTAX changed. -- UPS trap numbers 600-623 added. -- em - New emConfigProbe, emConfigContact, emStatusProbe OIDs added. -- iem - New iemConfigProbe, iemConfigContact, iemStatusProbe OIDs added. -- 08/31/06 - v3.8.5 airIRSC - Initial support for airIRSC. -- XPDU - XPDUBranchBreaker OIDs and xPDUBranchCurrent traps added. -- 11/03/06 - v3.8.6 rPDU - Updated SNMP support for rPDU. -- accessPX - accessPXConfigCardFormat OID added. -- airIRSC - airIRSCUnitStatusCompressor added. -- 01/03/07 - v3.8.7 airIRRP - Initial support for airIRRP100 and airIRRP500. -- 04/06/07 - v3.8.8 battMan - Updated SNMP support for Battery Manager, -- battManConfigApplication OID deprecated. -- airIRRP - Added HeatAssistEnable to airIRRP100 and airIRRP500. -- ups - Added several upsDiagSubSys OIDs. -- iem - Added iemStatusProbeLocation OID. -- all - Cleaned up version history section. -- 12/19/07 - v3.9.1 airFM - Added full SNMP support, deprecating some existing OIDs in -- favor of new structure. -- 12/19/07 - v3.9.2 Added new OIDs for isxModularDistribution, isxModularPdu, airInRoomPerimeter -- airIRGen2, symmetraPX IDs, isxServers IDs, upsAdvConfig, upsDiagSubSysNetworkComCard, -- memInputsCommStatus, airIRRP100GroupSetpoints. Added new SNMP Traps for -- ISX Modular Distribution, and xATS. -- 08/13/08 - v3.9.3 Added new OIDs for UPS HighPrec OIDs: -- upsHighPrecBattery, upsHighPrecInput, and upsHighPrecOutput. -- Added new OIDs for the 10kW the AIR IR Gen2: -- airIRG2RDT2ConfigUnitRoleOverride, airIRG2RDT2RunHoursUnit, -- airIRG2GroupConfigNumberofBackupUnits, airIRG2GroupConfigRuntimeBalancingEnable, -- and airIRG2GroupConfigLoadAssistEnable for use by 10kW application. -- Added new traps apcInternalCommunicationFault and apcInternalCommunicationFaultCleared -- for use by the SUMX application. -- Updated descriptions in existing OIDs. -- 09/25/08 - v3.9.4 Added new OIDs for Symmetra PX: -- upsParallelSystem, upsPhysicalLayout, upsAdvConfigMainsSetting, upsAdvConfigACWiringSetting, -- upsAdvConfigUpperOutputVoltTolerance, upsAdvConfigLowerOutputVoltTolerance, upsAdvConfigUpperBypassVoltTolerance -- upsAdvConfigLowerBypassVoltTolerance, upsAdvConfigOutofSyncBypassTransferDelay, upsAdvTestDiagnosticTime -- upsAdvTestDiagnosticDay, upsDiagSwitchGearBypassInputSwitchStatus, upsDiagSubFeedBreakerTable, -- upsDiagSubFeedBreakerTable, upsSideCarFrameLayoutTable, upsPowerFrameLayoutTable -- Added new OIDs for UPSs: -- upsBasicSystemStatus, upsAdvControlFlashAndBeep (appended new list options) -- Added new OIDs for the AC RP10kW: -- airIRG2RDT2ConfigUnitIdleOnCoolFail -- Added new OID for isxModularPDU device: -- isxModularPduDeviceTransformerPresent (appended new list option) -- 02/24/09 - v3.9.5 Added new OIDs for the UPS Integrated ATS product, Air IRSC product, added new Traps for UPS support -- and fixed MIB compilier warnings. -- 02/24/09 - v3.9.6 Added new Traps and mtrapargs for the ISXC Trap Notification support. -- 09/18/09 - v3.9.8 Added new OIDs for the InRoom C7000 Air product. -- 04/14/10 - v3.9.9 Added new rPDU2 device and modified some rPDU OIDs. -- 06/22/10 - v4.0.0 Added traps 638 through 651 to support ATS. -- Updated control OIDs for rPDU2g -- Updates to support PX100kW UPS. -- Added traps 756 and 757 to support PX100kW UPS. -- Added upsAdvBattery, upsHighPrecBattery, and upsDiagBattery OIDs to support PX250kW/PX500kW UPS. -- 06/30/10 - v4.0.1 Added new OID's upsAdvBatteryFullCapacity, upsAdvInputNominalFrequency, upsAdvInputNominalVoltage, -- upsAdvInputBypassNominalFrequency, upsAdvInputBypassNominalVoltage, upsBasicSystemInternalTemperature, -- upsAdvOutputNominalFrequency, upsAdvOutputActivePower and upsAdvOutputApparentPower. -- Added traps 734 to 739 to support Galaxy 300 and Galaxy 7000 UPS. -- Added SyOid's galaxy300UPS10kVA33, galaxy300UPS15kVA33, galaxy300UPS20kVA33, -- galaxy300UPS30kVA33, galaxy300UPS40kVA33, galaxy300UPS10kVA31, galaxy300UPS15kVA31, -- galaxy300UPS20kVA31 and galaxy300UPS30kVA31,galaxy7000UPS200kVA,galaxy7000UPS250kVA, -- galaxy7000UPS300kVA,galaxy7000UPS400kVA,galaxy7000UPS500kVA,galaxy7000SSC800kVA, -- galaxy7000SSC1200kVA and galaxy7000SSC2000kVA. -- 10/27/10 - v4.0.2 Added Idle on Cool Fail and Fan Speed Control OIDs for the InRow ACRC. -- Added new OID's for Odin UPS upsAdvInputStatisticsTable, upsAdvInputApparentPower, -- upsAdvInputVoltageTHD, upsAdvInputBypassVoltageTHD, upsAdvInputPeakCurrent, upsAdvInputBypassPeakCurrent, -- upsAdvOutputStatisticsTable, upsAdvOutputPeakCurrent, upsAdvOutputCurrentTHD, upsAdvOutputCrestFactor, -- upsAdvStateTotaltimeonbattery, upsAdvStateTotaltimeonbypass, upsAdvStateTotaltimeonNormal, -- upsAdvStateNumberoftimesonbattery, upsAdvStateNumberoftimesbypass, upsAdvStateNumberoftimesNormal, -- subfeedBreakerUpperAcceptPowerCritical, upsParallelInputMaximumCurrent, upsParallelTotalOutputPower, -- upsParallelTotalOutputApparentPower, upsParallelInputCurrent, upsParallelInputActivePower, -- upsParallelInputApparentPower, upsParallelInputVoltage, upsParallelInputMaxVoltage, -- upsParallelInputMaxCurrent, upsParallelInputTotalActivePower, upsParallelInputTotalApparentPower, -- upsParallelOutputCurrent, upsParallelOutputLoad, upsParallelOutputPercentLoad, upsParallelOutputPower, -- upsParallelOutputApparentPower, upsParallelDiagSubSysBreakerStatus, upsParallelDiagSubSysBreakerName -- and upsParallelOutputTotalPercentLoad. -- Modified the OID upsAdvConfigOutputFreqRange and upsParallelSysRedundancy. -- 01/13/11 - v4.0.3 Added new oids, upsHighPrecOutputEfficiency and upsHighPrecOutputEnergyUsage. -- Added green mode for bit 51 of upsBasicStateOutputState. -- Added traps 758 to 763 to support UPS firmware update. -- Deprecated all OIDs off branch mfiletransfer -- Added rPDU2 Metered Outlet Data -- 08/17/11 - v4.0.4 Updated several rPDU2 and rPDU OIDs. -- 12/07/11 - v4.0.5 Added new OID's for SYPX upsPhaseOutputPowerFactor and symmetraPxDisplay. -- Added SYS OID's for different Caphorn models galaxy5000UPS20KVA, galaxy5000UPS30KVA, galaxy5000UPS40KVA -- galaxy5000UPS50KVA, galaxy5000UPS60KVA , galaxy5000UPS80KVA, galaxy5000UPS100KVA, galaxy5000UPS120KVA -- galaxy5000UPS130KVA, galaxy5500UPS20KVA, galaxy5500UPS30KVA, galaxy5500UPS40KVA, galaxy5500UPS50KVA -- galaxy5500UPS60KVA, galaxy5500UPS80KVA, galaxy5500UPS100KVA, galaxy5500UPS120KVA, galaxy5500UPS130KVA -- and new OID upsAdvStateEcomode -- 06/05/12 - v4.0.6 Added new OID rPDUIdentDeviceLineToNeutralVoltage for AP7823 Rack PDU. -- 06/20/12 - v4.0.6 Added new rPDU2Group OID table for AP84xx, AP86xx, AP88xx, AP89xx Rack PDUs. -- 08/10/12 - v4.0.6 Added new OIDs for SYPX 250/500 upsAdvConfigWarningAlarmDelay, upsAdvConfigInformationalAlarmDelay, upsDiagSwitchGearInstallationLoadPct, -- upsParallelOutputActivePowerTable,upsParallelSysSwitchGearInstallationLoadPct, upsParallelSysRedundancyStatus and upsParallelSysName. -- Modified the description for upsBasicBatteryLastReplaceDate and bit 51 of upsBasicStateOutputState. -- Updated upsBasicOutputStatus and upsBasicSystemStatus. -- 08/10/12 - v4.0.6 Added SYS OIDs for different Caphorn models galaxy9000UPS, galaxy9000SSC, galaxy9000UPSWithSSC, galaxy9000FreqConverter, eps6000UPS, -- eps6000SSC, eps6000UPSWithSSC, eps6000FreqConverter, eps7000UPS, eps7000SSC, eps7000UPSWithSSC, -- eps7000FreqConverter, eps8000UPS, eps8000SSC, eps8000UPSWithSSC, eps8000FreqConverter. -- Modified the description for bits 53 to 56 of upsBasicStateOutputState. -- 02/22/13 -v4.0.8 Added OIDs upsAdvBatteryInternalSKU, upsAdvBatteryExternalSKU, upsAdvBatteryRecommendedReplaceDate, -- upsAdvConfigGreenMode, upsAdvConfigLCDLocalLanguage, upsAdvConfigLCDLockOut, -- upsAdvConfigChargerRate, and upsAdvConfigBatterySelection for the SUMX application. -- ******************************************************************************************** -- ******************************************************************************************** -- PowerNet-MIB { iso org(3) dod(6) internet(1) private(4) -- enterprises(1) apc(318) } PowerNet-MIB DEFINITIONS ::= BEGIN IMPORTS enterprises, IpAddress, Gauge, TimeTicks FROM RFC1155-SMI DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212 TRAP-TYPE FROM RFC-1215; -- IMPORTS End apc OBJECT IDENTIFIER ::= { enterprises 318 } products OBJECT IDENTIFIER ::= { apc 1 } apcmgmt OBJECT IDENTIFIER ::= { apc 2 } hardware OBJECT IDENTIFIER ::= { products 1 } software OBJECT IDENTIFIER ::= { products 2 } system OBJECT IDENTIFIER ::= { products 3 } experimental OBJECT IDENTIFIER ::= { products 4 } mconfig OBJECT IDENTIFIER ::= { apcmgmt 1 } mcontrol OBJECT IDENTIFIER ::= { apcmgmt 2 } mtrapargs OBJECT IDENTIFIER ::= { apcmgmt 3 } mfiletransfer OBJECT IDENTIFIER ::= { apcmgmt 4 } mconfigClock OBJECT IDENTIFIER ::= { mconfig 6 } mfiletransferStatus OBJECT IDENTIFIER ::= { mfiletransfer 1 } mfiletransferConfig OBJECT IDENTIFIER ::= { mfiletransfer 2 } mfiletransferControl OBJECT IDENTIFIER ::= { mfiletransfer 3 } mfiletransferConfigSettings OBJECT IDENTIFIER ::= { mfiletransferConfig 1 } mfiletransferConfigTFTP OBJECT IDENTIFIER ::= { mfiletransferConfig 2 } mfiletransferConfigFTP OBJECT IDENTIFIER ::= { mfiletransferConfig 3 } ups OBJECT IDENTIFIER ::= { hardware 1 } measureUps OBJECT IDENTIFIER ::= { hardware 2 } miniSNMPadapter OBJECT IDENTIFIER ::= { hardware 3 } masterswitch OBJECT IDENTIFIER ::= { hardware 4 } masterswitchVM OBJECT IDENTIFIER ::= { hardware 5 } masterswitchMSP OBJECT IDENTIFIER ::= { hardware 6 } dcDM3 OBJECT IDENTIFIER ::= { hardware 7 } automaticTransferSwitch OBJECT IDENTIFIER ::= { hardware 8 } dc2 OBJECT IDENTIFIER ::= { hardware 9 } environmentalMonitor OBJECT IDENTIFIER ::= { hardware 10 } netlock OBJECT IDENTIFIER ::= { hardware 11 } rPDU OBJECT IDENTIFIER ::= { hardware 12 } airConditioners OBJECT IDENTIFIER ::= { hardware 13 } rARU OBJECT IDENTIFIER ::= { hardware 14 } xPDU OBJECT IDENTIFIER ::= { hardware 15 } battMan OBJECT IDENTIFIER ::= { hardware 16 } xATS OBJECT IDENTIFIER ::= { hardware 17 } generator OBJECT IDENTIFIER ::= { hardware 18 } consolePortServer OBJECT IDENTIFIER ::= { hardware 19 } accessControl OBJECT IDENTIFIER ::= { hardware 20 } apcLocalDisplay OBJECT IDENTIFIER ::= { hardware 21 } isxModularDistribution OBJECT IDENTIFIER ::= { hardware 22 } isxModularPdu OBJECT IDENTIFIER ::= { hardware 23 } universalInputOutput OBJECT IDENTIFIER ::= { hardware 25 } rPDU2 OBJECT IDENTIFIER ::= { hardware 26 } powerNetSubAgent OBJECT IDENTIFIER ::= { software 1 } powerNetSoftwareSystem OBJECT IDENTIFIER ::= { powerNetSubAgent 1 } powerNetSoftwareConfig OBJECT IDENTIFIER ::= { powerNetSubAgent 2 } backUPS OBJECT IDENTIFIER ::= { system 1 } smartUPS OBJECT IDENTIFIER ::= { system 2 } matrixUPS OBJECT IDENTIFIER ::= { system 3 } masterSwitch OBJECT IDENTIFIER ::= { system 4 } symmetraUPS OBJECT IDENTIFIER ::= { system 5 } dp100E OBJECT IDENTIFIER ::= { system 6 } dp300E OBJECT IDENTIFIER ::= { system 7 } monitors OBJECT IDENTIFIER ::= { system 8 } redundantSwitch OBJECT IDENTIFIER ::= { system 9 } dcPower OBJECT IDENTIFIER ::= { system 10 } automaticXferSwitch OBJECT IDENTIFIER ::= { system 11 } netLock OBJECT IDENTIFIER ::= { system 12 } symmetra3PhaseUPS OBJECT IDENTIFIER ::= { system 13 } networkAir OBJECT IDENTIFIER ::= { system 14 } infraStruXurePDU OBJECT IDENTIFIER ::= { system 15 } ais5000UPS OBJECT IDENTIFIER ::= { system 16 } smartUPS3Phase OBJECT IDENTIFIER ::= { system 17 } battManager OBJECT IDENTIFIER ::= { system 18 } infraStruXureATS OBJECT IDENTIFIER ::= { system 19 } conPortServ OBJECT IDENTIFIER ::= { system 20 } gutor OBJECT IDENTIFIER ::= { system 21 } accControl OBJECT IDENTIFIER ::= { system 22 } symmetraPX OBJECT IDENTIFIER ::= { system 23 } isxModDistribution OBJECT IDENTIFIER ::= { system 24 } isxServers OBJECT IDENTIFIER ::= { system 25 } smartUPS2 OBJECT IDENTIFIER ::= { system 27 } galaxy OBJECT IDENTIFIER ::= { system 28 } eps OBJECT IDENTIFIER ::= { system 30 } battManIdent OBJECT IDENTIFIER ::= { battMan 1 } battManSystemCalib OBJECT IDENTIFIER ::= { battMan 2 } battManUnitCalib OBJECT IDENTIFIER ::= { battMan 3 } battManStringCalib OBJECT IDENTIFIER ::= { battMan 4 } battManBatteryCalib OBJECT IDENTIFIER ::= { battMan 5 } battManConfig OBJECT IDENTIFIER ::= { battMan 6 } battManAlarm OBJECT IDENTIFIER ::= { battMan 7 } battManSystemStatus OBJECT IDENTIFIER ::= { battMan 8 } battManStringStatus OBJECT IDENTIFIER ::= { battMan 9 } battManBatteryStatus OBJECT IDENTIFIER ::= { battMan 10 } battManInputContactStatus OBJECT IDENTIFIER ::= { battMan 11 } battManControl OBJECT IDENTIFIER ::= { battMan 12 } battManTestResults OBJECT IDENTIFIER ::= { battMan 13 } battManUnitStatus OBJECT IDENTIFIER ::= { battMan 14 } xPDUIdent OBJECT IDENTIFIER ::= { xPDU 1 } xPDUDevice OBJECT IDENTIFIER ::= { xPDU 2 } xPDUACMonitoringPoint OBJECT IDENTIFIER ::= { xPDU 3 } xPDUCircuitBreakers OBJECT IDENTIFIER ::= { xPDU 4 } xPDUInputContacts OBJECT IDENTIFIER ::= { xPDU 5 } xPDUOutputRelays OBJECT IDENTIFIER ::= { xPDU 6 } xPDUMiscGroup OBJECT IDENTIFIER ::= { xPDU 7 } xPDUMainInput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 1 } xPDUBypassInput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 2 } xPDUUPSInput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 3 } xPDUSystemOutput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 4 } xPDUGroundMonitorPoint OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 5 } xPDUSystemBreakers OBJECT IDENTIFIER ::= { xPDUCircuitBreakers 1 } xPDUBranchBreakers OBJECT IDENTIFIER ::= { xPDUCircuitBreakers 2 } xATSIdent OBJECT IDENTIFIER ::= { xATS 1 } xATSDevice OBJECT IDENTIFIER ::= { xATS 2 } xATSSwitch OBJECT IDENTIFIER ::= { xATS 3 } xATSACMonitoringPoint OBJECT IDENTIFIER ::= { xATS 4 } xATSTesting OBJECT IDENTIFIER ::= { xATS 5 } xATSInputContacts OBJECT IDENTIFIER ::= { xATS 6 } xATSOutputRelays OBJECT IDENTIFIER ::= { xATS 7 } xATSMisc OBJECT IDENTIFIER ::= { xATS 8 } xATSSwitchStatus OBJECT IDENTIFIER ::= { xATSSwitch 1 } xATSSwitchSettings OBJECT IDENTIFIER ::= { xATSSwitch 2 } xATSSwitchTimers OBJECT IDENTIFIER ::= { xATSSwitch 3 } xATSSwitchBlockMap OBJECT IDENTIFIER ::= { xATSSwitch 4 } xATSSwitchStatistics OBJECT IDENTIFIER ::= { xATSSwitch 5 } xATSSource1 OBJECT IDENTIFIER ::= { xATSACMonitoringPoint 1 } xATSSource2 OBJECT IDENTIFIER ::= { xATSACMonitoringPoint 2 } xATSSystemOutput OBJECT IDENTIFIER ::= { xATSACMonitoringPoint 3 } xATSTestingStatus OBJECT IDENTIFIER ::= { xATSTesting 1 } xATSTestingResults OBJECT IDENTIFIER ::= { xATSTesting 2 } xATSTestingSchedule OBJECT IDENTIFIER ::= { xATSTesting 3 } xATSTestingSimulatePowerFail OBJECT IDENTIFIER ::= { xATSTesting 4 } xATSGenerator OBJECT IDENTIFIER ::= { generator 1 } xATSGeneratorIdent OBJECT IDENTIFIER ::= { xATSGenerator 1 } xATSGeneratorStatus OBJECT IDENTIFIER ::= { xATSGenerator 2 } xATSGeneratorAdvStatus OBJECT IDENTIFIER ::= { xATSGenerator 3 } xATSGeneratorOutput OBJECT IDENTIFIER ::= { xATSGenerator 4 } xATSGeneratorSettings OBJECT IDENTIFIER ::= { xATSGenerator 5 } xATSGeneratorService OBJECT IDENTIFIER ::= { xATSGenerator 6 } xATSGeneratorFuelSystem OBJECT IDENTIFIER ::= { xATSGenerator 7 } cpsAP930x OBJECT IDENTIFIER ::= { consolePortServer 1 } cpsAP930xSys OBJECT IDENTIFIER ::= { cpsAP930x 1 } cpsAP930xConf OBJECT IDENTIFIER ::= { cpsAP930x 2 } cpsAP930xInfo OBJECT IDENTIFIER ::= { cpsAP930x 3 } cpsAP930xAdm OBJECT IDENTIFIER ::= { cpsAP930x 4 } smartUPS250 OBJECT IDENTIFIER ::= { smartUPS 1 } smartUPS400 OBJECT IDENTIFIER ::= { smartUPS 2 } smartUPS600 OBJECT IDENTIFIER ::= { smartUPS 3 } smartUPS900 OBJECT IDENTIFIER ::= { smartUPS 4 } smartUPS1250 OBJECT IDENTIFIER ::= { smartUPS 5 } smartUPS2000 OBJECT IDENTIFIER ::= { smartUPS 6 } smartUPS450 OBJECT IDENTIFIER ::= { smartUPS 7 } smartUPS700 OBJECT IDENTIFIER ::= { smartUPS 8 } smartUPS1000 OBJECT IDENTIFIER ::= { smartUPS 9 } smartUPS1400 OBJECT IDENTIFIER ::= { smartUPS 10 } smartUPS2200 OBJECT IDENTIFIER ::= { smartUPS 11 } smartUPS3000 OBJECT IDENTIFIER ::= { smartUPS 12 } smartUPS5000 OBJECT IDENTIFIER ::= { smartUPS 13 } smartUPS7500 OBJECT IDENTIFIER ::= { smartUPS 14 } smartUPS10000 OBJECT IDENTIFIER ::= { smartUPS 15 } smartUPS1500 OBJECT IDENTIFIER ::= { smartUPS 16 } smartUPS3000DSP OBJECT IDENTIFIER ::= { smartUPS 17 } smartUPS5000DSP OBJECT IDENTIFIER ::= { smartUPS 18 } smartUPS8000 OBJECT IDENTIFIER ::= { smartUPS 19 } matrixUPS3000 OBJECT IDENTIFIER ::= { matrixUPS 1 } matrixUPS5000 OBJECT IDENTIFIER ::= { matrixUPS 2 } masterSwitchV1 OBJECT IDENTIFIER ::= { masterSwitch 1} masterSwitchV2 OBJECT IDENTIFIER ::= { masterSwitch 2} masterSwitchVM OBJECT IDENTIFIER ::= { masterSwitch 3} masterSwitchMSP OBJECT IDENTIFIER ::= { masterSwitch 4} masterSwitchrPDU OBJECT IDENTIFIER ::= { masterSwitch 5} masterSwitchrPDU2 OBJECT IDENTIFIER ::= { masterSwitch 6} symmetraUPS4kVA OBJECT IDENTIFIER ::= { symmetraUPS 1 } symmetraUPS8kVA OBJECT IDENTIFIER ::= { symmetraUPS 2 } symmetraUPS12kVA OBJECT IDENTIFIER ::= { symmetraUPS 3 } symmetraUPS16kVA OBJECT IDENTIFIER ::= { symmetraUPS 4 } environmental OBJECT IDENTIFIER ::= { monitors 1 } environmentalMgtSystem OBJECT IDENTIFIER ::= { monitors 2 } emu2 OBJECT IDENTIFIER ::= { monitors 3 } mem OBJECT IDENTIFIER ::= { monitors 4 } dm3 OBJECT IDENTIFIER ::= { dcPower 1 } dcmim2 OBJECT IDENTIFIER ::= { dcPower 2 } symmetra3PhaseUPS40kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 1 } symmetra3PhaseUPS60kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 2 } symmetra3PhaseUPS80kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 3 } symmetra3PhaseUPS20kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 4 } airFMSeries OBJECT IDENTIFIER ::= { networkAir 1 } rackAirRemovalUnit OBJECT IDENTIFIER ::= { networkAir 2 } airPASeries OBJECT IDENTIFIER ::= { networkAir 3 } airIRSC100Series OBJECT IDENTIFIER ::= { networkAir 4 } airIRRC100Series OBJECT IDENTIFIER ::= { networkAir 5 } airIRRP100Series OBJECT IDENTIFIER ::= { networkAir 6 } airIRRP500Series OBJECT IDENTIFIER ::= { networkAir 7 } airIRRD100Series OBJECT IDENTIFIER ::= { networkAir 8 } airInRoomPerimeter OBJECT IDENTIFIER ::= { networkAir 9 } ais5000UPS10kVA OBJECT IDENTIFIER ::= { ais5000UPS 1 } ais5000UPS20kVA OBJECT IDENTIFIER ::= { ais5000UPS 2 } ais5000UPS30kVA OBJECT IDENTIFIER ::= { ais5000UPS 3 } ais5000UPS40kVA OBJECT IDENTIFIER ::= { ais5000UPS 4 } ais5000UPS60kVA OBJECT IDENTIFIER ::= { ais5000UPS 5 } ais5000UPS80kVA OBJECT IDENTIFIER ::= { ais5000UPS 6 } ais5000UPS100kVA OBJECT IDENTIFIER ::= { ais5000UPS 7 } smartUPS3Phase10kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 1 } smartUPS3Phase15kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 2 } smartUPS3Phase20kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 3 } smartUPS3Phase30kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 4 } smartUPS3Phase40kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 5 } galaxy7000UPS200kVA OBJECT IDENTIFIER ::= { galaxy 1 } galaxy7000UPS250kVA OBJECT IDENTIFIER ::= { galaxy 2 } galaxy7000UPS300kVA OBJECT IDENTIFIER ::= { galaxy 3 } galaxy7000UPS400kVA OBJECT IDENTIFIER ::= { galaxy 4 } galaxy7000UPS500kVA OBJECT IDENTIFIER ::= { galaxy 5 } galaxy7000SSC800kVA OBJECT IDENTIFIER ::= { galaxy 6 } galaxy7000SSC1200kVA OBJECT IDENTIFIER ::= { galaxy 7 } galaxy7000SSC2000kVA OBJECT IDENTIFIER ::= { galaxy 8 } galaxy300UPS10kVA33 OBJECT IDENTIFIER ::= { galaxy 9 } galaxy300UPS15kVA33 OBJECT IDENTIFIER ::= { galaxy 10 } galaxy300UPS20kVA33 OBJECT IDENTIFIER ::= { galaxy 11 } galaxy300UPS30kVA33 OBJECT IDENTIFIER ::= { galaxy 12 } galaxy300UPS40kVA33 OBJECT IDENTIFIER ::= { galaxy 13 } galaxy300UPS10kVA31 OBJECT IDENTIFIER ::= { galaxy 14 } galaxy300UPS15kVA31 OBJECT IDENTIFIER ::= { galaxy 15 } galaxy300UPS20kVA31 OBJECT IDENTIFIER ::= { galaxy 16 } galaxy300UPS30kVA31 OBJECT IDENTIFIER ::= { galaxy 17 } galaxy5000UPS20KVA OBJECT IDENTIFIER ::= { galaxy 18 } galaxy5000UPS30KVA OBJECT IDENTIFIER ::= { galaxy 19 } galaxy5000UPS40KVA OBJECT IDENTIFIER ::= { galaxy 20 } galaxy5000UPS50KVA OBJECT IDENTIFIER ::= { galaxy 21 } galaxy5000UPS60KVA OBJECT IDENTIFIER ::= { galaxy 22 } galaxy5000UPS80KVA OBJECT IDENTIFIER ::= { galaxy 23 } galaxy5000UPS100KVA OBJECT IDENTIFIER ::= { galaxy 24 } galaxy5000UPS120KVA OBJECT IDENTIFIER ::= { galaxy 25 } galaxy5000UPS130KVA OBJECT IDENTIFIER ::= { galaxy 26 } galaxy5500UPS20KVA OBJECT IDENTIFIER ::= { galaxy 27 } galaxy5500UPS30KVA OBJECT IDENTIFIER ::= { galaxy 28 } galaxy5500UPS40KVA OBJECT IDENTIFIER ::= { galaxy 29 } galaxy5500UPS50KVA OBJECT IDENTIFIER ::= { galaxy 30 } galaxy5500UPS60KVA OBJECT IDENTIFIER ::= { galaxy 31 } galaxy5500UPS80KVA OBJECT IDENTIFIER ::= { galaxy 32 } galaxy5500UPS100KVA OBJECT IDENTIFIER ::= { galaxy 33 } galaxy5500UPS120KVA OBJECT IDENTIFIER ::= { galaxy 34 } galaxy5500UPS130KVA OBJECT IDENTIFIER ::= { galaxy 35 } galaxy9000UPS OBJECT IDENTIFIER ::= { galaxy 48 } galaxy9000SSC OBJECT IDENTIFIER ::= { galaxy 49 } galaxy9000UPSWithSSC OBJECT IDENTIFIER ::= { galaxy 50 } galaxy9000FreqConverter OBJECT IDENTIFIER ::= { galaxy 51 } eps6000UPS OBJECT IDENTIFIER ::= { eps 1 } eps6000SSC OBJECT IDENTIFIER ::= { eps 2 } eps6000UPSWithSSC OBJECT IDENTIFIER ::= { eps 3 } eps6000FreqConverter OBJECT IDENTIFIER ::= { eps 4 } eps7000UPS OBJECT IDENTIFIER ::= { eps 5 } eps7000SSC OBJECT IDENTIFIER ::= { eps 6 } eps7000UPSWithSSC OBJECT IDENTIFIER ::= { eps 7 } eps7000FreqConverter OBJECT IDENTIFIER ::= { eps 8 } eps8000UPS OBJECT IDENTIFIER ::= { eps 9 } eps8000SSC OBJECT IDENTIFIER ::= { eps 10 } eps8000UPSWithSSC OBJECT IDENTIFIER ::= { eps 11 } eps8000FreqConverter OBJECT IDENTIFIER ::= { eps 12 } conPortServAP930x OBJECT IDENTIFIER ::= { conPortServ 1 } gutorPEW OBJECT IDENTIFIER ::= { gutor 1 } gutorPDW OBJECT IDENTIFIER ::= { gutor 2 } gutorWEW OBJECT IDENTIFIER ::= { gutor 3 } gutorWDW OBJECT IDENTIFIER ::= { gutor 4 } gutorSDC OBJECT IDENTIFIER ::= { gutor 5 } upsIdent OBJECT IDENTIFIER ::= { ups 1 } upsBattery OBJECT IDENTIFIER ::= { ups 2 } upsInput OBJECT IDENTIFIER ::= { ups 3 } upsOutput OBJECT IDENTIFIER ::= { ups 4 } upsConfig OBJECT IDENTIFIER ::= { ups 5 } upsControl OBJECT IDENTIFIER ::= { ups 6 } upsTest OBJECT IDENTIFIER ::= { ups 7 } upsComm OBJECT IDENTIFIER ::= { ups 8 } upsPhase OBJECT IDENTIFIER ::= { ups 9 } upsSyncCtrlGroup OBJECT IDENTIFIER ::= { ups 10 } upsState OBJECT IDENTIFIER ::= { ups 11 } upsOutletGroups OBJECT IDENTIFIER ::= { ups 12 } upsDiagnostics OBJECT IDENTIFIER ::= { ups 13 } upsParallelSystem OBJECT IDENTIFIER ::= { ups 14 } upsPhysicalLayout OBJECT IDENTIFIER ::= { ups 15 } upsIntegratedATS OBJECT IDENTIFIER ::= { ups 16 } upsBasicIdent OBJECT IDENTIFIER ::= { upsIdent 1 } upsAdvIdent OBJECT IDENTIFIER ::= { upsIdent 2 } upsBasicBattery OBJECT IDENTIFIER ::= { upsBattery 1 } upsAdvBattery OBJECT IDENTIFIER ::= { upsBattery 2 } upsHighPrecBattery OBJECT IDENTIFIER ::= { upsBattery 3 } upsBasicInput OBJECT IDENTIFIER ::= { upsInput 1 } upsAdvInput OBJECT IDENTIFIER ::= { upsInput 2 } upsHighPrecInput OBJECT IDENTIFIER ::= { upsInput 3 } upsBasicOutput OBJECT IDENTIFIER ::= { upsOutput 1 } upsAdvOutput OBJECT IDENTIFIER ::= { upsOutput 2 } upsHighPrecOutput OBJECT IDENTIFIER ::= { upsOutput 3 } upsBasicConfig OBJECT IDENTIFIER ::= { upsConfig 1 } upsAdvConfig OBJECT IDENTIFIER ::= { upsConfig 2 } upsBasicControl OBJECT IDENTIFIER ::= { upsControl 1 } upsAdvControl OBJECT IDENTIFIER ::= { upsControl 2 } upsBasicTest OBJECT IDENTIFIER ::= { upsTest 1 } upsAdvTest OBJECT IDENTIFIER ::= { upsTest 2 } upsPhaseResetValues OBJECT IDENTIFIER ::= { upsPhase 1 } upsPhaseInput OBJECT IDENTIFIER ::= { upsPhase 2 } upsPhaseOutput OBJECT IDENTIFIER ::= { upsPhase 3 } upsSyncCtrlGroupConfig OBJECT IDENTIFIER ::= { upsSyncCtrlGroup 1 } upsSyncCtrlGroupStatus OBJECT IDENTIFIER ::= { upsSyncCtrlGroup 2 } upsBasicState OBJECT IDENTIFIER ::= { upsState 1 } upsAdvState OBJECT IDENTIFIER ::= { upsState 2 } upsOutletGroupStatus OBJECT IDENTIFIER ::= { upsOutletGroups 1 } upsOutletGroupConfig OBJECT IDENTIFIER ::= { upsOutletGroups 2 } upsOutletGroupControl OBJECT IDENTIFIER ::= { upsOutletGroups 3 } upsDiagnosticIM OBJECT IDENTIFIER ::= { upsDiagnostics 1 } upsDiagnosticPowerModules OBJECT IDENTIFIER ::= { upsDiagnostics 2 } upsDiagnosticBatteries OBJECT IDENTIFIER ::= { upsDiagnostics 3 } upsDiagnosticSubsystem OBJECT IDENTIFIER ::= { upsDiagnostics 4 } upsDiagnosticExternalDevices OBJECT IDENTIFIER ::= { upsDiagnostics 5 } upsDiagnosticComBus OBJECT IDENTIFIER ::= { upsDiagnostics 6 } upsDiagSwitchGear OBJECT IDENTIFIER ::= { upsDiagnosticExternalDevices 1 } upsDiagMCCBBox OBJECT IDENTIFIER ::= { upsDiagnosticExternalDevices 2 } upsDiagTransformer OBJECT IDENTIFIER ::= { upsDiagnosticExternalDevices 3 } mUpsEnviron OBJECT IDENTIFIER ::= { measureUps 1 } mUpsContact OBJECT IDENTIFIER ::= { measureUps 2 } serialPort OBJECT IDENTIFIER ::= { miniSNMPadapter 1} serialPort1 OBJECT IDENTIFIER ::= { serialPort 1} serialPort2 OBJECT IDENTIFIER ::= { serialPort 2} serialPort2Config OBJECT IDENTIFIER ::= { serialPort2 1} serialPort2Control OBJECT IDENTIFIER ::= { serialPort2 2} sPDUIdent OBJECT IDENTIFIER ::= { masterswitch 1 } sPDUMasterControl OBJECT IDENTIFIER ::= { masterswitch 2 } sPDUMasterConfig OBJECT IDENTIFIER ::= { masterswitch 3 } sPDUOutletControl OBJECT IDENTIFIER ::= { masterswitch 4 } sPDUOutletConfig OBJECT IDENTIFIER ::= { masterswitch 5 } sPDUIdentVM OBJECT IDENTIFIER ::= { masterswitchVM 1 } sPDUMasterControlVM OBJECT IDENTIFIER ::= { masterswitchVM 2 } sPDUMasterConfigVM OBJECT IDENTIFIER ::= { masterswitchVM 3 } sPDUMasterStatusVM OBJECT IDENTIFIER ::= { masterswitchVM 4 } sPDUOutletControlVM OBJECT IDENTIFIER ::= { masterswitchVM 5 } sPDUOutletConfigVM OBJECT IDENTIFIER ::= { masterswitchVM 6 } sPDUOutletStatusVM OBJECT IDENTIFIER ::= { masterswitchVM 7 } sPDUIdentMSP OBJECT IDENTIFIER ::= { masterswitchMSP 1 } sPDUMasterControlMSP OBJECT IDENTIFIER ::= { masterswitchMSP 2 } sPDUMasterConfigMSP OBJECT IDENTIFIER ::= { masterswitchMSP 3 } sPDUMasterStatusMSP OBJECT IDENTIFIER ::= { masterswitchMSP 4 } sPDUOutletControlMSP OBJECT IDENTIFIER ::= { masterswitchMSP 5 } sPDUOutletConfigMSP OBJECT IDENTIFIER ::= { masterswitchMSP 6 } sPDUOutletStatusMSP OBJECT IDENTIFIER ::= { masterswitchMSP 7 } sPDUOutletConfigMSPall OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 1 } sPDUOutletConfigMSPgs OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 2 } sPDUOutletConfigMSPannun OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 3 } sPDUOutletConfigMSPmups OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 4 } rPDUIdent OBJECT IDENTIFIER ::= { rPDU 1 } rPDULoad OBJECT IDENTIFIER ::= { rPDU 2 } rPDUOutlet OBJECT IDENTIFIER ::= { rPDU 3 } rPDUPowerSupply OBJECT IDENTIFIER ::= { rPDU 4 } rPDUStatus OBJECT IDENTIFIER ::= { rPDU 5 } rPDULoadDevice OBJECT IDENTIFIER ::= { rPDULoad 1 } rPDULoadPhaseConfig OBJECT IDENTIFIER ::= { rPDULoad 2 } rPDULoadStatus OBJECT IDENTIFIER ::= { rPDULoad 3 } rPDULoadBankConfig OBJECT IDENTIFIER ::= { rPDULoad 4 } rPDUOutletDevice OBJECT IDENTIFIER ::= { rPDUOutlet 1 } rPDUOutletPhase OBJECT IDENTIFIER ::= { rPDUOutlet 2 } rPDUOutletControl OBJECT IDENTIFIER ::= { rPDUOutlet 3 } rPDUOutletConfig OBJECT IDENTIFIER ::= { rPDUOutlet 4 } rPDUOutletStatus OBJECT IDENTIFIER ::= { rPDUOutlet 5 } rPDUOutletBank OBJECT IDENTIFIER ::= { rPDUOutlet 6 } rPDUPowerSupplyDevice OBJECT IDENTIFIER ::= { rPDUPowerSupply 1 } dm3Ident OBJECT IDENTIFIER ::= { dcDM3 1 } dm3Config OBJECT IDENTIFIER ::= { dcDM3 2 } dm3Status OBJECT IDENTIFIER ::= { dcDM3 3 } dm3IdentSystem OBJECT IDENTIFIER ::= { dm3Ident 1} dm3ConfigSystem OBJECT IDENTIFIER ::= { dm3Config 1 } dm3ConfigLVD OBJECT IDENTIFIER ::= { dm3Config 2 } dm3ConfigBattery OBJECT IDENTIFIER ::= { dm3Config 3 } dm3ConfigPowerModules OBJECT IDENTIFIER ::= { dm3Config 4 } dm3ConfigRelays OBJECT IDENTIFIER ::= { dm3Config 5 } dm3ConfigDistribution OBJECT IDENTIFIER ::= { dm3Config 6 } dm3ConfigRectifier OBJECT IDENTIFIER ::= { dm3ConfigPowerModules 1 } dm3ConfigConverter OBJECT IDENTIFIER ::= { dm3ConfigPowerModules 2 } dm3ConfigRectThresh OBJECT IDENTIFIER ::= { dm3ConfigRectifier 1 } dm3ConfigRectAlarms OBJECT IDENTIFIER ::= { dm3ConfigRectifier 2 } dm3ConfigConvThresh OBJECT IDENTIFIER ::= { dm3ConfigConverter 1 } dm3ConfigConvAlarms OBJECT IDENTIFIER ::= { dm3ConfigConverter 2 } dm3ConfigOutputRelays OBJECT IDENTIFIER ::= { dm3ConfigRelays 1 } dm3ConfigInputRelays OBJECT IDENTIFIER ::= { dm3ConfigRelays 2 } dm3ConfigBreakers OBJECT IDENTIFIER ::= { dm3ConfigDistribution 1 } dm3ConfigFuses OBJECT IDENTIFIER ::= { dm3ConfigDistribution 2 } dm3StatusSystem OBJECT IDENTIFIER ::= { dm3Status 1 } dm3StatusAlarms OBJECT IDENTIFIER ::= { dm3Status 2 } dm3StatusBattery OBJECT IDENTIFIER ::= { dm3Status 3 } dm3StatusOEM OBJECT IDENTIFIER ::= { dm3Status 4 } dm3StatusLVD OBJECT IDENTIFIER ::= { dm3Status 5 } dm3StatusPowerModules OBJECT IDENTIFIER ::= { dm3Status 6 } dm3StatusRelays OBJECT IDENTIFIER ::= { dm3Status 7 } dm3StatusDistribution OBJECT IDENTIFIER ::= { dm3Status 8 } dm3StatusRectifier OBJECT IDENTIFIER ::= { dm3StatusPowerModules 1 } dm3StatusConverter OBJECT IDENTIFIER ::= { dm3StatusPowerModules 2 } dm3StatusOutputRelays OBJECT IDENTIFIER ::= { dm3StatusRelays 1 } dm3StatusInputRelays OBJECT IDENTIFIER ::= { dm3StatusRelays 2 } dm3StatusBreakers OBJECT IDENTIFIER ::= { dm3StatusDistribution 1 } dm3StatusFuses OBJECT IDENTIFIER ::= { dm3StatusDistribution 2 } atsIdent OBJECT IDENTIFIER ::= { automaticTransferSwitch 1 } atsCalibration OBJECT IDENTIFIER ::= { automaticTransferSwitch 2 } atsControl OBJECT IDENTIFIER ::= { automaticTransferSwitch 3 } atsConfig OBJECT IDENTIFIER ::= { automaticTransferSwitch 4 } atsStatus OBJECT IDENTIFIER ::= { automaticTransferSwitch 5 } atsCalibrationInput OBJECT IDENTIFIER ::= { atsCalibration 1 } atsCalibrationPowerSupply OBJECT IDENTIFIER ::= { atsCalibration 2 } atsCalibrationOutput OBJECT IDENTIFIER ::= { atsCalibration 3 } atsStatusDeviceStatus OBJECT IDENTIFIER ::= { atsStatus 1 } atsStatusResetValues OBJECT IDENTIFIER ::= { atsStatus 2 } atsStatusInput OBJECT IDENTIFIER ::= { atsStatus 3 } atsStatusOutput OBJECT IDENTIFIER ::= { atsStatus 4 } dcmim2Ident OBJECT IDENTIFIER ::= { dc2 1 } dcmim2Control OBJECT IDENTIFIER ::= { dc2 2 } dcmim2Config OBJECT IDENTIFIER ::= { dc2 3 } dcmim2Status OBJECT IDENTIFIER ::= { dc2 4 } dcmim2IdentSystem OBJECT IDENTIFIER ::= { dcmim2Ident 1 } dcmim2ControlSystem OBJECT IDENTIFIER ::= { dcmim2Control 1 } dcmim2ConfigSystem OBJECT IDENTIFIER ::= { dcmim2Config 1 } dcmim2ConfigBattery OBJECT IDENTIFIER ::= { dcmim2Config 2 } dcmim2ConfigLVD OBJECT IDENTIFIER ::= { dcmim2Config 3 } dcmim2StatusSystem OBJECT IDENTIFIER ::= { dcmim2Status 1 } dcmim2StatusRectifier OBJECT IDENTIFIER ::= { dcmim2Status 2 } dcmim2StatusBattery OBJECT IDENTIFIER ::= { dcmim2Status 3 } dcmim2StatusLVD OBJECT IDENTIFIER ::= { dcmim2Status 4 } dcmim2StatusAlarms OBJECT IDENTIFIER ::= { dcmim2Status 5 } external OBJECT IDENTIFIER ::= { environmentalMonitor 1 } integrated OBJECT IDENTIFIER ::= { environmentalMonitor 2 } envMgtSystem OBJECT IDENTIFIER ::= { environmentalMonitor 3 } modEnvMgr OBJECT IDENTIFIER ::= { environmentalMonitor 4 } emIdent OBJECT IDENTIFIER ::= { external 1 } emConfig OBJECT IDENTIFIER ::= { external 2 } emStatus OBJECT IDENTIFIER ::= { external 3 } iemIdent OBJECT IDENTIFIER ::= { integrated 1 } iemConfig OBJECT IDENTIFIER ::= { integrated 2 } iemStatus OBJECT IDENTIFIER ::= { integrated 3 } emsIdent OBJECT IDENTIFIER ::= { envMgtSystem 1 } emsOutputRelayControl OBJECT IDENTIFIER ::= { envMgtSystem 2 } emsOutletControl OBJECT IDENTIFIER ::= { envMgtSystem 3 } emsSensorControl OBJECT IDENTIFIER ::= { envMgtSystem 4 } emsAlarmDeviceControl OBJECT IDENTIFIER ::= { envMgtSystem 5 } emsConfig OBJECT IDENTIFIER ::= { envMgtSystem 6 } emsProbeConfig OBJECT IDENTIFIER ::= { envMgtSystem 7 } emsInputContactConfig OBJECT IDENTIFIER ::= { envMgtSystem 8 } emsOutputRelayConfig OBJECT IDENTIFIER ::= { envMgtSystem 9 } emsOutletConfig OBJECT IDENTIFIER ::= { envMgtSystem 10 } emsSensorConfig OBJECT IDENTIFIER ::= { envMgtSystem 11 } emsStatus OBJECT IDENTIFIER ::= { envMgtSystem 12 } emsProbeStatus OBJECT IDENTIFIER ::= { envMgtSystem 13 } emsInputContactStatus OBJECT IDENTIFIER ::= { envMgtSystem 14 } emsOutputRelayStatus OBJECT IDENTIFIER ::= { envMgtSystem 15 } emsOutletStatus OBJECT IDENTIFIER ::= { envMgtSystem 16 } emsAlarmDeviceStatus OBJECT IDENTIFIER ::= { envMgtSystem 17 } emsSensorStatus OBJECT IDENTIFIER ::= { envMgtSystem 18 } memModules OBJECT IDENTIFIER ::= { modEnvMgr 1 } memSensors OBJECT IDENTIFIER ::= { modEnvMgr 2 } memInputs OBJECT IDENTIFIER ::= { modEnvMgr 3 } memOutputs OBJECT IDENTIFIER ::= { modEnvMgr 4 } memOutlets OBJECT IDENTIFIER ::= { modEnvMgr 5 } memBeacons OBJECT IDENTIFIER ::= { modEnvMgr 6 } nlIdent OBJECT IDENTIFIER ::= { netlock 1 } nlStatus OBJECT IDENTIFIER ::= { netlock 2 } airFM OBJECT IDENTIFIER ::= { airConditioners 1 } airFMIdent OBJECT IDENTIFIER ::= { airFM 1 } airFMStatus OBJECT IDENTIFIER ::= { airFM 2 } airFMGroup OBJECT IDENTIFIER ::= { airFM 3 } airFMSystem OBJECT IDENTIFIER ::= { airFM 4 } airFMModule OBJECT IDENTIFIER ::= { airFM 5 } airFMAlarms OBJECT IDENTIFIER ::= { airFM 6 } airFMGroupSysRoles OBJECT IDENTIFIER ::= { airFMGroup 4 } airFMGroupCfg OBJECT IDENTIFIER ::= { airFMGroup 5 } airFMGroupLoadShare OBJECT IDENTIFIER ::= { airFMGroup 6 } airFMGroupFailover OBJECT IDENTIFIER ::= { airFMGroup 7 } airFMGroupFailoverSys OBJECT IDENTIFIER ::= { airFMGroupFailover 1 } airFMGroupFailoverMod OBJECT IDENTIFIER ::= { airFMGroupFailover 2 } airFMSysStatus OBJECT IDENTIFIER ::= { airFMSystem 1 } airFMSysDemands OBJECT IDENTIFIER ::= { airFMSystem 2 } airFMSysSetup OBJECT IDENTIFIER ::= { airFMSystem 3 } airFMSysConfig OBJECT IDENTIFIER ::= { airFMSystem 4 } airFMSysCooling OBJECT IDENTIFIER ::= { airFMSystem 5 } airFMSysHumidify OBJECT IDENTIFIER ::= { airFMSystem 6 } airFMSysDehumidify OBJECT IDENTIFIER ::= { airFMSystem 7 } airFMSysReheat OBJECT IDENTIFIER ::= { airFMSystem 8 } airFMSysThresholds OBJECT IDENTIFIER ::= { airFMSystem 9 } airFMSysInputs OBJECT IDENTIFIER ::= { airFMSystem 10 } airFMSysOutputs OBJECT IDENTIFIER ::= { airFMSystem 11 } airFMSysAlarmMap OBJECT IDENTIFIER ::= { airFMSystem 12 } airFMSysAlarmMapSys OBJECT IDENTIFIER ::= { airFMSysAlarmMap 1 } airFMSysAlarmMapMainMod OBJECT IDENTIFIER ::= { airFMSysAlarmMap 2 } airFMSysAlarmMapExpMod1 OBJECT IDENTIFIER ::= { airFMSysAlarmMap 3 } airFMSysAlarmMapExpMod2 OBJECT IDENTIFIER ::= { airFMSysAlarmMap 4 } airFMSysAlarmMapInput OBJECT IDENTIFIER ::= { airFMSysAlarmMap 5 } airFMSysAlarmMapOutput OBJECT IDENTIFIER ::= { airFMSysAlarmMap 6 } airFMModIdent OBJECT IDENTIFIER ::= { airFMModule 1 } airFMModStatus OBJECT IDENTIFIER ::= { airFMModule 2 } airFMModProperties OBJECT IDENTIFIER ::= { airFMModule 3 } airFMModCooling OBJECT IDENTIFIER ::= { airFMModule 4 } airFMModHumidity OBJECT IDENTIFIER ::= { airFMModule 5 } airFMModBlower1 OBJECT IDENTIFIER ::= { airFMModule 6 } airFMModBlower2 OBJECT IDENTIFIER ::= { airFMModule 7 } airFMModRunHours OBJECT IDENTIFIER ::= { airFMModule 8 } airFMModServIntervals OBJECT IDENTIFIER ::= { airFMModule 9 } airFMModServIntResets OBJECT IDENTIFIER ::= { airFMModule 10 } airPA OBJECT IDENTIFIER ::= { airConditioners 2 } airPAIdent OBJECT IDENTIFIER ::= { airPA 1 } airPAStatus OBJECT IDENTIFIER ::= { airPA 2 } airIR OBJECT IDENTIFIER ::= { airConditioners 3 } airIRAlarms OBJECT IDENTIFIER ::= { airIR 1 } airIRRC OBJECT IDENTIFIER ::= { airIR 2 } airIRRP OBJECT IDENTIFIER ::= { airIR 3 } airIRSC OBJECT IDENTIFIER ::= { airIR 4 } airIRRCGroup OBJECT IDENTIFIER ::= { airIRRC 1 } airIRRCUnit OBJECT IDENTIFIER ::= { airIRRC 2 } airIRRCGroupStatus OBJECT IDENTIFIER ::= { airIRRCGroup 1 } airIRRCGroupSetpoints OBJECT IDENTIFIER ::= { airIRRCGroup 2 } airIRRCGroupConfig OBJECT IDENTIFIER ::= { airIRRCGroup 3 } airIRRCUnitIdent OBJECT IDENTIFIER ::= { airIRRCUnit 1 } airIRRCUnitStatus OBJECT IDENTIFIER ::= { airIRRCUnit 2 } airIRRCUnitRunHours OBJECT IDENTIFIER ::= { airIRRCUnit 3 } airIRRCUnitServiceIntervals OBJECT IDENTIFIER ::= { airIRRCUnit 4 } airIRRCUnitThresholds OBJECT IDENTIFIER ::= { airIRRCUnit 5 } airIRRCUnitConfig OBJECT IDENTIFIER ::= { airIRRCUnit 6 } -- Series 100 DX Air Conditioners airIRRP100 OBJECT IDENTIFIER ::= { airIRRP 1 } -- Series 500 CW Air Conditioners airIRRP500 OBJECT IDENTIFIER ::= { airIRRP 2 } airIRRP100Group OBJECT IDENTIFIER ::= { airIRRP100 1 } airIRRP100Unit OBJECT IDENTIFIER ::= { airIRRP100 2 } airIRRP100GroupStatus OBJECT IDENTIFIER ::= { airIRRP100Group 1 } airIRRP100GroupSetpoints OBJECT IDENTIFIER ::= { airIRRP100Group 2 } airIRRP100GroupConfig OBJECT IDENTIFIER ::= { airIRRP100Group 3 } airIRRP100UnitIdent OBJECT IDENTIFIER ::= { airIRRP100Unit 1 } airIRRP100UnitStatus OBJECT IDENTIFIER ::= { airIRRP100Unit 2 } airIRRP100UnitRunHours OBJECT IDENTIFIER ::= { airIRRP100Unit 3 } airIRRP100UnitServiceIntervals OBJECT IDENTIFIER ::= { airIRRP100Unit 4 } airIRRP100UnitThresholds OBJECT IDENTIFIER ::= { airIRRP100Unit 5 } airIRRP100UnitConfig OBJECT IDENTIFIER ::= { airIRRP100Unit 6 } airIRRP500Group OBJECT IDENTIFIER ::= { airIRRP500 1 } airIRRP500Unit OBJECT IDENTIFIER ::= { airIRRP500 2 } airIRRP500GroupStatus OBJECT IDENTIFIER ::= { airIRRP500Group 1 } airIRRP500GroupSetpoints OBJECT IDENTIFIER ::= { airIRRP500Group 2 } airIRRP500GroupConfig OBJECT IDENTIFIER ::= { airIRRP500Group 3 } airIRRP500UnitIdent OBJECT IDENTIFIER ::= { airIRRP500Unit 1 } airIRRP500UnitStatus OBJECT IDENTIFIER ::= { airIRRP500Unit 2 } airIRRP500UnitRunHours OBJECT IDENTIFIER ::= { airIRRP500Unit 3 } airIRRP500UnitServiceIntervals OBJECT IDENTIFIER ::= { airIRRP500Unit 4 } airIRRP500UnitThresholds OBJECT IDENTIFIER ::= { airIRRP500Unit 5 } airIRRP500UnitConfig OBJECT IDENTIFIER ::= { airIRRP500Unit 6 } airIRSCUnit OBJECT IDENTIFIER ::= { airIRSC 1 } airIRSCUnitIdent OBJECT IDENTIFIER ::= { airIRSCUnit 1 } airIRSCUnitStatus OBJECT IDENTIFIER ::= { airIRSCUnit 2 } airIRSCUnitRunHours OBJECT IDENTIFIER ::= { airIRSCUnit 3 } airIRSCUnitServiceIntervals OBJECT IDENTIFIER ::= { airIRSCUnit 4 } airIRSCUnitThresholds OBJECT IDENTIFIER ::= { airIRSCUnit 5 } airIRSCUnitSetpoints OBJECT IDENTIFIER ::= { airIRSCUnit 6 } airIRSCUnitConfig OBJECT IDENTIFIER ::= { airIRSCUnit 7 } airIRSCGroup OBJECT IDENTIFIER ::= { airIRSC 2 } airIRSCGroupStatus OBJECT IDENTIFIER ::= { airIRSCGroup 1 } airIRSCGroupSetpoints OBJECT IDENTIFIER ::= { airIRSCGroup 2 } airIRSCGroupConfig OBJECT IDENTIFIER ::= { airIRSCGroup 3 } airIRGen2 OBJECT IDENTIFIER ::= { airConditioners 4 } airIRG2Ident OBJECT IDENTIFIER ::= { airIRGen2 1 } airIRG2Group OBJECT IDENTIFIER ::= { airIRGen2 2 } airIRG2Alarms OBJECT IDENTIFIER ::= { airIRGen2 3 } airIRG2RC OBJECT IDENTIFIER ::= { airIRGen2 4 } airIRG2RD OBJECT IDENTIFIER ::= { airIRGen2 5 } airIRG2SC OBJECT IDENTIFIER ::= { airIRGen2 6 } airIRG2RA OBJECT IDENTIFIER ::= { airIRGen2 7 } -- airIR Gen2 Group data airIRG2GroupStatus OBJECT IDENTIFIER ::= { airIRG2Group 1 } airIRG2GroupSetpoints OBJECT IDENTIFIER ::= { airIRG2Group 2 } airIRG2GroupConfig OBJECT IDENTIFIER ::= { airIRG2Group 3 } -- airIR Gen2 RD Unit data airIRG2RDType1 OBJECT IDENTIFIER ::= { airIRG2RD 1 } airIRG2RDType2 OBJECT IDENTIFIER ::= { airIRG2RD 2 } airIRG2RDT2Status OBJECT IDENTIFIER ::= { airIRG2RDType2 1 } airIRG2RDT2RunHours OBJECT IDENTIFIER ::= { airIRG2RDType2 2 } airIRG2RDT2ServiceIntervals OBJECT IDENTIFIER ::= { airIRG2RDType2 3 } airIRG2RDT2Thresholds OBJECT IDENTIFIER ::= { airIRG2RDType2 4 } airIRG2RDT2Setpoints OBJECT IDENTIFIER ::= { airIRG2RDType2 5 } airIRG2RDT2Config OBJECT IDENTIFIER ::= { airIRG2RDType2 6 } airInRoom OBJECT IDENTIFIER ::= { airConditioners 5 } airIRmIdent OBJECT IDENTIFIER ::= { airInRoom 1 } airIRmAlarms OBJECT IDENTIFIER ::= { airInRoom 2 } airIRmPerimeter OBJECT IDENTIFIER ::= { airInRoom 3 } airIRmPmCommon1 OBJECT IDENTIFIER ::= { airIRmPerimeter 2 } airIRmPmCommon2 OBJECT IDENTIFIER ::= { airIRmPerimeter 3 } airIRmPmCommon3 OBJECT IDENTIFIER ::= { airIRmPerimeter 4 } airIRmPmCommon4 OBJECT IDENTIFIER ::= { airIRmPerimeter 5 } airIRmPmCommon5 OBJECT IDENTIFIER ::= { airIRmPerimeter 6 } airIRmPmCompressor1 OBJECT IDENTIFIER ::= { airIRmPerimeter 7 } airIRmPmCompressor2 OBJECT IDENTIFIER ::= { airIRmPerimeter 8 } airIRmPmSuctionValve1 OBJECT IDENTIFIER ::= { airIRmPerimeter 9 } airIRmPmSuctionValve2 OBJECT IDENTIFIER ::= { airIRmPerimeter 10 } airIRmPmEheating1 OBJECT IDENTIFIER ::= { airIRmPerimeter 11 } airIRmPmEheating2 OBJECT IDENTIFIER ::= { airIRmPerimeter 12 } airIRmPmEheating3 OBJECT IDENTIFIER ::= { airIRmPerimeter 13 } airIRmPmEheating4 OBJECT IDENTIFIER ::= { airIRmPerimeter 14 } airIRmPmGECWvalve OBJECT IDENTIFIER ::= { airIRmPerimeter 15 } airIRmPmGvalve OBJECT IDENTIFIER ::= { airIRmPerimeter 16 } airIRmPmDrycooler1 OBJECT IDENTIFIER ::= { airIRmPerimeter 17 } airIRmPmDrycooler2 OBJECT IDENTIFIER ::= { airIRmPerimeter 18 } airIRmPmDrycooler3 OBJECT IDENTIFIER ::= { airIRmPerimeter 19 } airIRmPmDrycooler4 OBJECT IDENTIFIER ::= { airIRmPerimeter 20 } airIRmPmPump1 OBJECT IDENTIFIER ::= { airIRmPerimeter 21 } airIRmPmPump2 OBJECT IDENTIFIER ::= { airIRmPerimeter 22 } airIRmPmPump3 OBJECT IDENTIFIER ::= { airIRmPerimeter 23 } airIRmPmPump4 OBJECT IDENTIFIER ::= { airIRmPerimeter 24 } airIRmPmHotgasHeating OBJECT IDENTIFIER ::= { airIRmPerimeter 25 } airIRmPmPWWHeating OBJECT IDENTIFIER ::= { airIRmPerimeter 26 } airIRmPmHumidifier1 OBJECT IDENTIFIER ::= { airIRmPerimeter 27 } airIRmPmHumidifier2 OBJECT IDENTIFIER ::= { airIRmPerimeter 28 } -- Skipping 29 and 30. airIRmPmDehumidification OBJECT IDENTIFIER ::= { airIRmPerimeter 31 } airIRmPmFan1 OBJECT IDENTIFIER ::= { airIRmPerimeter 32 } airIRmPmFan2 OBJECT IDENTIFIER ::= { airIRmPerimeter 33 } airIRmPmFan3 OBJECT IDENTIFIER ::= { airIRmPerimeter 34 } airIRmPmLouver1 OBJECT IDENTIFIER ::= { airIRmPerimeter 35 } airIRmPmLouver2 OBJECT IDENTIFIER ::= { airIRmPerimeter 36 } airIRmPmLouver3 OBJECT IDENTIFIER ::= { airIRmPerimeter 37 } airIRmPmAuxAlarm1 OBJECT IDENTIFIER ::= { airIRmPerimeter 38 } airIRmPmAuxAlarm2 OBJECT IDENTIFIER ::= { airIRmPerimeter 39 } airIRmPmAuxAlarm3 OBJECT IDENTIFIER ::= { airIRmPerimeter 40 } airIRmPmAuxAlarm4 OBJECT IDENTIFIER ::= { airIRmPerimeter 41 } airIRmPmAuxAlarm5 OBJECT IDENTIFIER ::= { airIRmPerimeter 42 } airIRmPmAlarmBits OBJECT IDENTIFIER ::= { airIRmPerimeter 43 } airIRmPmMyZone OBJECT IDENTIFIER ::= { airIRmPerimeter 44 } airIRmPmGlobalZoneData OBJECT IDENTIFIER ::= { airIRmPerimeter 45 } airIRGen3 OBJECT IDENTIFIER ::= { airConditioners 6 } airIRG3Ident OBJECT IDENTIFIER ::= { airIRGen3 1 } airIRG3Group OBJECT IDENTIFIER ::= { airIRGen3 2 } airIRG3Alarms OBJECT IDENTIFIER ::= { airIRGen3 3 } airIRG3RDU OBJECT IDENTIFIER ::= { airIRGen3 4 } airIRG3CM OBJECT IDENTIFIER ::= { airIRGen3 5 } rARUIdent OBJECT IDENTIFIER ::= { rARU 1 } rARUConfig OBJECT IDENTIFIER ::= { rARU 2 } rARUStatus OBJECT IDENTIFIER ::= { rARU 3 } rARUFanStatus OBJECT IDENTIFIER ::= { rARU 4 } rARUPower OBJECT IDENTIFIER ::= { rARU 5 } rARUSensors OBJECT IDENTIFIER ::= { rARU 6 } accessPX OBJECT IDENTIFIER ::= { accessControl 1 } accessPXIdent OBJECT IDENTIFIER ::= { accessPX 1 } accessPXConfig OBJECT IDENTIFIER ::= { accessPX 2 } accessPXConfigFront OBJECT IDENTIFIER ::= { accessPX 3 } accessPXStatusFront OBJECT IDENTIFIER ::= { accessPX 4 } accessPXConfigRear OBJECT IDENTIFIER ::= { accessPX 5 } accessPXStatusRear OBJECT IDENTIFIER ::= { accessPX 6 } accessPXConfigBeacon OBJECT IDENTIFIER ::= { accessPX 7 } accessPXStatusBeacon OBJECT IDENTIFIER ::= { accessPX 8 } apcLocalDisplayIdent OBJECT IDENTIFIER ::= { apcLocalDisplay 1 } apcLocalDisplayConfig OBJECT IDENTIFIER ::= { apcLocalDisplay 2 } accPX OBJECT IDENTIFIER ::= { accControl 1 } isxModularPduIdent OBJECT IDENTIFIER ::= { isxModularPdu 1 } isxModularPduDevice OBJECT IDENTIFIER ::= { isxModularPdu 2 } isxModularPduStatus OBJECT IDENTIFIER ::= { isxModularPdu 3 } symmetraPx48kVA OBJECT IDENTIFIER ::= { symmetraPX 1 } symmetraPx160kVA OBJECT IDENTIFIER ::= { symmetraPX 2 } symmetraPx250kVA OBJECT IDENTIFIER ::= { symmetraPX 3 } symmetraPx500kVA OBJECT IDENTIFIER ::= { symmetraPX 4 } symmetraPx100kVA OBJECT IDENTIFIER ::= { symmetraPX 5 } symmetraPxDisplay OBJECT IDENTIFIER ::= { symmetraPX 6 } isx24ModuleHalfRackPdu OBJECT IDENTIFIER ::= { isxModDistribution 1 } isx6ModuleRackPdu OBJECT IDENTIFIER ::= { isxModDistribution 2 } isxModularDistInfo OBJECT IDENTIFIER ::= { isxModularDistribution 1 } isxModularDistModules OBJECT IDENTIFIER ::= { isxModularDistribution 2 } isxModularDistSubFeeds OBJECT IDENTIFIER ::= { isxModularDistribution 3 } isxModularDistTotals OBJECT IDENTIFIER ::= { isxModularDistribution 4 } isxModularDistSysVoltage OBJECT IDENTIFIER ::= { isxModularDistTotals 1 } isxModularDistSysCurrent OBJECT IDENTIFIER ::= { isxModularDistTotals 2 } isxModularDistSysPower OBJECT IDENTIFIER ::= { isxModularDistTotals 3 } isxcBasic OBJECT IDENTIFIER ::= { isxServers 1 } isxcStandard OBJECT IDENTIFIER ::= { isxServers 2 } isxcEnterprise OBJECT IDENTIFIER ::= { isxServers 3 } isxcVirtual OBJECT IDENTIFIER ::= { isxServers 4 } uioSensor OBJECT IDENTIFIER ::= { universalInputOutput 1 } uioInputContact OBJECT IDENTIFIER ::= { universalInputOutput 2 } uioOutputRelay OBJECT IDENTIFIER ::= { universalInputOutput 3 } -- object types -- the products group -- the experimental group -- the apcmgmt group -- the mconfig group mconfigNumTrapReceivers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of managers to send traps to." ::= { mconfig 1 } mconfigTrapReceiverTable OBJECT-TYPE SYNTAX SEQUENCE OF MconfigTrapReceiverEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of managers to send traps to. The number of entries is given by the value of mconfigNumTrapReceivers. Maximum number of Trap Receivers is four." ::= { mconfig 2 } mconfigTrapReceiverEntry OBJECT-TYPE SYNTAX MconfigTrapReceiverEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The managers to send traps to." INDEX { trapIndex} ::= { mconfigTrapReceiverTable 1 } MconfigTrapReceiverEntry ::= SEQUENCE { trapIndex INTEGER, receiverAddr IpAddress, communityString DisplayString, severity INTEGER, acceptThisReceiver INTEGER, receiveTrapType INTEGER } trapIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to a trap receiver entry." ::= { mconfigTrapReceiverEntry 1 } receiverAddr OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of the manager to send a trap to." ::= { mconfigTrapReceiverEntry 2 } communityString OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The community name to use in the trap when sent to the manager." ::= { mconfigTrapReceiverEntry 3 } severity OBJECT-TYPE SYNTAX INTEGER { information(1), warning(2), severe(3) } ACCESS read-only STATUS obsolete DESCRIPTION "The severity threshold of traps to send to the manager. traps are labeled in severity as informational(1), warning(2), severe(3). Only traps of equal or greater severity than this value are sent to the manager." ::= { mconfigTrapReceiverEntry 4 } acceptThisReceiver OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The value of yes(1) indicates that trap generation for this manager is enabled. The value of no(2) indicates that trap generation for this manager is disabled" ::= { mconfigTrapReceiverEntry 5 } receiveTrapType OBJECT-TYPE SYNTAX INTEGER { powernet (1), ietf (2), both (3) } ACCESS read-only STATUS obsolete DESCRIPTION "Type of trap." ::= { mconfigTrapReceiverEntry 6 } mconfigBOOTPEnabled OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The value of yes(1) indicates the PowerNet Adapter is configured to obtain its IP configuration parameters from a BOOTP server. The value of no(2) indicates adapter will assume IP configuration parameters values saved in adapter's eeprom, which was originally configured at local console." ::= { mconfig 3 } mconfigTFTPServerIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of TFTP server. If mconfigBOOTPEnabled is yes(1), then this IP address is provided by BOOTP server and not allowed to be modified; otherwise, this IP address can be modified. Before using TFTP to load new code image, the image file should be placed in proper directory of the specified TFTP server. This OID is only supported by APC Network Management Cards." ::= { mconfig 4 } newCodeAuthentViaTFTP OBJECT-TYPE SYNTAX INTEGER { unknown (1), validNewAgentCodeImage (2), sameAgentCodeImage (3), invalidAgentCodeImage (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Once mcontrolRestartAgent is set to loadAndExecuteNewAgent (3), PowerNet adapter will start to load the remote image file, for authentication only, instead of saving the code into flash memory. Only if a validNewAgentCodeImage (1) is found will the agent reboot the PowerNet adapter and invoke the loader to load and save new code into the flash memory. Otherwise, the current agent code will continue to run. This OID shows the result of the above authentication process. validNewAgentCodeImage (1) means the code image on TFTP server is a valid APC agent code and is different version from the current agent. Once agent identifies this, loader will start to update flash memory with the new agent code. sameAgentCodeImage (2) means the code image on TFTP server is exactly the same as the currently running agent. Currently running agent will not invoke loader to load the same again. invalidAgentCodeImage (3) means the code image on TFTP server is NOT a valid APC agent code. Thus, current agent will not load it into the flash memory. The value of this OID will be associated with TRAP codeImageAuthentDone. This OID is only supported by APC Network Management Cards." ::= { mconfig 5 } mconfigClockDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The current date in the mm/dd/yyyy format. Example: 01/01/2000." ::= { mconfigClock 1 } mconfigClockTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The current time in the hh:mm:ss am/pm format. Example: 12:00:00 am." ::= { mconfigClock 2 } mcontrolRestartAgent OBJECT-TYPE SYNTAX INTEGER { restartCurrentAgent (1), continueCurrentAgent (2), loadAndExecuteNewAgent (3), restartWithoutAgent (4), resetNetworkAndRestart (5), resetNetworkLeaveModeAndRestart (6) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to restartCurrentAgent (1) will restart the same SNMP agent code currently saved in flash memory. Setting this OID to loadAndExecuteNewAgent (3) will enable adapter to load a new agent code into the flash memory and start to execute this new agent code. Bootp/tftp is the default protocol. loadAndExecuteNewAgent is only supported by APC Network Management Cards. Setting this OID to restartWithoutAgent (4) will restart the system and not start the agent. The subsequent time the system restarts the agent will also automatically restart. Setting this OID to resetNetworkAndRestart (5) will set the Boot Mode, IP Address, Subnet Mask, and Default Gateway to defaults, expire any existing DHCP lease and then restart the system. Setting this OID to resetNetworkLeaveModeAndRestart (6) will leave the Boot Mode at the current setting, set the IP Address, Subnet Mask, and Default Gateway to defaults, expire any existing DHCP lease and then restart the system." ::= { mcontrol 1 } -- The mtrapargs group -- These OIDs allows APC traps to be sent with additional arguments -- which may not be defined in the APC MIB. mtrapargsInteger OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 1 } mtrapargsIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an IP address argument that my not be defined in the APC MIB. A get of this OID will return 0.0.0.0." ::= { mtrapargs 2 } mtrapargsString OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 3 } mtrapargsGauge OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a Gauge argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 4 } mtrapargsTimeTicks OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a TimeTicks argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 5 } mtrapargsInteger02 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 6 } mtrapargsInteger03 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 7 } mtrapargsIpAddress02 OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an IP address argument that my not be defined in the APC MIB. A get of this OID will return 0.0.0.0." ::= { mtrapargs 8 } mtrapargsIpAddress03 OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an IP address argument that my not be defined in the APC MIB. A get of this OID will return 0.0.0.0." ::= { mtrapargs 9 } mtrapargsString02 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 10 } mtrapargsString03 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 11 } mtrapargsGauge02 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a Gauge argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 12 } mtrapargsGauge03 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a Gauge argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 13 } mtrapargsTimeTicks02 OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a TimeTicks argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 14 } mtrapargsTimeTicks03 OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a TimeTicks argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 15 } mtrapargsString04 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 16 } mtrapargsString05 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 17 } mtrapargsInteger04 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 18 } mtrapargsInteger05 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 19 } mtrapargsString06 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 20 } mtrapargsString07 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 21 } mtrapargsString08 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 22 } mtrapargsOctetString OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 23 } mtrapargsOctetString02 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 24 } mtrapargsOctetString03 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 25 } mtrapargsOctetString04 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 26 } mtrapargsOctetString05 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 27 } mtrapargsOctetString06 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 28 } mtrapargsOctetString07 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 29 } mtrapargsOctetString08 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 30 } -- the mfiletransfer group -- the mfiletransferStatus group mfiletransferStatusLastTransferResult OBJECT-TYPE SYNTAX INTEGER { lastFileTransferResultSuccessful (1), lastFileTransferResultNotAvailable (2), lastFileTransferResultFailureUnknown (3), lastFileTransferResultFailureServerInaccessible (4), lastFileTransferResultFailureServerAccessDenied (5), lastFileTransferResultFailureFileNotFound (6), lastFileTransferResultFailureFileTypeUnknown (7), lastFileTransferResultFailureFileCorrupted (8) } ACCESS read-only STATUS deprecated DESCRIPTION "This OID has been deprecated. Once mfiletransferControlInitiateFileTransfer is set to a value other than doNotInitiateFileTransfer a file transfer of mfiletransferConfigSettingsFilename will be attempted from either a TFTP or FTP server. This OID shows the last attempted file transfer result. lastFileTransferResultSuccessful (1) means the file transfer was successful. lastFileTransferResultNotAvailable (2) means that there have been no previous file transfers. lastFileTransferResultFailureUnknown (3) means that the last file transfer failed for an unknown reason. lastFileTransferResultFailureServerInaccessible (4) means that the TFTP or FTP server could not be found on the network. lastFileTransferResultFailureServerAccessDenied (5) means that the TFTP or FTP server denied access. lastFileTransferResultFailureFileNotFound (6) means that the file could not be located. lastFileTransferResultFailureFileTypeUnknown (7) means the file was examined, but the contents were unknown. lastFileTransferResultFailureFileCorrupt (8) means the transferred file was corrupt." ::= { mfiletransferStatus 1 } -- the mfiletransferConfig group -- the mfiletransferConfigSettings group mfiletransferConfigSettingsFilename OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated. The path and name of the file to transfer using the mfiletransferControlInitiateFileTransfer OID. If the file to transfer exists in the default server directory then the path may be omitted." ::= { mfiletransferConfigSettings 1 } -- the mfiletransferConfigTFTP group mfiletransferConfigTFTPServerAddress OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated. The IP Address in dotted decimal notation of the TFTP server involved in the file transfer." ::= { mfiletransferConfigTFTP 1 } -- the mfiletransferConfigFTP group mfiletransferConfigFTPServerAddress OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated. The IP Address in dotted decimal notation of the FTP server involved in the file transfer." ::= { mfiletransferConfigFTP 1 } mfiletransferConfigFTPServerUser OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated. The user identification for logging into the FTP server specified with mfiletransferConfigFTPServerAddress." ::= { mfiletransferConfigFTP 2 } mfiletransferConfigFTPServerPassword OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated. The password for logging into the FTP server specified with mfiletransferConfigFTPServerAddress." ::= { mfiletransferConfigFTP 3 } -- the mfiletransferControl group mfiletransferControlInitiateFileTransfer OBJECT-TYPE SYNTAX INTEGER { doNotInitiateFileTransfer (1), initiateFileTransferDownloadViaTFTP (2), initiateFileTransferDownloadViaFTP (3) } ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated. Setting this OID to doNotInitiateFileTransfer (1) will do nothing. Setting this OID to initiateFileTransferDownloadViaTFTP (2) will attempt to transfer the file named in mfiletransferConfigSettingsFilename from the TFTP Server identified in mfiletransferConfigTFTPAddress. Setting this OID to initiateFileTransferDownloadViaFTP (3) will attempt to transfer the file named in mfiletransferConfigSettingsFilename from the FTP Server identified in mfiletransferConfigFTPAddress using mfiletransferConfigFTPUser and mfiletransferConfigFTPPassword for the FTP Server login process." ::= { mfiletransferControl 1 } -- the battManIdent group battManIdentProductName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the battery manager." ::= { battManIdent 1 } battManIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager network interface hardware revision. This value is set at the factory." ::= { battManIdent 2 } battManIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager network interface firmware revision. This value is set at the factory and can change with firmware update." ::= { battManIdent 3 } battManIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date the battery manager was manufactured in mm/dd/yyyy format. This value is set at the factory." ::= { battManIdent 4 } battManIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager model number character string. This value is set at the factory." ::= { battManIdent 5 } battManIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager serial number character string. This value is set at the factory." ::= { battManIdent 6 } -- the battManCalib group -- system calibration battManOhmicValueCorrectionFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The system ohmic value correction factor in percent." ::= { battManSystemCalib 1 } -- unit calibration battManUnitCalibTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManUnitCalibTable." ::= { battManUnitCalib 1 } battManUnitCalibTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManUnitCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting calibration information from each unit in the system." ::= { battManUnitCalib 2 } battManUnitCalibEntry OBJECT-TYPE SYNTAX BattManUnitCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { battManUnitCalibIndex } ::= { battManUnitCalibTable 1 } BattManUnitCalibEntry ::= SEQUENCE { battManUnitCalibIndex INTEGER, battManUnitSerialNumber DisplayString, battManBatteryVoltageZeroCalib INTEGER, battManBatteryVoltageSpanCalib INTEGER } battManUnitCalibIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of unit calibration entries in the table." ::= { battManUnitCalibEntry 1 } battManUnitSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the unit." ::= { battManUnitCalibEntry 2 } battManBatteryVoltageZeroCalib OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The unit battery voltage zero calibration in millivolts." ::= { battManUnitCalibEntry 3 } battManBatteryVoltageSpanCalib OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The unit battery voltage span calibration in percent." ::= { battManUnitCalibEntry 4 } -- string calibration table battManStringCalibTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManStringCalibTable." ::= { battManStringCalib 1 } battManStringCalibTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManStringCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting calibration information from each string in the system." ::= { battManStringCalib 2 } battManStringCalibEntry OBJECT-TYPE SYNTAX BattManStringCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManStringCalibIndex } ::= { battManStringCalibTable 1 } BattManStringCalibEntry ::= SEQUENCE { battManStringCalibIndex INTEGER, battManDCCurrentZeroCalib INTEGER, battManACCurrentZeroCalib INTEGER, battManProbeRange INTEGER } battManStringCalibIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of string calibration entries in the table." ::= { battManStringCalibEntry 1 } battManDCCurrentZeroCalib OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The string DC current zero calibration in tenths of amps." ::= { battManStringCalibEntry 2 } battManACCurrentZeroCalib OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The string AC current zero calibration in tenths of amps." ::= { battManStringCalibEntry 3 } battManProbeRange OBJECT-TYPE SYNTAX INTEGER { amps1000 (1), amps500 (2), amps100 (3), amps200 (4), amps2000 (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The string probe range in amps." ::= { battManStringCalibEntry 4 } --string 1 battery calibration table battManString1BatteryCalibTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString1BatteryCalibTable." ::= { battManBatteryCalib 1 } battManString1BatteryCalibTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString1BatteryCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting calibration information from each battery in String 1." ::= { battManBatteryCalib 2 } battManString1BatteryCalibEntry OBJECT-TYPE SYNTAX BattManString1BatteryCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString1BatteryCalibIndex } ::= { battManString1BatteryCalibTable 1 } BattManString1BatteryCalibEntry ::= SEQUENCE { battManString1BatteryCalibIndex INTEGER, battManString1BatteryInterTierOhmicValue INTEGER } battManString1BatteryCalibIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of battery calibration entries in the table." ::= { battManString1BatteryCalibEntry 1 } battManString1BatteryInterTierOhmicValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The battery inter-tier ohmic value in ohms. This corresponds to the ohmic value for the positive terminal of the battery." ::= { battManString1BatteryCalibEntry 2 } --string 2 battery calibration table battManString2BatteryCalibTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString2BatteryCalibTable." ::= { battManBatteryCalib 3 } battManString2BatteryCalibTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString2BatteryCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting calibration information from each battery in String 2." ::= { battManBatteryCalib 4 } battManString2BatteryCalibEntry OBJECT-TYPE SYNTAX BattManString2BatteryCalibEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString2BatteryCalibIndex } ::= { battManString2BatteryCalibTable 1 } BattManString2BatteryCalibEntry ::= SEQUENCE { battManString2BatteryCalibIndex INTEGER, battManString2BatteryInterTierOhmicValue INTEGER } battManString2BatteryCalibIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of battery calibration entries in the table." ::= { battManString2BatteryCalibEntry 1 } battManString2BatteryInterTierOhmicValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The battery inter-tier ohmic value in ohms." ::= { battManString2BatteryCalibEntry 2 } -- the battManConfig group battManConfigApplication OBJECT-TYPE SYNTAX INTEGER { silcon (1), other (2) } ACCESS read-write STATUS deprecated DESCRIPTION "This OID has been deprecated." ::= { battManConfig 1 } battManConfigBatteryChemistry OBJECT-TYPE SYNTAX INTEGER { leadAcid (1), nickel-Cadmium (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The battery chemistry of the monitored batteries: LeadAcid(1) Lead Acid or Nickel-Cadmium(2) Nickel-Cadmium." ::= { battManConfig 2 } battManConfigBatteryAHCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amp hour capacity of the monitored batteries 5-2000 AH." ::= { battManConfig 3 } battManConfigNumberofStrings OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of strings in the battery manager system." ::= { battManConfig 4 } battManConfigBatteriesperString OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of batteries per string." ::= { battManConfig 5 } battManConfigCellsperBattery OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cells per battery (1 - 6 for lead-acid, 1 - 2 for NiCd." ::= { battManConfig 6 } battManConfigMinCellVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum battery cell voltage alarm limit in millivolts DC." ::= { battManConfig 7 } battManConfigMaxCellVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum battery cell voltage alarm limit in millivolts DC." ::= { battManConfig 8 } battManConfigMaxPilotTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum pilot battery temperature alarm limit in tenths of degrees Fahrenheit." ::= { battManConfig 9 } battManConfigMaxPilotTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum pilot battery temperature alarm limit in tenths of degrees Celsius." ::= { battManConfig 10 } battManConfigMaxAmbientTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum ambient temperature alarm limit in tenths of degrees Fahrenheit." ::= { battManConfig 11 } battManConfigMaxAmbientTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum ambient temperature alarm limit in tenths of degrees Celsius." ::= { battManConfig 12 } battManConfigMinAmbientTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Minimum Ambient Temperature alarm limit in tenths of degrees Fahrenheit." ::= { battManConfig 13 } battManConfigMinAmbientTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Minimum Ambient Temperature alarm limit in tenths of degrees Celsius." ::= { battManConfig 14 } battManConfigMaxRippleCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum ripple current alarm limit for the monitored battery strings in percent of AH capacity." ::= { battManConfig 15 } battManConfigMaxCurrentAcceptanceDeviation OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum current acceptance deviation alarm limit in percent." ::= { battManConfig 16 } battManConfigMonitorWireLength OBJECT-TYPE SYNTAX INTEGER { fiftyFeetOrLess (1), moreThanFiftyFeet (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The monitor wire length: fiftyFeetOrLess (1) indicates that the wire length is less than or equal to 50 feet. moreThanFiftyFeet (2) indicates that the wire length is greater than 50 feet." ::= { battManConfig 17 } battManConfigDischargeVoltageAlarmLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The discharge voltage alarm level in percent." ::= { battManConfig 18 } battManConfigAutoAnnunciatorReset OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The annunciator output signal reset method: disabled(1) means the annunciator signal output will be reset when the reset button is pressed. enabled(2) means the annunciator will stop signaling when all alarm conditions clear." ::= { battManConfig 19 } battManConfigSuspendCellVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This is used along with the number of cells per battery and the number of batteries per string to determine if a battery string has violated the low voltage limit. If so, the Battery Management System will enter suspend mode. Measured in millivolts DC" ::= { battManConfig 20 } battManConfigOhmicTestWaitTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time in seconds after a discharge event before data will be collected for the ohmic value calculation." ::= { battManConfig 21 } battManConfigNumberOfBoosts OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of consecutive times the Battery Management System applies a charge to each battery during a boost cycle. Batteries with a Rated Battery AH Capacity less than or equal to 120 AH will always have a value of one for Number of Boosts." ::= { battManConfig 22 } -- the battManAlarm group battManAlarmManagementController OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Management Controller Alarm is : normal(1) no alarm conditions identified alarm(2) an alarm condition exists." ::= { battManAlarm 1 } battManAlarmBatteries OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Batteries Alarm is : normal(1) no alarm conditions identified alarm(2) an alarm condition exists." ::= { battManAlarm 2 } battManAlarmCharger OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Charger Alarm is : normal(1) no alarm conditions identified alarm(2) an alarm condition exists." ::= { battManAlarm 3 } battManAlarmEnvironment OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Environment Alarm is : normal(1) no alarm conditions identified alarm(2) an alarm condition exists." ::= { battManAlarm 4 } -- the battManSystemStatus group -- These are system wide parameters battManSystemAmbientTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system ambient temperature in tenths of degrees Celsius." ::= { battManSystemStatus 1 } battManSystemAmbientTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system ambient temperature in tenths of degrees Fahrenheit." ::= { battManSystemStatus 2 } battManSystemPilotTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system pilot temperature in tenths of degrees Celsius." ::= { battManSystemStatus 3 } battManSystemPilotTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system pilot temperature in tenths of degrees Fahrenheit." ::= { battManSystemStatus 4 } battManSystemAmbientHighTempAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system has a high temperature alarm." ::= { battManSystemStatus 5 } battManSystemAmbientLowTempAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system has a low temperature alarm." ::= { battManSystemStatus 6 } battManSystemPilotBatteryHighTempAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system has a pilot battery high temperature alarm." ::= { battManSystemStatus 7 } battManSystemPilotProbeDisconnected OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system pilot probe is disconnected." ::= { battManSystemStatus 8 } battManSystemAmbientProbeDisconnected OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system ambient probe is disconnected." ::= { battManSystemStatus 9 } battManSystemConfigurationInvalid OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system is not configured correctly." ::= { battManSystemStatus 10 } battManSystemSuspendVoltage OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the system has suspended voltage scans." ::= { battManSystemStatus 11 } -- This is a table of input contact parameters battManInputContactTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManInputContactTable." ::= { battManInputContactStatus 1 } battManInputContactTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManInputContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each contact in the system. " ::= { battManInputContactStatus 2 } battManInputContactEntry OBJECT-TYPE SYNTAX BattManInputContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The contact to get data from." INDEX { battManInputContactIndex } ::= { battManInputContactTable 1 } BattManInputContactEntry ::= SEQUENCE { battManInputContactIndex INTEGER, battManInputContactName DisplayString, battManInputContactAlarmState INTEGER, battManInputContactState INTEGER, battManInputContactNormalState INTEGER, battManInputContactAlarmDelay INTEGER } battManInputContactIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of contact entries in the table." ::= { battManInputContactEntry 1 } battManInputContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the input contact." ::= { battManInputContactEntry 2 } battManInputContactAlarmState OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the alarm condition is active for this contact." ::= { battManInputContactEntry 3 } battManInputContactState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to open(1), the input contact is in the open state. When set to closed(2), the input contact is in the closed state." ::= { battManInputContactEntry 4 } battManInputContactNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "When set to open(1), the input contact is normally open. When set to closed(2), the input contact is normally closed." ::= { battManInputContactEntry 5 } battManInputContactAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The input contact alarm delay time in seconds." ::= { battManInputContactEntry 6 } -- This is a table of battery string parameters battManStringTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManStringTable." ::= { battManStringStatus 1 } battManStringTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManStringEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each string in the system. " ::= { battManStringStatus 2 } battManStringEntry OBJECT-TYPE SYNTAX BattManStringEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManStringIndex } ::= { battManStringTable 1 } BattManStringEntry ::= SEQUENCE { battManStringIndex INTEGER, battManStringCurrent INTEGER, battManStringRippleCurrent INTEGER, battManStringChargerHighVoltageAlarm INTEGER, battManStringChargerLowVoltageAlarm INTEGER, battManStringCurrentProbeDisconnected INTEGER, battManStringOnBattery INTEGER, battManStringHighRippleCurrent INTEGER, battManStringVoltage INTEGER, battManStringDischargeLess5Seconds INTEGER, battManStringDischarge5to10Seconds INTEGER, battManStringDischarge10to60Seconds INTEGER, battManStringDischargeMore60Seconds INTEGER } battManStringIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of string entries in the table." ::= { battManStringEntry 1 } battManStringCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The string current in tenths of amps." ::= { battManStringEntry 2 } battManStringRippleCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The string ripple current in tenths of amps." ::= { battManStringEntry 3 } battManStringChargerHighVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the string charger has a high voltage alarm." ::= { battManStringEntry 4 } battManStringChargerLowVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the string charger has a low voltage alarm." ::= { battManStringEntry 5 } battManStringCurrentProbeDisconnected OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the string charger probe is disconnected." ::= { battManStringEntry 6 } battManStringOnBattery OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the string is in the on-battery state." ::= { battManStringEntry 7 } battManStringHighRippleCurrent OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that the string has a high ripple current." ::= { battManStringEntry 8 } battManStringVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The sum of the voltages for all of the batteries on a string in millivolts DC." ::= { battManStringEntry 9 } battManStringDischargeLess5Seconds OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of recorded discharges lasting less than 5 seconds." ::= { battManStringEntry 10 } battManStringDischarge5to10Seconds OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of recorded discharges lasting between 5 and 10 seconds." ::= { battManStringEntry 11 } battManStringDischarge10to60Seconds OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of recorded discharges lasting between 10 and 60 seconds." ::= { battManStringEntry 12 } battManStringDischargeMore60Seconds OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of recorded discharges lasting more than 60 seconds (1 minute)." ::= { battManStringEntry 13 } -- the battManString1BatteryStatus group battManString1BatteryTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString1BatteryTable." ::= { battManBatteryStatus 1 } battManString1BatteryTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString1BatteryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each string in the system. " ::= { battManBatteryStatus 2 } battManString1BatteryEntry OBJECT-TYPE SYNTAX BattManString1BatteryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString1BatteryIndex } ::= { battManString1BatteryTable 1 } BattManString1BatteryEntry ::= SEQUENCE { battManString1BatteryIndex INTEGER, battManString1BatteryVoltage INTEGER, battManString1BatteryLowestVoltage INTEGER, battManString1BatteryCellShorted INTEGER, battManString1BatteryOpenFuseOrConnection INTEGER, battManString1BatteryLowCapacity INTEGER, battManString1BatteryHighOhmicValue INTEGER, battManString1BatteryThermalRunaway INTEGER, battManString1BatteryDryout INTEGER, battManString1BatteryUserHighVoltageAlarm INTEGER, battManString1BatteryUserLowVoltageAlarm INTEGER, battManString1BatteryChemHighVoltageAlarm INTEGER, battManString1BatteryChemLowVoltageAlarm INTEGER, battManString1BatteryOpenCell INTEGER } battManString1BatteryIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of string entries in the table." ::= { battManString1BatteryEntry 1 } battManString1BatteryVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery voltage in millivolts DC." ::= { battManString1BatteryEntry 2 } battManString1BatteryLowestVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The lowest battery discharge voltage during the last power event in millivolts DC." ::= { battManString1BatteryEntry 3 } battManString1BatteryCellShorted OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that a battery cell is shorted." ::= { battManString1BatteryEntry 4 } battManString1BatteryOpenFuseOrConnection OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that a fuse or connection is open." ::= { battManString1BatteryEntry 5 } battManString1BatteryLowCapacity OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has low capacity." ::= { battManString1BatteryEntry 6 } battManString1BatteryHighOhmicValue OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has a high ohmic value." ::= { battManString1BatteryEntry 7 } battManString1BatteryThermalRunaway OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has a thermal runaway condition." ::= { battManString1BatteryEntry 8 } battManString1BatteryDryout OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has a dryout condition." ::= { battManString1BatteryEntry 9 } battManString1BatteryUserHighVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the user level high voltage limit." ::= { battManString1BatteryEntry 10 } battManString1BatteryUserLowVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the user level low voltage limit." ::= { battManString1BatteryEntry 11 } battManString1BatteryChemHighVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the chemistry level high voltage limit." ::= { battManString1BatteryEntry 12 } battManString1BatteryChemLowVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the chemistry level low voltage limit." ::= { battManString1BatteryEntry 13 } battManString1BatteryOpenCell OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates the battery has an open cell or an inter-connection is abnormal." ::= { battManString1BatteryEntry 14 } -- the battManString2BatteryStatus group battManString2BatteryTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString2BatteryTable." ::= { battManBatteryStatus 3 } battManString2BatteryTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString2BatteryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each string in the system. " ::= { battManBatteryStatus 4 } battManString2BatteryEntry OBJECT-TYPE SYNTAX BattManString2BatteryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString2BatteryIndex } ::= { battManString2BatteryTable 1 } BattManString2BatteryEntry ::= SEQUENCE { battManString2BatteryIndex INTEGER, battManString2BatteryVoltage INTEGER, battManString2BatteryLowestVoltage INTEGER, battManString2BatteryCellShorted INTEGER, battManString2BatteryOpenFuseOrConnection INTEGER, battManString2BatteryLowCapacity INTEGER, battManString2BatteryHighOhmicValue INTEGER, battManString2BatteryThermalRunaway INTEGER, battManString2BatteryDryout INTEGER, battManString2BatteryUserHighVoltageAlarm INTEGER, battManString2BatteryUserLowVoltageAlarm INTEGER, battManString2BatteryChemHighVoltageAlarm INTEGER, battManString2BatteryChemLowVoltageAlarm INTEGER, battManString2BatteryOpenCell INTEGER } battManString2BatteryIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of string entries in the table." ::= { battManString2BatteryEntry 1 } battManString2BatteryVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery voltage in millivolts DC." ::= { battManString2BatteryEntry 2 } battManString2BatteryLowestVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The lowest battery discharge voltage during the last power event in millivolts DC." ::= { battManString2BatteryEntry 3 } battManString2BatteryCellShorted OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that a battery cell is shorted." ::= { battManString2BatteryEntry 4 } battManString2BatteryOpenFuseOrConnection OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates that a fuse or connection is open." ::= { battManString2BatteryEntry 5 } battManString2BatteryLowCapacity OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has low capacity." ::= { battManString2BatteryEntry 6 } battManString2BatteryHighOhmicValue OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has a high ohmic value." ::= { battManString2BatteryEntry 7 } battManString2BatteryThermalRunaway OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has a thermal runaway condition." ::= { battManString2BatteryEntry 8 } battManString2BatteryDryout OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has a dryout condition." ::= { battManString2BatteryEntry 9 } battManString2BatteryUserHighVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the user level high voltage limit." ::= { battManString2BatteryEntry 10 } battManString2BatteryUserLowVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the user level low voltage limit." ::= { battManString2BatteryEntry 11 } battManString2BatteryChemHighVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the chemistry level high voltage limit." ::= { battManString2BatteryEntry 12 } battManString2BatteryChemLowVoltageAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates a battery has violated the chemistry level low voltage limit." ::= { battManString2BatteryEntry 13 } battManString2BatteryOpenCell OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates the battery has an open cell or an inter-connection is abnormal." ::= { battManString2BatteryEntry 14 } -- battery manager control group battManRemoteAnnunciatorReset OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset the user interface annunciator. Getting this OID will do nothing and return the noOperation(1) value." ::= { battManControl 1 } battManResetChargeCurrentDeviationBenchmark OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset the charge current deviation benchmark. Getting this OID will do nothing and return the noOperation(1) value." ::= { battManControl 2 } battManResetLowestDischargeVoltages OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset the lowest discharge voltages. Getting this OID will do nothing and return the noOperation(1) value." ::= { battManControl 3 } battManResetDischargeCounters OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset all discharge event counters. Getting this OID will do nothing and return the noOperation(1) value." ::= { battManControl 4 } -- the battManTestResults group --string 1 test results table battManString1OhmicValueLastDischargeInfo OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Informational text showing the date/time, load, and pilot temperature for the string during the last discharge when ohmic values were recorded." ::= { battManTestResults 1 } battManString1OhmicValueTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString1OhmicValueTable." ::= { battManTestResults 2 } battManString1OhmicValueTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString1OhmicValueEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting ohmic value information from each battery in String 1." ::= { battManTestResults 3 } battManString1OhmicValueEntry OBJECT-TYPE SYNTAX BattManString1OhmicValueEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString1OhmicValueIndex } ::= { battManString1OhmicValueTable 1 } BattManString1OhmicValueEntry ::= SEQUENCE { battManString1OhmicValueIndex INTEGER, battManString1OhmicValueData INTEGER } battManString1OhmicValueIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery number." ::= { battManString1OhmicValueEntry 1 } battManString1OhmicValueData OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery inter-tier ohmic value in ohms. Note: Zero or negative values are invalid and may indicate faulty calibration of ohmic value correction factors." ::= { battManString1OhmicValueEntry 2 } battManString1ResponseTestChangeTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString1ResponseTestChangeTable." ::= { battManTestResults 4 } battManString1ResponseTestChangeTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString1ResponseTestChangeEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting response test change information from each battery in String 1." ::= { battManTestResults 5 } battManString1ResponseTestChangeEntry OBJECT-TYPE SYNTAX BattManString1ResponseTestChangeEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString1ResponseTestChangeIndex } ::= { battManString1ResponseTestChangeTable 1 } BattManString1ResponseTestChangeEntry ::= SEQUENCE { battManString1ResponseTestChangeIndex INTEGER, battManString1ResponseTestChangeData INTEGER } battManString1ResponseTestChangeIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of the entries in the table." ::= { battManString1ResponseTestChangeEntry 1 } battManString1ResponseTestChangeData OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery response test change in percent." ::= { battManString1ResponseTestChangeEntry 2 } battManString2OhmicValueLastDischargeInfo OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Informational text showing the date/time, load, and pilot temperature for the string during the last discharge when ohmic values were recorded." ::= { battManTestResults 6 } battManString2OhmicValueTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString2OhmicValueTable." ::= { battManTestResults 7 } battManString2OhmicValueTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString2OhmicValueEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting ohmic value information from each battery in String 2." ::= { battManTestResults 8 } battManString2OhmicValueEntry OBJECT-TYPE SYNTAX BattManString2OhmicValueEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString2OhmicValueIndex } ::= { battManString2OhmicValueTable 1 } BattManString2OhmicValueEntry ::= SEQUENCE { battManString2OhmicValueIndex INTEGER, battManString2OhmicValueData INTEGER } battManString2OhmicValueIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of battery calibration entries in the table." ::= { battManString2OhmicValueEntry 1 } battManString2OhmicValueData OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery inter-tier ohmic value in ohms. Note: Zero or negative values are invalid and may indicate faulty calibration of ohmic value correction factors." ::= { battManString2OhmicValueEntry 2 } battManString2ResponseTestChangeTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManString2ResponseTestChangeTable." ::= { battManTestResults 9 } battManString2ResponseTestChangeTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManString2ResponseTestChangeEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting response test change information from each battery in String 2." ::= { battManTestResults 10 } battManString2ResponseTestChangeEntry OBJECT-TYPE SYNTAX BattManString2ResponseTestChangeEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The string to get data from." INDEX { battManString2ResponseTestChangeIndex } ::= { battManString2ResponseTestChangeTable 1 } BattManString2ResponseTestChangeEntry ::= SEQUENCE { battManString2ResponseTestChangeIndex INTEGER, battManString2ResponseTestChangeData INTEGER } battManString2ResponseTestChangeIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of the entries in the table." ::= { battManString2ResponseTestChangeEntry 1 } battManString2ResponseTestChangeData OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery response test change in percent." ::= { battManString2ResponseTestChangeEntry 2 } -- battManUnitStatus battManUnitStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the battManUnitStatusTable." ::= { battManUnitStatus 1 } battManUnitStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF BattManUnitStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting status information from each unit in the system." ::= { battManUnitStatus 2 } battManUnitStatusEntry OBJECT-TYPE SYNTAX BattManUnitStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { battManUnitStatusIndex } ::= { battManUnitStatusTable 1 } BattManUnitStatusEntry ::= SEQUENCE { battManUnitStatusIndex INTEGER, battManUnitStatusSerialNumber DisplayString, battManUnitHardwareRev INTEGER, battManUnitFirmwareRev INTEGER, battManUnitCommLoss INTEGER, battManUnitRelayStuck INTEGER } battManUnitStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of unit status entries in the table." ::= { battManUnitStatusEntry 1 } battManUnitStatusSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager unit serial number character string. This value is set at the factory." ::= { battManUnitStatusEntry 2 } battManUnitHardwareRev OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager unit hardware revision. This value is set at the factory." ::= { battManUnitStatusEntry 3 } battManUnitFirmwareRev OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery manager unit firmware revision. This value is set at the factory and can change with firmware update." ::= { battManUnitStatusEntry 4 } battManUnitCommLoss OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates the system has lost communication with the unit." ::= { battManUnitStatusEntry 5 } battManUnitRelayStuck OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "When set to alarm(2), indicates the unit monitor relay is stuck." ::= { battManUnitStatusEntry 6 } -- the xPDUIdent group xPDUIdentProductName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the PDU." ::= { xPDUIdent 1 } xPDUIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the PDU. This value is set at the factory." ::= { xPDUIdent 2 } xPDUIdentFirmwareAppRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application firmware revision of the PDU." ::= { xPDUIdent 3 } xPDUIdentFirmwareAppOSRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application operating system firmware revision of the PDU." ::= { xPDUIdent 4 } xPDUIdentFirmwareControllerRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the PDU controller firmware revision." ::= { xPDUIdent 5 } xPDUIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the PDU was manufactured in mm/dd/yyyy format. This value is set at the factory." ::= { xPDUIdent 6 } xPDUIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number of the PDU. This value is set at the factory." ::= { xPDUIdent 7 } xPDUIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the PDU. This value is set at the factory." ::= { xPDUIdent 8 } -- the xPDUDevice group xPDUDeviceNominalMainInputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal main input voltage to the PDU. Measured in Volts, line-to-line for a 3-wire (delta) service or line-to-neutral for a 4-wire (wye) service." ::= { xPDUDevice 1 } xPDUDeviceServiceType OBJECT-TYPE SYNTAX INTEGER { threeWire (1), fourWire (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of utility input to the PDU. Either 3 wires (delta), or 4 wires (wye)." ::= { xPDUDevice 2 } xPDUDeviceNominalOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal line-to-neutral output voltage to the load measured in Volts." ::= { xPDUDevice 3 } xPDUDeviceMainInputBreakerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The rating of the main input breaker measured in Amps." ::= { xPDUDevice 4 } xPDUDevicePanelBreakerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The rating of the panel breaker measured in Amps." ::= { xPDUDevice 5 } xPDUDeviceTransformerPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not a transformer is installed in the PDU." ::= { xPDUDevice 6 } xPDUDeviceLoadTieBreakerPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not a load tie breaker is installed in the PDU." ::= { xPDUDevice 7 } xPDUDeviceLoadTestPortPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not a load test port is installed in the PDU." ::= { xPDUDevice 8 } xPDUDeviceFusesPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the UPS feed from the PDU includes fuses." ::= { xPDUDevice 9 } xPDUDeviceFansPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not cooling fans are installed in the PDU." ::= { xPDUDevice 10 } xPDUDeviceBypassInputPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the PDU is equipped with a second feed for the UPS's bypass input." ::= { xPDUDevice 11 } xPDUDeviceCrossTieOutputPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the PDU is equipped with a cross-tie output." ::= { xPDUDevice 12 } xPDUDeviceEarthGroundMonitorPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the PDU can provide ground current measurements." ::= { xPDUDevice 13 } xPDUDeviceInfraStruXureType OBJECT-TYPE SYNTAX INTEGER { typeB (1), typeC (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the configuration of this PDU system. Type-B PDU is in a distributed UPS system and has bypass capabilities. Type-C PDU receives power from a larger central UPS." ::= { xPDUDevice 14 } -- Main Input xPDUMainInputOverVoltThreshold OBJECT-TYPE SYNTAX INTEGER (0..30) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which an input over voltage condition will be generated. Specified as percent deviation from nominal." ::= { xPDUMainInput 1 } xPDUMainInputUnderVoltThreshold OBJECT-TYPE SYNTAX INTEGER (0..30) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which an input under voltage condition will be generated. Specified as percent deviation from nominal. A value of zero indicates that the threshold is disabled." ::= { xPDUMainInput 2 } -- Main Input Voltage Table xPDUMainInputVoltageTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Main input voltage entries." ::= { xPDUMainInput 3 } xPDUMainInputVoltagePhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUMainInputVoltagePhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input voltage table entries. The number of entries are the phase entries. The number of entries is contained in the xPDUMainInputVoltageTableSize OID." ::= { xPDUMainInput 4 } xPDUMainInputVoltagePhaseEntry OBJECT-TYPE SYNTAX XPDUMainInputVoltagePhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular main input voltage phase." INDEX { xPDUMainInputVoltagePhaseIndex } ::= { xPDUMainInputVoltagePhaseTable 1 } XPDUMainInputVoltagePhaseEntry ::= SEQUENCE { xPDUMainInputVoltagePhaseIndex INTEGER, xPDUMainInputVoltageLtoL INTEGER, xPDUMainInputVoltageLtoN INTEGER } xPDUMainInputVoltagePhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each input phase entry in the table." ::= { xPDUMainInputVoltagePhaseEntry 1 } xPDUMainInputVoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-line PDU input voltage when an isolation transformer is present, or -1 if no transformer present in this PDU. Measured in tenths of Volts." ::= { xPDUMainInputVoltagePhaseEntry 2 } xPDUMainInputVoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-neutral PDU input voltage when an isolation transformer is not present, or -1 if a transformer is present in this PDU. Measured in tenths of Volts." ::= { xPDUMainInputVoltagePhaseEntry 3 } xPDUBypassInputOverVoltThreshold OBJECT-TYPE SYNTAX INTEGER (0..30) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which a bypass input over voltage condition will be generated. Specified as percent deviation from nominal." ::= { xPDUBypassInput 1 } xPDUBypassInputUnderVoltThreshold OBJECT-TYPE SYNTAX INTEGER (0..30) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which an bypass input under voltage condition will be generated. Specified as percent deviation from nominal. A value of zero indicates that the threshold is disabled." ::= { xPDUBypassInput 2 } -- Bypass Input Voltage Table xPDUBypassInputVoltagePhaseTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of bypass input voltage entries." ::= { xPDUBypassInput 3 } xPDUBypassInputVoltagePhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUBypassInputVoltagePhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries are the phase entries. The number of entries is contained in the xPDUBypassInputVoltagePhaseTableSize OID." ::= { xPDUBypassInput 4 } xPDUBypassInputVoltagePhaseEntry OBJECT-TYPE SYNTAX XPDUBypassInputVoltagePhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular bypass input voltage phase." INDEX { xPDUBypassInputVoltagePhaseIndex } ::= { xPDUBypassInputVoltagePhaseTable 1 } XPDUBypassInputVoltagePhaseEntry ::= SEQUENCE { xPDUBypassInputVoltagePhaseIndex INTEGER, xPDUBypassInputVoltageLtoL INTEGER, xPDUBypassInputVoltageLtoN INTEGER } xPDUBypassInputVoltagePhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Index of each bypass input phase entry in the table." ::= { xPDUBypassInputVoltagePhaseEntry 1 } xPDUBypassInputVoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-line bypass input voltage, or -1 if no bypass feed is present in this PDU. Measured in tenths of Volts." ::= { xPDUBypassInputVoltagePhaseEntry 2 } xPDUBypassInputVoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-neutral bypass input voltage, or -1 if no bypass feed is present in this PDU. Measured in tenths of Volts." ::= { xPDUBypassInputVoltagePhaseEntry 3 } -- UPS Input Table xPDUUPSInputVoltagePhaseTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of UPS input voltage entries." ::= { xPDUUPSInput 1 } xPDUUPSInputVoltagePhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUUPSInputVoltagePhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of UPS input table entries. The number of entries are the phase entries. The number of entries is contained in the xPDUUPSInputVoltagePhaseTableSize OID." ::= { xPDUUPSInput 2 } xPDUUPSInputVoltagePhaseEntry OBJECT-TYPE SYNTAX XPDUUPSInputVoltagePhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular UPS input voltage phase." INDEX { xPDUUPSInputVoltagePhaseIndex } ::= { xPDUUPSInputVoltagePhaseTable 1 } XPDUUPSInputVoltagePhaseEntry ::= SEQUENCE { xPDUUPSInputVoltagePhaseIndex INTEGER, xPDUUPSInputVoltageLtoNPresent INTEGER } xPDUUPSInputVoltagePhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each UPS input phase entry in the table." ::= { xPDUUPSInputVoltagePhaseEntry 1 } xPDUUPSInputVoltageLtoNPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not voltage is present at the UPS feed." ::= { xPDUUPSInputVoltagePhaseEntry 2 } -- System Output xPDUSystemOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system output frequency in tenths of Hertz." ::= { xPDUSystemOutput 1 } xPDUSystemOutputNeutralCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows the neutral current measured at the system output in tenths of Amps." ::= { xPDUSystemOutput 2 } xPDUSystemOutputTotalPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows the total system output power in tenths of kW." ::= { xPDUSystemOutput 3 } xPDUSystemOutputTotalApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows the total system output power in tenths of kVA." ::= { xPDUSystemOutput 4 } xPDUSystemOutputTotalPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the total power factor of the system output. A value of 100 representing a unity power factor (1.00). Measured in hundredths." ::= { xPDUSystemOutput 5 } xPDUSystemOutputFrequencyTolerance OBJECT-TYPE SYNTAX INTEGER{ freqToleranceOff (1), freqTolerancePointTwo (2), freqTolerancePointFive (3), freqToleranceOne (4), freqToleranceOnePointFive (5), freqToleranceTwo (6), freqToleranceThree (7), freqToleranceFour (8), freqToleranceFive (9), freqToleranceNine (10) } ACCESS read-write STATUS mandatory DESCRIPTION "Shows the circuit panel output frequency tolerance in Hertz." ::= { xPDUSystemOutput 6 } xPDUSystemOutputMaxKWPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Defines 100% load in kW. Purpose is to set to match UPS capabilities." ::= { xPDUSystemOutput 7 } xPDUSystemOutputOverVoltThreshold OBJECT-TYPE SYNTAX INTEGER (0..30) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which an output over voltage condition will be generated. Specified as percent deviation from nominal." ::= { xPDUSystemOutput 8 } xPDUSystemOutputUnderVoltThreshold OBJECT-TYPE SYNTAX INTEGER (0..30) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which an output under voltage condition will be generated. Specified as percent deviation from nominal. A value of zero indicates that the threshold is disabled." ::= { xPDUSystemOutput 9 } xPDUSystemOutputOverCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which an over current condition will be generated. Specified as a percent of the panel breaker rating. A value of zero indicates that the threshold is disabled." ::= { xPDUSystemOutput 10 } xPDUSystemOutputOverCurrentNeutralThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which an Over current neutral condition will be generated. Specified as a percent of the panel breaker rating. A value of zero indicates that the threshold is disabled." ::= { xPDUSystemOutput 11 } xPDUSystemOutputUnderCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which an under current condition will be generated. Specified as a percent of the panel breaker rating. A value of zero indicates that the threshold is disabled." ::= { xPDUSystemOutput 12 } xPDUSystemOutputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of System Output phase entries." ::= { xPDUSystemOutput 13 } xPDUSystemOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUSystemOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of system output table entries. The number of entries is contained in the xPDUSystemOutputTableSize OID." ::= { xPDUSystemOutput 14 } xPDUSystemOutputPhaseEntry OBJECT-TYPE SYNTAX XPDUSystemOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular system output phase." INDEX { xPDUSystemOutputPhaseIndex } ::= { xPDUSystemOutputPhaseTable 1 } XPDUSystemOutputPhaseEntry ::= SEQUENCE { xPDUSystemOutputPhaseIndex INTEGER, xPDUSystemOutputVoltageLtoL INTEGER, xPDUSystemOutputVoltageLtoN INTEGER, xPDUSystemOutputPhaseCurrent INTEGER, xPDUSystemOutputPower INTEGER, xPDUSystemOutputApparentPower INTEGER, xPDUSystemOutputPowerFactor INTEGER } xPDUSystemOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each output phase entry in the table." ::= { xPDUSystemOutputPhaseEntry 1 } xPDUSystemOutputVoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-line system output voltage available at the circuit panel. Measured in tenths of Volts." ::= { xPDUSystemOutputPhaseEntry 2 } xPDUSystemOutputVoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-neutral system output voltage available at the circuit panel. Measured in tenths of Volts." ::= { xPDUSystemOutputPhaseEntry 3 } xPDUSystemOutputPhaseCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System load current per phase. Measured in tenths of Amps." ::= { xPDUSystemOutputPhaseEntry 4 } xPDUSystemOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System output power per phase. Measured in tenths of kW." ::= { xPDUSystemOutputPhaseEntry 5 } xPDUSystemOutputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System output power per phase. Measured in tenths of kVA." ::= { xPDUSystemOutputPhaseEntry 6 } xPDUSystemOutputPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the Power Factor of the system output per phase. A value of 100 representing a unity Power Factor (1.00). Measured in hundredths." ::= { xPDUSystemOutputPhaseEntry 7 } xPDUGroundCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows the current measured in the earth ground conductor. Measured in tenths of Amps, or -1 if not available." ::= { xPDUGroundMonitorPoint 1 } xPDUGroundCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..50) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which a ground current over current condition will be generated. Specified in tenths of Amps." ::= { xPDUGroundMonitorPoint 2 } -- System Breakers xPDUSystemBreakerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of system breaker entries." ::= { xPDUSystemBreakers 1 } xPDUSystemBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUSystemBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of system breaker entries. The number of entries is contained in the xPDUSystemBreakerTableSize OID." ::= { xPDUSystemBreakers 2 } xPDUSystemBreakerEntry OBJECT-TYPE SYNTAX XPDUSystemBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular system breaker." INDEX { xPDUSystemBreakerTableIndex } ::= { xPDUSystemBreakerTable 1 } XPDUSystemBreakerEntry ::= SEQUENCE { xPDUSystemBreakerTableIndex INTEGER, xPDUSystemBreakerDescription DisplayString, xPDUSystemBreakerPosition INTEGER } xPDUSystemBreakerTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of system breaker entries in the table." ::= { xPDUSystemBreakerEntry 1 } xPDUSystemBreakerDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..79)) ACCESS read-only STATUS mandatory DESCRIPTION "A brief description of the system breakers." ::= { xPDUSystemBreakerEntry 2 } xPDUSystemBreakerPosition OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether this breaker is open(1) or closed(2)." ::= { xPDUSystemBreakerEntry 3 } -- Branch Breakers (Breaker Panel) xPDUNumOfBranchBreakers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of branch breakers (panel positions) in the Panel. returns 42 for a 1-panel or 84 for a 2-panel system." ::= { xPDUBranchBreakers 1 } -- Branch Breakers Table xPDUBranchBreakerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of branch breaker entries determined by the xPDUNumOfBranchBreakers OID." ::= { xPDUBranchBreakers 2 } xPDUBranchBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUBranchBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of branch breaker table entries. The number of entries is given by the value of xPDUBranchBreakerTableSize The number of entries is contained in the xPDUBranchBreakerTableSize OID." ::= { xPDUBranchBreakers 3 } xPDUBranchBreakerEntry OBJECT-TYPE SYNTAX XPDUBranchBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular branch breaker (panel position)." INDEX { xPDUBranchBreakerTableIndex } ::= { xPDUBranchBreakerTable 1 } XPDUBranchBreakerEntry ::= SEQUENCE { xPDUBranchBreakerTableIndex INTEGER, xPDUBranchBreakerRating INTEGER, xPDUBranchBreakerRDPFeed INTEGER, xPDUBranchBreakerTieIndicator INTEGER, xPDUBranchBreakerCurrent INTEGER, xPDUBranchBreakerOverCurrentThreshold INTEGER, xPDUBranchBreakerUnderCurrentThreshold INTEGER, xPDUBranchBreakerMaxCurrentThreshold INTEGER, xPDUBranchBreakerMinCurrentThreshold INTEGER, xPDUBranchBreakerName DisplayString, xPDUBranchBreakerLocation DisplayString } xPDUBranchBreakerTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of branch breaker entries in the table." ::= { xPDUBranchBreakerEntry 1 } xPDUBranchBreakerRating OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Indicates current rating of this breaker. 0=Breaker is not present. 1=Earth leakage connection. 2=Neutral connection. A value greater than 2 indicates breaker current rating in Amps. A value above 60 Amp will signify a remote feed. The xPDUBranchBreakerRDPFeed OID will indicate which breakers are configured as a remote drop. Note: When setting branch circuit thresholds/ratings for an entry, all positions tied (see the xPDUBranchBreakerTieIndicator OID) to this entry will inherit the new threshold/rating." ::= { xPDUBranchBreakerEntry 2 } xPDUBranchBreakerRDPFeed OBJECT-TYPE SYNTAX INTEGER { remoteDistribution (1), noRemoteDistribution (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates that a breaker position is feeding a remote distribution panel." ::= { xPDUBranchBreakerEntry 3 } xPDUBranchBreakerTieIndicator OBJECT-TYPE SYNTAX INTEGER { breakerUnTied (1), breakerTied (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates whether or not the breaker in this position is logically associated with the breaker immediately below it. This setting is used grouping the breakers feeding a multi-pole branch circuit. Note: When setting an entry's branch breaker tie indicator to breakerTied, all the positions that are tied to this breaker will take on the rating and thresholds for this entry of the table." ::= { xPDUBranchBreakerEntry 4 } xPDUBranchBreakerCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the branch current in tenths of Amps or -1 when not available." ::= { xPDUBranchBreakerEntry 5 } xPDUBranchBreakerOverCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which a branch circuit high current condition will be generated. Specified as a percent of the branch breaker rating. A value of zero indicates that the threshold is disabled. Note: When setting branch circuit thresholds/ratings for an entry, all positions tied (see the xPDUBranchBreakerTieIndicator OID) to this entry will inherit the new threshold/rating." ::= { xPDUBranchBreakerEntry 6 } xPDUBranchBreakerUnderCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which a branch circuit low current condition will be generated. Specified as a percent of the branch breaker rating. A value of zero indicates that the threshold is disabled. Note: When setting branch circuit thresholds/ratings for an entry, all positions tied (see the xPDUBranchBreakerTieIndicator OID) to this entry will inherit the new threshold/rating." ::= { xPDUBranchBreakerEntry 7 } xPDUBranchBreakerMaxCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which a branch circuit maximum current condition will be generated. Specified as a percent of the branch breaker rating. A value of zero indicates that the threshold is disabled. Note: When setting branch circuit thresholds/ratings for an entry, all positions tied (see the xPDUBranchBreakerTieIndicator OID) to this entry will inherit the new threshold/rating." ::= { xPDUBranchBreakerEntry 8 } xPDUBranchBreakerMinCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which a branch circuit minimum current condition will be generated. Specified as a percent of the branch breaker rating. A value of zero indicates that the threshold is disabled. Note: When setting branch circuit thresholds/ratings for an entry, all positions tied (see the xPDUBranchBreakerTieIndicator OID) to this entry will inherit the new threshold/rating." ::= { xPDUBranchBreakerEntry 9 } xPDUBranchBreakerName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the breaker." ::= { xPDUBranchBreakerEntry 10 } xPDUBranchBreakerLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the location of the breaker." ::= { xPDUBranchBreakerEntry 11 } -- the xPDUInputContacts group xPDUInputContactNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported by the PDU." ::= { xPDUInputContacts 1 } xPDUInputContactTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input contact entries." ::= { xPDUInputContacts 2 } xPDUInputContactTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUInputContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the PDU. The number of entries is contained in the xPDUInputContactTableSize OID." ::= { xPDUInputContacts 3 } xPDUInputContactEntry OBJECT-TYPE SYNTAX XPDUInputContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A contact entry containing information for a given contact." INDEX { xPDUInputContactNumber } ::= { xPDUInputContactTable 1 } XPDUInputContactEntry ::= SEQUENCE { xPDUInputContactNumber INTEGER, xPDUInputContactName DisplayString, xPDUInputContactNormalState INTEGER, xPDUInputContactCurrentState INTEGER } xPDUInputContactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index identifying the contact on the PDU." ::= { xPDUInputContactEntry 1 } xPDUInputContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the contact." ::= { xPDUInputContactEntry 2 } xPDUInputContactNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal operating position of the contact." ::= { xPDUInputContactEntry 3 } xPDUInputContactCurrentState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This value indicates the current state of the contact." ::= { xPDUInputContactEntry 4 } -- the xPDUOutputRelays group xPDUOutputRelaysNumRelays OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output relays supported by the PDU." ::= { xPDUOutputRelays 1 } xPDUOutputRelaysTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output relay entries." ::= { xPDUOutputRelays 2 } xPDUOutputRelayTable OBJECT-TYPE SYNTAX SEQUENCE OF XPDUOutputRelayEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output relays supported by the PDU. The number of entries is contained in the xPDUOutputRelayTableSize OID." ::= { xPDUOutputRelays 3 } xPDUOutputRelayEntry OBJECT-TYPE SYNTAX XPDUOutputRelayEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A output relay entry containing information for a given contact." INDEX { xPDUOutputRelayNumber } ::= { xPDUOutputRelayTable 1 } XPDUOutputRelayEntry ::= SEQUENCE { xPDUOutputRelayNumber INTEGER, xPDUOutputRelayName DisplayString, xPDUOutputRelayNormalState INTEGER, xPDUOutputRelayCurrentState INTEGER } xPDUOutputRelayNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index identifying the output relay on the PDU." ::= { xPDUOutputRelayEntry 1 } xPDUOutputRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the output relay." ::= { xPDUOutputRelayEntry 2 } xPDUOutputRelayNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal operating position of the output relay." ::= { xPDUOutputRelayEntry 3 } xPDUOutputRelayCurrentState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This value indicates the current state of the output relay." ::= { xPDUOutputRelayEntry 4 } -- the xPDUMiscGroup xPDUEPOMode OBJECT-TYPE SYNTAX INTEGER { armed (1), disarmed (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether the EPO System is armed(1) or disarmed(2)." ::= { xPDUMiscGroup 1 } xPDUTransformTempStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), overtemp (2), noTransformerPresent (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the PDU's isolation transformer is over temperature." ::= { xPDUMiscGroup 2 } xPDUCoolingFanStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), failed (2), noCoolingFansPresent (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if one or more of the PDU's cooling fans have failed." ::= { xPDUMiscGroup 3 } -- The xATSIdent group xATSIdentProductName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the transfer switch unit." ::= { xATSIdent 1 } xATSIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the transfer switch. This value is set at the factory." ::= { xATSIdent 2 } xATSIdentFirmwareAppRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application firmware revision of the transfer switch." ::= { xATSIdent 3 } xATSIdentFirmwareAppOSRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application operating system firmware revision of the transfer switch." ::= { xATSIdent 4 } xATSIdentFirmwareControllerRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the transfer switch controller firmware revision." ::= { xATSIdent 5 } xATSIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the transfer switch was manufactured in mm/dd/yyyy format. This value is set at the factory." ::= { xATSIdent 6 } xATSIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number of the transfer switch. This value is set at the factory." ::= { xATSIdent 7 } xATSIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the transfer switch. This value is set at the factory." ::= { xATSIdent 8 } -- The xATSDevice group xATSDeviceServiceType OBJECT-TYPE SYNTAX INTEGER { threeWire (1), fourWire (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of utility input to the transfer switch. Either 3 wires (delta), or 4 wires (wye)." ::= { xATSDevice 1 } xATSDeviceNominalVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal line-to-neutral system voltage. Measured in Volts, line-to-line for a 3-wire service or line-to-neutral for a 4-wire service. -1 if not available." ::= { xATSDevice 2 } xATSDeviceNominalFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal system frequency. Measured in tenths of Hertz. -1 if not available." ::= { xATSDevice 3 } xATSDeviceTransferSwitchRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The rating of the transfer switch. Measured in Amps." ::= { xATSDevice 4 } xATSDeviceDCBackUpPresent OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates if a DC backup is present or not." ::= { xATSDevice 5 } -- The xATS Switch Status group xATSSwitchStatusSelectedSource OBJECT-TYPE SYNTAX INTEGER{ none (1), source1 (2), source2 (3), fault (4), unknown (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The source which is currently selected, i.e. supplying power to the load." ::= { xATSSwitchStatus 1 } xATSSwitchStatusOperationalMode OBJECT-TYPE SYNTAX INTEGER{ automatic (1), notInAutoAbnormal (2), notInAuto (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current operating mode of the transfer switch. When the ATS is in automatic mode, generator starting and ATS transferring is all done automatically as needed based on the state of source 1. Automatic operation is halted when the ATS is in either of the notInAuto modes. A mode of notInAuto indicates that the automatic operation switch is in the disabled position, as indicated by the xATSSwitchStatusAutomaticOperationSwitch OID. The notInAutoAbnormal condition indicates that an abnormal condition has caused the transfer switch to halt automatic operation. In this case, traps can indicate the exact problem. In the case of notInAutoAbnormal, refer to the operation manual for details on how debug the condition and restore automatic operation." ::= { xATSSwitchStatus 2 } xATSSwitchStatusAutomaticOperationSwitch OBJECT-TYPE SYNTAX INTEGER{ disabled (1), enabled (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The position of the automatic operation switch on the front of the transfer switch." ::= { xATSSwitchStatus 3 } xATSSwitchStatusEngineStartSignal OBJECT-TYPE SYNTAX INTEGER{ run (1), stop (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The position of the Start/Stop contact which signals the generator engine to start/run. When the ATS is in automatic mode, generator starting/stopping is under ATS control." ::= { xATSSwitchStatus 4 } -- The xATS Switch Setting group xATSSwitchSettingsLowVoltageTransferPoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The lowest acceptable voltage condition at source 1. When any phase of source 1 is lower than this voltage, source quality is considered bad and the generator run signal is asserted to begin generator operation. Specified in volts, line-to-line for a 3-wire service or line-to-neutral for a 4-wire service. -1 if not available." ::= { xATSSwitchSettings 1 } xATSSwitchSettingsHighVoltageTransferPoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The highest acceptable voltage condition at source 1. When any phase of source 1 is greater than this voltage, source quality is considered bad and the generator run signal is asserted to begin generator operation. Specified in volts, line-to-line for a 3-wire service or line-to-neutral for a 4-wire service. -1 if not available." ::= { xATSSwitchSettings 2 } xATSSwitchSettingsMaxFrequencyDeviation OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum acceptable frequency deviation condition from nominal at source 1. When source 1 frequency is outside the specified range, source quality is considered bad and the generator run signal is asserted to begin generator operation. Specified in tenths of Hertz above or below nominal. A value of zero indicates that frequency is ignored when determining source quality. -1 if not available." ::= { xATSSwitchSettings 3 } xATSSwitchSettingsMinPhaseBalance OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum required phase balance at source 1. When the percentage difference between the minimum and maximum phase voltage measurements at source 1 is greater than this value, source quality is considered bad and the generator run signal is asserted to begin generator operation. Specified as a percentage. A value of zero indicates that phase balance is ignored when determining source quality. -1 if not available." ::= { xATSSwitchSettings 4 } xATSSwitchSettingsNominalRotation OBJECT-TYPE SYNTAX INTEGER{ abc (1), cba (2), any (3), unknown (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The nominal phase rotation (or phase sequence) required by the load. For certain types of equipment, such as rotating machinery, phase rotation is critical for proper operation as it determines the direction which motors will rotate (clockwise or counterclockwise). Source quality will be seen as bad if the rotation measured at that ATS input does not match this setting. If this setting is set to any, phase rotation is ignored." ::= { xATSSwitchSettings 5 } xATSSwitchSettingsAllowClosedTransfer OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2), unknown (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This setting enables seamless (closed) transfers between sources. When possible, both source 1 and source 2 are closed to the output for a brief time. If closed transfer is not possible within the amount of time specified by the xATSSwitchSettingsMaxSyncTime OID, an open transfer will be executed." ::= { xATSSwitchSettings 6 } xATSSwitchSettingsMaxSyncTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When attempting/seeking to perform a closed transfer, this setting defines the maximum time allowed before the transfer switch will give up and perform an open transfer. Specified in seconds. -1 if not available." ::= { xATSSwitchSettings 7 } xATSSwitchSettingsNeutralTransferTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This setting defines how long both source 1 and source 2 will be disconnected from the output, during an open transfer. Specified in seconds. -1 if not available." ::= { xATSSwitchSettings 8 } xATSSwitchSettingsClearLatchedAlarms OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Clears any latched alarm conditions." ::= { xATSSwitchSettings 9 } xATSSwitchSettingsSetToFactoryDefaults OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Sets all transfer switch settings to factory default values." ::= { xATSSwitchSettings 10 } -- The xATSSwitchTimers group xATSSwitchTimersTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of transfer switch timer entries." ::= { xATSSwitchTimers 1 } xATSSwitchTimersTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSSwitchTimersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of timers supported by ATS. The number of entries is contained in the xATSSwitchTimersTableSize OID." ::= { xATSSwitchTimers 2 } xATSSwitchTimersEntry OBJECT-TYPE SYNTAX XATSSwitchTimersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about an individual ATS timer." INDEX { xATSSwitchTimersIndex } ::= { xATSSwitchTimersTable 1 } XATSSwitchTimersEntry ::= SEQUENCE { xATSSwitchTimersIndex INTEGER, xATSSwitchTimersName DisplayString, xATSSwitchTimersAbort INTEGER, xATSSwitchTimersStatus INTEGER, xATSSwitchTimersRemainingTime INTEGER, xATSSwitchTimersDelaySetting INTEGER } xATSSwitchTimersIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of timer entries in the table." ::= { xATSSwitchTimersEntry 1 } xATSSwitchTimersName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Name of the individual timer.Refer to ATS operation manual, or on-line help, for detailed descriptions of ATS timers." ::= { xATSSwitchTimersEntry 2 } xATSSwitchTimersAbort OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This aborts the individual timer." ::= { xATSSwitchTimersEntry 3 } xATSSwitchTimersStatus OBJECT-TYPE SYNTAX INTEGER{ inactive (1), active (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the individual timer. Designates whether this timer entry is currently running or inactive." ::= { xATSSwitchTimersEntry 4 } xATSSwitchTimersRemainingTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time remaining for this timer entry. Specified in seconds." ::= { xATSSwitchTimersEntry 5 } xATSSwitchTimersDelaySetting OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The delay settings associated with this timer entry. When this timer entry is active, the timer value must exceed this setting before the ATS behavior associated with this timer is executed. Refer to ATS operation manual, or on-line help, for detailed descriptions of ATS timers." ::= { xATSSwitchTimersEntry 6 } -- The xATSSwitchBlockMap group xATSSwitchBlockMapTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of blocking map entries, or how many ATS actions can be blocked." ::= { xATSSwitchBlockMap 1 } xATSSwitchBlockMapTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSSwitchBlockMapEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of blocking maps supported by the ATS. The number of entries is contained in the xATSSwitchBlockMapTableSize OID." ::= { xATSSwitchBlockMap 2 } xATSSwitchBlockMapEntry OBJECT-TYPE SYNTAX XATSSwitchBlockMapEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about a specific ATS blocking map." INDEX { xATSSwitchBlockMapIndex } ::= { xATSSwitchBlockMapTable 1 } XATSSwitchBlockMapEntry ::= SEQUENCE { xATSSwitchBlockMapIndex INTEGER, xATSSwitchBlockMapName DisplayString, xATSSwitchBlockMapStatus INTEGER, xATSSwitchBlockMapSetting INTEGER } xATSSwitchBlockMapIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of blocking map entries in the table." ::= { xATSSwitchBlockMapEntry 1 } xATSSwitchBlockMapName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A string describing the ATS action to be blocked." ::= { xATSSwitchBlockMapEntry 2 } xATSSwitchBlockMapStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Represents the status of this blocking map entry, in bit-mapped format. A non-zero value indicates that this entry's ATS action is currently being blocked. The bit(s) set indicate which input(s) are causing the blocking (bit0, bit1, etc). bit 0 - Contact 1 bit 1 - Contact 2 bit 2 - Contact 3 bit 3 - Contact 4." ::= { xATSSwitchBlockMapEntry 3 } xATSSwitchBlockMapSetting OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This setting designates the inputs that block the ATS action The mapping is specified as a bit-field, where each bit set indicates the input that blocks the ATS action associated with the entry. bit 0 - Contact 1 bit 1 - Contact 2 bit 2 - Contact 3 bit 3 - Contact 4." ::= { xATSSwitchBlockMapEntry 4 } -- The xATSSwitchStatistics group xATSSwitchStatisticsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of transfer switch statistics entries." ::= { xATSSwitchStatistics 1 } xATSSwitchStatisticsTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSSwitchStatisticsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of statistics supported by ATS. The number of entries is contained in the xATSSwitchStatisticsTableSize OID." ::= { xATSSwitchStatistics 2 } xATSSwitchStatisticsEntry OBJECT-TYPE SYNTAX XATSSwitchStatisticsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about an individual ATS statistic." INDEX { xATSSwitchStatisticsIndex } ::= { xATSSwitchStatisticsTable 1 } XATSSwitchStatisticsEntry ::= SEQUENCE { xATSSwitchStatisticsIndex INTEGER, xATSSwitchStatisticsName DisplayString, xATSSwitchStatisticsValue DisplayString, xATSSwitchStatisticsReset INTEGER } xATSSwitchStatisticsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of ATS statistics entries in the table." ::= { xATSSwitchStatisticsEntry 1 } xATSSwitchStatisticsName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This is the name of the ATS statistic associated with this entry." ::= { xATSSwitchStatisticsEntry 2 } xATSSwitchStatisticsValue OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This is the value of the ATS statistic associated with this entry." ::= { xATSSwitchStatisticsEntry 3 } xATSSwitchStatisticsReset OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This will reset the individual ATS statistic associated with this entry." ::= { xATSSwitchStatisticsEntry 4 } -- The xATS Source 1 group xATSSource1Name OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "String used to identify source 1." ::= { xATSSource1 1 } xATSSource1Position OBJECT-TYPE SYNTAX INTEGER{ open (1), closed (2), tripped (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current position of the switch at source 1." ::= { xATSSource1 2 } xATSSource1Frequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frequency at source 1 in tenths of Hertz. -1 if unavailable." ::= { xATSSource1 3 } xATSSource1Quality OBJECT-TYPE SYNTAX INTEGER{ sourceGood (1), lowVoltage (2), highVoltage (3), phaseImbalance (4), freqOutOfRange (5), badRotation (6), unknown (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The current line quality of source 1." ::= { xATSSource1 4 } xATSSource1Rotation OBJECT-TYPE SYNTAX INTEGER{ abc (1), cba (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase rotation measured at the source 1 input of the ATS. The sequence is a reference to the order in which the three phases pass the zero-crossing boundary in time." ::= { xATSSource1 5 } xATSSource1TableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input voltage entries at the source 1 input of the ATS." ::= { xATSSource1 6 } xATSSource1PhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSSource1PhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of voltage table entries for source 1. The number of entries are the phase entries. The number of entries is contained in the xATSSource1TableSize OID." ::= { xATSSource1 7 } xATSSource1PhaseEntry OBJECT-TYPE SYNTAX XATSSource1PhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input voltage phase at the source 1 input of the ATS." INDEX { xATSSource1Index } ::= { xATSSource1PhaseTable 1 } XATSSource1PhaseEntry ::= SEQUENCE { xATSSource1Index INTEGER, xATSSource1VoltageLtoL INTEGER, xATSSource1VoltageLtoN INTEGER } xATSSource1Index OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each phase utilized at source 1." ::= { xATSSource1PhaseEntry 1 } xATSSource1VoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Source 1 line-to-line input voltage. Measured in tenths of Volts." ::= { xATSSource1PhaseEntry 2 } xATSSource1VoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Source 1 line-to-neutral input voltage. Measured in tenths of Volts. -1 for a 3-wire service type." ::= { xATSSource1PhaseEntry 3 } -- The xATS Source 2 group xATSSource2Name OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "String used to identify source 2." ::= { xATSSource2 1 } xATSSource2Position OBJECT-TYPE SYNTAX INTEGER{ open (1), closed (2), tripped (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current position of the switch at source 2." ::= { xATSSource2 2 } xATSSource2Frequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frequency at source 2 in tenths of Hertz. -1 if not available." ::= { xATSSource2 3 } xATSSource2Quality OBJECT-TYPE SYNTAX INTEGER{ sourceGood (1), lowVoltage (2), highVoltage (3), phaseImbalance (4), freqOutOfRange (5), badRotation (6), unknown (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The current line quality of source 2." ::= { xATSSource2 4 } xATSSource2Rotation OBJECT-TYPE SYNTAX INTEGER{ abc (1), cba (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase rotation measured at the source 2 input of the ATS. -1 if not available." ::= { xATSSource2 5 } xATSSource2TableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input voltage entries at the source 2 input of the ATS." ::= { xATSSource2 6 } xATSSource2PhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSSource2PhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of voltage table entries for the source 2. The number of entries are the phase entries. The number of entries is contained in the xATSSource2TableSize OID." ::= { xATSSource2 7 } xATSSource2PhaseEntry OBJECT-TYPE SYNTAX XATSSource2PhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input voltage phase at the source 2 input of the ATS." INDEX { xATSSource2Index } ::= { xATSSource2PhaseTable 1 } XATSSource2PhaseEntry ::= SEQUENCE { xATSSource2Index INTEGER, xATSSource2VoltageLtoL INTEGER, xATSSource2VoltageLtoN INTEGER } xATSSource2Index OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each phase utilized at the source 2." ::= { xATSSource2PhaseEntry 1 } xATSSource2VoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Source 2 line-to-line input voltage. Measured in tenths of Volts." ::= { xATSSource2PhaseEntry 2 } xATSSource2VoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Source 2 line-to-neutral input voltage. Measured in tenths of Volts. -1 for a 3-wire service type." ::= { xATSSource2PhaseEntry 3 } -- The xATSSystemOutput xATSSystemOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system output frequency in tenths of Hertz." ::= { xATSSystemOutput 1 } xATSSystemOutputTotalPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows the total system output power in tenths of kW." ::= { xATSSystemOutput 2 } xATSSystemOutputTotalApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows the total system output power in tenths of kVA." ::= { xATSSystemOutput 3 } xATSSystemOutputTotalPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the total power factor of the system output. A value of 100 representing a unity power factor (1.00) Specified in hundredths." ::= { xATSSystemOutput 4 } xATSSystemOutputFrequencyTolerance OBJECT-TYPE SYNTAX INTEGER{ freqToleranceOff (1), freqTolerancePointTwo (2), freqTolerancePointFive (3), freqToleranceOne (4), freqToleranceOnePointFive (5), freqToleranceTwo (6), freqToleranceThree (7), freqToleranceFour (8), freqToleranceFive (9), freqToleranceNine (10) } ACCESS read-write STATUS mandatory DESCRIPTION "Shows the panel output frequency tolerance in +/- Hertz." ::= { xATSSystemOutput 5 } xATSSystemOutputOverVoltThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which an output over voltage condition will be generated. Specified as tenths of percent deviation from nominal. A value of zero indicates that the threshold is disabled." ::= { xATSSystemOutput 6 } xATSSystemOutputUnderVoltThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which an output under voltage condition will be generated. Specified as tenths of percent deviation from nominal. A value of zero indicates that the threshold is disabled." ::= { xATSSystemOutput 7 } xATSSystemOutputOverCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which an over current condition will be generated. Specified as a percent of the transfer switch rating (xATSDeviceTransferSwitchRating OID). A value of zero indicates that the threshold is disabled." ::= { xATSSystemOutput 8 } xATSSystemOutputUnderCurrentThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which an under current condition will be generated. Specified as a percent of the transfer switch rating (xATSDeviceTransferSwitchRating OID). A value of zero indicates that the threshold is disabled." ::= { xATSSystemOutput 9 } xATSSystemOutputAlarmDelayThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Delay the generation of an output alarm. Specified in seconds." ::= { xATSSystemOutput 10 } xATSSystemOutputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of system output phase entries." ::= { xATSSystemOutput 11 } xATSSystemOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSSystemOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of system output table entries. The number of entries is contained in the xATSSystemOutputTableSize OID." ::= { xATSSystemOutput 12 } xATSSystemOutputPhaseEntry OBJECT-TYPE SYNTAX XATSSystemOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular system output phase." INDEX { xATSSystemOutputPhaseIndex } ::= { xATSSystemOutputPhaseTable 1 } XATSSystemOutputPhaseEntry ::= SEQUENCE { xATSSystemOutputPhaseIndex INTEGER, xATSSystemOutputVoltageLtoL INTEGER, xATSSystemOutputVoltageLtoN INTEGER, xATSSystemOutputPhaseCurrent INTEGER, xATSSystemOutputPower INTEGER, xATSSystemOutputApparentPower INTEGER, xATSSystemOutputPowerFactor INTEGER } xATSSystemOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each system output phase utilized in this device." ::= { xATSSystemOutputPhaseEntry 1 } xATSSystemOutputVoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-line system output voltage available at the circuit panel. Measured in tenths of Volts. -1 if not available." ::= { xATSSystemOutputPhaseEntry 2 } xATSSystemOutputVoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-neutral system output voltage available at the circuit panel. Measured in tenths of Volts. -1 for a 3-wire service type or if not available." ::= { xATSSystemOutputPhaseEntry 3 } xATSSystemOutputPhaseCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System load current per phase. Measured in Amps. -1 if not available." ::= { xATSSystemOutputPhaseEntry 4 } xATSSystemOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System output power per phase. Measured in tenths of kW." ::= { xATSSystemOutputPhaseEntry 5 } xATSSystemOutputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "system output power per phase. Measured in tenths of kVA." ::= { xATSSystemOutputPhaseEntry 6 } xATSSystemOutputPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "indicates the power factor of the system output per phase. A value of 100 representing a unity power factor (1.00). Measured in hundredths." ::= { xATSSystemOutputPhaseEntry 7 } -- xATS TestingStatus group xATSTestingStatusSelectTestProcess OBJECT-TYPE SYNTAX INTEGER { engineStartTest (1), systemLoadTest (2), generatorHoldTest (3), cancelTest (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Type of tests that can be selected when no test has been scheduled. engineStartTest and systemLoadTest may be selected when no tests are running. Tests that are selected may be canceled manually." ::= { xATSTestingStatus 1 } xATSTestingStatusTestStatus OBJECT-TYPE SYNTAX INTEGER { noTestInProcess (1), testPending (2), startingEngine (3), engineWarmingUp (4), awaitingTransferToS2 (5), testingWithLoad (6), awaitingRetransferToS1 (7), testingWithoutLoad (8), stoppingEngine (9), holdingOnGenerator (10) } ACCESS read-only STATUS mandatory DESCRIPTION "The present system test status/state." ::= { xATSTestingStatus 2 } xATSTestingStatusProfileWarmupTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time that the generator will warm up during a test. This is portion of the test when the xATSTestingStatusTestStatus OID returns the value engineWarmingUp. Specified in seconds." ::= { xATSTestingStatus 3 } xATSTestingStatusProfileLoadedTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time that ATS will apply the system load to the generator during a system load test. This is portion of the test when the xATSTestingStatusTestStatus OID returns the value testingWithLoad. Specified in minutes." ::= { xATSTestingStatus 4 } xATSTestingStatusProfileUnloadedTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time that the generator will run following the warm up portion of a start test, or the loaded portion of a load test. This is portion of the test when the xATSTestingStatusTestStatus OID returns the value testingWithoutLoad. Specified in seconds." ::= { xATSTestingStatus 5 } -- xATS TestingResults group xATSTestingResultsLastDateOfTest OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Date of the last test that was performed, either scheduled or manual. Test results are available in the xATSTestingResultsLastResult OID. Specified in the dd/mm/yyyy format, or 'none' if not available." ::= { xATSTestingResults 1 } xATSTestingResultsLastResult OBJECT-TYPE SYNTAX INTEGER { noResultsAvailable (1), startTestPassed (2), loadTestPassed (3), startSignalFailure (4), failedGenNotInAuto (5), failedGenEmerStop (6), failedGenShutdown (7), failedGenDidNotStart (8), failedS2NeverGood (9), genFailedDuringWarmup (10), failureOnXferToS1 (11), genFailedLoaded (12), failureOnRexferToS2 (13), failedOnCooldown (14), genFailedToStop (15), failedAtsInternalFault (16), failedAtsNotInAuto (17), canceledManualTest (18), canceledScheduledTest (19) } ACCESS read-only STATUS mandatory DESCRIPTION "The result of the last ATS/generator system test." ::= { xATSTestingResults 2 } xATSTestingResultsTestLastTestTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Time of day at which the last test was performed, either scheduled or manual. Test results are available in the xATSTestingResultsLastResult OID. Specified in the hh:mm:ss format, or 'none' if not available." ::= { xATSTestingResults 3 } xATSTestingResultsLastCrankDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time spent cranking the generator before it started during the last test. Specified in seconds, or -1 if not available." ::= { xATSTestingResults 4 } xATSTestingResultsLastWarmupDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time spent in the engineWarmingUp state during the last system test. Specified in seconds, or -1 if not available." ::= { xATSTestingResults 5 } xATSTestingResultsLastLoadedDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time spent in the testingWithLoad state during the last system test. Specified in seconds, or -1 if not available." ::= { xATSTestingResults 6 } xATSTestingResultsLastUnloadedDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time spent in the testingWithoutLoad state during the last system test. Specified in seconds, or -1 if not available." ::= { xATSTestingResults 7 } -- xATS TestingSchedule group xATSTestingScheduleFrequency OBJECT-TYPE SYNTAX INTEGER { never (1), daily (2), weekly (3), monthly (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The frequency of running scheduled tests." ::= { xATSTestingSchedule 1 } xATSTestingScheduleTestDay OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The desired day for the scheduled test. This object applies only when the xATSTestingScheduleFrequency OID is set to weekly or monthly. For weekly test frequency, the string is the day the test will be run. For monthly test frequency, the string indicates the day, and the instance within the month. For example, for monthly frequency: 2nd Sunday, 3rd Monday, 4th Tuesday, for weekly frequency: Sunday, Monday, Tuesday." ::= { xATSTestingSchedule 2 } xATSTestingScheduleTestTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The time of day that the scheduled test will occur. Specified in the format hh:mm." ::= { xATSTestingSchedule 3 } xATSTestingScheduleTestWithLoadInterval OBJECT-TYPE SYNTAX INTEGER { applyLoadEveryTest (1), neverApplyLoad (2), applyLoadMonthly (3), applyLoadMonthlyDetailed (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This setting specifies which system tests should include applying the load to the generator. The applyLoadMonthlyDetailed entry in the list will apply load once, for each month represented in the xATSTestingScheduleTestWithLoadSelectMonth OID." ::= { xATSTestingSchedule 4 } xATSTestingScheduleTestWithLoadSelectMonth OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The detailed selection for testing with load on a month-by-month basis. This object is applicable when the xATSTestingScheduleTestWithLoadInterval is set to applyLoadMonthlyDetailed. Otherwise this selection will be ignored. Format for this string is a comma-separated entry of months. For example: Jan,Mar,Dec. The string will return 'No Months Scheduled' if no months have been selected." ::= { xATSTestingSchedule 5 } xATSTestingScheduleNextTestDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of the next scheduled test, in the format dd-mmm-yyyy." ::= { xATSTestingSchedule 6 } -- xATSTestingSimulatePowerFail group xATSTestingSimulatePowerFailTest OBJECT-TYPE SYNTAX INTEGER{ cancelSimulation (1), fiveSecondsSimulation (2), tenSecondsSimulation (3), thirtySecondsSimulation (4), oneMinuteSimulation (5), threeMinutesSimulation (6), fiveMinutesSimulation (7), tenMinutesSimulation (8) } ACCESS read-write STATUS mandatory DESCRIPTION "This object executes a simulated power failure for the duration indicated. Simulation can be aborted by selecting cancelSimulation." ::= { xATSTestingSimulatePowerFail 1 } xATSTestingSimulatePowerFailTimeRemaining OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the time remaining in seconds, for a simulated power failure. a value of zero indicates that simulated power failure is not active." ::= { xATSTestingSimulatePowerFail 2 } -- The xATS Input Contact group xATSInputContactNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported by the ATS." ::= { xATSInputContacts 1 } xATSInputContactTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input contact entries." ::= { xATSInputContacts 2 } xATSInputContactTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSInputContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the ATS. The number of entries is contained in the xATSInputContactTableSize OID." ::= { xATSInputContacts 3 } xATSInputContactEntry OBJECT-TYPE SYNTAX XATSInputContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A contact entry containing information for a given contact." INDEX { xATSInputContactNumber } ::= { xATSInputContactTable 1 } XATSInputContactEntry ::= SEQUENCE { xATSInputContactNumber INTEGER, xATSInputContactName DisplayString, xATSInputContactNormalState INTEGER, xATSInputContactCurrentState INTEGER } xATSInputContactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index identifying the contact on the ATS." ::= { xATSInputContactEntry 1 } xATSInputContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the contact." ::= { xATSInputContactEntry 2 } xATSInputContactNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal operating position of the contact." ::= { xATSInputContactEntry 3 } xATSInputContactCurrentState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This value indicates the current state of the contact." ::= { xATSInputContactEntry 4 } -- the xATS OutputRelays group xATSOutputRelayNumRelays OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output relays supported by the ATS." ::= { xATSOutputRelays 1 } xATSOutputRelayTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output relay entries." ::= { xATSOutputRelays 2 } xATSOutputRelayTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSOutputRelayEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output relays supported by the ATS. The number of entries is contained in the xATSOutputRelayTableSize OID." ::= { xATSOutputRelays 3 } xATSOutputRelayEntry OBJECT-TYPE SYNTAX XATSOutputRelayEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A output relay entry containing information for a given contact." INDEX { xATSOutputRelayNumber } ::= { xATSOutputRelayTable 1 } XATSOutputRelayEntry ::= SEQUENCE { xATSOutputRelayNumber INTEGER, xATSOutputRelayName DisplayString, xATSOutputRelayNormalState INTEGER, xATSOutputRelayCurrentState INTEGER } xATSOutputRelayNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index identifying the output relay on the ATS." ::= { xATSOutputRelayEntry 1 } xATSOutputRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the output relay." ::= { xATSOutputRelayEntry 2 } xATSOutputRelayNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal operating position of the output relay." ::= { xATSOutputRelayEntry 3 } xATSOutputRelayCurrentState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This value indicates the current state of the output relay." ::= { xATSOutputRelayEntry 4 } -- The xATS Generator Ident group xATSGeneratorIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number of the generator. This value is set at the factory." ::= { xATSGeneratorIdent 1 } xATSGeneratorIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the generator. This value is set at the factory." ::= { xATSGeneratorIdent 2 } xATSGeneratorIdentDateofManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying when the generator was manufactured in mm/dd/yyyy format. This value is set at the factory." ::= { xATSGeneratorIdent 3 } xATSGeneratorIdentVoltageConfiguration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage for which the generator's alternator is designed. Specified in Volts line-to-line." ::= { xATSGeneratorIdent 4 } xATSGeneratorIdentMaxPowerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The max power rating of the generator. Specified in kW." ::= { xATSGeneratorIdent 5 } xATSGeneratorIdentAlternatorFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frequency for which the generator's alternator is designed. Specified in Hertz." ::= { xATSGeneratorIdent 6 } -- The xATS Generator Status group xATSGeneratorStatusGeneratorName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name or label for the generator connected to the source 2 of the ATS." ::= { xATSGeneratorStatus 1 } xATSGeneratorStatusOperational OBJECT-TYPE SYNTAX INTEGER{ nocomm (1), off (2), ready (3), starting (4), idle (5), running (6), normalStop (7), emergencyStop (8), notInAuto (9), shutdown (10), unknown (11) } ACCESS read-only STATUS mandatory DESCRIPTION "The operational status of the generator. unavailable when unrecognized status is received." ::= { xATSGeneratorStatus 2 } xATSGeneratorStatusModeSwitchPosition OBJECT-TYPE SYNTAX INTEGER{ off (1), manual (2), automatic (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The position of the generator's auto-mode switch. In automatic mode, the generator is started and stopped via the remote start contact, which has state indicated in the xATSGeneratorStatusRemoteStart OID. In manual mode generator start/stop control is via local command only. Off prevents the generator from running." ::= { xATSGeneratorStatus 3 } xATSGeneratorStatusRemoteStart OBJECT-TYPE SYNTAX INTEGER{ stop (1), run (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the generator's remote start contact, which is provided as an output from the transfer switch to start/stop the generator when in automatic mode." ::= { xATSGeneratorStatus 4 } -- The xATS Generator Advanced Status group xATSGeneratorAdvStatusBatteryVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage of the generator's starting battery. Measured in tenths of VDC, or -1 if not available." ::= { xATSGeneratorAdvStatus 1 } xATSGeneratorAdvStatusOilPressure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The generator's engine oil pressure. Measured in tenths of Psi or kPa, based on the value of the xATSGeneratorSettingsMetricUnit OID, or -1 if not available." ::= { xATSGeneratorAdvStatus 2 } xATSGeneratorAdvStatusCoolantTemperature OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Current coolant temperature in the generator. Measured in degrees Celsius or Fahrenheit, based on the value of the xATSGeneratorSettingsMetricUnit OID, or -1 if not available." ::= { xATSGeneratorAdvStatus 3 } xATSGeneratorAdvStatusEngineRPM OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Current engine speed of the generator. Measured in RPM, or -1 if not available." ::= { xATSGeneratorAdvStatus 4 } xATSGeneratorAdvStatusOilLevel OBJECT-TYPE SYNTAX INTEGER{ ok (1), low (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates adequate oil level in the generator." ::= { xATSGeneratorAdvStatus 5 } xATSGeneratorAdvStatusCoolantLevel OBJECT-TYPE SYNTAX INTEGER{ ok (1), low (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates adequate coolant level in the generator." ::= { xATSGeneratorAdvStatus 6 } -- The xATS Generator Output group xATSGeneratorOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output frequency of the generator. Measured in tenths of Hertz, or -1 if not available." ::= { xATSGeneratorOutput 1 } xATSGeneratorOutputTotalPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total output power of the generator. Measured in tenths of tenths of kW, or -1 if not available." ::= { xATSGeneratorOutput 2 } xATSGeneratorOutputTotalApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total output power of the generator. Measured in tenths of kVA, or -1 if not available." ::= { xATSGeneratorOutput 3 } xATSGeneratorOutputTotalPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the total load power factor of the generator. A value of 100 representing a unity power factor (1.00), or -1 when if not available." ::= { xATSGeneratorOutput 4 } xATSGeneratorOutputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of generator output phase entries." ::= { xATSGeneratorOutput 5 } xATSGeneratorOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF XATSGeneratorOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of generator output table entries. The number of entries is contained in the xATSGeneratorOutputTableSize OID." ::= { xATSGeneratorOutput 6 } xATSGeneratorOutputPhaseEntry OBJECT-TYPE SYNTAX XATSGeneratorOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular generator output phase." INDEX { xATSGeneratorOutputPhaseIndex } ::= { xATSGeneratorOutputPhaseTable 1 } XATSGeneratorOutputPhaseEntry ::= SEQUENCE { xATSGeneratorOutputPhaseIndex INTEGER, xATSGeneratorOutputVoltageLtoL INTEGER, xATSGeneratorOutputVoltageLtoN INTEGER, xATSGeneratorOutputPhaseCurrent INTEGER, xATSGeneratorOutputPower INTEGER, xATSGeneratorOutputApparentPower INTEGER, xATSGeneratorOutputPowerFactor INTEGER } xATSGeneratorOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each generator output phase utilized in this device." ::= { xATSGeneratorOutputPhaseEntry 1 } xATSGeneratorOutputVoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-line generator output voltage. Measured in Volts, or -1 if not available." ::= { xATSGeneratorOutputPhaseEntry 2 } xATSGeneratorOutputVoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-neutral generator output voltage. Measured in volts, or -1 if not available." ::= { xATSGeneratorOutputPhaseEntry 3 } xATSGeneratorOutputPhaseCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Generator load current per phase. Measured in Amps, or -1 if not available." ::= { xATSGeneratorOutputPhaseEntry 4 } xATSGeneratorOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Generator output power per phase. Measured in tenths of kW, or -1 if not available." ::= { xATSGeneratorOutputPhaseEntry 5 } xATSGeneratorOutputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Generator output power per phase. Measured in tenths of kVA, or -1 if not available." ::= { xATSGeneratorOutputPhaseEntry 6 } xATSGeneratorOutputPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the load power factor of the generator output per phase. A value of 100 representing a unity power factor (1.00), or -1 if not available." ::= { xATSGeneratorOutputPhaseEntry 7 } -- xATS Generator Settings group xATSGeneratorSettingsVoltageAdjust OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage adjust of the generator. Specified in volts line-to-line, or -1 if not available." ::= { xATSGeneratorSettings 1 } xATSGeneratorSettingsFrequencyAdjust OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frequency adjust of the generator. Specified in tenths of Hertz." ::= { xATSGeneratorSettings 2 } xATSGeneratorSettingsStartDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The delay, in seconds, after the remote run signal is activated before the generator's engine will be cranked to start, or -1 if not available." ::= { xATSGeneratorSettings 3 } xATSGeneratorSettingsStopDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The delay, in seconds, before the generator will stop after the remote run signal is deactivated, or -1 if not available." ::= { xATSGeneratorSettings 4 } xATSGeneratorSettingsCrankCycleEnable OBJECT-TYPE SYNTAX INTEGER{ disabled (1), enabled (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "When Crank Cycle is enabled, the engine will be cranked up to the time specified by the xATSGeneratorSettingsCrankTime OID. If the generator's engine does not start, there will be a pause as specified by the xATSGeneratorSettingsCrankRestTime OID before the engine will be cranked again. This cycle is repeated as specified by the xATSGeneratorSettingsNumberCrank OID. When crank cycle is disabled, the generator's engine will be cranked continuously until it starts." ::= { xATSGeneratorSettings 5 } xATSGeneratorSettingsCrankTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The duration of engine cranking, in seconds, when starting the generator. Applicable when the xATSGeneratorSettingsCrankCycleEnable OID is enabled. -1 if not available." ::= { xATSGeneratorSettings 6 } xATSGeneratorSettingsCrankRestTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The pause duration, in seconds, following an unsuccessful attempt to start the generator. Applicable when the xATSGeneratorSettingsCrankCycleEnable OID is enabled. -1 if not available." ::= { xATSGeneratorSettings 7 } xATSGeneratorSettingsNumberCrank OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of failed crank attempts before giving up on starting the generator. Applicable when the xATSGeneratorSettingsCrankCycleEnable OID is enabled. -1 if not available." ::= { xATSGeneratorSettings 8 } xATSGeneratorSettingsMetricUnit OBJECT-TYPE SYNTAX INTEGER{ disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the use of metric units in generator related OIDs, as well as on all other interfaces including the generator's local interface." ::= { xATSGeneratorSettings 9 } -- xATS generator service group xATSGeneratorServiceTotalRunHoursLifetime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total time that the generator engine has been run, over the life of the generator. Measured in hours. -1 if not available." ::= { xATSGeneratorService 1 } xATSGeneratorServiceEngineStartsLifetime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of engine starts over the life of the generator. -1 if not available." ::= { xATSGeneratorService 2 } xATSGeneratorServiceTotalkWhLifetime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total kWh of operation over the life of the generator. -1 if not available." ::= { xATSGeneratorService 3 } xATSGeneratorServiceTotalRunHoursSinceMaintenance OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total time that the generator engine has been run, since last service maintenance. Measured in tenths of hours. -1 if not available." ::= { xATSGeneratorService 4 } xATSGeneratorServiceEngineStartsSinceMaintenance OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of engine starts since last service maintenance. -1 if not available." ::= { xATSGeneratorService 5 } xATSGeneratorServiceTotalkWhMaintenance OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total kWh of operation since last service maintenance. -1 if not available." ::= { xATSGeneratorService 6 } xATSGeneratorServiceResetRecord OBJECT-TYPE SYNTAX INTEGER{ yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Resets the engine start counter, engine run-hours, and kWh values that have accumulated in the generator since last maintenance. Also, the last service date will be reset to the current system date, and any service alarms will be cleared." ::= { xATSGeneratorService 7 } xATSGeneratorServiceRecordResetDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Date at which the generator's service record was reset, in dd-mmm-yyyy format." ::= { xATSGeneratorService 8 } xATSGeneratorServiceNextServiceDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Date at which the next generator service is due in dd-mmm-yyyy format. Based on the xATSGeneratorServiceCalendarIntervalThreshold OID or '' if the calendar-based threshold is set to off." ::= { xATSGeneratorService 9 } xATSGeneratorServiceRunHoursUntilServiceDate OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Run hours until the next generator service is due, in hours. Based on the xATSGeneratorServiceRunHoursThreshold OID or -1 if the run hour-based threshold is set to off." ::= { xATSGeneratorService 10 } xATSGeneratorServiceRunHoursThreshold OBJECT-TYPE SYNTAX INTEGER{ disabled (1), runThreshold100Hours (2), runThreshold150Hours (3), runThreshold200Hours (4), runThreshold250Hours (5), runThreshold300Hours (6), runThreshold400Hours (7), runThreshold500Hours (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Run hour-based service interval. When the run-hours since service surpasses this threshold, generator service is due." ::= { xATSGeneratorService 11 } xATSGeneratorServiceCalendarIntervalThreshold OBJECT-TYPE SYNTAX INTEGER{ disabled (1), interval1month (2), interval2month (3), interval3month (4), interval6month (5), intervalyearly (6) } ACCESS read-write STATUS mandatory DESCRIPTION "Calendar-based service interval. When the next service date, as indicated by the xATSGeneratorServiceNextServiceDate OID is in the past, generator is due for service." ::= { xATSGeneratorService 12 } -- The xATS Generator Fuel system group xATSGeneratorFuelSystemType OBJECT-TYPE SYNTAX INTEGER{ diesel (1), propane (2), naturalGas (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of fuel used by the generator." ::= { xATSGeneratorFuelSystem 1 } xATSGeneratorFuelSystemTankSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Size of the generator's fuel tank. Specified in gallons or liters, based on the value of the xATSGeneratorSettingsMetricUnit OID, or -1 if not available." ::= { xATSGeneratorFuelSystem 2 } xATSGeneratorFuelSystemFuelLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fuel remaining in the generator tank. Measured in percent of tank fill, or -1 if not available." ::= { xATSGeneratorFuelSystem 3 } xATSGeneratorFuelSystemRuntimePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power value used in the runtime remaining calculation. Measured in tenths of kW, or -1 if not available." ::= { xATSGeneratorFuelSystem 4 } xATSGeneratorFuelSystemEstimatedRunTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An estimate of available runtime for the generator, based on available fuel as specified in the xATSGeneratorFuelSystemFuelLevel OID and kW load as specified in the xATSGeneratorFuelSystemRuntimePower OID. Measured in tenths of hours, or -1 if not available." ::= { xATSGeneratorFuelSystem 5 } xATSGeneratorFuelSystemLowRunTimeThreshold OBJECT-TYPE SYNTAX INTEGER{ disabled (1), oneHour (2), twoHours (3), threeHours (4), fourHours (5), fiveHours (6), sixHours (7), twelveHours (8), oneDay (9), twoDays (10), threeDays (11), fourDays (12), fiveDays (13), sixDays (14), sevenDays (15) } ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which a low runtime alarm will exist." ::= { xATSGeneratorFuelSystem 6 } xATSGeneratorFuelSystemVeryLowRunTimeThreshold OBJECT-TYPE SYNTAX INTEGER{ disabled (1), oneHour (2), twoHours (3), threeHours (4), fourHours (5), fiveHours (6), sixHours (7), twelveHours (8), oneDay (9), twoDays (10), threeDays (11), fourDays (12), fiveDays (13), sixDays (14), sevenDays (15) } ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which a very low runtime alarm will exist." ::= { xATSGeneratorFuelSystem 7 } xATSGeneratorFuelSystemLowFuelLevelThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which a low fuel alarm will exist, with a value of 0 indicating disabled. Specified as percent of tank fill." ::= { xATSGeneratorFuelSystem 8 } xATSGeneratorFuelSystemVeryLowFuelLevelThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Threshold below which a very low fuel alarm will exist, with a value of 0 indicating disabled. Specified as percent of tank fill." ::= { xATSGeneratorFuelSystem 9 } -- The console Port Server AP930x system group apCPSpname OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The product's name." ::= { cpsAP930xSys 1 } apCPSversion OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware's version." ::= {cpsAP930xSys 2} apCPSPower OBJECT IDENTIFIER ::= { cpsAP930xSys 3 } apCPSPwNum OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of the power supplies." ::= { apCPSPower 1 } apCPSPw1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "State of the first power supply. 0 will indicate not installed, 1 will indicate power ON, 2 will indicate power OFF." ::= { apCPSPower 2 } apCPSPw2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "State of the second power supply. 0 will indicate not installed, 1 will indicate power ON, 2 will indicate power OFF." ::= { apCPSPower 3 } apCPSPcmcia OBJECT IDENTIFIER ::= {cpsAP930xSys 4} apCPSNPcmcia OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "Number of PCMCIA cards available." ::= { apCPSPcmcia 1 } cpsCardIdentTable OBJECT-TYPE SYNTAX SEQUENCE OF CpsCardIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of PCMCIA card identifications." ::= { apCPSPcmcia 2 } cpsCardIdentEntry OBJECT-TYPE SYNTAX CpsCardIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Identification information for a PCMCIA card." INDEX { cpsCardIdentIndex } ::= { cpsCardIdentTable 1 } CpsCardIdentEntry ::= SEQUENCE { cpsCardIdentIndex Integer32, cpsCardIdentProd DisplayString, cpsCardIdentMan DisplayString , cpsCardIdentFunc DisplayString, cpsCardIdentPCI DisplayString } cpsCardIdentIndex OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "Number to identify the socket Card." ::= { cpsCardIdentEntry 1 } cpsCardIdentProd OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Product identification string." ::= { cpsCardIdentEntry 2 } cpsCardIdentMan OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Manufacturer ID code." ::= { cpsCardIdentEntry 3 } cpsCardIdentFunc OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Function ID code." ::= { cpsCardIdentEntry 4 } cpsCardIdentPCI OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "PCI ID" ::= { cpsCardIdentEntry 5 } cpsCardConfTable OBJECT-TYPE SYNTAX SEQUENCE OF CpsCardConfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of socket configuration information." ::= { apCPSPcmcia 3 } cpsCardConfEntry OBJECT-TYPE SYNTAX CpsCardConfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration information for a socket." INDEX { cpsCardConfIndex } ::= { cpsCardConfTable 1 } CpsCardConfEntry ::= SEQUENCE { cpsCardConfIndex Integer32, cpsCardConfPower DisplayString, cpsCardConfType DisplayString, cpsCardConfInter DisplayString, cpsCardConfFunc DisplayString, cpsCardConfCardv DisplayString, cpsCardConfPort1 DisplayString, cpsCardConfPort2 DisplayString } cpsCardConfIndex OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "Number to identify the socket PCMCIA." ::= { cpsCardConfEntry 1 } cpsCardConfPower OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Power Settings." ::= { cpsCardConfEntry 2 } cpsCardConfType OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Interface Type." ::= { cpsCardConfEntry 3 } cpsCardConfInter OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Interrupt number." ::= { cpsCardConfEntry 4 } cpsCardConfFunc OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Function." ::= { cpsCardConfEntry 5 } cpsCardConfCardv OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Card values." ::= { cpsCardConfEntry 6 } cpsCardConfPort1 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "I/O Port 1." ::= { cpsCardConfEntry 7 } cpsCardConfPort2 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "I/O Port 2." ::= { cpsCardConfEntry 8 } cpsCardStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF CpsCardStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of current socket status information." ::= { apCPSPcmcia 4 } cpsCardStatusEntry OBJECT-TYPE SYNTAX CpsCardStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Current status information for a socket." INDEX { cpsCardStatusIndex } ::= { cpsCardStatusTable 1 } CpsCardStatusEntry ::= SEQUENCE { cpsCardStatusIndex Integer32, cpsCardStatusCard DisplayString, cpsCardStatusFunc DisplayString } cpsCardStatusIndex OBJECT-TYPE SYNTAX Integer32(0..2) ACCESS read-only STATUS mandatory DESCRIPTION "Number to identify the socket PCMCIA." ::= { cpsCardStatusEntry 1 } cpsCardStatusCard OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Current Card State." ::= { cpsCardStatusEntry 2 } cpsCardStatusFunc OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Current Function." ::= { cpsCardStatusEntry 3 } apCPSFlashSize OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "Total amount of flash memory in Mbytes." ::= {cpsAP930xSys 5} apCPSRAMSize OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "Total amount of RAM in Mbytes." ::= {cpsAP930xSys 6} apCPSCPUfreq OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "CPU clock in MHz." ::= {cpsAP930xSys 7} apCPSDevId OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The product's identifier." ::= { cpsAP930xSys 8 } -- The console Port Server AP930x configuration group cpsHostName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "The Host Name." ::= { cpsAP930xConf 1 } cpsConsoleBanner OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-write STATUS mandatory DESCRIPTION "The console banner." ::= { cpsAP930xConf 2 } cpsMotd OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-write STATUS mandatory DESCRIPTION "The motd message." ::= { cpsAP930xConf 3 } cpsEthItf OBJECT IDENTIFIER ::= { cpsAP930xConf 4 } cpsEthDhcpc OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "0 will indicate DHCP inactive, 1 will indicate DHCP active, 2 will indicate DHCP active and the last parameter is saved." ::= { cpsEthItf 1 } cpsEthIPaddr OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This is the IP address of the Ethernet Interface." ::= { cpsEthItf 2 } cpsEthIPmask OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The mask for the Ethernet network." ::= { cpsEthItf 3 } cpsEthMTU OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "The Maximum Transmission Unit size, which determines whether packets should be broken up." ::= { cpsEthItf 4 } cpsEthIPaddr2 OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The Ethernet secondary IP address." ::= { cpsEthItf 5 } cpsEthIPmask2 OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The Ethernet secondary IP mask." ::= { cpsEthItf 6 } cpsNameService OBJECT IDENTIFIER ::= { cpsAP930xConf 5 } cpsResolverOrder OBJECT-TYPE SYNTAX DisplayString (SIZE (0..15)) ACCESS read-write STATUS mandatory DESCRIPTION "Specifies how host lookups are to be performed. Valid values : empty, 'hosts', 'bind', 'hosts, bind', 'bind, hosts' " ::= { cpsNameService 1 } cpsMultipleIP OBJECT-TYPE SYNTAX DisplayString (SIZE (0..3)) ACCESS read-write STATUS mandatory DESCRIPTION "Valid values are ON or OFF. If set to ON, the resolve library will return all valid addresses for a host that appears in the /etc/hosts file, instead of only the first. " ::= { cpsNameService 2 } cpsDNSserv OBJECT IDENTIFIER ::= { cpsNameService 3 } cpsDNSpriserv OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "Internet Address (in dot notation) of primary name server that the resolver should query." ::= { cpsDNSserv 1 } cpsDNSsecserv OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "Internet Address (in dot notation) of secondary name server that the resolver should query." ::= { cpsDNSserv 2 } cpsDNSdomain OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "Local domain name." ::= { cpsDNSserv 3 } cpsSerialPortConf OBJECT IDENTIFIER ::= { cpsAP930xConf 6 } cpsSerialGlobal OBJECT IDENTIFIER ::= { cpsSerialPortConf 1 } cpsSerialInclude OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "File used in centralized management." ::= { cpsSerialGlobal 1 } cpsSerialNFS OBJECT-TYPE SYNTAX DisplayString (SIZE (0..50)) ACCESS read-write STATUS mandatory DESCRIPTION "Remote Network File System where data buffering will be written instead of the default directory '/var/run/DB'." ::= { cpsSerialGlobal 2 } cpsSerialLockDir OBJECT-TYPE SYNTAX DisplayString (SIZE (0..50)) ACCESS read-write STATUS mandatory DESCRIPTION "The lock directory." ::= { cpsSerialGlobal 3 } cpsSerialRlogin OBJECT-TYPE SYNTAX DisplayString (SIZE (0..50)) ACCESS read-write STATUS mandatory DESCRIPTION "Location of the rlogin binary that accepts the -i flag." ::= { cpsSerialGlobal 4 } cpsSerialPppd OBJECT-TYPE SYNTAX DisplayString (SIZE (0..50)) ACCESS read-write STATUS mandatory DESCRIPTION "Location of the pppd binary." ::= { cpsSerialGlobal 5 } cpsSerialTelnet OBJECT-TYPE SYNTAX DisplayString (SIZE (0..50)) ACCESS read-write STATUS mandatory DESCRIPTION "Location of the telnet application." ::= { cpsSerialGlobal 6 } cpsSerialSsh OBJECT-TYPE SYNTAX DisplayString (SIZE (0..50)) ACCESS read-write STATUS mandatory DESCRIPTION "Location of the ssh application." ::= { cpsSerialGlobal 7 } cpsSerialLocalLogins OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This parameter is only necessary when authentication is being performed for a port. This is useful if the Radius authentication server is down. 0 indicates OFF, 1 indicates ON." ::= { cpsSerialGlobal 8 } cpsSerialFacility OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "This value (0-7) is the Local facility sent to the syslog daemon." ::= { cpsSerialGlobal 9 } cpsSerialDBFacility OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "This value (0-7) is the Local facility sent to the syslog daemon." ::= { cpsSerialGlobal 10 } cpsSerialGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF CpsSerialGroupEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "" ::= { cpsSerialGlobal 11 } cpsSerialGroupEntry OBJECT-TYPE SYNTAX CpsSerialGroupEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "" INDEX { cpsSerialGroupIndex } ::= { cpsSerialGroupTable 1 } CpsSerialGroupEntry ::= SEQUENCE { cpsSerialGroupIndex INTEGER, cpsSerialGroupName DisplayString, cpsSerialGroupUsers DisplayString } cpsSerialGroupIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number to identify the group." ::= { cpsSerialGroupEntry 1 } cpsSerialGroupName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..20)) ACCESS read-write STATUS mandatory DESCRIPTION "The group name." ::= { cpsSerialGroupEntry 2 } cpsSerialGroupUsers OBJECT-TYPE SYNTAX DisplayString (SIZE (0..80)) ACCESS read-write STATUS mandatory DESCRIPTION "The user's names." ::= { cpsSerialGroupEntry 3 } cpsSerialSpec OBJECT IDENTIFIER ::= { cpsSerialPortConf 2 } cpsSerialPortTable OBJECT-TYPE SYNTAX SEQUENCE OF CpsSerialPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This is the specific configuration per serial port." ::= { cpsSerialSpec 1 } cpsSerialPortEntry OBJECT-TYPE SYNTAX CpsSerialPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "One particular serial port configuration." INDEX { cpsSerialPortNumber } ::= { cpsSerialPortTable 1 } CpsSerialPortEntry ::= SEQUENCE { cpsSerialPortNumber INTEGER, -- 0 == all. X == ttyX sX. cpsSerialPortTty DisplayString, -- associate device cpsSerialPortName DisplayString, -- alias name cpsSerialPortSpeed Integer32, -- physical port configuration cpsSerialPortDataSize Integer32, cpsSerialPortStopBits Integer32, cpsSerialPortParity DisplayString, cpsSerialPortFlowCtrl DisplayString, cpsSerialPortDTRdelay Integer32, cpsSerialPortDCDCtrl INTEGER, cpsSerialPortLogUtmp INTEGER, -- log into UTMP cpsSerialPortLogWtmp INTEGER, -- log into WTMP cpsSerialPortLogform DisplayString, cpsSerialPortAuthtype DisplayString, -- authentication type cpsSerialPortAuthSrv1 IpAddress, -- IP address of the primary authentication server cpsSerialPortAccSrv1 IpAddress, -- IP address of the primary accounting server cpsSerialPortAuthTmo Integer32, -- time out per authentication query cpsSerialPortAuthRetr Integer32, -- authentication number of retries cpsSerialPortAuthSrv2 IpAddress, -- IP address of the secondary authentication server cpsSerialPortAccSrv2 IpAddress, -- IP address of the secondary accounting server cpsSerialPortAuthSecret DisplayString, -- secret used in authentication cpsSerialPortAuthRadP INTEGER, -- accept RADIUS' user without password cpsSerialPortAuthAcc DisplayString, -- access restriction on Users cpsSerialPortProtocol DisplayString, -- Profile cpsSerialPortRemoteIP DisplayString, -- remote IP address cpsSerialPortSocketPort DisplayString, -- number of socket port cpsSerialPortRemHost IpAddress, -- IP address of the remote Host cpsSerialPortBanner DisplayString, -- Banner cpsSerialPortPrompt DisplayString, -- Login prompt cpsSerialPortTermType DisplayString, -- terminal type cpsSerialPortAutomUsr DisplayString, -- automatic user cpsSerialPortNetMask IpAddress, -- net mask cpsSerialPortPppMtu Integer32, cpsSerialPortPppMru Integer32, cpsSerialPortPppOptions DisplayString, cpsSerialPortPppFoption DisplayString, cpsSerialPortModemChat DisplayString, -- initchat send to modem cpsSerialPortSttyCmd DisplayString, cpsSerialPortSockTx Integer32, -- socket transmission interval cpsSerialPortSockPoll Integer32, -- socket polling interval cpsSerialPortSockIdle Integer32, -- socket idle timeout cpsSerialPortDBsize Integer32, -- maximum size of the data buffering file cpsSerialPortDBtime INTEGER, -- data buffering with/without timestamp cpsSerialPortDBmode DisplayString, -- data bufferinf mode circ or line cpsSerialPortDBsyslog Integer32, -- size of the data send to syslog cpsSerialPortDBmenu INTEGER, -- menu of the data buffering cpsSerialPortDBalarm INTEGER, -- use alarm generating feature cpsSerialPortSSHbreak DisplayString, -- break sequence (SSH) cpsSerialPortSniffSess DisplayString, -- sniff session type cpsSerialPortSniffAdm DisplayString, -- admin users to sniff cpsSerialPortSniffEsc DisplayString, -- escape char to sniff session cpsSerialPortSniffMsess DisplayString, -- multiple session cpsSerialPortTelnetMode INTEGER, -- telnet client mode cpsSerialPortSysBufSess INTEGER, -- syslog buffering at all times cpsSerialPortLFSuppress INTEGER, -- LF suppression in socket_server session cpsSerialPortAutoInput DisplayString, -- Input string to auto answer cpsSerialPortAutoOutput DisplayString, -- Output string to auto answer cpsSerialPortBreakInterval Integer32 -- Break interval (in ms) } cpsSerialPortNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number to identify the serial port. Value 0 is ALL." ::= { cpsSerialPortEntry 1 } cpsSerialPortTty OBJECT-TYPE SYNTAX DisplayString (SIZE (0..25)) ACCESS read-write STATUS mandatory DESCRIPTION "The device name for the serial port." ::= { cpsSerialPortEntry 2 } cpsSerialPortName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "Alias name given to the server connected to the serial port." ::= { cpsSerialPortEntry 3 } cpsSerialPortSpeed OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "The speed of the serial port. Supported values are: 50, 75, 110, 134, 150, 200, 300, 600, 1200, 1800, 2400, 4800, 9600, 14400, 19200, 28800, 38400, 57600, 115200, 230400, and 460800" ::= { cpsSerialPortEntry 4 } cpsSerialPortDataSize OBJECT-TYPE SYNTAX Integer32 (4..8) ACCESS read-write STATUS mandatory DESCRIPTION "The data size for the serial port." ::= { cpsSerialPortEntry 5 } cpsSerialPortStopBits OBJECT-TYPE SYNTAX Integer32 (0..2) ACCESS read-write STATUS mandatory DESCRIPTION "The number of stop bits for the serial port." ::= { cpsSerialPortEntry 6 } cpsSerialPortParity OBJECT-TYPE SYNTAX DisplayString (SIZE (0..5)) ACCESS read-write STATUS mandatory DESCRIPTION "The parity for the serial port." ::= { cpsSerialPortEntry 7 } cpsSerialPortFlowCtrl OBJECT-TYPE SYNTAX DisplayString (SIZE (0..5)) ACCESS read-write STATUS mandatory DESCRIPTION "The flow control for the serial port." ::= { cpsSerialPortEntry 8 } cpsSerialPortDTRdelay OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "This specifies how long (in milliseconds) a DTR signal will be turned off before it is turned on again." ::= { cpsSerialPortEntry 9 } cpsSerialPortDCDCtrl OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "DCD signal controls the connection request. 0 will indicate nocontrol, 1 will indicate control." ::= { cpsSerialPortEntry 10 } cpsSerialPortLogUtmp OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Update the login records in /var/run/utmp file. 0 will indicate inactive, 1 will indicate active." ::= { cpsSerialPortEntry 11 } cpsSerialPortLogWtmp OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Update the login records in /var/run/wtmp file. 0 will indicate inactive, 1 will indicate active." ::= { cpsSerialPortEntry 12 } cpsSerialPortLogform OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "This is the format to write the login record." ::= { cpsSerialPortEntry 13 } cpsSerialPortAuthtype OBJECT-TYPE SYNTAX DisplayString (SIZE (0..25)) ACCESS read-write STATUS mandatory DESCRIPTION "Authentication type." ::= { cpsSerialPortEntry 14 } cpsSerialPortAuthSrv1 OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "IP address of the primary authentication server." ::= { cpsSerialPortEntry 15 } cpsSerialPortAccSrv1 OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "IP address of the primary accounting server." ::= { cpsSerialPortEntry 16 } cpsSerialPortAuthTmo OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "This is the timeout (in seconds) for the authentication query to be answered." ::= { cpsSerialPortEntry 17 } cpsSerialPortAuthRetr OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "This defines the number of times each server is tried before another is contacted." ::= { cpsSerialPortEntry 18 } cpsSerialPortAuthSrv2 OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "IP address of the secondary authentication server." ::= { cpsSerialPortEntry 19 } cpsSerialPortAccSrv2 OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "IP address of the secondary accounting server." ::= { cpsSerialPortEntry 20 } cpsSerialPortAuthSecret OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "This is the shared secret with authentication servers." ::= { cpsSerialPortEntry 21 } cpsSerialPortAuthRadP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Radius state. 0 will indicate inactive, 1 will indicate active." ::= { cpsSerialPortEntry 22 } cpsSerialPortAuthAcc OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "Access restriction." ::= { cpsSerialPortEntry 23 } cpsSerialPortProtocol OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "Defines the serial port's protocol." ::= { cpsSerialPortEntry 24 } cpsSerialPortRemoteIP OBJECT-TYPE SYNTAX DisplayString (SIZE (0..20)) ACCESS read-write STATUS mandatory DESCRIPTION "This is the default IP address of the serial port." ::= { cpsSerialPortEntry 25 } cpsSerialPortSocketPort OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-write STATUS mandatory DESCRIPTION "This defines an alternative labeling system for the serial port." ::= { cpsSerialPortEntry 26 } cpsSerialPortRemHost OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of the host to which the serial port will connect." ::= { cpsSerialPortEntry 27 } cpsSerialPortBanner OBJECT-TYPE SYNTAX DisplayString (SIZE (0..250)) ACCESS read-write STATUS mandatory DESCRIPTION "This defines the banner." ::= { cpsSerialPortEntry 28 } cpsSerialPortPrompt OBJECT-TYPE SYNTAX DisplayString (SIZE (0..250)) ACCESS read-write STATUS mandatory DESCRIPTION "This defines the login prompt to the serial port." ::= { cpsSerialPortEntry 29 } cpsSerialPortTermType OBJECT-TYPE SYNTAX DisplayString (SIZE (0..20)) ACCESS read-write STATUS mandatory DESCRIPTION "This defines the terminal type." ::= { cpsSerialPortEntry 30 } cpsSerialPortAutomUsr OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "This defines the automatic user." ::= { cpsSerialPortEntry 31 } cpsSerialPortNetMask OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The network mask used in dial in connection." ::= { cpsSerialPortEntry 32 } cpsSerialPortPppMtu OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "The PPP MTU - dial in connection." ::= { cpsSerialPortEntry 33 } cpsSerialPortPppMru OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "The PPP MRU - dial in connection." ::= { cpsSerialPortEntry 34 } cpsSerialPortPppOptions OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The PPP options when the PPP session is autodetected." ::= { cpsSerialPortEntry 35 } cpsSerialPortPppFoption OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The PPP forced options when the user has already been authenticated." ::= { cpsSerialPortEntry 36 } cpsSerialPortModemChat OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The initchat send to modem connected." ::= { cpsSerialPortEntry 37 } cpsSerialPortSttyCmd OBJECT-TYPE SYNTAX DisplayString (SIZE (0..180)) ACCESS read-write STATUS mandatory DESCRIPTION "The tty settings after socket connection is established." ::= { cpsSerialPortEntry 38 } cpsSerialPortSockTx OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "Defines the delay (in milliseconds) before transmission to the Ethernet of data received through a serial port." ::= { cpsSerialPortEntry 39 } cpsSerialPortSockPoll OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "Keep-alive timer (milliseconds) for the TCP connection." ::= { cpsSerialPortEntry 40 } cpsSerialPortSockIdle OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "The idle timeout in seconds." ::= { cpsSerialPortEntry 41 } cpsSerialPortDBsize OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "Maximum size of the data buffering file." ::= { cpsSerialPortEntry 42 } cpsSerialPortDBtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Timestamp in data buffering. 0 will indicate inactive, 1 will indicate active." ::= { cpsSerialPortEntry 43 } cpsSerialPortDBmode OBJECT-TYPE SYNTAX DisplayString (SIZE (0..5)) ACCESS read-write STATUS mandatory DESCRIPTION "Data buffering mode : circ or line." ::= { cpsSerialPortEntry 44 } cpsSerialPortDBsyslog OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "Size of the data buffer sent to syslog." ::= { cpsSerialPortEntry 45 } cpsSerialPortDBmenu OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Menu type for data buffering. 0 will indicate display Menu, 1 will indicate inactive, 2 will indicate DB, 3 will indicate Parc." ::= { cpsSerialPortEntry 46 } cpsSerialPortDBalarm OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Alarm generation status. 0 will indicate inactive, 1 will indicate active." ::= { cpsSerialPortEntry 47 } cpsSerialPortSSHbreak OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "Break sequence - ssh session." ::= { cpsSerialPortEntry 48 } cpsSerialPortSniffSess OBJECT-TYPE SYNTAX DisplayString (SIZE (0..5)) ACCESS read-write STATUS mandatory DESCRIPTION "Sniff session type." ::= { cpsSerialPortEntry 49 } cpsSerialPortSniffAdm OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "List of admin users allowed to sniff session." ::= { cpsSerialPortEntry 50 } cpsSerialPortSniffEsc OBJECT-TYPE SYNTAX DisplayString (SIZE (0..6)) ACCESS read-write STATUS mandatory DESCRIPTION "Escape sequence used in sniff session." ::= { cpsSerialPortEntry 51 } cpsSerialPortSniffMsess OBJECT-TYPE SYNTAX DisplayString (SIZE (0..20)) ACCESS read-write STATUS mandatory DESCRIPTION "" ::= { cpsSerialPortEntry 52 } cpsSerialPortTelnetMode OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Mode negotiated by client telnet with the server. 0 will indicate text, 1 will indicate binary." ::= { cpsSerialPortEntry 53 } cpsSerialPortSysBufSess OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Syslog Buffering at all times. 0 will indicate yes, 1 will indicate no." ::= { cpsSerialPortEntry 54 } cpsSerialPortLFSuppress OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "LF suppression in socket_server session. 0 will indicate inactive, 1 will indicate active." ::= { cpsSerialPortEntry 55 } cpsSerialPortAutoInput OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "Input string used for auto answer." ::= { cpsSerialPortEntry 56 } cpsSerialPortAutoOutput OBJECT-TYPE SYNTAX DisplayString (SIZE (0..40)) ACCESS read-write STATUS mandatory DESCRIPTION "Output string used for auto answer." ::= { cpsSerialPortEntry 57 } cpsSerialPortBreakInterval OBJECT-TYPE SYNTAX Integer32 ACCESS read-write STATUS mandatory DESCRIPTION "The break interval in milliseconds." ::= { cpsSerialPortEntry 58 } -- The console Port Server AP930x information group cpsInfoSerialPortTable OBJECT-TYPE SYNTAX SEQUENCE OF CpsInfoSerialPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This is the information of the specific serial port." ::= { cpsAP930xInfo 1 } cpsInfoSerialPortEntry OBJECT-TYPE SYNTAX CpsInfoSerialPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "One particular serial port." INDEX { cpsInfoSerialPortNumber } ::= { cpsInfoSerialPortTable 1 } CpsInfoSerialPortEntry ::= SEQUENCE { cpsInfoSerialPortNumber INTEGER, -- X == ttyX sX. cpsInfoSerialPortTty DisplayString, -- associate device cpsInfoSerialPortName DisplayString, -- alias name cpsInfoSerialPortSpeed Integer32, cpsInfoSerialPortTxBytes Integer32, cpsInfoSerialPortRXBytes Integer32, cpsInfoSerialPortErrFrame Integer32, cpsInfoSerialPortErrParity Integer32, cpsInfoSerialPortErrBreaks Integer32, cpsInfoSerialPortErrOverrun Integer32, cpsInfoSerialPortSigDTR INTEGER, cpsInfoSerialPortSigCD INTEGER, cpsInfoSerialPortSigDSR INTEGER, cpsInfoSerialPortSigRTS INTEGER, cpsInfoSerialPortSigCTS INTEGER, cpsInfoSerialPortSigRI INTEGER } cpsInfoSerialPortNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number to identify the serial port." ::= { cpsInfoSerialPortEntry 1 } cpsInfoSerialPortTty OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The device name for the serial port." ::= { cpsInfoSerialPortEntry 2 } cpsInfoSerialPortName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Alias name given to the server connected to the serial port." ::= { cpsInfoSerialPortEntry 3 } cpsInfoSerialPortSpeed OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The speed for serial port." ::= { cpsInfoSerialPortEntry 4 } cpsInfoSerialPortTxBytes OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes by the serial port." ::= { cpsInfoSerialPortEntry 5 } cpsInfoSerialPortRXBytes OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes by the serial port." ::= { cpsInfoSerialPortEntry 6 } cpsInfoSerialPortErrFrame OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of frame errors." ::= { cpsInfoSerialPortEntry 7 } cpsInfoSerialPortErrParity OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of parity errors." ::= { cpsInfoSerialPortEntry 8 } cpsInfoSerialPortErrBreaks OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of breaks errors." ::= { cpsInfoSerialPortEntry 9 } cpsInfoSerialPortErrOverrun OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The number of overrun errors." ::= { cpsInfoSerialPortEntry 10 } cpsInfoSerialPortSigDTR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The state of the DTR signal. 0 will indicate down, 1 will indicate up." ::= { cpsInfoSerialPortEntry 11 } cpsInfoSerialPortSigCD OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The state of the DCD signal. 0 will indicate down, 1 will indicate up." ::= { cpsInfoSerialPortEntry 12 } cpsInfoSerialPortSigDSR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The state of the DSR signal. 0 will indicate down, 1 will indicate up." ::= { cpsInfoSerialPortEntry 13 } cpsInfoSerialPortSigRTS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The state of the RTS signal. 0 will indicate down, 1 will indicate up." ::= { cpsInfoSerialPortEntry 14 } cpsInfoSerialPortSigCTS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The state of the CTS signal. 0 will indicate down, 1 will indicate up." ::= { cpsInfoSerialPortEntry 15 } cpsInfoSerialPortSigRI OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The state of the RI signal. 0 will indicate down, 1 will indicate up." ::= { cpsInfoSerialPortEntry 16 } -- The console Port Server AP930x administrative group apCPSSave OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Exec saveconf command. 0 will indicate don't save, 1 will indicate save." ::= { cpsAP930xAdm 1 } apCPSSerialHUP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Exec signal_ras hup command. 0 will indicate no restart, 1 will indicate restart." ::= { cpsAP930xAdm 2 } -- the access PX group accessPXIdentAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Access PX alarm status 1 = Normal 2 = Warning 3 = Critical." ::= { accessPXIdent 1 } accessPXIdentProductNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The product number of the Access PX." ::= { accessPXIdent 2 } accessPXIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision number of the Access PX." ::= { accessPXIdent 3 } accessPXIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of manufacture of the Access PX." ::= { accessPXIdent 4 } accessPXIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Access PX." ::= { accessPXIdent 5 } accessPXConfigCardReaderEnableDisableAction OBJECT-TYPE SYNTAX INTEGER { disabled (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Action to disable/enable the card reader." ::= { accessPXConfig 1 } accessPXConfigAutoRelockTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Time (10 - 60) in seconds when the door will automatically relock after it has been unlocked and the handle has not been opened." ::= { accessPXConfig 2 } accessPXConfigCardFormat OBJECT-TYPE SYNTAX INTEGER { hidStd26 (1), hid37Bit (2), hid37BitWithFacility (3), hidCorp1000 (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates and controls the HID card format. NOTE: This OID is only valid for HID systems." ::= { accessPXConfig 3 } accessPXConfigFrontDoorLockControl OBJECT-TYPE SYNTAX INTEGER { unlock (1), lock (2), notInstalledReadOnly (3), disconnectedReadOnly (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Control action (unlock, lock) for the front door. Setting this OID will unlock or lock the front door. Getting this OID will respond with the current state of the front door lock which could be 1 = unlocked, 2 = locked, 3 = not installed, 4 = disconnected." ::= { accessPXConfigFront 1 } accessPXConfigFrontDoorMaxOpenTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Time in minutes, (1 - 120), that the front door can be allowed to remain open without generating an alarm condition." ::= { accessPXConfigFront 2 } accessPXStatusFrontDoorLock OBJECT-TYPE SYNTAX INTEGER { unlocked (1), locked (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Present state of the front door lock: unlocked, locked, not installed, or disconnected." ::= { accessPXStatusFront 1 } accessPXStatusFrontDoor OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Present state of the front door: open, closed, not installed, or disconnected." ::= { accessPXStatusFront 2 } accessPXStatusFrontDoorHandle OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Present state of the front door handle: open, closed, not installed, or disconnected." ::= { accessPXStatusFront 3 } accessPXStatusFrontDoorMaxOpenTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Time in minutes, (1 - 120), that the front door can be allowed to remain open without generating an alarm condition." ::= { accessPXStatusFront 4 } accessPXStatusFrontDoorAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Front door alarm status 1 = Normal 2 = Warning 3 = Critical 4 = Front door not installed." ::= { accessPXStatusFront 5 } accessPXConfigRearDoorLockControl OBJECT-TYPE SYNTAX INTEGER { unlock (1), lock (2), notInstalledReadOnly (3), disconnectedReadOnly (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Control action (unlock, lock) for the rear door. Setting this OID will unlock or lock the rear door. Getting this OID will respond with the current state of the rear door lock which could be 1 = unlocked, 2 = locked, 3 = not installed, 4 = disconnected." ::= { accessPXConfigRear 1 } accessPXConfigRearDoorMaxOpenTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Time in minutes, (1 - 120), that the rear door can be allowed to remain open without generating an alarm condition." ::= { accessPXConfigRear 2 } accessPXStatusRearDoorLock OBJECT-TYPE SYNTAX INTEGER { unlocked (1), locked (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Present state of the rear door lock: unlocked, locked, not installed, or disconnected." ::= { accessPXStatusRear 1 } accessPXStatusRearDoor OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Present state of the rear door: open, closed, not installed, or disconnected." ::= { accessPXStatusRear 2 } accessPXStatusRearDoorHandle OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Present state of the rear door handle: open, closed, not installed, or disconnected." ::= { accessPXStatusRear 3 } accessPXStatusRearDoorMaxOpenTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Time in minutes, (1 - 120), that the rear door can be allowed to remain open without generating an alarm condition." ::= { accessPXStatusRear 4 } accessPXStatusRearDoorAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Rear door alarm status 1 = Normal 2 = Warning 3 = Critical 4 = Rear door not installed." ::= { accessPXStatusRear 5 } accessPXConfigBeaconName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for the Beacon." ::= { accessPXConfigBeacon 1 } accessPXConfigBeaconLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for the location of the Beacon." ::= { accessPXConfigBeacon 2 } accessPXConfigBeaconAction OBJECT-TYPE SYNTAX INTEGER { turnOff (1), turnOn (2), notInstalledReadOnly (3), disconnectedReadOnly (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Control action (turnOff, turnOn) for the beacon. Setting this OID will turn the beacon off or on. Getting this OID will respond with the current state which could be 1 = off, 2 = on, 3 = not installed, 4 = disconnected." ::= { accessPXConfigBeacon 3 } accessPXStatusBeaconName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the beacon." ::= { accessPXStatusBeacon 1 } accessPXStatusBeaconLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the location of the beacon." ::= { accessPXStatusBeacon 2 } accessPXStatusBeaconCurrentState OBJECT-TYPE SYNTAX INTEGER { off (1), on (2), notInstalled (3), disconnected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the beacon: off, on, not installed, or disconnected." ::= { accessPXStatusBeacon 3 } -- the apcLocalDisplay group apcLocalDisplayIdentDisplayType OBJECT-TYPE SYNTAX INTEGER { noDisplayFound (1), powerviewRM (2), powerviewWW (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Numeric value used to identify the type of display in use." ::= { apcLocalDisplayIdent 1 } apcLocalDisplayIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The model number of the local display." ::= { apcLocalDisplayIdent 2 } apcLocalDisplayIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision number of the local display." ::= { apcLocalDisplayIdent 3 } apcLocalDisplayIdentOptions OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A display-specific string identifying options in the local display." ::= { apcLocalDisplayIdent 4 } apcLocalDisplayIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of manufacture of the local display, if available." ::= { apcLocalDisplayIdent 5 } apcLocalDisplayIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the local display, if available." ::= { apcLocalDisplayIdent 6 } apcLocalDisplayConfigAlarmBeeper OBJECT-TYPE SYNTAX INTEGER { beeperDisabled (1), beeperEnabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The alarm beeper setting for the local display. When enabled, the alarm beeper will begin to sound whenever there a new alarm becomes active. The alarm beeper will continue to periodically sound until a key is pressed on the display." ::= { apcLocalDisplayConfig 1 } apcLocalDisplayConfigBeeperVolume OBJECT-TYPE SYNTAX INTEGER { beeperDisabled (1), beeperLow (2), beeperMedium (3), beeperHigh (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The volume setting of the beeper on the local display." ::= { apcLocalDisplayConfig 2 } apcLocalDisplayConfigCheckLogIndicator OBJECT-TYPE SYNTAX INTEGER { checklogNotPresent (1), checklogDisabled (2), checklogInformational (3), checklogWarning (4), checklogCritical (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The minimum level event severity level required to illuminate the check log light on the local display. notPresent (1) indicates that the display does not have a check log light." ::= { apcLocalDisplayConfig 3 } apcLocalDisplayConfigKeyClick OBJECT-TYPE SYNTAX INTEGER { keyclickDisabled (1), keyclickEnabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The key click setting of the local display." ::= { apcLocalDisplayConfig 4 } apcLocalDisplayConfigContrast OBJECT-TYPE SYNTAX INTEGER { contrast1 (1), contrast2 (2), contrast3 (3), contrast4 (4), contrast5 (5), contrast6 (6), contrast7 (7), contrast8 (8) } ACCESS read-write STATUS mandatory DESCRIPTION "The contrast level of the local display." ::= { apcLocalDisplayConfig 5 } -- the software group -- the powerNetSubAgent group -- the powerNetSoftwareSystem group powerNetSoftwareSystemDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..79)) ACCESS read-only STATUS mandatory DESCRIPTION "A brief description of the PowerNet sub-agent." ::= { powerNetSoftwareSystem 1 } powerNetSoftwareOid OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "The object identifier of the PowerNet sub-agent." ::= { powerNetSoftwareSystem 2 } -- powerNetSmuxPeer OBJECT IDENTIFIER ::= { powerNetSoftwareOid 1 } -- powerNetDPIPeer OBJECT IDENTIFIER ::= { powerNetSoftwareOid 2 } powerNetSoftwareSystemUpTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The time that the sub-agent has been running." ::= { powerNetSoftwareSystem 3 } -- powerNetSoftwareConfig group powerNetSoftwareTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of software modules supporting the UPS." ::= { powerNetSoftwareConfig 1 } powerNetSoftwareTable OBJECT-TYPE SYNTAX SEQUENCE OF PowerNetSoftwareEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of the software monitoring the UPS." ::= { powerNetSoftwareConfig 2 } powerNetSoftwareEntry OBJECT-TYPE SYNTAX PowerNetSoftwareEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information on a software module." INDEX { moduleNumber } ::= { powerNetSoftwareTable 1 } PowerNetSoftwareEntry ::= SEQUENCE { moduleNumber INTEGER, moduleName DisplayString, moduleVersion DisplayString, moduleDate DisplayString } moduleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index into the Software Entry Table" ::= { powerNetSoftwareEntry 1 } moduleName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..79)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the software module." ::= { powerNetSoftwareEntry 2 } moduleVersion OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-only STATUS mandatory DESCRIPTION "The version of the software module." ::= { powerNetSoftwareEntry 3 } moduleDate OBJECT-TYPE SYNTAX DisplayString (SIZE (0..9)) ACCESS read-only STATUS mandatory DESCRIPTION "The date of the software module represented as mm-dd-yy." ::= { powerNetSoftwareEntry 4 } -- the ups group -- the upsIdent group -- the upsBasicIdent upsBasicIdentModel OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The UPS model name (e.g. 'APC Smart-UPS 600')." ::= { upsBasicIdent 1 } upsBasicIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "An 8 byte ID string identifying the UPS. This object can be set by the administrator." ::= { upsBasicIdent 2 } -- the upsAdvIdent group upsAdvIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the UPS system's microprocessor." ::= { upsAdvIdent 1 } upsAdvIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the UPS was manufactured in mm/dd/yy (or yyyy) format." ::= { upsAdvIdent 2 } upsAdvIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 8-character string identifying the serial number of the UPS internal microprocessor. This number is set at the factory. NOTE: This number does NOT correspond to the serial number on the rear of the UPS." ::= { upsAdvIdent 3 } upsAdvIdentFirmwareRevision2 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of a UPS system co-microprocessor." ::= { upsAdvIdent 4 } upsAdvIdentSkuNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The SKU number of a UPS system." ::= { upsAdvIdent 5 } -- the upsBattery group -- the upsBasicBattery group upsBasicBatteryStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), batteryNormal(2), batteryLow(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the UPS batteries. A batteryLow(3) value indicates the UPS will be unable to sustain the current load, and its services will be lost if power is not restored. The amount of run time in reserve at the time of low battery can be configured by the upsAdvConfigLowBatteryRunTime." ::= { upsBasicBattery 1 } upsBasicBatteryTimeOnBattery OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The elapsed time since the UPS has switched to battery power." ::= { upsBasicBattery 2 } upsBasicBatteryLastReplaceDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The date when the UPS system's batteries were last replaced in mm/dd/yy (or yyyy) format. For Smart-UPS models, this value is originally set in the factory. When the UPS batteries are replaced, this value should be reset by the administrator. For Symmetra PX 250/500 this OID is read only and is configurable in the local display only." ::= { upsBasicBattery 3 } -- the upsAdvBattery group upsAdvBatteryCapacity OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The remaining battery capacity expressed in percent of full capacity." ::= { upsAdvBattery 1 } upsAdvBatteryTemperature OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current internal UPS temperature expressed in Celsius." ::= { upsAdvBattery 2 } upsAdvBatteryRunTimeRemaining OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The UPS battery run time remaining before battery exhaustion." ::= { upsAdvBattery 3 } upsAdvBatteryReplaceIndicator OBJECT-TYPE SYNTAX INTEGER { noBatteryNeedsReplacing(1), batteryNeedsReplacing(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether the UPS batteries need replacing." ::= { upsAdvBattery 4 } upsAdvBatteryNumOfBattPacks OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of external battery packs connected to the UPS. If the UPS does not use smart cells then the agent reports ERROR_NO_SUCH_NAME." ::= { upsAdvBattery 5 } upsAdvBatteryNumOfBadBattPacks OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of external battery packs connected to the UPS that are defective. If the UPS does not use smart cells then the agent reports ERROR_NO_SUCH_NAME." ::= { upsAdvBattery 6 } upsAdvBatteryNominalVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal battery voltage in Volts." ::= { upsAdvBattery 7 } upsAdvBatteryActualVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual battery bus voltage in Volts." ::= { upsAdvBattery 8 } upsAdvBatteryCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery current in Amps." ::= { upsAdvBattery 9 } upsAdvTotalDCCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total DC current in Amps." ::= { upsAdvBattery 10 } upsAdvBatteryFullCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The full chargeable capacity of the battery which is expressed in percentage." ::= { upsAdvBattery 11 } -- Advanced Battery Voltage Table upsAdvBatteryActualVoltageTable OBJECT-TYPE SYNTAX SEQUENCE OF UPSAdvBatteryActualVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of battery table entries. The number of battery frames present in UPS." ::= { upsAdvBattery 12 } upsAdvBatteryActualVoltageEntry OBJECT-TYPE SYNTAX UPSAdvBatteryActualVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information applicable to each of the Battery frames." INDEX { upsAdvBatteryActualVoltageTableIndex } ::= { upsAdvBatteryActualVoltageTable 1 } UPSAdvBatteryActualVoltageEntry ::= SEQUENCE { upsAdvBatteryActualVoltageTableIndex INTEGER, upsAdvBatteryActualVoltagePolarity INTEGER, upsAdvBatteryFrameActualVoltage INTEGER } upsAdvBatteryActualVoltageTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery Frame identifier. Battery Frame index." ::= { upsAdvBatteryActualVoltageEntry 1 } upsAdvBatteryActualVoltagePolarity OBJECT-TYPE SYNTAX INTEGER { positive (0), negative (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The selected Battery Voltage Polarity. 0 indicates positive polarity. 1 indicates negative polarity." ::= { upsAdvBatteryActualVoltageEntry 2 } upsAdvBatteryFrameActualVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual battery bus voltage in Volts." ::= { upsAdvBatteryActualVoltageEntry 3 } -- Advanced TotalDC Current Table upsAdvTotalDCCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF UPSAdvTotalDCCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of Battery Frame table entries. The number of entries is given by the value of Number of Battery Frames." ::= { upsAdvBattery 13 } upsAdvTotalDCCurrentEntry OBJECT-TYPE SYNTAX UPSAdvTotalDCCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular Battery Frame." INDEX { upsAdvTotalDCCurrentTableIndex } ::= { upsAdvTotalDCCurrentTable 1 } UPSAdvTotalDCCurrentEntry ::= SEQUENCE { upsAdvTotalDCCurrentTableIndex INTEGER, upsAdvTotalDCCurrentPolarity INTEGER, upsAdvTotalFrameDCCurrent INTEGER } upsAdvTotalDCCurrentTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery Frame identifier. Total DC Current Table Index." ::= { upsAdvTotalDCCurrentEntry 1 } upsAdvTotalDCCurrentPolarity OBJECT-TYPE SYNTAX INTEGER { positive (0), negative (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The selected Battery Current Polarity. 0 indicates positive polarity. 1 indicates negative polarity." ::= { upsAdvTotalDCCurrentEntry 2 } upsAdvTotalFrameDCCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION " The Total DC Current of battery in Amperes." ::= { upsAdvTotalDCCurrentEntry 3 } -- Advanced Battery Current Table upsAdvBatteryCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF UPSAdvBatteryCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of Battery Frame table entries. The number of entries is given by number of Battery frames present." ::= { upsAdvBattery 14 } upsAdvBatteryCurrentEntry OBJECT-TYPE SYNTAX UPSAdvBatteryCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular battery frame." INDEX { upsAdvBatteryCurrentTableIndex, upsAdvBatteryCurrentIndex } ::= { upsAdvBatteryCurrentTable 1 } UPSAdvBatteryCurrentEntry ::= SEQUENCE { upsAdvBatteryCurrentTableIndex INTEGER, upsAdvBatteryCurrentIndex INTEGER, upsAdvBatteryCurrentPolarity INTEGER, upsAdvBatteryFrameCurrent INTEGER } upsAdvBatteryCurrentTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery Frame identifier. Battery Current Table Index." ::= { upsAdvBatteryCurrentEntry 1 } upsAdvBatteryCurrentIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery frame identifier." ::= { upsAdvBatteryCurrentEntry 2 } upsAdvBatteryCurrentPolarity OBJECT-TYPE SYNTAX INTEGER { positive (0), negative (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The selected Battery current polarity. 0 indicates positive polarity. 1 indicates negative polarity" ::= { upsAdvBatteryCurrentEntry 3 } upsAdvBatteryFrameCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery current measured in Amperes" ::= { upsAdvBatteryCurrentEntry 4 } upsAdvBatteryInternalSKU OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The SKU of the internal battery." ::= { upsAdvBattery 19 } upsAdvBatteryExternalSKU OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The SKU of the external battery." ::= { upsAdvBattery 20 } upsAdvBatteryRecommendedReplaceDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The recommended replacement date for the battery based on the UPS internal battery life algorithm." ::= { upsAdvBattery 21 } -- the upsHighPrecBattery group upsHighPrecBatteryCapacity OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The remaining battery capacity expressed in tenths of percent of full capacity." ::= { upsHighPrecBattery 1 } upsHighPrecBatteryTemperature OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current internal UPS temperature expressed in tenths of degrees Celsius." ::= { upsHighPrecBattery 2 } upsHighPrecBatteryNominalVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal battery voltage in tenths of Volts." ::= { upsHighPrecBattery 3 } upsHighPrecBatteryActualVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual battery bus voltage in tenths of Volts." ::= { upsHighPrecBattery 4 } upsHighPrecBatteryCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The battery current in tenths of Amps." ::= { upsHighPrecBattery 5 } upsHighPrecTotalDCCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total DC current in tenths of Amps." ::= { upsHighPrecBattery 6 } -- High Precision Actual Battery Voltage Table upsHighPrecBatteryActualVoltageTable OBJECT-TYPE SYNTAX SEQUENCE OF UPSHighPrecBatteryActualVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of Battery frame table entries. The number of entries is given by the number of Battery frames." ::= { upsHighPrecBattery 7 } upsHighPrecBatteryActualVoltageEntry OBJECT-TYPE SYNTAX UPSHighPrecBatteryActualVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular battery frame." INDEX { upsHighPrecBatteryActualVoltageTableIndex } ::= { upsHighPrecBatteryActualVoltageTable 1 } UPSHighPrecBatteryActualVoltageEntry ::= SEQUENCE { upsHighPrecBatteryActualVoltageTableIndex INTEGER, upsHighPrecBatteryActualVoltagePolarity INTEGER, upsHighPrecBatteryVoltage INTEGER } upsHighPrecBatteryActualVoltageTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery Frame identifier. High Precision Actual Voltage Table Index." ::= { upsHighPrecBatteryActualVoltageEntry 1 } upsHighPrecBatteryActualVoltagePolarity OBJECT-TYPE SYNTAX INTEGER { positive (0), negative (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The selected Battery Voltage polarity. 0 indicates positive polarity. 1 indicates negative polarity." ::= { upsHighPrecBatteryActualVoltageEntry 2 } upsHighPrecBatteryVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual battery bus voltage expressed as tenths of Volts. " ::= { upsHighPrecBatteryActualVoltageEntry 3 } -- High Precision Total DC Current Table upsHighPrecTotalDCCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF UPSHighPrecTotalDCCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of Battery Frame table entries. The number of entries is given by the number of battery frames." ::= { upsHighPrecBattery 8 } upsHighPrecTotalDCCurrentEntry OBJECT-TYPE SYNTAX UPSHighPrecTotalDCCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular battery frame." INDEX { upsHighPrecTotalDCCurrentTableIndex } ::= { upsHighPrecTotalDCCurrentTable 1 } UPSHighPrecTotalDCCurrentEntry ::= SEQUENCE { upsHighPrecTotalDCCurrentTableIndex INTEGER, upsHighPrecTotalDCCurrentPolarity INTEGER, upsHighPrecTotalDCFrameCurrent INTEGER } upsHighPrecTotalDCCurrentTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery Frame identifier. High precision Total DC Current index." ::= { upsHighPrecTotalDCCurrentEntry 1 } upsHighPrecTotalDCCurrentPolarity OBJECT-TYPE SYNTAX INTEGER { positive (0), negative (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The selected Battery Current polarity. 0 indicates positive polarity. 1 indicates negative polarity." ::= { upsHighPrecTotalDCCurrentEntry 2 } upsHighPrecTotalDCFrameCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total DC current in tenths of Amperes. " ::= { upsHighPrecTotalDCCurrentEntry 3 } -- HighPrec Battery Current Table upsHighPrecBatteryCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF UPSHighPrecBatteryCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of Battery Frame table entries. The number of entries is given by the number of battery frames." ::= { upsHighPrecBattery 9 } upsHighPrecBatteryCurrentEntry OBJECT-TYPE SYNTAX UPSHighPrecBatteryCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular battery frame." INDEX { upsHighPrecBatteryCurrentTableIndex, upsHighPrecBatteryCurrentIndex } ::= { upsHighPrecBatteryCurrentTable 1 } UPSHighPrecBatteryCurrentEntry ::= SEQUENCE { upsHighPrecBatteryCurrentTableIndex INTEGER, upsHighPrecBatteryCurrentIndex INTEGER, upsHighPrecBatteryCurrentPolarity INTEGER, upsHighPrecBatteryFrameCurrent INTEGER } upsHighPrecBatteryCurrentTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery frame identifier. Battery Frame index." ::= { upsHighPrecBatteryCurrentEntry 1 } upsHighPrecBatteryCurrentIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery frame identifier. Battery Index for each frame." ::= { upsHighPrecBatteryCurrentEntry 2 } upsHighPrecBatteryCurrentPolarity OBJECT-TYPE SYNTAX INTEGER { positive (0), negative (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The selected Battery Current polarity. 0 indicates positive polarity. 1 indicates negative polarity." ::= { upsHighPrecBatteryCurrentEntry 3 } upsHighPrecBatteryFrameCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Battery current in tenths of Amperes." ::= { upsHighPrecBatteryCurrentEntry 4 } -- the upsBasicInput group upsBasicInputPhase OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current AC input phase." ::= { upsBasicInput 1 } -- the upsAdvInput group upsAdvInputLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current utility line voltage in VAC." ::= { upsAdvInput 1 } upsAdvInputMaxLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The maximum utility line voltage in VAC over the previous 1 minute period." ::= { upsAdvInput 2 } upsAdvInputMinLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The minimum utility line voltage in VAC over the previous 1 minute period." ::= { upsAdvInput 3 } upsAdvInputFrequency OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current input frequency to the UPS system in Hz." ::= { upsAdvInput 4 } upsAdvInputLineFailCause OBJECT-TYPE SYNTAX INTEGER { noTransfer(1), highLineVoltage(2), brownout(3), blackout(4), smallMomentarySag(5), deepMomentarySag(6), smallMomentarySpike(7), largeMomentarySpike(8), selfTest(9), rateOfVoltageChange(10) } ACCESS read-only STATUS mandatory DESCRIPTION "The reason for the occurrence of the last transfer to UPS battery power. The variable is set to: - noTransfer(1) -- if there is no transfer yet. - highLineVoltage(2) -- if the transfer to battery is caused by an over voltage greater than the high transfer voltage. - brownout(3) -- if the duration of the outage is greater than five seconds and the line voltage is between 40% of the rated output voltage and the low transfer voltage. - blackout(4) -- if the duration of the outage is greater than five seconds and the line voltage is between 40% of the rated output voltage and ground. - smallMomentarySag(5) -- if the duration of the outage is less than five seconds and the line voltage is between 40% of the rated output voltage and the low transfer voltage. - deepMomentarySag(6) -- if the duration of the outage is less than five seconds and the line voltage is between 40% of the rated output voltage and ground. The variable is set to - smallMomentarySpike(7) -- if the line failure is caused by a rate of change of input voltage less than ten volts per cycle. - largeMomentarySpike(8) -- if the line failure is caused by a rate of change of input voltage greater than ten volts per cycle. - selfTest(9) -- if the UPS was commanded to do a self test. - rateOfVoltageChange(10) -- if the failure is due to the rate of change of the line voltage." ::= { upsAdvInput 5 } upsAdvInputNominalFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal input frequency of the UPS system in Hz." ::= { upsAdvInput 6 } upsAdvInputNominalVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal input voltage of the UPS system in VAC." ::= { upsAdvInput 7 } upsAdvInputBypassNominalFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal bypass input frequency of the UPS system in Hz." ::= { upsAdvInput 8 } upsAdvInputBypassNominalVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal bypass input voltage of the UPS system in VAC." ::= { upsAdvInput 9 } upsAdvInputStatisticsTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsAdvInputStatisticsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the value of upsPhaseNumInputs." ::= { upsAdvInput 10 } upsAdvInputStatisticsEntry OBJECT-TYPE SYNTAX UpsAdvInputStatisticsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input." INDEX { upsAdvInputStatisticsIndex } ::= { upsAdvInputStatisticsTable 1 } UpsAdvInputStatisticsEntry ::= SEQUENCE { upsAdvInputStatisticsIndex INTEGER, upsAdvInputApparentPower INTEGER, upsAdvInputVoltageTHD INTEGER, upsAdvInputBypassVoltageTHD INTEGER, upsAdvInputPeakCurrent INTEGER, upsAdvInputBypassPeakCurrent INTEGER } upsAdvInputStatisticsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { upsAdvInputStatisticsEntry 1 } upsAdvInputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input apparent power(sum of all of the three phases) measured in kVA." ::= { upsAdvInputStatisticsEntry 2 } upsAdvInputVoltageTHD OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage Total Harmonic Distortion in percent." ::= { upsAdvInputStatisticsEntry 3 } upsAdvInputBypassVoltageTHD OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The bypass input voltage Total Harmonic Distortion in percent." ::= { upsAdvInputStatisticsEntry 4 } upsAdvInputPeakCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input peak current in Amperes." ::= { upsAdvInputStatisticsEntry 5 } upsAdvInputBypassPeakCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The bypass input peak current in Amperes." ::= { upsAdvInputStatisticsEntry 6 } -- the upsHighPrecInput group upsHighPrecInputLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current utility line voltage in tenths of VAC." ::= { upsHighPrecInput 1 } upsHighPrecInputMaxLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The maximum utility line voltage in tenths of VAC over the previous 1 minute period." ::= { upsHighPrecInput 2 } upsHighPrecInputMinLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The minimum utility line voltage in tenths of VAC over the previous 1 minute period." ::= { upsHighPrecInput 3 } upsHighPrecInputFrequency OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current input frequency to the UPS system in tenths of Hz." ::= { upsHighPrecInput 4 } -- the upsBasicOutput group upsBasicOutputStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), onLine(2), onBattery(3), onSmartBoost(4), timedSleeping(5), softwareBypass(6), off(7), rebooting(8), switchedBypass(9), hardwareFailureBypass(10), sleepingUntilPowerReturn(11), onSmartTrim(12), ecoMode(13), hotStandby(14), onBatteryTest(15) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the UPS. If the UPS is unable to determine the state of the UPS this variable is set to unknown(1)." ::= { upsBasicOutput 1 } upsBasicOutputPhase OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current output phase." ::= { upsBasicOutput 2 } upsBasicSystemStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), onLine(2), onBattery(3), onSmartBoost(4), timedSleeping(5), softwareBypass(6), off(7), rebooting(8), switchedBypass(9), hardwareFailureBypass(10), sleepingUntilPowerReturn(11), onSmartTrim(12), ecoMode(13) } ACCESS read-only STATUS mandatory DESCRIPTION "Current state for the whole system (UPS and surrounding breakers) If unable to determine the state of the system this variable is set to unknown(1)." ::= { upsBasicOutput 3 } upsBasicSystemInternalTemperature OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual internal temperature of the UPS system in Celsius." ::= { upsBasicOutput 4 } -- the upsAdvOutput group upsAdvOutputVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage of the UPS system in VAC." ::= { upsAdvOutput 1 } upsAdvOutputFrequency OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current output frequency of the UPS system in Hz." ::= { upsAdvOutput 2 } upsAdvOutputLoad OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current UPS load expressed in percent of rated capacity." ::= { upsAdvOutput 3 } upsAdvOutputCurrent OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current in amperes drawn by the load on the UPS." ::= { upsAdvOutput 4 } upsAdvOutputRedundancy OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of power modules which can fail or be removed without causing the UPS to generate a Minimum Redundancy Lost event." ::= { upsAdvOutput 5 } upsAdvOutputKVACapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum load that this UPS can support." ::= { upsAdvOutput 6 } upsAdvOutputNominalFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal output frequency of the UPS system in Hz." ::= { upsAdvOutput 7 } upsAdvOutputActivePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total output active power of the UPS system in W. The total active power is the sum of phase 1, phase 2 and phase 3 power." ::= { upsAdvOutput 8 } upsAdvOutputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total output apparent power of all phases of the UPS system in VA." ::= { upsAdvOutput 9 } upsAdvOutputStatisticsTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsAdvOutputStatisticsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the value of upsPhaseNumOutputs." ::= { upsAdvOutput 10 } upsAdvOutputStatisticsEntry OBJECT-TYPE SYNTAX UpsAdvOutputStatisticsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { upsAdvOutputStatisticsIndex } ::= { upsAdvOutputStatisticsTable 1 } UpsAdvOutputStatisticsEntry ::= SEQUENCE { upsAdvOutputStatisticsIndex INTEGER, upsAdvOutputPeakCurrent INTEGER, upsAdvOutputCurrentTHD INTEGER, upsAdvOutputCrestFactor INTEGER } upsAdvOutputStatisticsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { upsAdvOutputStatisticsEntry 1 } upsAdvOutputPeakCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output peak current in Amperes." ::= { upsAdvOutputStatisticsEntry 2 } upsAdvOutputCurrentTHD OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current Total Harmonic Distortion in percent." ::= { upsAdvOutputStatisticsEntry 3 } upsAdvOutputCrestFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current crest factor expressed in tenths." ::= { upsAdvOutputStatisticsEntry 4 } -- the upsHighPrecOutput group upsHighPrecOutputVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage of the UPS system in tenths of VAC." ::= { upsHighPrecOutput 1 } upsHighPrecOutputFrequency OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current output frequency of the UPS system in tenths of Hz." ::= { upsHighPrecOutput 2 } upsHighPrecOutputLoad OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current UPS load expressed in tenths of percent of rated capacity." ::= { upsHighPrecOutput 3 } upsHighPrecOutputCurrent OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current in tenths of amperes drawn by the load on the UPS." ::= { upsHighPrecOutput 4 } upsHighPrecOutputEfficiency OBJECT-TYPE SYNTAX Integer32 ACCESS read-only STATUS mandatory DESCRIPTION "The efficiency of the UPS in tenths of percent. Result is -1 if UPS supports this oid but the result is not available." ::= { upsHighPrecOutput 5 } upsHighPrecOutputEnergyUsage OBJECT-TYPE SYNTAX Unsigned32 ACCESS read-only STATUS mandatory DESCRIPTION "The output energy usage of the UPS in hundredths of kWh." ::= { upsHighPrecOutput 6 } -- the upsBasicConfig group upsBasicConfigNumDevices OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of devices that are plugged into the UPS. This value is customer configurable from the device entry table" ::= { upsBasicConfig 1 } upsBasicConfigDeviceTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsBasicConfigDeviceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of devices that are plugged into the UPS. The number of entries is given by the value of upsBasicConfigNumDevices." ::= { upsBasicConfig 2 } upsBasicConfigDeviceEntry OBJECT-TYPE SYNTAX UpsBasicConfigDeviceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The devices plugged in to the UPS." INDEX { deviceIndex } ::= { upsBasicConfigDeviceTable 1 } UpsBasicConfigDeviceEntry ::= SEQUENCE { deviceIndex INTEGER, deviceName DisplayString, vaRating INTEGER, acceptThisDevice INTEGER } deviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the device that is plugged into the UPS." ::= { upsBasicConfigDeviceEntry 1 } deviceName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name/description of the device plugged into the UPS." ::= { upsBasicConfigDeviceEntry 2 } vaRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The volt-amp rating of the device plugged into the UPS." ::= { upsBasicConfigDeviceEntry 3 } acceptThisDevice OBJECT-TYPE SYNTAX INTEGER { yes(1), no(2) } ACCESS read-write STATUS mandatory DESCRIPTION "An entry is added if yes, the entry is deleted if no." ::= { upsBasicConfigDeviceEntry 4 } -- the upsAdvConfig group upsAdvConfigRatedOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The nominal output voltage from the UPS in VAC. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { upsAdvConfig 1 } upsAdvConfigHighTransferVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum line voltage in VAC allowed before the UPS system transfers to battery backup. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 2 } upsAdvConfigLowTransferVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum line voltage in VAC allowed before the UPS system transfers to battery backup. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { upsAdvConfig 3 } upsAdvConfigAlarm OBJECT-TYPE SYNTAX INTEGER { timed(1), atLowBattery(2), never(3), mute(4) } ACCESS read-write STATUS mandatory DESCRIPTION "A flag indicating how the UPS should handle audible line fail alarms: timed(1): UPS alarm will sound after a preset timed duration starting from the line fail condition (see OID upsAdvConfigAlarmTimer for the alarm timer value) atLowBattery(2): UPS alarm will sound when the UPS has reached a Low Battery condition during a line fail never(3): Disables the UPS audible alarm mute(4): Mutes the current alarm for some UPSs only when it is in an alarm state and will return to the previously configured option when the UPS recovers from the alarm condition" ::= { upsAdvConfig 4 } upsAdvConfigAlarmTimer OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The time after initial line failure at which the UPS begins emitting audible alarms (beeping). This timer is observed only if the value of extControlAlarm is timed(2). Allowed values are 0 or 30 seconds. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { upsAdvConfig 5 } upsAdvConfigMinReturnCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum battery capacity required before the UPS will return from a low battery shutdown condition. The capacity is measured from 0% battery capacity (or Low Battery) as a percent of full capacity (100%). In other words, the UPS will not re-energize the output until the battery has charged so that its' capacity is equal to this value. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 6 } upsAdvConfigSensitivity OBJECT-TYPE SYNTAX INTEGER { auto(1), low(2), medium(3), high(4) } ACCESS read-write STATUS mandatory DESCRIPTION "The sensitivity of the UPS to utility line abnormalities or noises." ::= { upsAdvConfig 7 } upsAdvConfigLowBatteryRunTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The desired run time of the UPS, in seconds, once the low battery condition is reached. During this time the UPS will produce a constant warning tone which can not be disabled. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets the value as the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 8 } upsAdvConfigReturnDelay OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The delay in seconds after utility line power returns before the UPS will turn on. This value is also used when the UPS comes out of a reboot and before the UPS wakes up from 'sleep' mode. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 9 } upsAdvConfigShutoffDelay OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The delay in seconds the UPS remains on after being told to turn off. For a list of allowed values supported by your UPS model, see the UPS User's Manual. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 10 } upsAdvConfigUpsSleepTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The time in seconds for the UPS to go to 'sleep' when instructed. When in sleep mode, the UPS will not provide output power regardless of the input line state. Once the specified time has elapsed, output power will be restored. This is a configuration setting. The UPS will not go to sleep until told to do so by the manager from a management station. Any input value is allowed, however the UPS only recognizes 1/10 of an hour increments. The provided value will be rounded to the closest 1/10 of an hour with one exception: Any value entered between 1 and 540 seconds will be rounded to 360 seconds (or 6 minutes)." ::= { upsAdvConfig 11 } upsAdvConfigSetEEPROMDefaults OBJECT-TYPE SYNTAX INTEGER { noSetEEPROMDefaults(1), setEEPROMDefaults(2) } ACCESS read-write STATUS mandatory DESCRIPTION "WRITE: Resets the UPS EEPROM variables to default values. READ: returns 0" ::= { upsAdvConfig 12 } upsAdvConfigDipSwitchTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsAdvConfigDipSwitchEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Current settings of UPS dip switches." ::= { upsAdvConfig 13 } upsAdvConfigDipSwitchEntry OBJECT-TYPE SYNTAX UpsAdvConfigDipSwitchEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The current setting of one dip switch." INDEX { dipSwitchIndex } ::= { upsAdvConfigDipSwitchTable 1 } UpsAdvConfigDipSwitchEntry ::= SEQUENCE { dipSwitchIndex INTEGER, dipSwitchStatus INTEGER } dipSwitchIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of a UPS dip switch." ::= { upsAdvConfigDipSwitchEntry 1 } dipSwitchStatus OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The setting of a UPS dip switch." ::= { upsAdvConfigDipSwitchEntry 2 } upsAdvConfigBattExhaustThresh OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The number of seconds prior to battery exhaustion when the UPS will switch off power to its load." ::= { upsAdvConfig 14 } upsAdvConfigPassword OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The password entered at the UPS front panel to enable local configuration of the EEProm. If the password is disabled or is not supported, then the agent returns a null string." ::= { upsAdvConfig 15 } upsAdvConfigAllowedSetTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsAdvConfigAllowedSetEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table listing the allowed values for all discrete configurable UPS variables." ::= { upsAdvConfig 16 } upsAdvConfigAllowedSetEntry OBJECT-TYPE SYNTAX UpsAdvConfigAllowedSetEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table entry for a configurable UPS variable." INDEX { apcUpsConfigFieldIndex } ::= { upsAdvConfigAllowedSetTable 1 } UpsAdvConfigAllowedSetEntry ::= SEQUENCE { apcUpsConfigFieldIndex INTEGER, apcUpsConfigFieldOID OBJECT IDENTIFIER, apcUpsConfigFieldValueRange DisplayString } apcUpsConfigFieldIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to an eeprom field entry." ::= { upsAdvConfigAllowedSetEntry 1 } apcUpsConfigFieldOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "The OID of the current configurable value." ::= { upsAdvConfigAllowedSetEntry 2 } apcUpsConfigFieldValueRange OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The discrete set of allowed values of a configurable register. Individual values are delimited by a comma." ::= { upsAdvConfigAllowedSetEntry 3 } upsAdvConfigBattCabAmpHour OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure the amp-hour setting of the UPS battery cabinet." ::= { upsAdvConfig 17 } upsAdvConfigPositionSelector OBJECT-TYPE SYNTAX INTEGER { unknown (1), rack (2), tower (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure UPS position selector. If the UPS doesn't support this configuration it will report unknown (1). The positions are either rack (2) for rack mounted or tower (3) for tower unit." ::= { upsAdvConfig 18 } upsAdvConfigOutputFreqRange OBJECT-TYPE SYNTAX INTEGER { unknown (1), freqRangeAUTO (2), freqRange60Var1 (3), freqRange60Var3 (4), freqRange50Var1 (5), freqRange50Var3 (6), freqRange60Var10 (7), freqRange50Var10 (8), freqRange60Var1dot0 (9), freqRange50Var1dot0 (10), freqRange50Pct0dot5 (11), freqRange50Pct1 (12), freqRange50Pct2 (13), freqRange50Pct4 (14), freqRange50Pct6 (15), freqRange50Pct8 (16), freqRange60Pct0dot5 (17), freqRange60Pct1 (18), freqRange60Pct2 (19), freqRange60Pct4 (20), freqRange60Pct6 (21), freqRange60Pct8 (22) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the output frequency tolerance range. unknown(1) indicates the output frequency is unknown. freqRangeAUTO(2) configure the output frequency range for automatic. freqRange60Var1(3) configure the output frequency range for 60 +/- 0.1 Hz freqRange60Var3(4) configure the output frequency range for 60 +/- 3.0 Hz freqRange50Var1(5) configure the output frequency range for 50 +/- 0.1 Hz freqRange50Var3(6) configure the output frequency range for 50 +/- 3.0 Hz freqRange60Var10(7) configure the output frequency range for 60 +/- 10 Hz freqRange50Var10(8) configure the output frequency range for 50 +/- 10 Hz freqRange60Var1dot0(9) configure the output frequency range for 60 +/- 1.0 Hz freqRange50Var1dot0(10) configure the output frequency range for 50 +/- 1.0 Hz freqRange50Pct0dot5(11) configure the output frequency range for 50 Hz +/- 0.5 % freqRange50Pct1(12) configure the output frequency range for 50 Hz +/- 1.0 % freqRange50Pct2(13) configure the output frequency range for 50 Hz +/- 2.0 % freqRange50Pct4(14) configure the output frequency range for 50 Hz +/- 4.0 % freqRange50Pct6(15) configure the output frequency range for 50 Hz +/- 6.0 % freqRange50Pct8(16) configure the output frequency range for 50 Hz +/- 8.0 % freqRange60Pct0dot5(17) configure the output frequency range for 60 Hz +/- 0.5 % freqRange60Pct1(18) configure the output frequency range for 60 Hz +/- 1.0 % freqRange60Pct2(19) configure the output frequency range for 60 Hz +/- 2.0 % freqRange60Pct4(20) configure the output frequency range for 60 Hz +/- 4.0 % freqRange60Pct6(21) configure the output frequency range for 60 Hz +/- 6.0 % freqRange60Pct8(22) configure the output frequency range for 60 Hz +/- 8.0 % For a list of allowed values and conditions when variable can be set by your UPS model, see the UPS User's Manual." ::= { upsAdvConfig 19 } upsAdvConfigUPSFail OBJECT-TYPE SYNTAX INTEGER { unknown (1), gotoBypass (2), dropLoad (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the UPS fail action. If UPS fails, and frequency or voltage is out of range it will either GotoBypass (2) or DropLoad (3). This OID will report unknown (1) if it is not supported feature or option." ::= { upsAdvConfig 20 } upsAdvConfigAlarmRedundancy OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure settings of UPS alarm if the redundancy is under the current redundancy. Use 0 for never." ::= { upsAdvConfig 21 } upsAdvConfigAlarmLoadOver OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure settings of UPS alarm if the load is over the current load in kVA. Use -1 for never." ::= { upsAdvConfig 22 } upsAdvConfigAlarmRuntimeUnder OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure settings of UPS alarm if the runtime is under the current time of minutes. Use -1 for never." ::= { upsAdvConfig 23 } upsAdvConfigVoutReporting OBJECT-TYPE SYNTAX INTEGER { unknown (1), voutAUTO (2), vout208 (3), vout240 (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the way the UPS scales its output voltage readings. unknown(1) indicates the Vout Reporting is unknown. voutAUTO(2) configure the Vout Reporting for automatic scaling. vout208(3) configure the Vout Reporting for 208 Volts. vout240(4) configure the Vout Reporting for 240 Volts." ::= { upsAdvConfig 24 } upsAdvConfigNumExternalBatteries OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure the number of external batteries connected to the UPS." ::= { upsAdvConfig 25 } upsAdvConfigSimpleSignalShutdowns OBJECT-TYPE SYNTAX INTEGER { unknown (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure Simple Signal shutdown commands from the Simple Signal port to be issued to the UPS. unknown(1) indicates the Simple Signal Shutdown setting is unknown. disabled(2) configure to disable Simple Signal Shutdowns. enabled(3) configure to enable Simple Signal Shutdowns." ::= { upsAdvConfig 26 } upsAdvConfigMaxShutdownTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum amount of time for server shutdown to complete before a UPS shutdown occurs." ::= { upsAdvConfig 27 } upsAsiUpsControlServerRequestShutdown OBJECT-TYPE SYNTAX INTEGER { serverShutdownOff (1), serverShutdownReboot (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Start a server shutdown sequence: serverShutdownOff: Shutdown server and turn off UPS serverShutdownReboot: Shutdown server and turn reboot UPS." ::= { upsAdvConfig 28 } upsAdvConfigMinReturnRuntime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The minimum amount of run time in seconds required before the output will be turned on, using power calculation captured at start of last shutdown." ::= { upsAdvConfig 29 } upsAdvConfigBasicSignalLowBatteryDuration OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The duration of runtime in seconds during an on-battery condition at which the UPS will signal the basic low battery shutdown condition." ::= { upsAdvConfig 30 } upsAdvConfigBypassPhaseLockRequired OBJECT-TYPE SYNTAX INTEGER { unknown (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Sets the condition for when bypass is an acceptable mode of operation as a requirement." ::= { upsAdvConfig 31 } upsAdvConfigOutputFreqSlewRate OBJECT-TYPE SYNTAX INTEGER { unknown (1), slewRateQuarterHzPerSec (2), slewRateHalfHzPerSec (3), slewRate1HzPerSec (4), slewRate2HzPerSec (5), slewRate4HzPerSec (6), slewRate6HzPerSec (7) } ACCESS read-write STATUS mandatory DESCRIPTION "The rate at which the UPS will change its output frequency in response to utility frequency changes." ::= { upsAdvConfig 32 } upsAdvConfigChargerLevel OBJECT-TYPE SYNTAX INTEGER { unknown (1), low (2), high (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Sets the rate at which the UPS charges its batteries." ::= { upsAdvConfig 33 } upsAdvConfigBypassToleranceSetting OBJECT-TYPE SYNTAX INTEGER { unknown (1), wide (2), medium (3), narrow (4), custom (5) } ACCESS read-write STATUS mandatory DESCRIPTION "This setting allows selecting from standard bypass tolerance configurations to suit their situation." ::= { upsAdvConfig 34 } upsAdvConfigMainsSetting OBJECT-TYPE SYNTAX INTEGER { singleInput (1), dualInput (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Configure the type of mains supply system. singleInput (1) indicates a single supply system. dualInput (2) indicates a dual supply system. " ::= { upsAdvConfig 35 } upsAdvConfigACWiringSetting OBJECT-TYPE SYNTAX INTEGER { threeWire (1), fourWire (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Configure the AC wiring of the system. threeWire (1) indicates 3-wire system configuration. fourWire (2) indicates 4-wire system configuration. " ::= { upsAdvConfig 36 } upsAdvConfigUpperOutputVoltTolerance OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Upper tolerance of the output RMS voltage before transferring to bypass. Expressed as percent of nominal voltage." ::= { upsAdvConfig 37 } upsAdvConfigLowerOutputVoltTolerance OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Lower tolerance of the output RMS voltage before transferring to bypass. Expressed as percent of nominal voltage." ::= { upsAdvConfig 38 } upsAdvConfigUpperBypassVoltTolerance OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Upper tolerance of the bypass voltage that allows transfer to bypass by user. Expressed as percent of nominal voltage." ::= { upsAdvConfig 39 } upsAdvConfigLowerBypassVoltTolerance OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "Lower tolerance of the bypass voltage that allows transfer to bypass by user. Expressed as percent of nominal voltage." ::= { upsAdvConfig 40 } upsAdvConfigOutofSyncBypassTransferDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure the time (in milliseconds), indicating the gap in output voltage if an asynchronous transfer to bypass needs to occur." ::= { upsAdvConfig 41 } upsAdvConfigWarningAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure the time delay for reporting warning alarms (in seconds)." ::= { upsAdvConfig 43 } upsAdvConfigInformationalAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Configure the time delay for reporting informational alarms (in seconds)." ::= { upsAdvConfig 44 } upsAdvConfigGreenMode OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/Disable UPS green mode feature." ::= { upsAdvConfig 45 } upsAdvConfigLCDLocalLanguage OBJECT-TYPE SYNTAX INTEGER { english (1), french (2), italian (3), german (4), spanish (5), portuguese (6), japanese (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the language setting of the UPS LCD display information." ::= { upsAdvConfig 46 } upsAdvConfigLCDLockOut OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/Disable the control function of the UPS via the LCD Display." ::= { upsAdvConfig 47 } upsAdvConfigChargerRate OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Change the maximum allowed UPS charge rate on select products where 100% represents the manufacturer's recommended rate. A charge/discharge rate of C/10 for a 10 Ah battery would be 1 where C is defined as the charge or discharge rate equal to the capacity of a battery divided by 1 hour. To increase the charge rate by a factor of 2 to C/5, this oid would be set to 200%. This number would not change when external packs are added or removed. Charging at too high a rate can result in boiling and/or venting of electrolyte and/or high gas pressure." ::= { upsAdvConfig 48 } upsAdvConfigBatterySelection OBJECT-TYPE SYNTAX INTEGER { vrla (1), ventedcell (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the installed battery type on select products where VRLA is Valve Regulated Lead Acid type battery and Vented Cell is a wet cell type (car) battery." ::= { upsAdvConfig 49 } -- the upsSyncCtrlGroupConfig group upsSCGMembershipGroupNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The SCG Membership Group number (MGN) is a 16-bit number allowing up to 65534 separate groups that can be identified and distinguished per IP subnet. Zero and 65535 are not used. The MGN is used in all communication between members of the SCG and a Network Management Card (NMC) will listen and only respond to commands sent to it using its configured SCG ID." ::= { upsSyncCtrlGroupConfig 1 } upsSCGActiveMembershipStatus OBJECT-TYPE SYNTAX INTEGER { enabledSCG (1), disabledSCG (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Membership in the configured SCG can be enabled and disabled. If an NMC is configured for an SCG, but has its membership disabled, all synchronized control commands received will be ignored." ::= { upsSyncCtrlGroupConfig 2 } upsSCGPowerSynchronizationDelayTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Power Synchronization Delay Time (PSD) setting is the maximum number of seconds an SCG Initiator will wait for all SCG members to recover utility power before completing the reboot sequence of a reboot or sleep command. If all SCG members are ready to proceed, no additional delay is introduced." ::= { upsSyncCtrlGroupConfig 3 } upsSCGReturnBatteryCapacityOffset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A reboot command uses the Initiator's Return battery Capacity (RBC) to control when the SCG completes this operation. In a Normal Control Operation (NCC) the UPS will only complete the reboot if RBC is reached. Due to normal battery charge rate variations it may be desirable for the Followers to complete the reboot if they are within some range of the Initiator's RBC when the Initiator is prepared (charged to RBC) to complete the reboot. The Return Battery Capacity Offset (RBCO) defines a percent battery capacity subtracted from an RBC above which a Follower's battery must be charged for it to complete a reboot. For example, if the Initiator's RBC is 50% and the Initiator's RBCO is 5% then a Follower's battery capacity is within range if it is greater or equal to 45% (50% - 5%) at the time when the Initiator tries to complete the reboot command. The default RBCO is 10%. " ::= { upsSyncCtrlGroupConfig 4 } upsSCGMultiCastIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The MultiCast IP address of the SCG Group." ::= { upsSyncCtrlGroupConfig 5 } -- the upsSyncCtrlGroupStatus group upsSCGNumOfGroupMembers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active, communicating members in the Sync Control Group (SCG). This variable indicates the number of rows in the SCG Status Table." ::= { upsSyncCtrlGroupStatus 1 } -- Sync Control Group Status Table upsSCGStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsSCGStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of SCG status table entries. The number of entries is given by the value of upsSCGNumOfGroupMembers." ::= { upsSyncCtrlGroupStatus 2 } upsSCGStatusEntry OBJECT-TYPE SYNTAX UpsSCGStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular SCG Member." INDEX { upsSCGStatusTableIndex } ::= { upsSCGStatusTable 1 } UpsSCGStatusEntry ::= SEQUENCE { upsSCGStatusTableIndex INTEGER, upsSCGMemberIP IpAddress, upsSCGACInputStatus INTEGER, upsSCGACOutputStatus INTEGER } upsSCGStatusTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of a status entry for an active, communicating SCG member." ::= { upsSCGStatusEntry 1 } upsSCGMemberIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address of an active, communicating SCG Member." ::= { upsSCGStatusEntry 2 } upsSCGACInputStatus OBJECT-TYPE SYNTAX INTEGER { acInGood(1), acInBad(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This OID indicates the AC Input Status of the SCG Member. acInGood(1) indicates the AC Input is within tolerance. acInBad(2) indicates the AC Input is not within tolerance." ::= { upsSCGStatusEntry 3 } upsSCGACOutputStatus OBJECT-TYPE SYNTAX INTEGER { acOutOn(1), acOutOff(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This OID indicates the AC Output Status of the SCG Member. acOutOn(1) indicates the UPS output is providing power to the load. acOutOff(2) indicates the UPS output is not providing power to the load. " ::= { upsSCGStatusEntry 4 } -- the upsBasicState group upsBasicStateOutputState OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 64 flags representing the current state(s) of the UPS. If the Network Card is unable to determine the state of the UPS, this variable is set to 'UNKNOWN'. The flags are numbered 1 to 64, read from left to right. The flags are defined as follows: Flag 1: Abnormal Condition Present Flag 2: On Battery Flag 3: Low Battery Flag 4: On Line Flag 5: Replace Battery Flag 6: Serial Communication Established Flag 7: AVR Boost Active Flag 8: AVR Trim Active Flag 9: Overload Flag 10: Runtime Calibration Flag 11: Batteries Discharged Flag 12: Manual Bypass Flag 13: Software Bypass Flag 14: In Bypass due to Internal Fault Flag 15: In Bypass due to Supply Failure Flag 16: In Bypass due to Fan Failure Flag 17: Sleeping on a Timer Flag 18: Sleeping until Utility Power Returns Flag 19: On Flag 20: Rebooting Flag 21: Battery Communication Lost Flag 22: Graceful Shutdown Initiated Flag 23: Smart Boost or Smart Trim Fault Flag 24: Bad Output Voltage Flag 25: Battery Charger Failure Flag 26: High Battery Temperature Flag 27: Warning Battery Temperature Flag 28: Critical Battery Temperature Flag 29: Self Test In Progress Flag 30: Low Battery / On Battery Flag 31: Graceful Shutdown Issued by Upstream Device Flag 32: Graceful Shutdown Issued by Downstream Device Flag 33: No Batteries Attached Flag 34: Synchronized Command is in Progress Flag 35: Synchronized Sleeping Command is in Progress Flag 36: Synchronized Rebooting Command is in Progress Flag 37: Inverter DC Imbalance Flag 38: Transfer Relay Failure Flag 39: Shutdown or Unable to Transfer Flag 40: Low Battery Shutdown Flag 41: Electronic Unit Fan Failure Flag 42: Main Relay Failure Flag 43: Bypass Relay Failure Flag 44: Temporary Bypass Flag 45: High Internal Temperature Flag 46: Battery Temperature Sensor Fault Flag 47: Input Out of Range for Bypass Flag 48: DC Bus Overvoltage Flag 49: PFC Failure Flag 50: Critical Hardware Fault Flag 51: Green Mode/ECO Mode Flag 52: Hot Standby Flag 53: Emergency Power Off (EPO) Activated Flag 54: Load Alarm Violation Flag 55: Bypass Phase Fault Flag 56: UPS Internal Communication Failure Flag 57: <Not Used> Flag 58: <Not Used> Flag 59: <Not Used> Flag 60: <Not Used> Flag 61: <Not Used> Flag 62: <Not Used> Flag 63: <Not Used> Flag 64: <Not Used>" ::= { upsBasicState 1 } -- the upsAdvState group upsAdvStateAbnormalConditions OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 32 flags representing the current active UPS faults. If the Network Card is unable to determine the values of the flags, this variable is set to 'UNKNOWN'. If this variable is not supported by the connected UPS, this variable is set to 'NOT SUPPORTED'. The flags are numbered from 1 to 32, and read from left to right. The flags are defined as follows: Flag 1: Power Module Failure Flag 2: Main Intelligence Module Failure Flag 3: Redundant Intelligence Module Failure Flag 4: Battery Failure Flag 5: Load(kVA) Alarm Threshold Violation Flag 6: Redundancy Lost Flag 7: Redundancy Below Alarm Threshold Flag 8: Bypass not in Range; Either Frequency or Voltage Flag 9: Bypass Contactor Stuck in Bypass Condition Flag 10: Bypass Contactor Stuck in On-Line Condition Flag 11: In Bypass due to an Internal Fault Flag 12: In Bypass due to an Overload Flag 13: In Maintenance Bypass Flag 14: Input Circuit Braker Tripped Open Flag 15: System Level Fan Failure Flag 16: Redundant Intelligent Module in Control Flag 17: IIC Inter-Module Communication Failure Flag 18: No Working Power Modules Flag 19: Load Shutdown From Bypass; Input Frequency Flag 20: Runtime Below Alarm Threshold Flag 21: Extended Run Frame Fault Flag 22: Output Voltage out of Range Flag 23: UPS Not Synchronized Flag 24: No Batteries Installed Flag 25: Battery Voltage High Flag 26: UPS Specific Fault Detected Flag 27: Site Wiring Fault Flag 28: Backfeed Protection Relay Opened Flag 29: <Not Used> Flag 30: <Not Used> Flag 31: <Not Used> Flag 32: <Not Used>" ::= { upsAdvState 1 } upsAdvStateSymmetra3PhaseSpecificFaults OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 64 flags representing the current active UPS specific faults for the Symmetra 3-Phase UPS models. If the Network Card is unable to determine the values of the flags, this variable is set to 'UNKNOWN'. If the connected UPS does not use this variable, it is set to 'NOT SUPPORTED'. The flags are numbered from 1 to 64, and read from left to right. The bits are defined as follows: Flag 1: External Switch Gear Failure Flag 2: External Transformer Over Temperature Flag 3: External DC Circuit Breaker Tripped Flag 4: System Power Supply Failure Flag 5: Battery Monitor Card Failure Flag 6: Battery Monitor Card Removed Flag 7: XR Communication Card Failure Flag 8: XR Communication Card Removed Flag 9: External Switch Gear Monitoring Card Failure Flag 10: External Switch Gear Monitoring Card Removed Flag 11: Internal DC Circuit Breaker Tripped Flag 12: Static Bypass Switch Failure Flag 13: System EEPROM Removed Flag 14: System EEPROM Failure Flag 15: UPS in Forced Bypass Flag 16: Static Bypass Switch Module Removed Flag 17: System Start-Up Configuration Fault Flag 18: Battery Charger Shutdown Externally Flag 19: <Not Used> Flag 20: <Not Used> Flag 21: <Not Used> Flag 22: <Not Used> Flag 23: <Not Used> Flag 24: <Not Used> Flag 25: <Not Used> Flag 26: <Not Used> Flag 27: <Not Used> Flag 28: <Not Used> Flag 29: <Not Used> Flag 30: <Not Used> Flag 31: <Not Used> Flag 32: <Not Used> Flag 33: <Not Used> Flag 34: <Not Used> Flag 35: <Not Used> Flag 36: <Not Used> Flag 37: <Not Used> Flag 38: <Not Used> Flag 39: <Not Used> Flag 40: <Not Used> Flag 41: <Not Used> Flag 42: <Not Used> Flag 43: <Not Used> Flag 44: <Not Used> Flag 45: <Not Used> Flag 46: <Not Used> Flag 47: <Not Used> Flag 48: <Not Used> Flag 49: <Not Used> Flag 50: <Not Used> Flag 51: <Not Used> Flag 52: <Not Used> Flag 53: <Not Used> Flag 54: <Not Used> Flag 55: <Not Used> Flag 56: <Not Used> Flag 57: <Not Used> Flag 58: <Not Used> Flag 59: <Not Used> Flag 60: <Not Used> Flag 61: <Not Used> Flag 62: <Not Used> Flag 63: <Not Used> Flag 64: <Not Used>" ::= { upsAdvState 2 } upsAdvStateDP300ESpecificFaults OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 64 flags representing the current active UPS specific faults for the Silcon DP300E UPS models. If the Network Card is unable to determine the values of the flags, this variable is set to 'UNKNOWN'. If the connected UPS does not use this variable, it is set to 'NOT SUPPORTED'. The flags are numbered from 1 to 64, and read from left to right. The bits are defined as follows: Flag 1: Peak Current Limiter Active Flag 2: Bypass Power Supply Fault Flag 3: Delta Current Limiter Active Flag 4: Fan Fault Flag 5: High DC warning Flag 6: Inverter Voltage Error Flag 7: Parallel Synchronization Error Flag 8: Second Power Supply Fault Flag 9: Internal Power Supply Fault Flag 10: <Not Used> Flag 11: <Not Used> Flag 12: <Not Used> Flag 13: <Not Used> Flag 14: Bypass Static Switch High Temperature Flag 15: High Battery Temperature Flag 16: Battery Weak Flag 17: <Not Used> Flag 18: System Locked in Operation Mode Flag 19: RAM1 Memory Write Error Flag 20: Memory Write Error Flag 21: Communication to VQ Bypass Lost Flag 22: Communication to VQ Output Lost Flag 23: Communication to DMU Lost Flag 24: Communication to Controller Lost Flag 25: Communication to Parallel IF Lost Flag 26: External Shutdown Accepted Flag 27: DC Capacitor Charge Error Flag 28: Communication to VQ Mains Lost Flag 29: Bypass Synchronization Error Flag 30: Charge Error Flag 31: SII Aux Input Activiated Flag 32: <Not Used> Flag 33: Blown Inverter Fuse Flag 34: Blown Rectifier Fuse Flag 35: Auxilliary 1 Fault Flag 36: <Not Used> Flag 37: <Not Used> Flag 38: <Not Used> Flag 39: <Not Used> Flag 40: <Not Used> Flag 41: <Not Used> Flag 42: <Not Used> Flag 43: <Not Used> Flag 44: <Not Used> Flag 45: <Not Used> Flag 46: High Temperature Charger Magnetic Flag 47: <Not Used> Flag 48: Battery Monitor Warning Flag 49: Battery Monitor Alarm Flag 50: <Not Used> Flag 51: <Not Used> Flag 52: <Not Used> Flag 53: TSM 1/2/3 Temperature Shutdown Flag 54: Charger 0/30 Temperature Warning Flag 55: Charger 0/30 Temperature Shutdown Flag 56: High Output Voltage Flag 57: SSW Temperature Over 90 Flag 58: <Not Used> Flag 59: Low Current Failure In AC Capacitors Flag 60: <Not Used> Flag 61: Advanced Battery Management Not Installed Flag 62: <Not Used> Flag 63: <Not Used> Flag 64: <Not Used>" ::= { upsAdvState 3 } upsAdvStateSymmetraSpecificFaults OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 64 flags representing the current active UPS specific faults for the Symmetra UPS models. If the Network Card is unable to determine the values of the flags, this variable is set to 'UNKNOWN'. If the connected UPS does not use this variable, it is set to 'NOT SUPPORTED'. The flags are numbered from 1 to 64, and read from left to right. The bits are defined as follows: Flag 1: System Fault Flag 2: Bypass Relay Fault Flag 3: Power Module Turn Off Failure Flag 4: Frame Identification Fault Flag 5: <Not Used> Flag 6: <Not Used> Flag 7: <Not Used> Flag 8: <Not Used> Flag 9: <Not Used> Flag 10: <Not Used> Flag 11: <Not Used> Flag 12: <Not Used> Flag 13: <Not Used> Flag 14: <Not Used> Flag 15: <Not Used> Flag 16: <Not Used> Flag 17: <Not Used> Flag 18: <Not Used> Flag 19: <Not Used> Flag 20: <Not Used> Flag 21: <Not Used> Flag 22: <Not Used> Flag 23: <Not Used> Flag 24: <Not Used> Flag 25: <Not Used> Flag 26: <Not Used> Flag 27: <Not Used> Flag 28: <Not Used> Flag 29: <Not Used> Flag 30: <Not Used> Flag 31: <Not Used> Flag 32: <Not Used> Flag 33: <Not Used> Flag 34: <Not Used> Flag 35: <Not Used> Flag 36: <Not Used> Flag 37: <Not Used> Flag 38: <Not Used> Flag 39: <Not Used> Flag 40: <Not Used> Flag 41: <Not Used> Flag 42: <Not Used> Flag 43: <Not Used> Flag 44: <Not Used> Flag 45: <Not Used> Flag 46: <Not Used> Flag 47: <Not Used> Flag 48: <Not Used> Flag 49: <Not Used> Flag 50: <Not Used> Flag 51: <Not Used> Flag 52: <Not Used> Flag 53: <Not Used> Flag 54: <Not Used> Flag 55: <Not Used> Flag 56: <Not Used> Flag 57: <Not Used> Flag 58: <Not Used> Flag 59: <Not Used> Flag 60: <Not Used> Flag 61: <Not Used> Flag 62: <Not Used> Flag 63: <Not Used> Flag 64: <Not Used>" ::= { upsAdvState 4 } upsAdvStateSmartUPSSpecificFaults OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 64 flags representing the current active UPS specific faults for the Smart-UPS UPS models. If the Network Card is unable to determine the values of the flags, this variable is set to 'UNKNOWN'. If the connected UPS does not use this variable, it is set to 'NOT SUPPORTED'. The flags are numbered from 1 to 64, and read from left to right. The bits are defined as follows: Flag 1: EPO Switch Activated Flag 2: Static Bypass Switch Fault Flag 3: System Configuration Fault Flag 4: Power Supply Unit Fault Flag 5: Weak Battery Flag 6: High Battery Temperature Flag 7: Internal Mechanical Bypass Flag 8: Loss Of Parallel Redundancy Flag 9: Parallel Bus Communication Fault on Cable 1 Flag 10: Parallel Bus Communication Fault on Cable 2 Flag 11: Auxiliary Bus Communication Fault Flag 12: Parallel Bus Termination Fault on Cable 1 Flag 13: Parallel Bus Termination Fault on Cable 2 Flag 14: Auxiliary Bus Termination Fault Flag 15: No Master Present In The Parallel System Flag 16: Overload on a Parallel Unit Flag 17: Parallel Configuration Fault Flag 18: <Not Used> Flag 19: <Not Used> Flag 20: <Not Used> Flag 21: <Not Used> Flag 22: <Not Used> Flag 23: <Not Used> Flag 24: <Not Used> Flag 25: <Not Used> Flag 26: <Not Used> Flag 27: <Not Used> Flag 28: <Not Used> Flag 29: <Not Used> Flag 30: <Not Used> Flag 31: <Not Used> Flag 32: <Not Used> Flag 33: <Not Used> Flag 34: <Not Used> Flag 35: <Not Used> Flag 36: <Not Used> Flag 37: <Not Used> Flag 38: <Not Used> Flag 39: <Not Used> Flag 40: <Not Used> Flag 41: <Not Used> Flag 42: <Not Used> Flag 43: <Not Used> Flag 44: <Not Used> Flag 45: <Not Used> Flag 46: <Not Used> Flag 47: <Not Used> Flag 48: <Not Used> Flag 49: <Not Used> Flag 50: <Not Used> Flag 51: <Not Used> Flag 52: <Not Used> Flag 53: <Not Used> Flag 54: <Not Used> Flag 55: <Not Used> Flag 56: <Not Used> Flag 57: <Not Used> Flag 58: <Not Used> Flag 59: <Not Used> Flag 60: <Not Used> Flag 61: <Not Used> Flag 62: <Not Used> Flag 63: <Not Used> Flag 64: <Not Used>" ::= { upsAdvState 5 } upsAdvStateSystemMessages OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 3 digit Decimal code representing the current active message from the System Message Register. Each code should remain active for a minimum of 15 seconds. However, in the worst case scenario, a code could be cleared after only 5 seconds. It is recommended that this object be polled at least once every 4 seconds in order to get the most accurate representation of the current UPS System Message. If the Network Card is unable to determine the value of the System Message Register, this variable is set to 'UNKNOWN'." ::= { upsAdvState 6 } upsAdvStateTotaltimeonbattery OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Total time the UPS has been in battery operation." ::= { upsAdvState 7 } upsAdvStateTotaltimeonbypass OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Total time the UPS has been in bypass operation." ::= { upsAdvState 8 } upsAdvStateTotaltimeonNormal OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Total time the UPS has been in normal operation." ::= { upsAdvState 9 } upsAdvStateNumberoftimesonbattery OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of times the UPS was on battery. Since the last reset of statistical data." ::= { upsAdvState 10 } upsAdvStateNumberoftimesbypass OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of times the UPS was in bypass. Since the last reset of statistical data." ::= { upsAdvState 11 } upsAdvStateNumberoftimesNormal OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of times the UPS was in normal operation. Since the last reset of statistical data." ::= { upsAdvState 12 } upsAdvStateEcomode OBJECT-TYPE SYNTAX INTEGER { upsOnEcoMode(1), upsNotOnEcoMode(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Eco mode status. 1: UPS is on Eco-mode 2: UPS is not on Eco-mode." ::= { upsAdvState 13 } -- the upsBasicControl group upsBasicControlConserveBattery OBJECT-TYPE SYNTAX INTEGER { noTurnOffUps(1), turnOffUpsToConserveBattery(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to turnUpsOffToConserveBattery(2) causes a UPS on battery to be put into 'sleep' mode. The UPS will turn back on when utility power is restored. Attempting to turn off a UPS that is not on battery will result in a badValue error. Setting this value to noTurnOffUps(1) has no effect. The value noTurnOffUps(1) will always be returned when the variable is read." ::= { upsBasicControl 1 } -- the upsAdvControl group upsAdvControlUpsOff OBJECT-TYPE SYNTAX INTEGER { noTurnUpsOff(1), turnUpsOff(2), turnUpsOffGracefully(3), turnUpsSyncGroupOff(4), turnUpsSyncGroupOffAfterDelay(5), turnUpsSyncGroupOffGracefully(6) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to turnUpsOff(2) causes the UPS to shut off. When in this state, the UPS will not provide output power regardless of the input line state. Setting this variable to turnUpsOffGracefully(3) causes the UPS to shut off after a delay period. This allows the host to shut down in a graceful manner. When in this state, the UPS will not provide output power regardless of the input line state. If this UPS is an active member of a Synchronized Control Group (SCG) the turnUpsSyncGroupOff(4) command will perform a Synchronized Turn Off of all active Group members regardless of their current AC output status. If this UPS is an active member of a Synchronized Control Group (SCG) the turnUpsSyncGroupOffAfterDelay(5) command will perform a Synchronized Turn Off After Delay of all active Group members regardless of their current AC output status. This unit's Shutdown Delay will be used to execute the Turn Off After Delay command. If this UPS is an active member of an SCG, the turnUpsSyncGroupOffGracefully(6) command will perform a Synchronized Turn Off Gracefully of all active Group members regardless of their current AC output status. This unit's Maximum Shutdown Time and Shutdown Delay will be used to execute the Turn Off Gracefully command. Setting this value to noTurnUpsOff(1) has no effect. The value noTurnUpsOff(1) will always be returned when the variable is read." ::= { upsAdvControl 1 } upsAdvControlRebootShutdownUps OBJECT-TYPE SYNTAX INTEGER { noRebootShutdownUps(1), rebootShutdownUps(2), rebootShutdownUpsGracefully(3), rebootShutdownSyncGroupUps(4), rebootShutdownSyncGroupUpsGracefully(5) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to rebootShutdownUps(2) causes the UPS to shut off and turn back on (as long as good AC input power is available, otherwise the UPS will remain off until good AC input power is available). Setting this variable to rebootShutdownUpsGracefully(3) causes the UPS to shut off after a delay period and then turn back on. This allows the host to shut down in a graceful manner. If this UPS is an active member of a Synchronized Control Group (SCG) the rebootShutdownSyncGroupUps(4) command will perform a Synchronized Reboot of all active Group members regardless of their current AC output status. If applicable, this unit's Power Synchronization Delay, Shutdown Delay, Return Delay, Return Battery Capacity, and Return Battery Capacity Offset will be used to execute the Reboot command. If this UPS is an active member of a SCG the rebootShutdownSyncGroupUpsGracefully(5) command will perform a Synchronized Reboot of all active Group members regardless of their current AC output status. If applicable, this unit's Power Synchronization Delay, Maximum Shutdown Time, Shutdown Delay, Return Delay, Return Battery Capacity, and Return Battery Capacity Offset will be used to execute the Reboot command. Setting this value to noRebootShutdownUps(1) has no effect. The value noRebootShutdownUps(1) will always be returned when the variable is read." ::= { upsAdvControl 2 } upsAdvControlUpsSleep OBJECT-TYPE SYNTAX INTEGER { noPutUpsToSleep(1), putUpsToSleep(2), putUpsToSleepGracefully(3), putUpsSyncGroupToSleep(4), putUpsSyncGroupToSleepGracefully(5) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to putUpsToSleep(2) causes the UPS to go to sleep for the time specified by upsAdvConfigUpsSleepTime. Setting this variable to putUpsToSleepGracefully(3) causes the UPS to go to sleep for the time specified by upsAdvConfigUpsSleepTime after a delay period. This allows the host to shut down in a graceful manner. If this UPS is an active member of a Synchronized Control Group (SCG), the putUpsSyncGroupToSleep(4) command will perform a Synchronized Sleep of all active Group members regardless of their current AC output status. This unit's Power Synchronization Delay, Shutdown Delay, Sleep Time, and Return Delay will be used to execute the sleep command. If this UPS is an active member of a SCG the putUpsSyncGroupToSleepGracefully(5) command will perform a Synchronized Sleep Gracefully of all active Group members regardless of their current AC output status. This unit's Power Synchronization Delay, Maximum Shutdown Time, Shutdown Delay, Sleep Time, and Return Delay to execute the sleep command. When in sleep mode, the UPS will not provide output power regardless of the input line state. Once the specified time has elapsed, output power will be restored. Setting this value to noPutUpsToSleep(1) has no effect. The value noPutUpsToSleep(1) will always be returned when the variable is read." ::= { upsAdvControl 3 } upsAdvControlSimulatePowerFail OBJECT-TYPE SYNTAX INTEGER { noSimulatePowerFailure(1), simulatePowerFailure(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to simulatePowerFailure(2) causes the UPS switch to battery power. Setting this value to noSimulatePowerFailure(1) has no effect. The value noSimulatePowerFailure(1) will always be returned when the variable is read." ::= { upsAdvControl 4 } upsAdvControlFlashAndBeep OBJECT-TYPE SYNTAX INTEGER { noFlashAndBeep(1), flashAndBeep(2), flashAndBeepSyncGroup(3), flashAndBeepCont(4), flashAndBeepCancel(5) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to flashAndBeep(2) causes the UPS to beep and simultaneously turn on the UPS front panel lights (Smart-UPS only). If this UPS is an active member of a Synchronized Control Group (SCG), the flashAndBeepSyncGroup(3) command will Flash and Beep all active Group members regardless of current AC output status. Setting this value to noFlashAndBeep(1) has no effect. Setting this value to flashAndBeepCont (4) commandcauses the UPS to beep and light the front panel lights until the flashAndBeepCancel (5) command is received. The value noFlashAndBeep(1) will always be returned when the variable is read." ::= { upsAdvControl 5 } upsAdvControlTurnOnUPS OBJECT-TYPE SYNTAX INTEGER { noTurnOnUPS(1), turnOnUPS(2), turnOnUPSSyncGroup(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to turnOnUPS(2) causes the UPS to be turned on immediately. If this UPS is an active member of a Synchronized Control Group (SCG), the turnOnUPSSyncGroup(3) command will perform a Synchronized Turn On of all active Group members regardless of their current AC output status. Setting this value to noTurnOnUPS(1) has no effect. The value noTurnOnUPS(1) will always be returned when the variable is read." ::= { upsAdvControl 6 } upsAdvControlBypassSwitch OBJECT-TYPE SYNTAX INTEGER { noBypassSwitch (1), switchToBypass (2), switchOutOfBypass(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This switch puts the UPS in or out of bypass mode." ::= { upsAdvControl 7 } upsAdvControlRebootUpsWithOrWithoutAC OBJECT-TYPE SYNTAX INTEGER { noRebootUpsWithOrWithoutAC (1), rebootUpsImmediatelyWithOrWithoutAC (2), rebootUpsDelayedWithOrWithoutAC (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to rebootUpsImmediatelyWithOrWithoutAC (2) causes the UPS to turn off immediately, wait for a minimum time (typically 8 seconds), and then turn back on regardless of the AC input power on the UPS. Any supported switched outlet groups will be turned off immediately but will turn on based on their individual settings (to allow on sequencing). Setting this variable to rebootUpsDelayedWithOrWithoutAC (3) causes the UPS to turn off after a delay period, wait for a minimum time (typically 8 seconds), and then turn back on regardless of the AC input power on the UPS. Any supported switched outlet groups will be turned off and on based on their individual settings (to allow off and/or on sequencing). Setting this value to noRebootUpsWithOrWithoutAC (1) has no effect. The value noRebootUpsWithOrWithoutAC (1) will always be returned when the variable is read." ::= { upsAdvControl 8 } upsAdvControlFirmwareUpdate OBJECT-TYPE SYNTAX INTEGER { noFirmwareUpdate (1), firmwareUpdate (2), updateInProcess (3), updateSuccessful (4), updateFailed (5) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to firmwareUpdate(2) causes the UPS to begin a firmware update if possible. Setting this value to noFirmwareUpdate(1) will clear the previous results, if any, or otherwise has no effect. Reading this variable will return noFirmwareUpdate(1) when the UPS firmware has not been updated (or previous results have been cleared), updateInProcess(3) when the UPS firmware is being updated, updateSuccessful(4) when the UPS firmware has been successfully updated, or updateFailed(5) if the UPS firmware update failed." ::= { upsAdvControl 9 } -- the upsTest group -- the upsBasicTest group -- the upsAdvTest group upsAdvTestDiagnosticSchedule OBJECT-TYPE SYNTAX INTEGER { unknown(1), biweekly(2), weekly(3), atTurnOn(4), never(5), fourWeeks(6), twelveWeeks(7), biweeklySinceLastTest(8), weeklySinceLastTest(9) } ACCESS read-write STATUS mandatory DESCRIPTION "The UPS system's automatic battery test schedule." ::= { upsAdvTest 1 } upsAdvTestDiagnostics OBJECT-TYPE SYNTAX INTEGER { noTestDiagnostics(1), testDiagnostics(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to testDiagnostics(2) causes the UPS to perform a diagnostic self test. Setting this value to noTestDiagnostics(1) has no effect. The value noTestDiagnostics(1) will always be returned when the variable is read." ::= { upsAdvTest 2 } upsAdvTestDiagnosticsResults OBJECT-TYPE SYNTAX INTEGER { ok(1), failed(2), invalidTest(3), testInProgress(4) } ACCESS read-only STATUS mandatory DESCRIPTION "The results of the last UPS diagnostics test performed." ::= { upsAdvTest 3 } upsAdvTestLastDiagnosticsDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date the last UPS diagnostics test was performed in mm/dd/yy format." ::= { upsAdvTest 4 } upsAdvTestRuntimeCalibration OBJECT-TYPE SYNTAX INTEGER { noPerformCalibration(1), performCalibration(2), cancelCurrentCalibration(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to performCalibration(2) causes the UPS to discharge to calibrate the UPS. The test will only start if the battery capacity is 100%. The test runs until capacity is less than 25%. Setting this variable to cancelCurrentCalibration(3) after setting performCalibration(2) will cancel the current discharge. Setting this variable to noPerformCalibration(1) will have no effect. The value noPerformCalibration(1) will always be returned when the variable is read. The result of the calibration will be saved in upsAdvTestCalibrationResult." ::= { upsAdvTest 5 } upsAdvTestCalibrationResults OBJECT-TYPE SYNTAX INTEGER { ok(1), invalidCalibration(2), calibrationInProgress(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The results of the last runtime calibration. Value ok(1) means a successful runtime calibration. Value invalidCalibration(2) indicates last calibration did not take place since the battery capacity was below 100%. Value calibrationInProgress(3) means a calibration is occurring now. " ::= { upsAdvTest 6 } upsAdvTestCalibrationDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date the last UPS runtime calibration was performed in mm/dd/yy format." ::= { upsAdvTest 7 } upsAdvTestDiagnosticTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The time of the day to perform automatic battery test. Expressed in 24 hour notation - hh:mm." ::= { upsAdvTest 8 } upsAdvTestDiagnosticDay OBJECT-TYPE SYNTAX INTEGER { monday (1), tuesday (2), wednesday (3), thursday (4), friday (5), saturday (6), sunday (7) } ACCESS read-write STATUS mandatory DESCRIPTION "The day of the week to perform automatic battery test." ::= { upsAdvTest 9 } -- the upsComm group upsCommStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), noComm(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of agent's communication with UPS. " ::= { upsComm 1 } -- the measureUps group -- the Environ group mUpsEnvironAmbientTemperature OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The ambient temperature in Celsius for Probe 1." ::= { mUpsEnviron 1 } mUpsEnvironRelativeHumidity OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity as a percentage for Probe 1." ::= { mUpsEnviron 2 } mUpsEnvironAmbientTemperature2 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The ambient temperature in Celsius for Probe 2." ::= { mUpsEnviron 3 } mUpsEnvironRelativeHumidity2 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity as a percentage for Probe 2." ::= { mUpsEnviron 4 } -- the mUpsContact group mUpsContactNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported by the Measure-UPS." ::= { mUpsContact 1 } mUpsContactTable OBJECT-TYPE SYNTAX SEQUENCE OF MUpsContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the Measure-UPS." ::= { mUpsContact 2 } mUpsContactEntry OBJECT-TYPE SYNTAX MUpsContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A contact entry containing information for a given contact." INDEX { contactNumber } ::= { mUpsContactTable 1 } MUpsContactEntry ::= SEQUENCE { contactNumber INTEGER, normalState INTEGER, description DisplayString, monitoringStatus INTEGER, currentStatus INTEGER } contactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index identifying the contact on the Measure-UPS." ::= { mUpsContactEntry 1 } normalState OBJECT-TYPE SYNTAX INTEGER { unknown(1), open(2), closed(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal operating position of the contact. If the normal operating position cannot be set then it is controlled via the dip switch on the Measure-UPS and is therefore read-only." ::= { mUpsContactEntry 2 } description OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the contact." ::= { mUpsContactEntry 3 } monitoringStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), enabled(2), disabled(3) } ACCESS read-write STATUS mandatory DESCRIPTION "A flag indicating whether this contact is monitored, or not." ::= { mUpsContactEntry 4 } currentStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), noFault(2), fault(3) } ACCESS read-only STATUS mandatory DESCRIPTION "This value indicates the current state of the contact. If the contact is not in its normal state. This value is set to fault(2)." ::= { mUpsContactEntry 5 } -- Three Phase Group -- -- Reset Max/Min Values Group -- upsPhaseResetMaxMinValues OBJECT-TYPE SYNTAX INTEGER { none (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the maximum and minimum UPS values: upsPhaseInputMaxVoltage, upsPhaseInputMinVoltage, upsPhaseInputMaxCurrent, upsPhaseInputMinCurrent, upsPhaseInputMaxPower, upsPhaseInputMinPower, upsPhaseOutputMaxCurrent, upsPhaseOutputMinCurrent, upsPhaseOutputMaxLoad, upsPhaseOutputMinLoad, upsPhaseOutputMaxPercentLoad, upsPhaseOutputMinPercentLoad, upsPhaseOutputMaxPower, upsPhaseOutputMinPower, upsPhaseOutputMaxPercentPower, upsPhaseOutputMinPercentPower." ::= { upsPhaseResetValues 1 } -- -- Input Group -- -- Number of Inputs upsPhaseNumInputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input feeds to this device. This variable indicates the number of rows in the input table." ::= { upsPhaseInput 1 } -- Input Table upsPhaseInputTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the value of upsPhaseNumInputs." ::= { upsPhaseInput 2 } upsPhaseInputEntry OBJECT-TYPE SYNTAX UpsPhaseInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input." INDEX { upsPhaseInputTableIndex } ::= { upsPhaseInputTable 1 } UpsPhaseInputEntry ::= SEQUENCE { upsPhaseInputTableIndex INTEGER, upsPhaseNumInputPhases INTEGER, upsPhaseInputVoltageOrientation INTEGER, upsPhaseInputFrequency INTEGER, upsPhaseInputType INTEGER, upsPhaseInputName DisplayString } upsPhaseInputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { upsPhaseInputEntry 1 } upsPhaseNumInputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input phases utilized in this device. The sum of all the upsPhaseNumInputPhases variable indicates the number of rows in the input phase table." ::= { upsPhaseInputEntry 2 } upsPhaseInputVoltageOrientation OBJECT-TYPE SYNTAX INTEGER { unknown(1), singlePhase(2), splitPhase(3), threePhasePhaseToNeutral(4), threePhasePhaseToPhase(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage orientation: 1: unknown for this UPS 2: singlePhase - phase 1 voltage is between Phase 1 and Neutral. 3: splitPhase - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 1 and Phase 2. 4: threePhasePhaseToNeutral - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 3 and Neutral. 5: threePhasePhaseToPhase - phase 1 voltage is between Phase 1 and Phase 2; phase 2 voltage is between Phase 2 and Phase 3; phase 3 voltage is between Phase 3 and Phase 1." ::= { upsPhaseInputEntry 3 } upsPhaseInputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input frequency in 0.1 Hertz, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputEntry 4 } upsPhaseInputType OBJECT-TYPE SYNTAX INTEGER { unknown(1), main(2), bypass(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The input type." ::= { upsPhaseInputEntry 5 } upsPhaseInputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A name given to a particular input." ::= { upsPhaseInputEntry 6 } -- Input Phase Table upsPhaseInputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the sum of the upsPhaseNumInputPhases." ::= { upsPhaseInput 3 } upsPhaseInputPhaseEntry OBJECT-TYPE SYNTAX UpsPhaseInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input phase." INDEX { upsPhaseInputPhaseTableIndex, upsPhaseInputPhaseIndex } ::= { upsPhaseInputPhaseTable 1 } UpsPhaseInputPhaseEntry ::= SEQUENCE { upsPhaseInputPhaseTableIndex INTEGER, upsPhaseInputPhaseIndex INTEGER, upsPhaseInputVoltage INTEGER, upsPhaseInputMaxVoltage INTEGER, upsPhaseInputMinVoltage INTEGER, upsPhaseInputCurrent INTEGER, upsPhaseInputMaxCurrent INTEGER, upsPhaseInputMinCurrent INTEGER, upsPhaseInputPower INTEGER, upsPhaseInputMaxPower INTEGER, upsPhaseInputMinPower INTEGER } upsPhaseInputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { upsPhaseInputPhaseEntry 1 } upsPhaseInputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input phase identifier." ::= { upsPhaseInputPhaseEntry 2 } upsPhaseInputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage in VAC, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputPhaseEntry 3 } upsPhaseInputMaxVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input voltage in VAC measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 4 } upsPhaseInputMinVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input voltage in VAC measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 5 } upsPhaseInputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input current in 0.1 amperes, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputPhaseEntry 6 } upsPhaseInputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 7 } upsPhaseInputMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 8 } upsPhaseInputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input power in Watts, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputPhaseEntry 9 } upsPhaseInputMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 10 } upsPhaseInputMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 11 } -- -- The Output group. -- -- Number of Outputs upsPhaseNumOutputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output feeds to this device. This variable indicates the number of rows in the output table." ::= { upsPhaseOutput 1 } -- Output Table upsPhaseOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the value of upsOutputNumPhases." ::= { upsPhaseOutput 2 } upsPhaseOutputEntry OBJECT-TYPE SYNTAX UpsPhaseOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { upsPhaseOutputTableIndex } ::= { upsPhaseOutputTable 1 } UpsPhaseOutputEntry ::= SEQUENCE { upsPhaseOutputTableIndex INTEGER, upsPhaseNumOutputPhases INTEGER, upsPhaseOutputVoltageOrientation INTEGER, upsPhaseOutputFrequency INTEGER } upsPhaseOutputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { upsPhaseOutputEntry 1 } upsPhaseNumOutputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output phases utilized in this device. The sum of all the upsPhaseNumOutputPhases variable indicates the number of rows in the output phase table." ::= { upsPhaseOutputEntry 2 } upsPhaseOutputVoltageOrientation OBJECT-TYPE SYNTAX INTEGER { unknown(1), singlePhase(2), splitPhase(3), threePhasePhaseToNeutral(4), threePhasePhaseToPhase(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage orientation: 1: unknown for this UPS 2: singlePhase - phase 1 voltage is between Phase 1 and Neutral. 3: splitPhase - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 1 and Phase 2. 4: threePhasePhaseToNeutral - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 3 and Neutral. 5: threePhasePhaseToPhase - phase 1 voltage is between Phase 1 and Phase 2; phase 2 voltage is between Phase 2 and Phase 3; phase 3 voltage is between Phase 3 and Phase 1." ::= { upsPhaseOutputEntry 3 } upsPhaseOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output frequency in 0.1 Hertz, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputEntry 4 } -- Output Phase Table upsPhaseOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the sum of the upsPhaseNumOutputPhases." ::= { upsPhaseOutput 3 } upsPhaseOutputPhaseEntry OBJECT-TYPE SYNTAX UpsPhaseOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output phase." INDEX { upsPhaseOutputPhaseTableIndex, upsPhaseOutputPhaseIndex } ::= { upsPhaseOutputPhaseTable 1 } UpsPhaseOutputPhaseEntry ::= SEQUENCE { upsPhaseOutputPhaseTableIndex INTEGER, upsPhaseOutputPhaseIndex INTEGER, upsPhaseOutputVoltage INTEGER, upsPhaseOutputCurrent INTEGER, upsPhaseOutputMaxCurrent INTEGER, upsPhaseOutputMinCurrent INTEGER, upsPhaseOutputLoad INTEGER, upsPhaseOutputMaxLoad INTEGER, upsPhaseOutputMinLoad INTEGER, upsPhaseOutputPercentLoad INTEGER, upsPhaseOutputMaxPercentLoad INTEGER, upsPhaseOutputMinPercentLoad INTEGER, upsPhaseOutputPower INTEGER, upsPhaseOutputMaxPower INTEGER, upsPhaseOutputMinPower INTEGER, upsPhaseOutputPercentPower INTEGER, upsPhaseOutputMaxPercentPower INTEGER, upsPhaseOutputMinPercentPower INTEGER, upsPhaseOutputPowerFactor INTEGER } upsPhaseOutputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { upsPhaseOutputPhaseEntry 1 } upsPhaseOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output phase identifier." ::= { upsPhaseOutputPhaseEntry 2 } upsPhaseOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage in VAC, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 3 } upsPhaseOutputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current in 0.1 amperes drawn by the load on the UPS, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 4 } upsPhaseOutputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 5 } upsPhaseOutputMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 6 } upsPhaseOutputLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output load in VA, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 7 } upsPhaseOutputMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output load in VA measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 8 } upsPhaseOutputMinLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output load in VA measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 9 } upsPhaseOutputPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the UPS load capacity in VA at redundancy @ (n + x) presently being used on this output phase, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 10 } upsPhaseOutputMaxPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the UPS load capacity in VA measured at redundancy @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 11 } upsPhaseOutputMinPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum percentage of the UPS load capacity in VA measured at redundancy @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 12 } upsPhaseOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output power in Watts, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 13 } upsPhaseOutputMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 14 } upsPhaseOutputMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 15 } upsPhaseOutputPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the UPS power capacity in Watts at redundancy @ (n + x) presently being used on this output phase, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 16 } upsPhaseOutputMaxPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the UPS power capacity in Watts measured at redundancy @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 17 } upsPhaseOutputMinPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the UPS power capacity in Watts measured at redundancy @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 18 } upsPhaseOutputPowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Output power factor of the UPS in hundredth." ::= { upsPhaseOutputPhaseEntry 19 } -- the upsOutletGroupStatus group upsOutletGroupStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlet groups for the UPS." ::= { upsOutletGroupStatus 1 } upsOutletGroupStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsOutletGroupStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting status of the outlet groups. The number of entries is contained in the upsOutletGroupStatusTableSize OID." ::= { upsOutletGroupStatus 2 } upsOutletGroupStatusEntry OBJECT-TYPE SYNTAX UpsOutletGroupStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlet group status to get." INDEX { upsOutletGroupStatusIndex} ::= { upsOutletGroupStatusTable 1 } UpsOutletGroupStatusEntry ::= SEQUENCE { upsOutletGroupStatusIndex INTEGER, upsOutletGroupStatusName DisplayString, upsOutletGroupStatusGroupState INTEGER, upsOutletGroupStatusCommandPending INTEGER, upsOutletGroupStatusOutletType INTEGER } upsOutletGroupStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet group entry." ::= { upsOutletGroupStatusEntry 1 } upsOutletGroupStatusName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet group. This OID is provided for informational purposes only. This value is set by the upsOutletGroupConfigName OID." ::= { upsOutletGroupStatusEntry 2 } upsOutletGroupStatusGroupState OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupStatusOn (1), upsOutletGroupStatusOff (2), upsOutletGroupStatusUnknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the outlet group state. If the outlet group is on, the upsOutletGroupStatusOn (1) value will be returned. If the outlet group is off, the upsOutletGroupStatusOff (2) value will be returned. If the state of the outlet group cannot be determined, the upsOutletGroupStatusUnknown (3) value will be returned." ::= { upsOutletGroupStatusEntry 3 } upsOutletGroupStatusCommandPending OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupCommandPending (1), upsOutletGroupNoCommandPending (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the command pending state of the outlet group. If a command is pending on the outlet group, the upsOutletGroupCommandPending (1) value will be returned. If there is not a command pending on the outlet group, the upsOutletGroupNoCommandPending (2) will be returned." ::= { upsOutletGroupStatusEntry 4 } upsOutletGroupStatusOutletType OBJECT-TYPE SYNTAX INTEGER { upsSwitchedOutletGroup (1), upsMainOutletGroup (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the type of outlet group. If present in the system, the main outlet group is 'unswitched' and must be on in order for any of the switched outlet groups to be on. Conversely, if the main outlet group is off, all the switched outlet groups must also be off. Therefore, any commands made to the main outlet group that turn it off will also be applied to all switched outlet groups that are on, unless the state of a switched outlet group prevents it, in which case the command will fail." ::= { upsOutletGroupStatusEntry 5 } -- the upsOutletGroupConfig group upsOutletGroupConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlet groups for the UPS." ::= { upsOutletGroupConfig 1 } upsOutletGroupConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsOutletGroupConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The list of outlet groups to configure. The number of entries is defined by the upsOutletGroupConfigTableSize OID." ::= { upsOutletGroupConfig 2 } upsOutletGroupConfigEntry OBJECT-TYPE SYNTAX UpsOutletGroupConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlet groups to configure." INDEX { upsOutletGroupConfigIndex} ::= { upsOutletGroupConfigTable 1 } UpsOutletGroupConfigEntry ::= SEQUENCE { upsOutletGroupConfigIndex INTEGER, upsOutletGroupConfigName DisplayString, upsOutletGroupConfigPowerOnDelay INTEGER, upsOutletGroupConfigPowerOffDelay INTEGER, upsOutletGroupConfigRebootDuration INTEGER, upsOutletGroupConfigMinReturnRuntime INTEGER, upsOutletGroupConfigOutletType INTEGER, upsOutletGroupConfigLoadShedControlSkipOffDelay INTEGER, upsOutletGroupConfigLoadShedControlAutoRestart INTEGER, upsOutletGroupConfigLoadShedControlTimeOnBattery INTEGER, upsOutletGroupConfigLoadShedControlRuntimeRemaining INTEGER, upsOutletGroupConfigLoadShedControlInOverload INTEGER, upsOutletGroupConfigLoadShedTimeOnBattery INTEGER, upsOutletGroupConfigLoadShedRuntimeRemaining INTEGER } upsOutletGroupConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet group entry." ::= { upsOutletGroupConfigEntry 1 } upsOutletGroupConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet group." ::= { upsOutletGroupConfigEntry 2 } upsOutletGroupConfigPowerOnDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (seconds) the outlet group will delay powering on when the delayed on, reboot, or shutdown command is applied. Allowed values vary by UPS model. The value of -1 is used for Never if supported by the UPS and the outlet group." ::= { upsOutletGroupConfigEntry 3 } upsOutletGroupConfigPowerOffDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (seconds) the outlet group will delay powering off when the delayed off, reboot, or shutdown command is applied. Allowed values vary by UPS model. The value of -1 is used for Never if supported by the UPS and the outlet group." ::= { upsOutletGroupConfigEntry 4 } upsOutletGroupConfigRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait (seconds) after turning the power off, at the start of the sequence, before initiating the power on sequence. Allowed values vary by UPS model." ::= { upsOutletGroupConfigEntry 5 } upsOutletGroupConfigMinReturnRuntime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "In an Outlet Group shutdown sequence, the Outlet Group cycles power off then on. This OID defines the minimum amount of UPS runtime (seconds) that is required in order to power the Outlet Group on. Allowed values vary by UPS model." ::= { upsOutletGroupConfigEntry 6 } upsOutletGroupConfigOutletType OBJECT-TYPE SYNTAX INTEGER { upsSwitchedOutletGroup (1), upsMainOutletGroup (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the type of outlet group. If present in the system, the main outlet group is 'unswitched' and must be on in order for any of the switched outlet groups to be on. Conversely, if the main outlet group is off, all the switched outlet groups must also be off. Therefore, any commands made to the main outlet group that turn it off will also be applied to all switched outlet groups that are on, unless the state of a switched outlet group prevents it, in which case the command will fail." ::= { upsOutletGroupConfigEntry 7 } upsOutletGroupConfigLoadShedControlSkipOffDelay OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupConfigSkipOffDelay (1), upsOutletGroupConfigUseOffDelay (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configures whether the outlet group's off delay setting (upsOutletGroupConfigPowerOffDelay) will be used in a load shedding situation, where applicable." ::= { upsOutletGroupConfigEntry 8 } upsOutletGroupConfigLoadShedControlAutoRestart OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupConfigAutoRestart (1), upsOutletGroupConfigManualRestart (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configures whether the outlet group will automatically restart after a load shedding situation, where applicable." ::= { upsOutletGroupConfigEntry 9 } upsOutletGroupConfigLoadShedControlTimeOnBattery OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupConfigDisableTimeOnBatteryLoadShed (1), upsOutletGroupConfigEnableTimeOnBatteryLoadShed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configures whether the outlet group will load shed (turn off) after the UPS's time on battery has exceeded the upsOutletGroupConfigLoadShedTimeOnBattery OID setting. The settings for upsOutletGroupConfigLoadShedControlSkipOffDelay and upsOutletGroupConfigLoadShedControlAutoRestart are valid for this load shed condition." ::= { upsOutletGroupConfigEntry 10 } upsOutletGroupConfigLoadShedControlRuntimeRemaining OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupConfigDisableRuntimeRemainingLoadShed (1), upsOutletGroupConfigEnableRuntimeRemainingLoadShed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configures whether the outlet group will load shed (turn off) when the UPS is on battery and the remaining runtime is less than the upsOutletGroupConfigLoadShedRuntimeRemaining OID setting. The settings for upsOutletGroupConfigLoadShedControlSkipOffDelay and upsOutletGroupConfigLoadShedControlAutoRestart are valid for this load shed condition." ::= { upsOutletGroupConfigEntry 11 } upsOutletGroupConfigLoadShedControlInOverload OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupConfigDisableInOverloadLoadShed (1), upsOutletGroupConfigEnableInOverloadLoadShed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configures whether the outlet group will load shed (turn off) when the UPS is in an overload condition. The setting for upsOutletGroupConfigLoadShedControlSkipOffDelay is valid for this load shed condition. Returns -1 if not supported by this outlet group." ::= { upsOutletGroupConfigEntry 12 } upsOutletGroupConfigLoadShedTimeOnBattery OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the UPS has been on battery for more time than this value, the outlet group will turn off if this condition is enabled by the upsOutletGroupConfigLoadShedControlTimeOnBattery OID. Allowed values vary by UPS model." ::= { upsOutletGroupConfigEntry 13 } upsOutletGroupConfigLoadShedRuntimeRemaining OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the runtime remaining is less than this value, the outlet group will turn off if this condition is enabled by the upsOutletGroupConfigLoadShedControlRuntimeRemaining OID. Allowed values vary by UPS model." ::= { upsOutletGroupConfigEntry 14 } -- the upsOutletGroupControl group upsOutletGroupControlTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlet groups for the UPS." ::= { upsOutletGroupControl 1 } upsOutletGroupControlTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsOutletGroupControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet groups. The number of entries is contained in the upsOutletGroupControlTableSize OID." ::= { upsOutletGroupControl 2 } upsOutletGroupControlEntry OBJECT-TYPE SYNTAX UpsOutletGroupControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlet group to control." INDEX { upsOutletGroupControlIndex} ::= { upsOutletGroupControlTable 1 } UpsOutletGroupControlEntry ::= SEQUENCE { upsOutletGroupControlIndex INTEGER, upsOutletGroupControlName DisplayString, upsOutletGroupControlCommand INTEGER, upsOutletGroupControlOutletType INTEGER } upsOutletGroupControlIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet group entry." ::= { upsOutletGroupControlEntry 1 } upsOutletGroupControlName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet group. This OID is provided for informational purposes only. This value is set by the upsOutletGroupConfigName OID." ::= { upsOutletGroupControlEntry 2 } upsOutletGroupControlCommand OBJECT-TYPE SYNTAX INTEGER { upsOutletGroupImmediateOn (1), upsOutletGroupImmediateOff (2), upsOutletGroupImmediateRebootWithOrWithoutAC (3), upsOutletGroupDelayedOn (4), upsOutletGroupDelayedOff (5), upsOutletGroupDelayedRebootWithOrWithoutAC (6), upsOutletGroupCancelPendingCommand (7), upsOutletGroupControlUnknown (8), upsOutletGroupImmediateRebootShutdown (9), upsOutletGroupDelayedRebootShutdown (10) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet group state. If the outlet group is on, the upsOutletGroupImmediateOn (1) value will be returned. If the outlet group is off, the upsOutletGroupImmediateOff (2) value will be returned. If the state of the outlet group cannot be determined, the upsOutletGroupControlUnknown (8) value will be returned. Setting this variable to upsOutletGroupImmediateOn (1) will turn the outlet group on immediately. Setting this variable to upsOutletGroupImmediateOff (2) will turn the outlet group off immediately. Setting this variable to upsOutletGroupImmediateRebootWithOrWithoutAC (3) will turn the outlet group off immediately, wait the upsOutletGroupConfigRebootDuration OID time, wait the upsOutletGroupConfigPowerOnDelay OID, and then turn the outlet group on regardless of the AC input power on the UPS. Setting this variable to upsOutletGroupDelayedOn (4) will turn the outlet group on after the upsOutletGroupConfigPowerOnDelay OID has elapsed. Setting this variable to upsOutletGroupDelayedOff (5) will turn the outlet group off after the upsOutletGroupConfigPowerOffDelay OID has elapsed. Setting this variable to upsOutletGroupDelayedRebootWithOrWithoutAC (6) will turn the outlet group off after the upsOutletGroupConfigPowerOffDelay OID has elapsed, wait the upsOutletGroupConfigRebootDuration OID time, wait the upsOutletGroupConfigPowerOnDelay OID, and then turn the outlet group on regardless of the AC input power on the UPS. Setting this variable to upsOutletGroupCancelPendingCommand (7) will cause any pending command to this outlet group to be canceled. Setting this variable to upsOutletGroupImmediateRebootShutdown (9) will turn the outlet group off immediately, wait for the AC power to return to normal (a minimum of the upsOutletGroupConfigRebootDuration OID time), wait the upsOutletGroupConfigPowerOnDelay OID time, and then turn the outlet group on. Setting this variable to upsOutletGroupDelayedRebootShutdown (10) will turn the outlet group off after the upsOutletGroupConfigPowerOffDelay OID has elapsed, wait for the AC power to return to normal (a minimum of the upsOutletGroupConfigRebootDuration OID time), wait the upsOutletGroupConfigPowerOnDelay OID time, and then turn the outlet group on. In systems with a main outlet group, commands to the main outlet group must be performed with caution. It may be clearer to use the ups control commands available from upsAdvControl... OIDs. If any command is made to the main outlet group that will turn it off, one of two things will happen: 1) If any switched outlet group is in a state that prevents this command from occurring on the main outlet group, the command will be rejected. Note that a switched outlet group being on without a command in progress is not a state that normally prevents the command. 2) The command will be accepted and applied to the main outlet group and all switched outlet groups that are on. There is one additional special case for systems with a main outlet group. If the main outlet group is off and a switched outlet group is commanded to turn on, the on command will be applied to both the main outlet group and that switched outlet group." ::= { upsOutletGroupControlEntry 3 } upsOutletGroupControlOutletType OBJECT-TYPE SYNTAX INTEGER { upsSwitchedOutletGroup (1), upsMainOutletGroup (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the type of outlet group. If present in the system, the main outlet group is 'unswitched' and must be on in order for any of the switched outlet groups to be on. Conversely, if the main outlet group is off, all the switched outlet groups must also be off. Therefore, any commands made to the main outlet group that turn it off will also be applied to all switched outlet groups that are on, unless the state of a switched outlet group prevents it, in which case the command will fail." ::= { upsOutletGroupControlEntry 4 } -- the upsDiagnosticIM group upsDiagIMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Intelligence Modules in or attached to the UPS." ::= { upsDiagnosticIM 1 } upsDiagIMTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagIMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual Intelligence Modules. The number of entries is contained in the upsDiagIMTableSize OID." ::= { upsDiagnosticIM 2 } upsDiagIMEntry OBJECT-TYPE SYNTAX UpsDiagIMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics and information of an Intelligence Module." INDEX { upsDiagIMIndex} ::= { upsDiagIMTable 1 } UpsDiagIMEntry ::= SEQUENCE { upsDiagIMIndex INTEGER, upsDiagIMType INTEGER, upsDiagIMStatus INTEGER, upsDiagIMFirmwareRev DisplayString, upsDiagIMSlaveFirmwareRev DisplayString, upsDiagIMHardwareRev DisplayString, upsDiagIMSerialNum DisplayString, upsDiagIMManufactureDate DisplayString } upsDiagIMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Intelligence Module entry." ::= { upsDiagIMEntry 1 } upsDiagIMType OBJECT-TYPE SYNTAX INTEGER { imUnknown (1), imMIM (2), imRIM (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of the Intelligence Module. imUnknown(1) indicates the IM type is unknown. imMIM(2) indicates the IM type is a Main Intelligence Module. imRIM(3) indicates the IM type is Redundant Intelligence Module." ::= { upsDiagIMEntry 2 } upsDiagIMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Intelligence Module. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagIMEntry 3 } upsDiagIMFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Intelligence Module." ::= { upsDiagIMEntry 4 } upsDiagIMSlaveFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The slave firmware revision of the Intelligence Module." ::= { upsDiagIMEntry 5 } upsDiagIMHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Intelligence Module." ::= { upsDiagIMEntry 6 } upsDiagIMSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Intelligence Module." ::= { upsDiagIMEntry 7 } upsDiagIMManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The manufacture date of the Intelligence Module." ::= { upsDiagIMEntry 8 } -- the upsDiagnosticPowerModules group upsDiagPMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum number of Power Modules supported by the UPS." ::= { upsDiagnosticPowerModules 1 } upsDiagPMTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagPMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of Individual Power modules. The number of entries is contained in the upsDiagPMTableSize OID." ::= { upsDiagnosticPowerModules 2 } upsDiagPMEntry OBJECT-TYPE SYNTAX UpsDiagPMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of an Power Module." INDEX { upsDiagPMIndex} ::= { upsDiagPMTable 1 } UpsDiagPMEntry ::= SEQUENCE { upsDiagPMIndex INTEGER, upsDiagPMStatus INTEGER, upsDiagPMFirmwareRev DisplayString, upsDiagPMHardwareRev DisplayString, upsDiagPMSerialNum DisplayString, upsDiagPMManufactureDate DisplayString } upsDiagPMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Power Module entry." ::= { upsDiagPMEntry 1 } upsDiagPMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Power Module. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagPMEntry 2 } upsDiagPMFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Power Module." ::= { upsDiagPMEntry 3 } upsDiagPMHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Power Module." ::= { upsDiagPMEntry 4 } upsDiagPMSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Power Module." ::= { upsDiagPMEntry 5 } upsDiagPMManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The manufacture date of the Power Module." ::= { upsDiagPMEntry 6 } -- the upsDiagnosticBatteries group upsDiagBatteryTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum number of batteries supported by the UPS." ::= { upsDiagnosticBatteries 1 } upsDiagBatteryTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagBatteryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual batteries. The number of entries is contained in the upsDiagBattTableSize OID." ::= { upsDiagnosticBatteries 2 } upsDiagBatteryEntry OBJECT-TYPE SYNTAX UpsDiagBatteryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a battery." INDEX { upsDiagBatteryIndex} ::= { upsDiagBatteryTable 1 } UpsDiagBatteryEntry ::= SEQUENCE { upsDiagBatteryFrameIndex INTEGER, upsDiagBatteryIndex INTEGER, upsDiagBatteryStatus INTEGER, upsDiagBatterySerialNumber DisplayString, upsDiagBatteryFirmwareRev DisplayString, upsDiagBatteryManufactureDate DisplayString, upsDiagBatteryType DisplayString } upsDiagBatteryFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the battery frame entry. Frame 0 indicates the Main frame. Extended Run (XR) frames start from index 1." ::= { upsDiagBatteryEntry 1 } upsDiagBatteryIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the battery entry." ::= { upsDiagBatteryEntry 2 } upsDiagBatteryStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), failed (4), highTemperature (5), replaceImmediately (6), lowCapacity (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the battery. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the battery status is OK. failed(4) indicates the battery status is failed. highTemperature(5) indicates the battery has a high temperature condition. replaceImmediately(6) indicates the battery must be replaced immediately. lowCapacity(7) indicates the battery has a low capacity." ::= { upsDiagBatteryEntry 3 } upsDiagBatterySerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the battery." ::= { upsDiagBatteryEntry 4 } upsDiagBatteryFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the battery." ::= { upsDiagBatteryEntry 5 } upsDiagBatteryManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The manufacture date of the battery." ::= { upsDiagBatteryEntry 6 } upsDiagBatteryType OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The battery type or rating for the battery." ::= { upsDiagBatteryEntry 7 } -- the upsDiagnosticSubsystem group upsDiagSubSysFrameTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames attached to the UPS including the Main frame." ::= { upsDiagnosticSubsystem 1 } upsDiagSubSysFrameTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysFrameEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual XR Frames." ::= { upsDiagnosticSubsystem 2 } upsDiagSubSysFrameEntry OBJECT-TYPE SYNTAX UpsDiagSubSysFrameEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of an XR Frame." INDEX { upsDiagSubSysFrameIndex} ::= { upsDiagSubSysFrameTable 1 } UpsDiagSubSysFrameEntry ::= SEQUENCE { upsDiagSubSysFrameIndex INTEGER, upsDiagSubSysFrameType INTEGER, upsDiagSubSysFrameFirmwareRev DisplayString, upsDiagSubSysFrameHardwareRev DisplayString, upsDiagSubSysFrameSerialNum DisplayString, upsDiagSubSysFrameManufactureDate DisplayString } upsDiagSubSysFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysFrameEntry 1 } upsDiagSubSysFrameType OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), frameTypeMain (3), frameTypeXR (4), frameTypeLXR (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of Frame. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. frameTypeMain(3) indicates the frame type is the Main Frame. frameTypeXR(4) indicates the frame type is an XR Frame. frameTypeLXR(5) indicates the frame type is an LXR Frame." ::= { upsDiagSubSysFrameEntry 2 } upsDiagSubSysFrameFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the frame." ::= { upsDiagSubSysFrameEntry 3 } upsDiagSubSysFrameHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the frame." ::= { upsDiagSubSysFrameEntry 4 } upsDiagSubSysFrameSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the frame." ::= { upsDiagSubSysFrameEntry 5 } upsDiagSubSysFrameManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The manufacture date of the frame." ::= { upsDiagSubSysFrameEntry 6 } upsDiagSubSysIntBypSwitchTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Internal Bypass switches attached to the UPS." ::= { upsDiagnosticSubsystem 3 } upsDiagSubSysIntBypSwitchTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysIntBypSwitchEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of the Internal Bypass Switch." ::= { upsDiagnosticSubsystem 4 } upsDiagSubSysIntBypSwitchEntry OBJECT-TYPE SYNTAX UpsDiagSubSysIntBypSwitchEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of the Internal Bypass Switch." INDEX { upsDiagSubSysIntBypSwitchIndex} ::= { upsDiagSubSysIntBypSwitchTable 1 } UpsDiagSubSysIntBypSwitchEntry ::= SEQUENCE { upsDiagSubSysIntBypSwitchFrameIndex INTEGER, upsDiagSubSysIntBypSwitchIndex INTEGER, upsDiagSubSysIntBypSwitchStatus INTEGER, upsDiagSubSysIntBypSwitchFirmwareRev DisplayString, upsDiagSubSysIntBypSwitchHardwareRev DisplayString, upsDiagSubSysIntBypSwitchSerialNum DisplayString, upsDiagSubSysIntBypSwitchManufactureDate DisplayString } upsDiagSubSysIntBypSwitchFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysIntBypSwitchEntry 1 } upsDiagSubSysIntBypSwitchIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Internal Bypass Switch index entry." ::= { upsDiagSubSysIntBypSwitchEntry 2 } upsDiagSubSysIntBypSwitchStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The Internal Bypass Switch status. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysIntBypSwitchEntry 3 } upsDiagSubSysIntBypSwitchFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Internal Bypass Switch." ::= { upsDiagSubSysIntBypSwitchEntry 4 } upsDiagSubSysIntBypSwitchHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Internal Bypass Switch." ::= { upsDiagSubSysIntBypSwitchEntry 5 } upsDiagSubSysIntBypSwitchSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Internal Bypass Switch." ::= { upsDiagSubSysIntBypSwitchEntry 6 } upsDiagSubSysIntBypSwitchManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The manufacture date of the Internal Bypass Switch." ::= { upsDiagSubSysIntBypSwitchEntry 7 } upsDiagSubSysBattMonitorTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Battery Monitor Boards attached to the UPS." ::= { upsDiagnosticSubsystem 5 } upsDiagSubSysBattMonitorTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysBattMonitorEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of the Battery Monitor Board." ::= { upsDiagnosticSubsystem 6 } upsDiagSubSysBattMonitorEntry OBJECT-TYPE SYNTAX UpsDiagSubSysBattMonitorEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of the Battery Monitor Board." INDEX { upsDiagSubSysBattMonitorIndex} ::= { upsDiagSubSysBattMonitorTable 1 } UpsDiagSubSysBattMonitorEntry ::= SEQUENCE { upsDiagSubSysBattMonitorFrameIndex INTEGER, upsDiagSubSysBattMonitorIndex INTEGER, upsDiagSubSysBattMonitorStatus INTEGER, upsDiagSubSysBattMonitorFirmwareRev DisplayString, upsDiagSubSysBattMonitorHardwareRev DisplayString, upsDiagSubSysBattMonitorSerialNum DisplayString, upsDiagSubSysBattMonitorManufactureDate DisplayString } upsDiagSubSysBattMonitorFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysBattMonitorEntry 1 } upsDiagSubSysBattMonitorIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the Battery Monitor Board." ::= { upsDiagSubSysBattMonitorEntry 2 } upsDiagSubSysBattMonitorStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Battery Monitor Board. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysBattMonitorEntry 3 } upsDiagSubSysBattMonitorFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Battery Monitor Board." ::= { upsDiagSubSysBattMonitorEntry 4 } upsDiagSubSysBattMonitorHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Battery Monitor Board." ::= { upsDiagSubSysBattMonitorEntry 5 } upsDiagSubSysBattMonitorSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Battery Monitor Board." ::= { upsDiagSubSysBattMonitorEntry 6 } upsDiagSubSysBattMonitorManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of the manufacture for the Battery Monitor Board." ::= { upsDiagSubSysBattMonitorEntry 7 } upsDiagSubSysExternalSwitchGearTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of External Switch Gears attached to the UPS." ::= { upsDiagnosticSubsystem 7 } upsDiagSubSysExternalSwitchGearTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysExternalSwitchGearEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of the individual External Switch Gear." ::= { upsDiagnosticSubsystem 8 } upsDiagSubSysExternalSwitchGearEntry OBJECT-TYPE SYNTAX UpsDiagSubSysExternalSwitchGearEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of an individual External Switch Gear." INDEX { upsDiagSubSysExternalSwitchGearIndex} ::= { upsDiagSubSysExternalSwitchGearTable 1 } UpsDiagSubSysExternalSwitchGearEntry ::= SEQUENCE { upsDiagSubSysExternalSwitchGearFrameIndex INTEGER, upsDiagSubSysExternalSwitchGearIndex INTEGER, upsDiagSubSysExternalSwitchGearStatus INTEGER, upsDiagSubSysExternalSwitchGearFirmwareRev DisplayString, upsDiagSubSysExternalSwitchGearHardwareRev DisplayString, upsDiagSubSysExternalSwitchGearSerialNum DisplayString, upsDiagSubSysExternalSwitchGearManufactureDate DisplayString } upsDiagSubSysExternalSwitchGearFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysExternalSwitchGearEntry 1 } upsDiagSubSysExternalSwitchGearIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the External Switch Gear." ::= { upsDiagSubSysExternalSwitchGearEntry 2 } upsDiagSubSysExternalSwitchGearStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the External Switch Gear. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysExternalSwitchGearEntry 3 } upsDiagSubSysExternalSwitchGearFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the External Switch Gear monitor card." ::= { upsDiagSubSysExternalSwitchGearEntry 4 } upsDiagSubSysExternalSwitchGearHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the External Switch Gear monitor card." ::= { upsDiagSubSysExternalSwitchGearEntry 5 } upsDiagSubSysExternalSwitchGearSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the External Switch Gear monitor card." ::= { upsDiagSubSysExternalSwitchGearEntry 6 } upsDiagSubSysExternalSwitchGearManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of the manufacture for the External Switch Gear monitor card." ::= { upsDiagSubSysExternalSwitchGearEntry 7 } upsDiagSubSysDisplayInterfaceCardTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Display Interface Cards attached to the UPS." ::= { upsDiagnosticSubsystem 9 } upsDiagSubSysDisplayInterfaceCardTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysDisplayInterfaceCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual Display Interface Cards." ::= { upsDiagnosticSubsystem 10 } upsDiagSubSysDisplayInterfaceCardEntry OBJECT-TYPE SYNTAX UpsDiagSubSysDisplayInterfaceCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a Display Interface Card." INDEX { upsDiagSubSysDisplayInterfaceCardIndex} ::= { upsDiagSubSysDisplayInterfaceCardTable 1 } UpsDiagSubSysDisplayInterfaceCardEntry ::= SEQUENCE { upsDiagSubSysDisplayInterfaceCardFrameIndex INTEGER, upsDiagSubSysDisplayInterfaceCardIndex INTEGER, upsDiagSubSysDisplayInterfaceCardStatus INTEGER } upsDiagSubSysDisplayInterfaceCardFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysDisplayInterfaceCardEntry 1 } upsDiagSubSysDisplayInterfaceCardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the Display Interface Card." ::= { upsDiagSubSysDisplayInterfaceCardEntry 2 } upsDiagSubSysDisplayInterfaceCardStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Display Interface Card. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysDisplayInterfaceCardEntry 3 } upsDiagSubSysDCCircuitBreakerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC Circuit Breakers attached to the UPS." ::= { upsDiagnosticSubsystem 11 } upsDiagSubSysDCCircuitBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysDCCircuitBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual DC Circuit Breakers." ::= { upsDiagnosticSubsystem 12 } upsDiagSubSysDCCircuitBreakerEntry OBJECT-TYPE SYNTAX UpsDiagSubSysDCCircuitBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a DC Circuit Breaker." INDEX { upsDiagSubSysDCCircuitBreakerIndex} ::= { upsDiagSubSysDCCircuitBreakerTable 1 } UpsDiagSubSysDCCircuitBreakerEntry ::= SEQUENCE { upsDiagSubSysDCCircuitBreakerFrameIndex INTEGER, upsDiagSubSysDCCircuitBreakerIndex INTEGER, upsDiagSubSysDCCircuitBreakerStatus INTEGER } upsDiagSubSysDCCircuitBreakerFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysDCCircuitBreakerEntry 1 } upsDiagSubSysDCCircuitBreakerIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the DC Circuit Breaker." ::= { upsDiagSubSysDCCircuitBreakerEntry 2 } upsDiagSubSysDCCircuitBreakerStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the DC Circuit Breaker. unknown(1) indicates the circuit breaker status is unknown. notInstalled(2) indicates the circuit breaker is not installed. opened(3) indicates the circuit breaker is opened. closed(4) indicates the circuit breaker is closed." ::= { upsDiagSubSysDCCircuitBreakerEntry 3 } upsDiagSubSysSystemPowerSupplyTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of System Power Supplies attached to the UPS." ::= { upsDiagnosticSubsystem 13 } upsDiagSubSysSystemPowerSupplyTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysSystemPowerSupplyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual System Power Supplies." ::= { upsDiagnosticSubsystem 14 } upsDiagSubSysSystemPowerSupplyEntry OBJECT-TYPE SYNTAX UpsDiagSubSysSystemPowerSupplyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a System Power Supply." INDEX { upsDiagSubSysSystemPowerSupplyIndex} ::= { upsDiagSubSysSystemPowerSupplyTable 1 } UpsDiagSubSysSystemPowerSupplyEntry ::= SEQUENCE { upsDiagSubSysSystemPowerSupplyFrameIndex INTEGER, upsDiagSubSysSystemPowerSupplyIndex INTEGER, upsDiagSubSysSystemPowerSupplyStatus INTEGER, upsDiagSubSysSystemPowerSupplyFirmwareRev DisplayString, upsDiagSubSysSystemPowerSupplyHardwareRev DisplayString, upsDiagSubSysSystemPowerSupplySerialNum DisplayString, upsDiagSubSysSystemPowerSupplyManufactureDate DisplayString } upsDiagSubSysSystemPowerSupplyFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysSystemPowerSupplyEntry 1 } upsDiagSubSysSystemPowerSupplyIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of a System Power Supply." ::= { upsDiagSubSysSystemPowerSupplyEntry 2 } upsDiagSubSysSystemPowerSupplyStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the System Power Supply. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysSystemPowerSupplyEntry 3 } upsDiagSubSysSystemPowerSupplyFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the System Power Supply monitor card." ::= { upsDiagSubSysSystemPowerSupplyEntry 4 } upsDiagSubSysSystemPowerSupplyHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the System Power Supply monitor card." ::= { upsDiagSubSysSystemPowerSupplyEntry 5 } upsDiagSubSysSystemPowerSupplySerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the System Power Supply monitor card." ::= { upsDiagSubSysSystemPowerSupplyEntry 6 } upsDiagSubSysSystemPowerSupplyManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of the manufacture for the System Power Supply monitor card." ::= { upsDiagSubSysSystemPowerSupplyEntry 7 } upsDiagSubSysXRCommunicationCardTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of XR Communication Cards attached to the UPS." ::= { upsDiagnosticSubsystem 15 } upsDiagSubSysXRCommunicationCardTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysXRCommunicationCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual XR Communication Cards." ::= { upsDiagnosticSubsystem 16 } upsDiagSubSysXRCommunicationCardEntry OBJECT-TYPE SYNTAX UpsDiagSubSysXRCommunicationCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of an XR Communication Card." INDEX { upsDiagSubSysXRCommunicationCardIndex} ::= { upsDiagSubSysXRCommunicationCardTable 1 } UpsDiagSubSysXRCommunicationCardEntry ::= SEQUENCE { upsDiagSubSysXRCommunicationCardFrameIndex INTEGER, upsDiagSubSysXRCommunicationCardIndex INTEGER, upsDiagSubSysXRCommunicationCardStatus INTEGER, upsDiagSubSysXRCommunicationCardFirmwareRev DisplayString, upsDiagSubSysXRCommunicationCardSerialNum DisplayString } upsDiagSubSysXRCommunicationCardFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysXRCommunicationCardEntry 1 } upsDiagSubSysXRCommunicationCardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an XR Communication Card." ::= { upsDiagSubSysXRCommunicationCardEntry 2 } upsDiagSubSysXRCommunicationCardStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the XR Communication Card. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysXRCommunicationCardEntry 3 } upsDiagSubSysXRCommunicationCardFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the XR Communication card." ::= { upsDiagSubSysXRCommunicationCardEntry 4 } upsDiagSubSysXRCommunicationCardSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the XR Communication card." ::= { upsDiagSubSysXRCommunicationCardEntry 5 } upsDiagSubSysExternalPowerFrameBoardTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of External Power Frame Boards attached to the UPS." ::= { upsDiagnosticSubsystem 17 } upsDiagSubSysExternalPowerFrameBoardTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysExternalPowerFrameBoardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual External Power Frame Boards." ::= { upsDiagnosticSubsystem 18 } upsDiagSubSysExternalPowerFrameBoardEntry OBJECT-TYPE SYNTAX UpsDiagSubSysExternalPowerFrameBoardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of an External Power Frame Board." INDEX { upsDiagSubSysExternalPowerFrameBoardIndex} ::= { upsDiagSubSysExternalPowerFrameBoardTable 1 } UpsDiagSubSysExternalPowerFrameBoardEntry ::= SEQUENCE { upsDiagSubSysExternalPowerFrameBoardFrameIndex INTEGER, upsDiagSubSysExternalPowerFrameBoardIndex INTEGER, upsDiagSubSysExternalPowerFrameBoardStatus INTEGER } upsDiagSubSysExternalPowerFrameBoardFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysExternalPowerFrameBoardEntry 1 } upsDiagSubSysExternalPowerFrameBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an External Power Frame Board." ::= { upsDiagSubSysExternalPowerFrameBoardEntry 2 } upsDiagSubSysExternalPowerFrameBoardStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the External Power Frame Board. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysExternalPowerFrameBoardEntry 3 } upsDiagSubSysChargerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Chargers attached to the UPS." ::= { upsDiagnosticSubsystem 19 } upsDiagSubSysChargerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysChargerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual chargers." ::= { upsDiagnosticSubsystem 20 } upsDiagSubSysChargerEntry OBJECT-TYPE SYNTAX UpsDiagSubSysChargerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a charger." INDEX { upsDiagSubSysChargerIndex} ::= { upsDiagSubSysChargerTable 1 } UpsDiagSubSysChargerEntry ::= SEQUENCE { upsDiagSubSysChargerFrameIndex INTEGER, upsDiagSubSysChargerIndex INTEGER, upsDiagSubSysChargerStatus INTEGER } upsDiagSubSysChargerFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysChargerEntry 1 } upsDiagSubSysChargerIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of a charger." ::= { upsDiagSubSysChargerEntry 2 } upsDiagSubSysChargerStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Charger. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysChargerEntry 3 } upsDiagSubSysInverterTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Inverters attached to the UPS." ::= { upsDiagnosticSubsystem 21 } upsDiagSubSysInverterTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysInverterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual Inverters." ::= { upsDiagnosticSubsystem 22 } upsDiagSubSysInverterEntry OBJECT-TYPE SYNTAX UpsDiagSubSysInverterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of an Inverter." INDEX { upsDiagSubSysInverterIndex} ::= { upsDiagSubSysInverterTable 1 } UpsDiagSubSysInverterEntry ::= SEQUENCE { upsDiagSubSysInverterFrameIndex INTEGER, upsDiagSubSysInverterIndex INTEGER, upsDiagSubSysInverterStatus INTEGER, upsDiagSubSysInverterFirmwareRev DisplayString, upsDiagSubSysInverterHardwareRev DisplayString, upsDiagSubSysInverterSerialNum DisplayString, upsDiagSubSysInverterManufactureDate DisplayString } upsDiagSubSysInverterFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysInverterEntry 1 } upsDiagSubSysInverterIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an Inverter." ::= { upsDiagSubSysInverterEntry 2 } upsDiagSubSysInverterStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Inverter. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysInverterEntry 3 } upsDiagSubSysInverterFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Inverter monitor." ::= { upsDiagSubSysInverterEntry 4 } upsDiagSubSysInverterHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Inverter monitor." ::= { upsDiagSubSysInverterEntry 5 } upsDiagSubSysInverterSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Inverter monitor." ::= { upsDiagSubSysInverterEntry 6 } upsDiagSubSysInverterManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of manufacture for the Inverter monitor." ::= { upsDiagSubSysInverterEntry 7 } upsDiagSubSysPowerFactorCorrectionTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Power Factor Correction devices attached to the UPS." ::= { upsDiagnosticSubsystem 23 } upsDiagSubSysPowerFactorCorrectionTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysPowerFactorCorrectionEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of individual PowerFactorCorrections." ::= { upsDiagnosticSubsystem 24 } upsDiagSubSysPowerFactorCorrectionEntry OBJECT-TYPE SYNTAX UpsDiagSubSysPowerFactorCorrectionEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a Power Factor Correction." INDEX { upsDiagSubSysPowerFactorCorrectionIndex} ::= { upsDiagSubSysPowerFactorCorrectionTable 1 } UpsDiagSubSysPowerFactorCorrectionEntry ::= SEQUENCE { upsDiagSubSysPowerFactorCorrectionFrameIndex INTEGER, upsDiagSubSysPowerFactorCorrectionIndex INTEGER, upsDiagSubSysPowerFactorCorrectionStatus INTEGER, upsDiagSubSysPowerFactorCorrectionFirmwareRev DisplayString, upsDiagSubSysPowerFactorCorrectionHardwareRev DisplayString, upsDiagSubSysPowerFactorCorrectionSerialNum DisplayString, upsDiagSubSysPowerFactorCorrectionManufactureDate DisplayString } upsDiagSubSysPowerFactorCorrectionFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frame index entry." ::= { upsDiagSubSysPowerFactorCorrectionEntry 1 } upsDiagSubSysPowerFactorCorrectionIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of a Power Factor Correction." ::= { upsDiagSubSysPowerFactorCorrectionEntry 2 } upsDiagSubSysPowerFactorCorrectionStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), offOk (3), onOk (4), offFail (5), onFail (6), lostComm (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Power Factor Correction. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. offOk(3) indicates the device status is off and OK. onOk(4) indicates the device status is on and OK. offFail(5) indicates the device status is off and failed. onFail(6) indicates the device status is on and failed. lostComm(7) indicates the device has lost communication." ::= { upsDiagSubSysPowerFactorCorrectionEntry 3 } upsDiagSubSysPowerFactorCorrectionFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Power Factor Correction monitor." ::= { upsDiagSubSysPowerFactorCorrectionEntry 4 } upsDiagSubSysPowerFactorCorrectionHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Power Factor Correction monitor." ::= { upsDiagSubSysPowerFactorCorrectionEntry 5 } upsDiagSubSysPowerFactorCorrectionSerialNum OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the Power Factor Correction monitor." ::= { upsDiagSubSysPowerFactorCorrectionEntry 6 } upsDiagSubSysPowerFactorCorrectionManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of the manufacture for the Power Factor Correction monitor." ::= { upsDiagSubSysPowerFactorCorrectionEntry 7 } upsDiagSubSysNetworkComCardTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of Network Communication Cards attached to the UPS." ::= { upsDiagnosticSubsystem 25 } upsDiagSubSysNetworkComCardTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubSysNetworkComCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting diagnostics information of an individual Network Communication Card." ::= { upsDiagnosticSubsystem 26 } upsDiagSubSysNetworkComCardEntry OBJECT-TYPE SYNTAX UpsDiagSubSysNetworkComCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of a Network Communication Card." INDEX { upsDiagSubSysNetworkComCardIndex} ::= { upsDiagSubSysNetworkComCardTable 1 } UpsDiagSubSysNetworkComCardEntry ::= SEQUENCE { upsDiagSubSysNetworkComCardIndex INTEGER, upsDiagSubSysNetworkComCardModelNumber DisplayString, upsDiagSubSysNetworkComCardSerialNumber DisplayString, upsDiagSubSysNetworkComCardDateOfManufacture DisplayString, upsDiagSubSysNetworkComCardHardwareRev DisplayString, upsDiagSubSysNetworkComCardFirmwareAppRev DisplayString, upsDiagSubSysNetworkComCardFirmwareAppOSRev DisplayString } upsDiagSubSysNetworkComCardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The UPS network and display interface communication card index entry." ::= { upsDiagSubSysNetworkComCardEntry 1 } upsDiagSubSysNetworkComCardModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number of the UPS network and display interface communication card. This value is set at the factory." ::= { upsDiagSubSysNetworkComCardEntry 2 } upsDiagSubSysNetworkComCardSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the UPS network and display interface communication card. This value is set at the factory." ::= { upsDiagSubSysNetworkComCardEntry 3 } upsDiagSubSysNetworkComCardDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the UPS network and display interface communication card was manufactured in mm/dd/yyyy format. This value is set at the factory." ::= { upsDiagSubSysNetworkComCardEntry 4 } upsDiagSubSysNetworkComCardHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the UPS network and display interface communication card. This value is set at the factory." ::= { upsDiagSubSysNetworkComCardEntry 5 } upsDiagSubSysNetworkComCardFirmwareAppRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application firmware revision of the UPS network and display interface communication card." ::= { upsDiagSubSysNetworkComCardEntry 6 } upsDiagSubSysNetworkComCardFirmwareAppOSRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application operating system firmware revision of the UPS network and display interface communication card." ::= { upsDiagSubSysNetworkComCardEntry 7 } -- the upsDiagnosticExternalDevices group upsDiagSwitchGearStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), fail (4), lostComm (5), overtemp (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Switch Gear. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. fail(4) indicates the device status has failed. lostComm(5) indicates the device has lost communication. overtemp(6) indicates the device has an over temperature condition." ::= { upsDiagSwitchGear 1 } upsDiagSwitchGearInputSwitchStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Switch Gear Input Switch. unknown(1) indicates the switch status is unknown. notInstalled(2) indicates the switch is not installed. opened(3) indicates the switch is opened. closed(4) indicates the switch is closed." ::= { upsDiagSwitchGear 2 } upsDiagSwitchGearOutputSwitchStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Switch Gear Output Switch. unknown(1) indicates the switch status is unknown. notInstalled(2) indicates the switch is not installed. opened(3) indicates the switch is opened. closed(4) indicates the switch is closed." ::= { upsDiagSwitchGear 3 } upsDiagSwitchGearBypassSwitchStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Switch Gear Bypass Switch. unknown(1) indicates the switch status is unknown. notInstalled(2) indicates the switch is not installed. opened(3) indicates the switch is opened. closed(4) indicates the switch is closed." ::= { upsDiagSwitchGear 4 } upsDiagSwitchGearBypassInputSwitchStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Switch Gear Bypass Input Switch. unknown(1) indicates the switch status is unknown. notInstalled(2) indicates the switch is not installed. opened(3) indicates the switch is opened. closed(4) indicates the switch is closed." ::= { upsDiagSwitchGear 5 } upsDiagSwitchGearBreakerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of switchgear breakers attached to the UPS." ::= { upsDiagSwitchGear 6 } upsDiagSwitchGearBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSwitchGearBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Switchgear breaker table." ::= { upsDiagSwitchGear 7 } upsDiagSwitchGearBreakerEntry OBJECT-TYPE SYNTAX UpsDiagSwitchGearBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of switchgear breakers." INDEX { switchgearBreakerIndex } ::= { upsDiagSwitchGearBreakerTable 1 } UpsDiagSwitchGearBreakerEntry ::= SEQUENCE { switchgearBreakerIndex INTEGER, switchgearBreakerPresent INTEGER, switchgearBreakerName DisplayString } switchgearBreakerIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the switchgear breaker." ::= { upsDiagSwitchGearBreakerEntry 1 } switchgearBreakerPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the switchgear breaker is present. notPresent (1) indicates that the breaker is not present. present (2) indicates that the breaker is present." ::= { upsDiagSwitchGearBreakerEntry 2 } switchgearBreakerName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the switchgear breaker." ::= { upsDiagSwitchGearBreakerEntry 3 } upsDiagSubFeedBreakerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of subfeed breakers attached to the UPS." ::= { upsDiagSwitchGear 8 } upsDiagSubFeedBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsDiagSubFeedBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Subfeed breaker table." ::= { upsDiagSwitchGear 9 } upsDiagSubFeedBreakerEntry OBJECT-TYPE SYNTAX UpsDiagSubFeedBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of subfeed breakers." INDEX { subfeedBreakerIndex } ::= { upsDiagSubFeedBreakerTable 1 } UpsDiagSubFeedBreakerEntry ::= SEQUENCE { subfeedBreakerIndex INTEGER, subfeedBreakerPresent INTEGER, subfeedBreakerRating INTEGER, subfeedBreakerUpperAcceptPowerWarning INTEGER, subfeedBreakerUpperAcceptPowerCritical INTEGER } subfeedBreakerIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the subfeed breakers." ::= { upsDiagSubFeedBreakerEntry 1 } subfeedBreakerPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the subfeed breaker is present. notPresent (1) indicates that the breaker is not present. present (2) indicates that the breaker is present." ::= { upsDiagSubFeedBreakerEntry 2 } subfeedBreakerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current rating of the installed subfeed breaker." ::= { upsDiagSubFeedBreakerEntry 3 } subfeedBreakerUpperAcceptPowerWarning OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "The maximum acceptable load before warning is issued. Expressed as percent of the subfeed breaker rating." ::= { upsDiagSubFeedBreakerEntry 4 } subfeedBreakerUpperAcceptPowerCritical OBJECT-TYPE SYNTAX INTEGER (0..125) ACCESS read-write STATUS mandatory DESCRIPTION "The maximum load before a critical alarm occurs. Expressed as percent of the subfeed breaker rating." ::= { upsDiagSubFeedBreakerEntry 5 } upsDiagSwitchGearInstallationLoadPct OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual output load expressed as a percentage of the rating of the UPS." ::= { upsDiagSwitchGear 10 } upsDiagMCCBBoxStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the MCCB Box (Molded Case Circuit Breaker Box) external device. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. opened(3) indicates the circuit is opened. closed(4) indicates the circuit is closed." ::= { upsDiagMCCBBox 1 } upsDiagTransformerStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), fail (4), lostComm (5), overtemp (6), opened (7), closed (8) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the External Transformer. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. fail(4) indicates the device status has failed. lostComm(5) indicates the device has lost communication. overtemp(6) indicates the device has an over temperature condition. opened(7) indicates the circuit is opened. closed(8) indicates the circuit is closed." ::= { upsDiagTransformer 1 } -- the upsDiagnosticComBus group upsDiagComBusInternalMIMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), lostComm (4), rxFailure (5), txFailure (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the internal MIM communication bus. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. lostComm(4) indicates the device has lost communication. rxFailure(5) indicates the device has a receive failure. txFailure(6) indicates the device has a transmit failure." ::= { upsDiagnosticComBus 1 } upsDiagComBusInternalRIMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), lostComm (4), rxFailure (5), txFailure (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the internal RIM communication bus. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. lostComm(4) indicates the device has lost communication. rxFailure(5) indicates the device has a receive failure. txFailure(6) indicates the device has a transmit failure." ::= { upsDiagnosticComBus 2 } upsDiagComBusMIMtoRIMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), lostComm (4), rxFailure (5), txFailure (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the MIM to RIM communication bus. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. lostComm(4) indicates the device has lost communication. rxFailure(5) indicates the device has a receive failure. txFailure(6) indicates the device has a transmit failure." ::= { upsDiagnosticComBus 3 } upsDiagComBusExternalMIMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), lostComm (4), rxFailure (5), txFailure (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the external MIM communication bus. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. lostComm(4) indicates the device has lost communication. rxFailure(5) indicates the device has a receive failure. txFailure(6) indicates the device has a transmit failure." ::= { upsDiagnosticComBus 4 } upsDiagComBusExternalRIMStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), ok (3), lostComm (4), rxFailure (5), txFailure (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the external RIM communication bus. unknown(1) indicates the device status is unknown. notInstalled(2) indicates the device is not installed. ok(3) indicates the device status is OK. lostComm(4) indicates the device has lost communication. rxFailure(5) indicates the device has a receive failure. txFailure(6) indicates the device has a transmit failure." ::= { upsDiagnosticComBus 5 } -- the upsParallelSystem group upsParallelSysLocalAddress OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Defines the UPS ID number in the parallel system." ::= { upsParallelSystem 1 } upsParallelSysRemoteAddress OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Defines the total number of UPSs in parallel." ::= { upsParallelSystem 2 } upsParallelSysRedundancy OBJECT-TYPE SYNTAX INTEGER { nplus0 (1), nplus1 (2), nplus2 (3), nplus3 (4), nplus4 (5), nplus5 (6) } ACCESS read-write STATUS mandatory DESCRIPTION "The redundancy warning level for paralleled UPS nplus0 (1) indicates that there are no redundant units. nplus1 (2) indicates that there is one redundant unit. nplus2 (3) indicates that there are two redundant units. nplus3 (4) indicates that there are three redundant units. nplus4 (5) indicates that there are four redundant unit. nplus5 (6) indicates that there are five redundant units." ::= { upsParallelSystem 3 } upsParallelInputMaximumCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Maximum input RMS current of the parallel system measured in Amperes." ::= { upsParallelSystem 4 } upsParallelTotalOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Total Ouptut power of UPS in KW when UPS are configured in parallel or -1 if it's unsupported by this UPS." ::= { upsParallelSystem 5 } upsParallelTotalOutputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Total Ouptut Apparent power of UPS in kVA when UPS are configured in parallel or -1 if it's unsupported by this UPS." ::= { upsParallelSystem 6 } -- Parallel Input Phase Table upsParallelInputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsParallelInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries." ::= { upsParallelSystem 7 } upsParallelInputPhaseEntry OBJECT-TYPE SYNTAX UpsParallelInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input phase." INDEX { upsParallelInputPhaseTableIndex, upsParallelInputPhaseIndex } ::= { upsParallelInputPhaseTable 1 } UpsParallelInputPhaseEntry ::= SEQUENCE { upsParallelInputPhaseTableIndex INTEGER, upsParallelInputPhaseIndex INTEGER, upsParallelInputCurrent INTEGER, upsParallelInputActivePower INTEGER, upsParallelInputApparentPower INTEGER, upsParallelInputVoltage INTEGER, upsParallelInputMaxVoltage INTEGER, upsParallelInputMaxCurrent INTEGER, upsParallelInputTotalActivePower INTEGER, upsParallelInputTotalApparentPower INTEGER } upsParallelInputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The parallel unit identifier." ::= { upsParallelInputPhaseEntry 1 } upsParallelInputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input phase identifier." ::= { upsParallelInputPhaseEntry 2 } upsParallelInputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input current in amperes, or -1 if it's unsupported by this UPS." ::= { upsParallelInputPhaseEntry 3 } upsParallelInputActivePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input power in kW, or -1 if it's unsupported by this UPS." ::= { upsParallelInputPhaseEntry 4 } upsParallelInputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input apparent power in kVA, or -1 if it's unsupported by this UPS." ::= { upsParallelInputPhaseEntry 5 } upsParallelInputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage of UPS in volts, or -1 if it's unsupported by this UPS." ::= { upsParallelInputPhaseEntry 6 } upsParallelInputMaxVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The peak input voltage in VAC measured since the last reset, or -1 if it's unsupported by this UPS." ::= { upsParallelInputPhaseEntry 7 } upsParallelInputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The peak input current in amperes measured since last reset, or -1 if it's unsupported by this UPS." ::= { upsParallelInputPhaseEntry 8 } upsParallelInputTotalActivePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total active input power of the parallel system in kW." ::= { upsParallelInputPhaseEntry 9 } upsParallelInputTotalApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total apparent input power of the parallel system in kVA." ::= { upsParallelInputPhaseEntry 10 } -- Parallel Output Phase Table upsParallelOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsParallelOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the sum of the upsPhaseNumOutputPhases." ::= { upsParallelSystem 8 } upsParallelOutputPhaseEntry OBJECT-TYPE SYNTAX UpsParallelOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output phase." INDEX { upsParallelOutputPhaseTableIndex, upsParallelOutputPhaseIndex } ::= { upsParallelOutputPhaseTable 1 } UpsParallelOutputPhaseEntry ::= SEQUENCE { upsParallelOutputPhaseTableIndex INTEGER, upsParallelOutputPhaseIndex INTEGER, upsParallelOutputCurrent INTEGER, upsParallelOutputLoad INTEGER, upsParallelOutputPercentLoad INTEGER, upsParallelOutputPower INTEGER } upsParallelOutputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { upsParallelOutputPhaseEntry 1 } upsParallelOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output phase identifier." ::= { upsParallelOutputPhaseEntry 2 } upsParallelOutputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current in amperes drawn by the load on the UPS, or -1 if it's unsupported by this UPS." ::= { upsParallelOutputPhaseEntry 3 } upsParallelOutputLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output load in VA, or -1 if it's unsupported by this UPS." ::= { upsParallelOutputPhaseEntry 4 } upsParallelOutputPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the UPS load capacity in VA at present redundancy being used on this output phase, or -1 if it's unsupported by this UPS." ::= { upsParallelOutputPhaseEntry 5 } upsParallelOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output power in Watts, or -1 if it's unsupported by this UPS." ::= { upsParallelOutputPhaseEntry 6 } -- Parallel Output Apparent Power Table upsParallelOutputApparentPowerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsParallelOutputApparentPowerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the value of upsOutputNumPhases." ::= { upsParallelSystem 9 } upsParallelOutputApparentPowerEntry OBJECT-TYPE SYNTAX UpsParallelOutputApparentPowerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { upsParallelOutputApparentPowerTableIndex } ::= { upsParallelOutputApparentPowerTable 1 } UpsParallelOutputApparentPowerEntry ::= SEQUENCE { upsParallelOutputApparentPowerTableIndex INTEGER, upsParallelOutputApparentPower INTEGER } upsParallelOutputApparentPowerTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The UPS parallel output identifier." ::= { upsParallelOutputApparentPowerEntry 1 } upsParallelOutputApparentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The apparent power of each of UPS in kVA when UPS are configured in parallel." ::= { upsParallelOutputApparentPowerEntry 2 } upsParallelDiagSubSysBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsParallelDiagSubSysBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for diagnostics of parallel Circuit Breakers." ::= { upsParallelSystem 10 } upsParallelDiagSubSysBreakerEntry OBJECT-TYPE SYNTAX UpsParallelDiagSubSysBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The diagnostics of Circuit Breaker." INDEX { upsParallelDiagSubSysBreakerFrameIndex, upsParallelDiagSubSysBreakerIndex} ::= { upsParallelDiagSubSysBreakerTable 1 } UpsParallelDiagSubSysBreakerEntry ::= SEQUENCE { upsParallelDiagSubSysBreakerFrameIndex INTEGER, upsParallelDiagSubSysBreakerIndex INTEGER, upsParallelDiagSubSysBreakerStatus INTEGER, upsParallelDiagSubSysBreakerName DisplayString } upsParallelDiagSubSysBreakerFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Parallel UPS index entry." ::= { upsParallelDiagSubSysBreakerEntry 1 } upsParallelDiagSubSysBreakerIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the Circuit Breaker." ::= { upsParallelDiagSubSysBreakerEntry 2 } upsParallelDiagSubSysBreakerStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), notInstalled (2), opened (3), closed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Circuit Breaker. unknown(1) indicates the circuit breaker status is unknown. notInstalled(2) indicates the circuit breaker is not installed. opened(3) indicates the circuit breaker is opened. closed(4) indicates the circuit breaker is closed." ::= { upsParallelDiagSubSysBreakerEntry 3 } upsParallelDiagSubSysBreakerName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of Circuit Breaker." ::= { upsParallelDiagSubSysBreakerEntry 4 } upsParallelOutputTotalPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the UPS total load capacity in kVA or -1 if it's unsupported by this UPS." ::= { upsParallelSystem 11 } -- Parallel Output Active Power Table upsParallelOutputActivePowerTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsParallelOutputActivePowerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the value of upsParallelSysRemoteAddress." ::= { upsParallelSystem 12 } upsParallelOutputActivePowerEntry OBJECT-TYPE SYNTAX UpsParallelOutputActivePowerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { upsParallelOutputActivePowerTableIndex } ::= { upsParallelOutputActivePowerTable 1 } UpsParallelOutputActivePowerEntry ::= SEQUENCE { upsParallelOutputActivePowerTableIndex INTEGER, upsParallelOutputActivePower INTEGER } upsParallelOutputActivePowerTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The UPS parallel output identifier." ::= { upsParallelOutputActivePowerEntry 1 } upsParallelOutputActivePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The active power of each UPS in kW when UPSs are configured in parallel." ::= { upsParallelOutputActivePowerEntry 2 } upsParallelSysSwitchGearInstallationLoadPct OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual output load expressed as a percentage of the rating of the Parallel UPS system." ::= { upsParallelSystem 13 } upsParallelSysRedundancyStatus OBJECT-TYPE SYNTAX INTEGER { nplus0 (1), nplus1 (2), nplus2 (3), nplus3 (4), nplus4 (5), nplus5 (6) } ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of backup or redundant UPSs set up on the parallel system. nplus0 (1) no redundant units. nplus1 (2) one redundant unit. nplus2 (3) two redundant units. nplus3 (4) three redundant units. nplus4 (5) four redundant units. nplus5 (6) five redundant units." ::= { upsParallelSystem 14 } upsParallelSysName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "An ID string for the group of UPS units in the same parallel system. Some products do not allow write operations for this OID." ::= { upsParallelSystem 15 } -- the upsPhysicalLayout group upsIOFrameLayoutPositionID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Defines the position ID of UPS frame." ::= { upsPhysicalLayout 1 } upsBottomFeedFrameLayoutPositionID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Defines the position ID of bottom feed frame." ::= { upsPhysicalLayout 2 } upsSwitchGearLayoutPositionID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Defines the position ID of switchgear." ::= { upsPhysicalLayout 3 } -- the upsBatteryFrameLayoutTable subgroup upsBatteryFrameLayoutTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of battery frames." ::= { upsPhysicalLayout 4 } upsBatteryFrameLayoutTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsBatteryFrameLayoutEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Battery frame layout position ID table." ::= { upsPhysicalLayout 5 } upsBatteryFrameLayoutEntry OBJECT-TYPE SYNTAX UpsBatteryFrameLayoutEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of layout position IDs of battery frames." INDEX { batteryFrameIndex } ::= { upsBatteryFrameLayoutTable 1 } UpsBatteryFrameLayoutEntry ::= SEQUENCE { batteryFrameIndex INTEGER, batteryFramePositionID INTEGER } batteryFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the battery frame." ::= { upsBatteryFrameLayoutEntry 1 } batteryFramePositionID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Defines the position ID of each of the battery frames in the row." ::= { upsBatteryFrameLayoutEntry 2 } -- the upsSideCarFrameLayoutTable subgroup upsSideCarFrameLayoutTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of sidecar frames." ::= { upsPhysicalLayout 6 } upsSideCarFrameLayoutTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsSideCarFrameLayoutEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Sidecar frame layout position ID table." ::= { upsPhysicalLayout 7 } upsSideCarFrameLayoutEntry OBJECT-TYPE SYNTAX UpsSideCarFrameLayoutEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of sidecar frame layout position IDs." INDEX { sideCarFrameIndex } ::= { upsSideCarFrameLayoutTable 1 } UpsSideCarFrameLayoutEntry ::= SEQUENCE { sideCarFrameIndex INTEGER, sideCarFramePositionID INTEGER } sideCarFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the sidecar frame." ::= { upsSideCarFrameLayoutEntry 1 } sideCarFramePositionID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Defines the position ID of each of the sidecar frames in the row." ::= { upsSideCarFrameLayoutEntry 2 } -- the upsPowerFrameLayoutTable subgroup upsPowerFrameLayoutTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of power frames." ::= { upsPhysicalLayout 8 } upsPowerFrameLayoutTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPowerFrameLayoutEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Power frame layout position ID table." ::= { upsPhysicalLayout 9 } upsPowerFrameLayoutEntry OBJECT-TYPE SYNTAX UpsPowerFrameLayoutEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of power frame layout position IDs." INDEX { powerFrameIndex } ::= { upsPowerFrameLayoutTable 1 } UpsPowerFrameLayoutEntry ::= SEQUENCE { powerFrameIndex INTEGER, powerFramePositionID INTEGER } powerFrameIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the power frame." ::= { upsPowerFrameLayoutEntry 1 } powerFramePositionID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Defines the position ID of each of the power frames in the row." ::= { upsPowerFrameLayoutEntry 2 } -- the upsIntegratedATS group upsIntegratedATSSelectedSource OBJECT-TYPE SYNTAX INTEGER { noSourceSelected (1), unknown (2), sourceA (3), sourceB (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The source which is currently selected by the ATS to supply the UPS." ::= { upsIntegratedATS 1 } upsIntegratedATSPreferredSource OBJECT-TYPE SYNTAX INTEGER { upsIntegratedATSNoSourcePreference (1), upsIntegratedATSPreferSourceA (2), upsIntegratedATSPreferSourceB (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The preferred source of power when both sources are OK." ::= { upsIntegratedATS 2 } upsIntegratedATSUpsReturnStaggering OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This is a delay factor applied to the retransfer of this UPS with integrated ATS. When multiple UPSs are in use from a single source, each UPS can have a unique delay value, which will reduce inrush by preventing all UPSs from transferring at the same time." ::= { upsIntegratedATS 3 } upsIntegratedATSSourceTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input sources for this integrated ATS." ::= { upsIntegratedATS 4 } upsIntegratedATSSourceTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsIntegratedATSSourceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting status and settings for the ATS input sources. The number of entries is contained in the upsIntegratedATSSourceTableSize OID." ::= { upsIntegratedATS 5 } upsIntegratedATSSourceEntry OBJECT-TYPE SYNTAX UpsIntegratedATSSourceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input source status to get." INDEX { upsIntegratedATSSourceIndex} ::= { upsIntegratedATSSourceTable 1 } UpsIntegratedATSSourceEntry ::= SEQUENCE { upsIntegratedATSSourceIndex INTEGER, upsIntegratedATSSourceName DisplayString, upsIntegratedATSSourceStatus INTEGER, upsIntegratedATSLineFailDelay INTEGER, upsIntegratedATSLineStabilityDelay INTEGER } upsIntegratedATSSourceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the input source entry." ::= { upsIntegratedATSSourceEntry 1 } upsIntegratedATSSourceName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the input source. This OID is provided for informational purposes only." ::= { upsIntegratedATSSourceEntry 2 } upsIntegratedATSSourceStatus OBJECT-TYPE SYNTAX INTEGER { upsIntegratedATSSourceGood (1), upsIntegratedATSSourceBad (2), upsIntegratedATSSourceUnknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the input source status." ::= { upsIntegratedATSSourceEntry 3 } upsIntegratedATSLineFailDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The delay between a selected input source becoming bad, and the ATS switching away from that source. This delay is used to make sure that the line has truly failed before the ATS will be switched. Specified in seconds." ::= { upsIntegratedATSSourceEntry 4 } upsIntegratedATSLineStabilityDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The delay between an unselected input source becoming good, and the ATS switching to that source. This delay is used to make sure that the line has truly returned before the ATS will be switched. Specified in seconds." ::= { upsIntegratedATSSourceEntry 5 } -- the serialPort2Config group serialPort2Mode OBJECT-TYPE SYNTAX INTEGER { localConsole(1), passthrough(2) } ACCESS read-write STATUS obsolete DESCRIPTION "Setting this variable to passthrough will enable mini's port2 behave like a UPS port. Choosing localConsole will enable the port to be used as local console." ::= { serialPort2Config 1 } -- the serialPort2Control group setPulseOnTXD OBJECT-TYPE SYNTAX INTEGER { noSetPulseOnTXD(1), setPulseOnTXD(2), setTXDLow(3), setTXDHigh(4) } ACCESS read-write STATUS obsolete DESCRIPTION "Setting this variable to setPulseOnTXD(2) causes adapter to generate a PULSE on TXD pin of serial port 2. The duration in the prototype implementation will be 1 second. Setting this value to noSetPulseOnTXD(1) has no effect. The value noSetPulseOnTXD(1) will always be returned when the variable is read. Setting this value to setTXDLow(3), or setTXDHigh(4) will keep TXD always low or high respectively." ::= { serialPort2Control 1 } -- the sPDUIdent group sPDUIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the PDU. This value is set at the factory." ::= { sPDUIdent 1 } sPDUIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 8 byte ID string identifying the PDU firmware revision. This value is set at the factory." ::= { sPDUIdent 2 } sPDUIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the PDU was manufactured in mm/dd/yy format. This value is set at the factory. The year 2000 will be represented by 00." ::= { sPDUIdent 3 } sPDUIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 10-character string identifying the model number of the PDU internal. This value is set at the factory." ::= { sPDUIdent 4 } sPDUIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 12-character string identifying the serial number of the PDU internal microprocessor. This value is set at the factory." ::= { sPDUIdent 5 } -- the sPDUMasterControl group sPDUMasterControlSwitch OBJECT-TYPE SYNTAX INTEGER { turnAllOnNow (1), turnAllOnSequence (2), turnAllOffNow (3), rebootAllNow (4), rebootAllSequence (5), noCommand (6), turnAllOffSequence (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to turnAllOnNow (1) will turn all outlets on immediately. Setting this OID to turnAllOnSequence (2) will turn all outlets on as defined by each outlet's sPDUOutletPowerOnTime OID value. Setting this OID to turnAllOff (3) will turn all outlets off immediately. Setting this OID to rebootAllNow (4) will reboot all outlets immediately. For MasterSwitch firmware version 1.X, setting this OID to rebootAllSequence (5) reboots all outlets, with power returned to the outlets in the sequence defined by each outlet's sPDUOutletPowerOnTime OID value. For MasterSwitch firmware version 2.X, setting this OID to rebootAllSequence (5) will cause a turnAllOffSequence to be performed. Once all outlets are off, the MasterSwitch will then delay the sPDUMasterConfigReboot OID time, and then perform a turnAllOnSequence. For MasterSwitch firmware version 2.X, setting this OID to turnAllOffSequence (7) will turn all outlets off as defined by each outlet's sPDUOutletPowerOffTime OID value. For MasterSwitch firmware version 1.X, setting this OID to turnAllOffSequence (7) will have no effect. Getting this OID will return the noCommand (6) value." ::= { sPDUMasterControl 1 } sPDUMasterState OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will cause the status of all outlets to be returned. This OID is provided for informational purposes only. To change the outlet state, the user should use the sPDUOutletCtl OID in the sPDUOutletControlTable. The format of the data returned is a character string consisting of the word 'On' if the outlet is on or 'Off' if the outlet is off. At least one space will delimit each outlet entry in the string. If the outlet states are unknown, the character string 'Unknown' will be returned. This signifies that there is an inconsistency in the PDU. In the rare case that this should happen, the user is advised to shut down all equipment powered by the PDU and then cycle the PDU's power. This will put the PDU in a consistent state." ::= { sPDUMasterControl 2 } sPDUMasterPending OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will cause the command pending status of all outlets to be returned. The format of the data returned is a character string consisting of the word 'Yes' if a command is pending for the outlet or 'No' if there is no command pending for the outlet. At least one space will delimit each outlet entry in the string. If the pending states are unknown, the character string 'Unknown' will be returned. This signifies that there is an inconsistency in the PDU. In the rare case that this should happen, the user is advised to shut down all equipment powered by the PDU and then cycle the PDU's power. This will put the PDU in a consistent state." ::= { sPDUMasterControl 3 } -- the sPDUMasterConfig group sPDUMasterConfigPowerOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between when power is provided to the PDU and when the PDU provides basic master power to the outlets. Allowed values are: -1 never apply power automatically. 0 apply power immediately. 15 apply power in 15 seconds. 30 apply power in 30 seconds. 45 apply power in 45 seconds. 60 apply power in 60 seconds (1 minute). 120 apply power in 120 seconds (2 minutes). 300 apply power in 300 seconds (5 minutes). If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUMasterConfig 1 } sPDUMasterConfigReboot OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allowed values are: 5 wait 5 seconds between off/on. 10 wait 10 seconds between off/on. 15 wait 15 seconds between off/on. 20 wait 20 seconds between off/on. 30 wait 30 seconds between off/on. 45 wait 45 seconds between off/on. 60 wait 60 seconds (1 minute) between off/on. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used. This OID is read-only for the MasterSwitch version 2.X and is the maximum sPDUOutletRebootDuration OID of the individual outlets." ::= { sPDUMasterConfig 2 } sPDUMasterConfigPDUName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the PDU." ::= { sPDUMasterConfig 3 } -- the sPDUOutletControl group sPDUOutletControlTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlets for the PDU." ::= { sPDUOutletControl 1 } sPDUOutletControlTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet switches. The number of entries is contained in the sPDUOutletControlTableSize OID." ::= { sPDUOutletControl 2 } sPDUOutletControlEntry OBJECT-TYPE SYNTAX SPDUOutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletControlIndex} ::= { sPDUOutletControlTable 1 } SPDUOutletControlEntry ::= SEQUENCE { sPDUOutletControlIndex INTEGER, sPDUOutletPending INTEGER, sPDUOutletCtl INTEGER, sPDUOutletCtlName DisplayString } sPDUOutletControlIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletControlEntry 1 } sPDUOutletPending OBJECT-TYPE SYNTAX INTEGER{ commandPending (1), noCommandPending (2), commandPendingUnknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Reports whether the current outlet has a pending command. If the commandPendingUnknown (3) value is returned, all devices powered by the PDU should be shut down. The PDU's power should then be cycled to clear this condition." ::= { sPDUOutletControlEntry 2 } sPDUOutletCtl OBJECT-TYPE SYNTAX INTEGER { outletOn (1), outletOff (2), outletReboot (3), outletUnknown (4), outletOnWithDelay (5), outletOffWithDelay (6), outletRebootWithDelay (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the outletOn (1) value will be returned. If the outlet is off, the outletOff (2) value will be returned. If the state of the outlet cannot be determined, the outletUnknown (4) value will be returned. If the outletUnknown condition should occur, all devices powered by the PDU should be shut down. The PDU's power should then be cycled to clear this condition. Setting this variable to outletOn (1) will turn the outlet on. Setting this variable to outletOff (2) will turn the outlet off. Setting this variable to outletReboot (3) will reboot the outlet. Setting this variable to outletOnWithDelay (5) will turn the outlet on after the sPDUOutletPowerOnTime OID has elapsed. This option is not valid for MasterSwitch firmware version 1.X. Setting this variable to outletOffWithDelay (6) will turn the outlet off after the sPDUOutletPowerOffTime OID has elapsed. This option is not valid for MasterSwitch firmware version 1.X. Setting this variable to outletRebootWithDelay (7) will turn the outlet off after the sPDUOutletPowerOffTime OID has elapsed, wait the sPDUOutletRebootDuration OID time, then turn the outlet back on. This option is not valid for MasterSwitch firmware version 1.X." ::= { sPDUOutletControlEntry 3 } sPDUOutletCtlName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 20 characters. This OID is provided for informational purposes only. This value is set by the sPDUOutletName OID." ::= { sPDUOutletControlEntry 4 } -- the sPDUOutletConfig group sPDUOutletConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlets for the PDU." ::= { sPDUOutletConfig 1 } sPDUOutletConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The list of outlets to configure. The number of entries is defined by the sPDUOutletConfigTableSize OID." ::= { sPDUOutletConfig 2 } sPDUOutletConfigEntry OBJECT-TYPE SYNTAX SPDUOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletConfigIndex} ::= { sPDUOutletConfigTable 1 } SPDUOutletConfigEntry ::= SEQUENCE { sPDUOutletConfigIndex INTEGER, sPDUOutletPowerOnTime INTEGER, sPDUOutletName DisplayString, sPDUOutletPowerOffTime INTEGER, sPDUOutletRebootDuration INTEGER } sPDUOutletConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigEntry 1 } sPDUOutletPowerOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering on when the MasterSwitch is powered on. Allowed values are: -1 never power on automatically. 0 power on with the Master Switch. 15 power on 15 seconds after the MasterSwitch has power applied. 30 power on 30 seconds after the MasterSwitch has power applied. 45 power on 45 seconds after the MasterSwitch has power applied. 60 power on 60 seconds (1 minute) after the MasterSwitch has power applied. 120 power on 120 seconds (2 minutes) after the MasterSwitch has power applied. 300 power on 300 seconds (5 minutes) after the MasterSwitch has power applied. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUOutletConfigEntry 2 } sPDUOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 20 characters." ::= { sPDUOutletConfigEntry 3 } sPDUOutletPowerOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering off. Allowed values are: -1 never power off automatically. 0 power off with the MasterSwitch. 15 power off 15 seconds after being commanded. 30 power off 30 seconds after being commanded. 45 power off 45 seconds after being commanded. 60 power off 60 seconds (1 minute) after being commanded. 120 power off 120 seconds (2 minutes) after being commanded. 300 power off 300 seconds (5 minutes) after being commanded. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used. This OID is not available for MasterSwitch firmware version 1.X." ::= { sPDUOutletConfigEntry 4 } sPDUOutletRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allowed values are: 5 wait 5 seconds between off/on. 10 wait 10 seconds between off/on. 15 wait 15 seconds between off/on. 20 wait 20 seconds between off/on. 30 wait 30 seconds between off/on. 45 wait 45 seconds between off/on. 60 wait 60 seconds (1 minute) between off/on. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used. This OID is not available for MasterSwitch firmware version 1.X." ::= { sPDUOutletConfigEntry 5 } -- the sPDUIdentVM group sPDUIdentVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs controllable by this IP address." ::= { sPDUIdentVM 1 } sPDUIdentVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUIdentVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual MasterSwitch VMs. The number of entries is contained in the sPDUIdentVMTableSize OID." ::= { sPDUIdentVM 2 } sPDUIdentVMEntry OBJECT-TYPE SYNTAX SPDUIdentVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to query." INDEX { sPDUIdentVMIndex} ::= { sPDUIdentVMTable 1 } SPDUIdentVMEntry ::= SEQUENCE { sPDUIdentVMIndex INTEGER, sPDUIdentNameVM DisplayString, sPDUIdentHardwareRevVM DisplayString, sPDUIdentFirmwareRevVM DisplayString, sPDUIdentDateOfManufactureVM DisplayString, sPDUIdentModelNumberVM DisplayString, sPDUIdentSerialNumberVM DisplayString } sPDUIdentVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUIdentVMEntry 1 } sPDUIdentNameVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 23-character string identifying the MasterSwitch VM. " ::= { sPDUIdentVMEntry 2 } sPDUIdentHardwareRevVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware version of the MasterSwitch VM. This value is set at the factory." ::= { sPDUIdentVMEntry 3 } sPDUIdentFirmwareRevVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 6-character ID string identifying the MasterSwitch VM firmware version. This value is set at the factory." ::= { sPDUIdentVMEntry 4 } sPDUIdentDateOfManufactureVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the MasterSwitch VM was manufactured in mm/dd/yyyy format. This value is set at the factory. " ::= { sPDUIdentVMEntry 5 } sPDUIdentModelNumberVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 17-character string identifying the model number of the MasterSwitch VM. This value is set at the factory." ::= { sPDUIdentVMEntry 6 } sPDUIdentSerialNumberVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 17-character string identifying the serial number of the MasterSwitch VM. This value is set at the factory." ::= { sPDUIdentVMEntry 7 } -- the sPDUMasterControlVM group sPDUMasterControlVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs controllable by this IP address." ::= { sPDUMasterControlVM 1 } sPDUMasterControlVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUMasterControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of the individual MasterSwitch VMs. The number of entries is contained in the sPDUMasterControlVMTableSize OID." ::= { sPDUMasterControlVM 2 } sPDUMasterControlVMEntry OBJECT-TYPE SYNTAX SPDUMasterControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to control." INDEX { sPDUMasterControlVMIndex} ::= { sPDUMasterControlVMTable 1 } SPDUMasterControlVMEntry ::= SEQUENCE { sPDUMasterControlVMIndex INTEGER, sPDUMasterControlVMName DisplayString, sPDUMasterControlVMCommand INTEGER } sPDUMasterControlVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUMasterControlVMEntry 1 } sPDUMasterControlVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigVMName OID." ::= { sPDUMasterControlVMEntry 2 } sPDUMasterControlVMCommand OBJECT-TYPE SYNTAX INTEGER { noCommandAllVM (1), immediateAllOnVM (2), immediateAllOffVM (3), immediateAllRebootVM (4), delayedAllOnVM (5), delayedAllOffVM (6), sequencedAllRebootVM (7), delayedAllRebootVM (8), delayedSequenceAllRebootVM (9), cancelAllPendingCommandsVM (10), audioAlarmMute (11) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to immediateAllOnVM (2) will turn all outlets on immediately. Setting this OID to immediateAllOffVM (3) will turn all outlets off immediately. Setting this OID to immediateAllRebootVM (4) will reboot all outlets immediately. Setting this OID to delayedAllOnVM (5) will turn all outlets on as defined by each outlet's sPDUOutletConfigVMPowerOnTime OID value. Setting this OID to delayedAllOffVM (6) will turn all outlets off as defined by each outlet's sPDUOutletConfigVMPowerOffTime OID value. Setting this OID to sequencedAllRebootVM (7) will cause a immediateAllOffVM command to be performed. The MasterSwitch VM will then delay the sPDUMasterStatusVMRebootDuration OID time, and then perform a delayedAllOnVM command. Setting this OID to delayedAllRebootVM (8) will cause a delayedAllOffVM command to be performed. Each outlet will then wait its sPDUOutletConfigVMRebootDuration before returning power to the outlet. Setting this OID to delayedSequenceAllRebootVM (9) will cause a delayedAllOffVM command to be performed. Once all outlets are off, the MasterSwitch VM will then delay the sPDUMasterStatusVMRebootDuration OID time, and then perform a delayedAllOnVM command. Setting this OID to cancelAllPendingCommandsVM (10) will cause all pending commands on the MasterSwitch VM to be canceled. Setting this OID to audioAlarmMute (11) will temporarily silence the audible alarm for the duration of the current overload condition. The audible alarm will be activated on subsequent overload alarms. Getting this OID will return the noCommandAllVM (1) value." ::= { sPDUMasterControlVMEntry 3 } -- the sPDUMasterConfigVM group sPDUMasterConfigVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs configurable by this IP address." ::= { sPDUMasterConfigVM 1 } sPDUMasterConfigVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUMasterConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of the individual MasterSwitch VMs. The number of entries is contained in the sPDUMasterConfigVMTableSize OID." ::= { sPDUMasterConfigVM 2 } sPDUMasterConfigVMEntry OBJECT-TYPE SYNTAX SPDUMasterConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to configure." INDEX { sPDUMasterConfigVMIndex} ::= { sPDUMasterConfigVMTable 1 } SPDUMasterConfigVMEntry ::= SEQUENCE { sPDUMasterConfigVMIndex INTEGER, sPDUMasterConfigVMName DisplayString, sPDUMasterConfigVMColdstartDelay INTEGER, sPDUMasterConfigVMAudioAlarmActivated INTEGER, sPDUMasterConfigVMHighLoadWarningThreshold INTEGER, sPDUMasterConfigVMLowLoadWarningThreshold INTEGER, sPDUMasterConfigVMOverloadRestriction INTEGER } sPDUMasterConfigVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUMasterConfigVMEntry 1 } sPDUMasterConfigVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUMasterConfigVMEntry 2 } sPDUMasterConfigVMColdstartDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between when power is provided to the MasterSwitch VM and when the MasterSwitch VM provides basic master power to the outlets. Allowed values are: -1 never apply power automatically. 0 apply power immediately. 15 apply power in 15 seconds. 30 apply power in 30 seconds. 45 apply power in 45 seconds. 60 apply power in 60 seconds (1 minute). 120 apply power in 120 seconds (2 minutes). 300 apply power in 300 seconds (5 minutes). If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUMasterConfigVMEntry 3 } sPDUMasterConfigVMAudioAlarmActivated OBJECT-TYPE SYNTAX INTEGER { audioAlarmActiveNever (1), audioAlarmActiveOnOverload (2), audioAlarmActiveOnOverloadImminent (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to audioAlarmActiveNever (1) will disable the audio alarm on the MasterSwitch VM. Setting this OID to audioAlarmActiveOnOverload (2) will activate the audio alarm on the MasterSwitch VM when an overload condition is present. Setting this OID to audioAlarmActiveOnOverloadImminent (3) will activate the audio alarm on the MasterSwitch VM when the load on the MasterSwitch VM has surpassed the sPDUMasterConfigVMHighLoadWarningThreshold OID value." ::= { sPDUMasterConfigVMEntry 4 } sPDUMasterConfigVMHighLoadWarningThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing an overload condition. It is represented as a percentage of full load." ::= { sPDUMasterConfigVMEntry 5 } sPDUMasterConfigVMLowLoadWarningThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing a low consumption condition. It is represented as a percentage of full load." ::= { sPDUMasterConfigVMEntry 6 } sPDUMasterConfigVMOverloadRestriction OBJECT-TYPE SYNTAX INTEGER { alwaysAllowTurnON (1), restrictOnWarning (2), restrictOnOverload (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID controls the behavior of the MasterSwitch VM when an overload condition is possible and additional outlets are requested to be turned on. Setting this OID to alwaysAllowTurnON (1) will always allow the outlets to turn on. Setting this OID to restrictOnWarning (2) will not allow outlets to turn on if the sPDUMasterConfigVMHighLoadWarningThreshold OID is exceeded. Setting this OID to restrictOnOverload (3) will not allow outlets to turn on if the MasterSwitch Vm is in an overload condition." ::= { sPDUMasterConfigVMEntry 7 } -- the sPDUMasterStatusVM group sPDUMasterStatusVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs at this IP address." ::= { sPDUMasterStatusVM 1 } sPDUMasterStatusVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUMasterStatusVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for gathering of status from the individual MasterSwitch VMs. The number of entries is contained in the sPDUMasterStatusVMTableSize OID." ::= { sPDUMasterStatusVM 2 } sPDUMasterStatusVMEntry OBJECT-TYPE SYNTAX SPDUMasterStatusVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to gather status from." INDEX { sPDUMasterStatusVMIndex} ::= { sPDUMasterStatusVMTable 1 } SPDUMasterStatusVMEntry ::= SEQUENCE { sPDUMasterStatusVMIndex INTEGER, sPDUMasterStatusVMName DisplayString, sPDUMasterStatusVMCommandPending INTEGER, sPDUMasterStatusVMOverloadCondition INTEGER, sPDUMasterStatusVMLowLoadCondition INTEGER, sPDUMasterStatusVMCurrentLoad INTEGER, sPDUMasterStatusVMMaxLoad INTEGER, sPDUMasterStatusVMOutletCount INTEGER, sPDUMasterStatusVMRebootDuration INTEGER } sPDUMasterStatusVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUMasterStatusVMEntry 1 } sPDUMasterStatusVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUMasterStatusVMEntry 2 } sPDUMasterStatusVMCommandPending OBJECT-TYPE SYNTAX INTEGER { commandPendingMasterTrueVM (1), commandPendingMasterFalseVM (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return commandPendingMasterTrueVM (1) if the MasterSwitch VM has a pending command on any of its outlets. commandPendingMasterFalseVM (2) will be returned if there are no pending commands." ::= { sPDUMasterStatusVMEntry 3 } sPDUMasterStatusVMOverloadCondition OBJECT-TYPE SYNTAX INTEGER { overloadConditionTrueVM (1), overloadConditionFalseVM (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return overloadConditionTrueVM (1) if the sPDUMasterConfigVMHighLoadWarningThreshold OID is violated. overloadConditionFalseVM (2) will be returned if the sPDUMasterConfigVMHighLoadWarningThreshold OID is not violated." ::= { sPDUMasterStatusVMEntry 4 } sPDUMasterStatusVMLowLoadCondition OBJECT-TYPE SYNTAX INTEGER { lowLoadConditionTrueVM (1), lowLoadConditionFalseVM (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return lowLoadConditionTrueVM (1) if the sPDUMasterConfigVMLowLoadWarningThreshold OID is violated. lowLoadConditionFalseVM (2) will be returned if the sPDUMasterConfigVMHighLoadWarningThreshold OID is not violated. " ::= { sPDUMasterStatusVMEntry 5 } sPDUMasterStatusVMCurrentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the total amount of power being consumed by the load. It is represented as a percentage of full load." ::= { sPDUMasterStatusVMEntry 6 } sPDUMasterStatusVMMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the total amount of power that this MasterSwitch VM can provide. It is represented in Amps." ::= { sPDUMasterStatusVMEntry 7 } sPDUMasterStatusVMOutletCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of controllable outlets for this MasterSwitch VM." ::= { sPDUMasterStatusVMEntry 8 } sPDUMasterStatusVMRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the largest sPDUOutletConfigVMRebootDuration OID time for this MasterSwitch VM." ::= { sPDUMasterStatusVMEntry 9 } -- the sPDUOutletControlVM group sPDUOutletControlVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet switches. The number of entries is contained in the sPDUMasterStatusOutletCount OID." ::= { sPDUOutletControlVM 1 } sPDUOutletControlVMEntry OBJECT-TYPE SYNTAX SPDUOutletControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletControlVMIndex, sPDUOutletControlVMOutletIndex } ::= { sPDUOutletControlVMTable 1 } SPDUOutletControlVMEntry ::= SEQUENCE { sPDUOutletControlVMIndex INTEGER, sPDUOutletControlVMName DisplayString, sPDUOutletControlVMOutletIndex INTEGER, sPDUOutletControlVMOutletName DisplayString, sPDUOutletControlVMOutletCommand INTEGER } sPDUOutletControlVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM." ::= { sPDUOutletControlVMEntry 1 } sPDUOutletControlVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters. This OID is provided for informational purposes only." ::= { sPDUOutletControlVMEntry 2 } sPDUOutletControlVMOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletControlVMEntry 3 } sPDUOutletControlVMOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 23 characters. This OID is provided for informational purposes only." ::= { sPDUOutletControlVMEntry 4 } sPDUOutletControlVMOutletCommand OBJECT-TYPE SYNTAX INTEGER { immediateOnVM (1), immediateOffVM (2), immediateRebootVM (3), delayedOnVM (4), delayedOffVM (5), delayedRebootVM (6), cancelPendingCommandVM (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the immediateOnVM (1) value will be returned. If the outlet is off, the immediateOffVM (2) value will be returned. Setting this variable to immediateOnVM (1) will immediately turn the outlet on. Setting this variable to immediateOffVM (2) will immediately turn the outlet off. Setting this variable to immediateRebootVM (3) will immediately reboot the outlet. Setting this variable to delayedOnVM (4) will turn the outlet on after the sPDUOutletConfigVMPowerOnTime OID time has elapsed. Setting this variable to delayedOffVM (5) will turn the outlet off after the sPDUOutletConfigVMPowerOffTime OID time has elapsed. Setting this variable to delayedRebootVM (6) will cause the MasterSwitch VM to perform a delayedOffVM command, wait the sPDUOutletConfigVMRebootDuration OID time, and then perform the immediateOnVM command. Setting this variable to cancelPendingCommandVM (7) will cause any pending command to this outlet to be canceled." ::= { sPDUOutletControlVMEntry 5 } -- the sPDUOutletConfigVM group sPDUOutletConfigVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the sPDUMasterStatusOutletCount OID." ::= { sPDUOutletConfigVM 1 } sPDUOutletConfigVMEntry OBJECT-TYPE SYNTAX SPDUOutletConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { sPDUOutletConfigVMIndex, sPDUOutletConfigVMOutletIndex } ::= { sPDUOutletConfigVMTable 1 } SPDUOutletConfigVMEntry ::= SEQUENCE { sPDUOutletConfigVMIndex INTEGER, sPDUOutletConfigVMName DisplayString, sPDUOutletConfigVMOutletIndex INTEGER, sPDUOutletConfigVMOutletName DisplayString, sPDUOutletConfigVMPowerOnTime INTEGER, sPDUOutletConfigVMPowerOffTime INTEGER, sPDUOutletConfigVMRebootDuration INTEGER } sPDUOutletConfigVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM." ::= { sPDUOutletConfigVMEntry 1 } sPDUOutletConfigVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUOutletConfigVMEntry 2 } sPDUOutletConfigVMOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigVMEntry 3 } sPDUOutletConfigVMOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 23 characters." ::= { sPDUOutletConfigVMEntry 4 } sPDUOutletConfigVMPowerOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering on at coldstart or when a command that requires a turn-on delay is issued. Allowed values are: -1 never power on. 0 power on immediately. 15 power on 15 seconds after being commanded. 30 power on 30 seconds after being commanded. 45 power on 45 seconds after being commanded. 60 power on 60 seconds (1 minute) after being commanded. 120 power on 120 seconds (2 minutes) after being commanded. 300 power on 300 seconds (5 minutes) after being commanded. If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUOutletConfigVMEntry 5 } sPDUOutletConfigVMPowerOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering off when a command that requires a turn-off delay is issued. Allowed values are: -1 never power off automatically. 0 power off immediately. 15 power off 15 seconds after being commanded. 30 power off 30 seconds after being commanded. 45 power off 45 seconds after being commanded. 60 power off 60 seconds (1 minute) after being commanded. 120 power off 120 seconds (2 minutes) after being commanded. 300 power off 300 seconds (5 minutes) after being commanded. If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUOutletConfigVMEntry 6 } sPDUOutletConfigVMRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allowed values are: 5 wait 5 seconds between off/on. 10 wait 10 seconds between off/on. 15 wait 15 seconds between off/on. 20 wait 20 seconds between off/on. 30 wait 30 seconds between off/on. 45 wait 45 seconds between off/on. 60 wait 60 seconds (1 minute) between off/on. If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUOutletConfigVMEntry 7 } -- the sPDUOutletStatusVM group sPDUOutletStatusVMTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletStatusVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of individual outlets. The number of entries is contained in the sPDUMasterStatusOutletCount OID." ::= { sPDUOutletStatusVM 1 } sPDUOutletStatusVMEntry OBJECT-TYPE SYNTAX SPDUOutletStatusVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to gather status from." INDEX { sPDUOutletStatusVMIndex, sPDUOutletStatusVMOutletIndex } ::= { sPDUOutletStatusVMTable 1 } SPDUOutletStatusVMEntry ::= SEQUENCE { sPDUOutletStatusVMIndex INTEGER, sPDUOutletStatusVMName DisplayString, sPDUOutletStatusVMOutletIndex INTEGER, sPDUOutletStatusVMOutletName DisplayString, sPDUOutletStatusVMOutletState INTEGER, sPDUOutletStatusVMCommandPending INTEGER } sPDUOutletStatusVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM." ::= { sPDUOutletStatusVMEntry 1 } sPDUOutletStatusVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUOutletStatusVMEntry 2 } sPDUOutletStatusVMOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletStatusVMEntry 3 } sPDUOutletStatusVMOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 23 characters." ::= { sPDUOutletStatusVMEntry 4 } sPDUOutletStatusVMOutletState OBJECT-TYPE SYNTAX INTEGER { outletStatusVMOn (1), outletStatusVMOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the outletStatusOnVM (1) value will be returned. If the outlet is off, the outletStatusOffVM (2) value will be returned. " ::= { sPDUOutletStatusVMEntry 5 } sPDUOutletStatusVMCommandPending OBJECT-TYPE SYNTAX INTEGER { outletStatusVMCommandPending (1), outletStatusVMNoCommandPending (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the command pending state of the outlet. If a command is pending on the outlet, the outletStatusVMCommandPending (1) value will be returned. If there is not a command pending on the outlet, the outletStatusVMNoCommandPending (2) will be returned." ::= { sPDUOutletStatusVMEntry 6 } -- the sPDUIdentMSP group sPDUIdentMSPTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch pluses controllable by this IP address." ::= { sPDUIdentMSP 1 } sPDUIdentMSPTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUIdentMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual MasterSwitch pluses. The number of entries is contained in the sPDUIdentMSPTableSize OID." ::= { sPDUIdentMSP 2 } sPDUIdentMSPEntry OBJECT-TYPE SYNTAX SPDUIdentMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch pluses to query." INDEX { sPDUIdentMSPIndex} ::= { sPDUIdentMSPTable 1 } SPDUIdentMSPEntry ::= SEQUENCE { sPDUIdentMSPIndex INTEGER, sPDUIdentNameMSP DisplayString, sPDUIdentHardwareRevMSP DisplayString, sPDUIdentFirmwareRevMSP DisplayString, sPDUIdentDateOfManufactureMSP DisplayString, sPDUIdentModelNumberMSP DisplayString, sPDUIdentSerialNumberMSP DisplayString } sPDUIdentMSPIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus entry." ::= { sPDUIdentMSPEntry 1 } sPDUIdentNameMSP OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUIdentMSPEntry 2 } sPDUIdentHardwareRevMSP OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware version of the MasterSwitch plus. This value is set at the factory." ::= { sPDUIdentMSPEntry 3 } sPDUIdentFirmwareRevMSP OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 6-character ID string identifying the MasterSwitch plus firmware version. This value is set at the factory." ::= { sPDUIdentMSPEntry 4 } sPDUIdentDateOfManufactureMSP OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the MasterSwitch plus was manufactured in mm/dd/yyyy format. This value is set at the factory. " ::= { sPDUIdentMSPEntry 5 } sPDUIdentModelNumberMSP OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 17-character string identifying the model number of the MasterSwitch plus. This value is set at the factory." ::= { sPDUIdentMSPEntry 6 } sPDUIdentSerialNumberMSP OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 17-character string identifying the serial number of the MasterSwitch plus. This value is set at the factory." ::= { sPDUIdentMSPEntry 7 } -- the sPDUMasterControlMSP group sPDUMasterControlMSPTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch pluses controllable by this IP address." ::= { sPDUMasterControlMSP 1 } sPDUMasterControlMSPTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUMasterControlMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of the individual MasterSwitch pluses. The number of entries is contained in the sPDUMasterControlMSPTableSize OID." ::= { sPDUMasterControlMSP 2 } sPDUMasterControlMSPEntry OBJECT-TYPE SYNTAX SPDUMasterControlMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch pluses to control." INDEX { sPDUMasterControlMSPIndex} ::= { sPDUMasterControlMSPTable 1 } SPDUMasterControlMSPEntry ::= SEQUENCE { sPDUMasterControlMSPIndex INTEGER, sPDUMasterControlMSPName DisplayString, sPDUMasterControlMSPCommand INTEGER } sPDUMasterControlMSPIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus entry." ::= { sPDUMasterControlMSPEntry 1 } sPDUMasterControlMSPName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUMasterControlMSPEntry 2 } sPDUMasterControlMSPCommand OBJECT-TYPE SYNTAX INTEGER { noCommandAllMSP (1), immediateAllOnMSP (2), sequencedAllOnMSP (3), immediateAllOffMSP (4), gracefulAllRebootMSP (5), immediateAllRebootMSP (6), gracefulAllShutdownMSP (7), overrideAllBatCapThreshMSP (8), cancelAllPendingCommandsMSP (9), restoreFactoryDefaultsMSP (10) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to immediateAllOnMSP (2) will turn all outlets on immediately. Setting this OID to sequencedAllOnMSP (3) will turn all outlets on as defined by each outlet's sPDUOutletConfigMSPPowerOnDelay OID value. Setting this OID to immediateAllOffMSP (4) will turn all outlets off immediately. Setting this OID to gracefulAllRebootMSP (5) will reboot all outlets (after the device running PowerChute confirms shutdown) as defined by each outlet's sPDUOutletConfigMSPRebootDuration OID time value. Setting this OID to immediateAllRebootMSP (6) will reboot all outlets immediately. Setting this OID to gracefulAllShutdownMSP (7) will shutdown all outlets (after the device running PowerChute confirms shutdown) as defined by each outlet's sPDUOutletConfigMSPPowerOffDelay OID time value. Each outlet will then turn on after the sum of its sPDUOutletConfigMSPRestartDelay and sPDUOutletConfigMSPPowerOnDelay OID values. Setting this OID to overrideAllBatCapThreshMSP (8) will cause the outlet to ignore the Battery Capacity Threshold and proceed turning on the outlets as defined by each outlet's sPDUOutletConfigMSPPowerOnDelay OID value. Setting this OID to cancelAllPendingCommandsMSP (9) will cause all pending commands on the MasterSwitch plus to be canceled. Setting this OID to restoreFactoryDefaultsMSP (10) will cause the settings of the MasterSwitch plus to be restored to the factory defaults. Getting this OID will return the noCommandAllMSP (1) value." ::= { sPDUMasterControlMSPEntry 3 } -- the sPDUMasterConfigMSP group sPDUMasterConfigMSPTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch pluses configurable by this IP address." ::= { sPDUMasterConfigMSP 1 } sPDUMasterConfigMSPTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUMasterConfigMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of the individual MasterSwitch pluses. The number of entries is contained in the sPDUMasterConfigMSPTableSize OID." ::= { sPDUMasterConfigMSP 2 } sPDUMasterConfigMSPEntry OBJECT-TYPE SYNTAX SPDUMasterConfigMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch pluses to configure." INDEX { sPDUMasterConfigMSPIndex} ::= { sPDUMasterConfigMSPTable 1 } SPDUMasterConfigMSPEntry ::= SEQUENCE { sPDUMasterConfigMSPIndex INTEGER, sPDUMasterConfigMSPName DisplayString, sPDUMasterConfigMSPPowerOnTimeDelay INTEGER, sPDUMasterConfigMSPManualButton INTEGER } sPDUMasterConfigMSPIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus entry." ::= { sPDUMasterConfigMSPEntry 1 } sPDUMasterConfigMSPName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. Maximum size is 23 characters." ::= { sPDUMasterConfigMSPEntry 2 } sPDUMasterConfigMSPPowerOnTimeDelay OBJECT-TYPE SYNTAX INTEGER (0..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between when power is provided to the MasterSwitch plus and when the MasterSwitch plus provides basic master power to the outlets. Allowed values are: 0 - 9999 seconds (0 - 2hrs, 46 mins, 39 secs). 0 indicates to apply power immediately." ::= { sPDUMasterConfigMSPEntry 3 } sPDUMasterConfigMSPManualButton OBJECT-TYPE SYNTAX INTEGER { manualButtonDisabled (1), manualButtonEnabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to manualButtonDisabled (1) will disable the manual button on the MasterSwitch plus. Setting this OID to manualButtonEnabled (2) will enable the manual button on the MasterSwitch plus." ::= { sPDUMasterConfigMSPEntry 4 } -- the sPDUMasterStatusMSP group sPDUMasterStatusMSPTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch pluses at this IP address." ::= { sPDUMasterStatusMSP 1 } sPDUMasterStatusMSPTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUMasterStatusMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for gathering of status from the individual MasterSwitch pluses. The number of entries is contained in the sPDUMasterStatusMSPTableSize OID." ::= { sPDUMasterStatusMSP 2 } sPDUMasterStatusMSPEntry OBJECT-TYPE SYNTAX SPDUMasterStatusMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch pluses to gather status from." INDEX { sPDUMasterStatusMSPIndex} ::= { sPDUMasterStatusMSPTable 1 } SPDUMasterStatusMSPEntry ::= SEQUENCE { sPDUMasterStatusMSPIndex INTEGER, sPDUMasterStatusMSPName DisplayString, sPDUMasterStatusMSPOutletCount INTEGER } sPDUMasterStatusMSPIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus entry." ::= { sPDUMasterStatusMSPEntry 1 } sPDUMasterStatusMSPName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUMasterStatusMSPEntry 2 } sPDUMasterStatusMSPOutletCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of controllable outlets for this MasterSwitch plus." ::= { sPDUMasterStatusMSPEntry 3 } -- the sPDUOutletControlMSP group sPDUOutletControlMSPTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletControlMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet switches. The number of entries is contained in the sPDUMasterStatusMSPOutletCount OID." ::= { sPDUOutletControlMSP 1 } sPDUOutletControlMSPEntry OBJECT-TYPE SYNTAX SPDUOutletControlMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletControlMSPIndex, sPDUOutletControlMSPOutletIndex } ::= { sPDUOutletControlMSPTable 1 } SPDUOutletControlMSPEntry ::= SEQUENCE { sPDUOutletControlMSPIndex INTEGER, sPDUOutletControlMSPName DisplayString, sPDUOutletControlMSPOutletIndex INTEGER, sPDUOutletControlMSPOutletName DisplayString, sPDUOutletControlMSPOutletCommand INTEGER } sPDUOutletControlMSPIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus." ::= { sPDUOutletControlMSPEntry 1 } sPDUOutletControlMSPName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUOutletControlMSPEntry 2 } sPDUOutletControlMSPOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletControlMSPEntry 3 } sPDUOutletControlMSPOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum size is 23 characters. The name is set by using the sPDUOutletConfigMSPallOutletName OID. This OID is provided for informational purposes only." ::= { sPDUOutletControlMSPEntry 4 } sPDUOutletControlMSPOutletCommand OBJECT-TYPE SYNTAX INTEGER { immediateOnMSP (1), delayedOnMSP (2), immediateOffMSP (3), gracefulRebootMSP (4), immediateRebootMSP (5), gracefulshutdownMSP (6), overrideBatCapThreshMSP (7), cancelPendingCommandMSP (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the immediateOnMSP (1) value will be returned. If the outlet is off, the immediateOffMSP (3) value will be returned. Setting this variable to immediateOnMSP (1) will immediately turn the outlet on. Setting this variable to delayedOnMSP (2) will turn the outlet on after the sPDUOutletConfigMSPPowerOnDelay OID time has elapsed. Setting this variable to immediateOffMSP (3) will immediately turn the outlet off. Setting this variable to gracefulRebootMSP (4) will cause the outlet to wait for device confirmation (if applicable) and then turn the outlet off after the sPDUOutletConfigMSPPowerOffDelay OID time has elapsed. The outlet will then turn on after the sPDUOutletConfigMSPRebootDuration OID time has elapsed. Setting this variable to immediateRebootMSP (5) will immediately reboot the outlet. Setting this variable to gracefulshutdownMSP (6) will cause the outlet to wait for device confirmation (if applicable) and then turn the outlet off after the sPDUOutletConfigMSPPowerOffDelay OID time has elapsed. The outlet will then turn on after the sum of the sPDUOutletConfigMSPRestartTime OID time and the sPDUOutletConfigMSPPowerOnDelay OID time has elapsed. Setting this variable to overrideBatCapThreshMSP (7) will cause the outlet to ignore the Battery Capacity Threshold and proceed waiting on the sPDUOutletConfigMSPPowerOnDelay OID time before turning the outlet on. Setting this variable to cancelPendingCommandMSP (8) will cause any pending command to this outlet to be canceled." ::= { sPDUOutletControlMSPEntry 5 } -- the sPDUOutletConfigMSPall group sPDUOutletConfigMSPallTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigMSPallEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the sPDUMasterStatusMSPOutletCount OID." ::= { sPDUOutletConfigMSPall 1 } sPDUOutletConfigMSPallEntry OBJECT-TYPE SYNTAX SPDUOutletConfigMSPallEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { sPDUOutletConfigMSPallIndex, sPDUOutletConfigMSPallOutletIndex } ::= { sPDUOutletConfigMSPallTable 1 } SPDUOutletConfigMSPallEntry ::= SEQUENCE { sPDUOutletConfigMSPallIndex INTEGER, sPDUOutletConfigMSPallName DisplayString, sPDUOutletConfigMSPallOutletIndex INTEGER, sPDUOutletConfigMSPallOutletName DisplayString, sPDUOutletConfigMSPallOutletCtrlMode INTEGER } sPDUOutletConfigMSPallIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus." ::= { sPDUOutletConfigMSPallEntry 1 } sPDUOutletConfigMSPallName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUOutletConfigMSPallEntry 2 } sPDUOutletConfigMSPallOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigMSPallEntry 3 } sPDUOutletConfigMSPallOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 23 characters." ::= { sPDUOutletConfigMSPallEntry 4 } sPDUOutletConfigMSPallOutletCtrlMode OBJECT-TYPE SYNTAX INTEGER { modeGracefulShutdown (1), modeAnnunciator (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to modeGracefulShutdown (1) will put this outlet into the Graceful Shutdown control mode. Setting this OID to modeAnnunciator (2) will put this outlet into the Annunciator control mode." ::= { sPDUOutletConfigMSPallEntry 5 } -- the sPDUOutConfigMSPgs group sPDUOutletConfigMSPgsTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigMSPgsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the sPDUMasterStatusMSPOutletCount OID." ::= { sPDUOutletConfigMSPgs 1 } sPDUOutletConfigMSPgsEntry OBJECT-TYPE SYNTAX SPDUOutletConfigMSPgsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { sPDUOutletConfigMSPgsIndex, sPDUOutletConfigMSPgsOutletIndex } ::= { sPDUOutletConfigMSPgsTable 1 } SPDUOutletConfigMSPgsEntry ::= SEQUENCE { sPDUOutletConfigMSPgsIndex INTEGER, sPDUOutletConfigMSPgsName DisplayString, sPDUOutletConfigMSPgsOutletIndex INTEGER, sPDUOutletConfigMSPgsOutletName DisplayString, sPDUOutletConfigMSPgsOutletCtrlMode INTEGER, sPDUOutletConfigMSPgsDeviceConfirm INTEGER, sPDUOutletConfigMSPgsLowBattWarning INTEGER, sPDUOutletConfigMSPgsLowBattMult INTEGER, sPDUOutletConfigMSPgsRestartDelay INTEGER, sPDUOutletConfigMSPgsPowerOnDelay INTEGER, sPDUOutletConfigMSPgsPowerOffDelay INTEGER, sPDUOutletConfigMSPgsBattCapThresh INTEGER, sPDUOutletConfigMSPgsRebootDuration INTEGER } sPDUOutletConfigMSPgsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus." ::= { sPDUOutletConfigMSPgsEntry 1 } sPDUOutletConfigMSPgsName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUOutletConfigMSPgsEntry 2 } sPDUOutletConfigMSPgsOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigMSPgsEntry 3 } sPDUOutletConfigMSPgsOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum size is 23 characters. The name is set by using the sPDUOutletConfigMSPallOutletName OID. This OID is provided for informational purposes only." ::= { sPDUOutletConfigMSPgsEntry 4 } sPDUOutletConfigMSPgsOutletCtrlMode OBJECT-TYPE SYNTAX INTEGER { modeGracefulShutdown (1), modeAnnunciator (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Control Mode of the outlet. This OID is provided for informational purposes only." ::= { sPDUOutletConfigMSPgsEntry 5 } sPDUOutletConfigMSPgsDeviceConfirm OBJECT-TYPE SYNTAX INTEGER { deviceConfirmNo (1), deviceConfirmYes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to deviceConfirmNo (1) cause the outlet to NOT wait for device confirmation while performing graceful operations. Setting this OID to deviceConfirmYes (2) cause the outlet to wait for device confirmation while performing graceful operations." ::= { sPDUOutletConfigMSPgsEntry 6 } sPDUOutletConfigMSPgsLowBattWarning OBJECT-TYPE SYNTAX INTEGER (-2..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in 6 second intervals, between when the UPS goes on battery and the power down sequence for the outlet is initiated. Allowed values are: -2 - Never initiate the power down sequence on low battery warning. -1 - Initiate power down sequence based on remaining runtime. 1 - 9999 six second intervals (6 secs - 16hrs, 39 mins, 54 secs). 0 indicates to immediately initiate power down sequence on low battery warning." ::= { sPDUOutletConfigMSPgsEntry 7 } sPDUOutletConfigMSPgsLowBattMult OBJECT-TYPE SYNTAX INTEGER (1..7) ACCESS read-write STATUS mandatory DESCRIPTION " Only applicable if sPDUOutletConfigMSPgsLowBattWarning OID is set to -1 (On Runtime Remaining). Allows you to set the value to stagger the shutdown sequence of the outlets. 1 provides the longest delay (the outlet to shutoff first), and 7 would provide the shortest delay (the outlet to shut off last). Allowed values are: 1 - 7." ::= { sPDUOutletConfigMSPgsEntry 8 } sPDUOutletConfigMSPgsRestartDelay OBJECT-TYPE SYNTAX INTEGER (-1..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in 6 minute intervals, between when the outlet is turned off and the outlet is turned back on when performing a Graceful Shutdown. Allowed values are: -1 - Never turn outlet back on after a Graceful shutdown. 0 - 9999 six minute intervals (0 - 999hrs, 54 mins)." ::= { sPDUOutletConfigMSPgsEntry 9 } sPDUOutletConfigMSPgsPowerOnDelay OBJECT-TYPE SYNTAX INTEGER (-1..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between the UPS entering normal (on-line) state and the outlet being powered on. Allowed values are: -1 - Remain Off when the UPS enters the on-line state. 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)." ::= { sPDUOutletConfigMSPgsEntry 10 } sPDUOutletConfigMSPgsPowerOffDelay OBJECT-TYPE SYNTAX INTEGER (0..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between when the server shuts down and the outlet is powered off. Allowed values are: 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)." ::= { sPDUOutletConfigMSPgsEntry 11 } sPDUOutletConfigMSPgsBattCapThresh OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION " The minimum battery capacity, as a percent (0-100%), required of the UPS before an outlet will be allowed to power on. Allowed values are: 0 - 100 percent." ::= { sPDUOutletConfigMSPgsEntry 12 } sPDUOutletConfigMSPgsRebootDuration OBJECT-TYPE SYNTAX INTEGER (0..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, from outlet off until outlet on during a reboot. Allowed values are: 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)." ::= { sPDUOutletConfigMSPgsEntry 13 } -- the sPDUOutConfigMSPannun group sPDUOutletConfigMSPannunTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigMSPannunEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the sPDUMasterStatusMSPOutletCount OID." ::= { sPDUOutletConfigMSPannun 1 } sPDUOutletConfigMSPannunEntry OBJECT-TYPE SYNTAX SPDUOutletConfigMSPannunEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { sPDUOutletConfigMSPannunIndex, sPDUOutletConfigMSPannunOutletIndex } ::= { sPDUOutletConfigMSPannunTable 1 } SPDUOutletConfigMSPannunEntry ::= SEQUENCE { sPDUOutletConfigMSPannunIndex INTEGER, sPDUOutletConfigMSPannunName DisplayString, sPDUOutletConfigMSPannunOutletIndex INTEGER, sPDUOutletConfigMSPannunOutletName DisplayString, sPDUOutletConfigMSPannunOutletCtrlMode INTEGER, sPDUOutletConfigMSPannunInitialState INTEGER, sPDUOutletConfigMSPannunAlarmActionDly INTEGER } sPDUOutletConfigMSPannunIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus." ::= { sPDUOutletConfigMSPannunEntry 1 } sPDUOutletConfigMSPannunName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUOutletConfigMSPannunEntry 2 } sPDUOutletConfigMSPannunOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigMSPannunEntry 3 } sPDUOutletConfigMSPannunOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum size is 23 characters. The name is set by using the sPDUOutletConfigMSPallOutletName OID. This OID is provided for informational purposes only." ::= { sPDUOutletConfigMSPannunEntry 4 } sPDUOutletConfigMSPannunOutletCtrlMode OBJECT-TYPE SYNTAX INTEGER { modeGracefulShutdown (1), modeAnnunciator (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Control Mode of the outlet. This OID is provided for informational purposes only." ::= { sPDUOutletConfigMSPannunEntry 5 } sPDUOutletConfigMSPannunInitialState OBJECT-TYPE SYNTAX INTEGER { initialStateOff (1), initialStateOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to initialStateOff (1) causes the outlet to default to off when in the non-alarmed condition. Setting this OID to initialStateOn (2) causes the outlet to default to on when in the non-alarmed condition." ::= { sPDUOutletConfigMSPannunEntry 6 } sPDUOutletConfigMSPannunAlarmActionDly OBJECT-TYPE SYNTAX INTEGER (0..9999) ACCESS read-write STATUS mandatory DESCRIPTION " The amount of time, in seconds, that an enabled Measure-UPS alarm must be asserted before an alarm condition is recognized. Allowed values are: 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)." ::= { sPDUOutletConfigMSPannunEntry 7 } -- the sPDUOutConfigMSPmups group sPDUOutletConfigMSPmupsTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigMSPmupsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the sPDUMasterStatusMSPOutletCount OID." ::= { sPDUOutletConfigMSPmups 1 } sPDUOutletConfigMSPmupsEntry OBJECT-TYPE SYNTAX SPDUOutletConfigMSPmupsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { sPDUOutletConfigMSPmupsIndex, sPDUOutletConfigMSPmupsOutletIndex } ::= { sPDUOutletConfigMSPmupsTable 1 } SPDUOutletConfigMSPmupsEntry ::= SEQUENCE { sPDUOutletConfigMSPmupsIndex INTEGER, sPDUOutletConfigMSPmupsName DisplayString, sPDUOutletConfigMSPmupsOutletIndex INTEGER, sPDUOutletConfigMSPmupsOutletName DisplayString, sPDUOutletConfigMSPmupsZone1 INTEGER, sPDUOutletConfigMSPmupsZone2 INTEGER, sPDUOutletConfigMSPmupsZone3 INTEGER, sPDUOutletConfigMSPmupsZone4 INTEGER, sPDUOutletConfigMSPmupsP1LowHum INTEGER, sPDUOutletConfigMSPmupsP1HiHum INTEGER, sPDUOutletConfigMSPmupsP1LowTemp INTEGER, sPDUOutletConfigMSPmupsP1HiTemp INTEGER, sPDUOutletConfigMSPmupsP2LowHum INTEGER, sPDUOutletConfigMSPmupsP2HiHum INTEGER, sPDUOutletConfigMSPmupsP2LowTemp INTEGER, sPDUOutletConfigMSPmupsP2HiTemp INTEGER } sPDUOutletConfigMSPmupsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch plus." ::= { sPDUOutletConfigMSPmupsEntry 1 } sPDUOutletConfigMSPmupsName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUOutletConfigMSPmupsEntry 2 } sPDUOutletConfigMSPmupsOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigMSPmupsEntry 3 } sPDUOutletConfigMSPmupsOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum size is 23 characters. The name is set by using the sPDUOutletConfigMSPallOutletName OID. This OID is provided for informational purposes only." ::= { sPDUOutletConfigMSPmupsEntry 4 } sPDUOutletConfigMSPmupsZone1 OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Zone 1 alarm for this outlet. Setting this OID to enableAlarm (2) enables the Zone 1 alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 5 } sPDUOutletConfigMSPmupsZone2 OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Zone 2 alarm for this outlet. Setting this OID to enableAlarm (2) enables the Zone 2 alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 6 } sPDUOutletConfigMSPmupsZone3 OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Zone 3 alarm for this outlet. Setting this OID to enableAlarm (2) enables the Zone 3 alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 7 } sPDUOutletConfigMSPmupsZone4 OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Zone 4 alarm for this outlet. Setting this OID to enableAlarm (2) enables the Zone 4 alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 8 } sPDUOutletConfigMSPmupsP1LowHum OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 1 low humidity alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 1 low humidity alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 9 } sPDUOutletConfigMSPmupsP1HiHum OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 1 high humidity alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 1 high humidity alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 10 } sPDUOutletConfigMSPmupsP1LowTemp OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 1 low temperature alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 1 low temperature alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 11 } sPDUOutletConfigMSPmupsP1HiTemp OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 1 high temperature alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 1 high temperature alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 12 } sPDUOutletConfigMSPmupsP2LowHum OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 2 low humidity alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 2 low humidity alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 13 } sPDUOutletConfigMSPmupsP2HiHum OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 2 high humidity alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 2 high humidity alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 14 } sPDUOutletConfigMSPmupsP2LowTemp OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 2 low temperature alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 2 low temperature alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 15 } sPDUOutletConfigMSPmupsP2HiTemp OBJECT-TYPE SYNTAX INTEGER { disableAlarm (1), enableAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to disableAlarm (1) disables the Probe 2 high temperature alarm for this outlet. Setting this OID to enableAlarm (2) enables the Probe 2 high temperature alarm for this outlet." ::= { sPDUOutletConfigMSPmupsEntry 16 } -- the sPDUOutletStatusMSP group sPDUOutletStatusMSPTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletStatusMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of individual outlets. The number of entries is contained in the sPDUMasterStatusOutletCount OID." ::= { sPDUOutletStatusMSP 1 } sPDUOutletStatusMSPEntry OBJECT-TYPE SYNTAX SPDUOutletStatusMSPEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to gather status from." INDEX { sPDUOutletStatusMSPIndex, sPDUOutletStatusMSPOutletIndex } ::= { sPDUOutletStatusMSPTable 1 } SPDUOutletStatusMSPEntry ::= SEQUENCE { sPDUOutletStatusMSPIndex INTEGER, sPDUOutletStatusMSPName DisplayString, sPDUOutletStatusMSPOutletIndex INTEGER, sPDUOutletStatusMSPOutletName DisplayString, sPDUOutletStatusMSPOutletState INTEGER, sPDUOutletStatusMSPCommandPending INTEGER, sPDUOutletStatusMSPOutletCtrlMode INTEGER } sPDUOutletStatusMSPIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch MSP." ::= { sPDUOutletStatusMSPEntry 1 } sPDUOutletStatusMSPName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch plus. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigMSPName OID." ::= { sPDUOutletStatusMSPEntry 2 } sPDUOutletStatusMSPOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletStatusMSPEntry 3 } sPDUOutletStatusMSPOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum size is 23 characters. The name is set by using the sPDUOutletConfigMSPallOutletName OID. This OID is provided for informational purposes only." ::= { sPDUOutletStatusMSPEntry 4 } sPDUOutletStatusMSPOutletState OBJECT-TYPE SYNTAX INTEGER { outletStatusMSPOn (1), outletStatusMSPOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the outletStatusMSPOn (1) value will be returned. If the outlet is off, the outletStatusMSPOff (2) value will be returned. " ::= { sPDUOutletStatusMSPEntry 5 } sPDUOutletStatusMSPCommandPending OBJECT-TYPE SYNTAX INTEGER { outletStatusMSPCommandPending (1), outletStatusMSPNoCommandPending (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the command pending state of the outlet. If a command is pending on the outlet, the outletStatusMSPCommandPending (1) value will be returned. If there is not a command pending on the outlet, the outletStatusMSPNoCommandPending (2) will be returned." ::= { sPDUOutletStatusMSPEntry 6 } sPDUOutletStatusMSPOutletCtrlMode OBJECT-TYPE SYNTAX INTEGER { modeGracefulShutdown (1), modeAnnunciator (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Control Mode of the outlet. This OID is provided for informational purposes only." ::= { sPDUOutletStatusMSPEntry 7 } -- the rPDUIdent group rPDUIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the Rack PDU. The maximum string size is device dependent." ::= { rPDUIdent 1 } rPDUIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Rack PDU. This value is set at the factory." ::= { rPDUIdent 2 } rPDUIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 8-byte ID string identifying the Rack PDU firmware revision. This value is set at the factory." ::= { rPDUIdent 3 } rPDUIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the Rack PDU was manufactured in mm/dd/yyyy format. This value is set at the factory. The year 2000 will be represented by 00." ::= { rPDUIdent 4 } rPDUIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 10-character string identifying the model number of the Rack PDU. This value is set at the factory." ::= { rPDUIdent 5 } rPDUIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 12-character string identifying the serial number of the Rack PDU. This value is set at the factory." ::= { rPDUIdent 6 } rPDUIdentDeviceRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the electrical rating of the device in Amps." ::= { rPDUIdent 7 } rPDUIdentDeviceNumOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of outlets contained in the device." ::= { rPDUIdent 8 } rPDUIdentDeviceNumPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of phases supported by the device." ::= { rPDUIdent 9 } rPDUIdentDeviceNumBreakers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of circuit breakers supported by the device. This is the same as the number of banks of outlets. 0 will be returned if the unit has no phase breakers. " ::= { rPDUIdent 10 } rPDUIdentDeviceBreakerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return rating of the circuit breakers on the device in Amps if it has any." ::= { rPDUIdent 11 } rPDUIdentDeviceOrientation OBJECT-TYPE SYNTAX INTEGER { orientHorizontal (1), orientVertical (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the intended physical orientation of the device. OrientHorizonatal(1) indicates Horizontal. OrientVertical(2) indicates Vertical." ::= { rPDUIdent 12 } rPDUIdentDeviceOutletLayout OBJECT-TYPE SYNTAX INTEGER { seqPhaseToNeutral (1), seqPhaseToPhase (2), seqPhToNeu21PhToPh (3), seqPhToPhGrouped (4), seqPhToNGrouped (5), seqPToN1516PToPGrouped (6), seqPhToPh2xGrouped (7), seqPhToN2xGrouped (8), seqNotApplicable (9) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return outlet layout for the device. seqPhaseToNeutral(1) indicates outlet layout as follows: 1:1-N,2:2-N,3:3-N,4:1-N,5:2-N,... seqPhaseToPhase(2) indicates outlet layout as follows: 1:1-2,2:2-3,3:3-1,4:1-2,5:2-3,... seqPhToNeu21PhToPh(3) indicates outlet layout as follows: 1:1-N,2:2-N...21:3-N,22:1-2,23:2-3,24:3-1,... seqPhToPhGrouped(4) indicates outlet layout as follows: This unit has 3 outlet groups. Group 1:1-2, Group 2:2-3, Group 3:3-1. seqPhToNGrouped(5) indicates outlet layout as follows: This unit has 3 outlet groups. Group 1:1-N, Group 2:2-N, Group 3:3-N. seqPToN1516PToPGrouped(6) indicates outlet layout as follows: This unit has 4 outlet groups. Group 1 (Outlets 1-14):1-2, Group 2 (Outlets 15-16):1-N, Group 3:2-3, Group 4:3-1. seqPhToPh2xGrouped(7) indicates outlet layout as follows: This unit has 6 outlet groups. Group 1:1-2, Group 2:1-2, Group 3:2-3, Group 4:2-3, Group 5:3-1, Group 6:3-1. seqPhToN2xGrouped(8) indicates outlet layout as follows: This unit has 6 outlet groups. Group 1:1-N, Group 2:1-N, Group 3:2-N, Group 4:2-N, Group 5:3-N, Group 6:3-N. seqNotApplicable(9): Outlet layout does not affect any of the user interfaces. These SKUs may report seqNotApplicable(9) if there is not an exact outlet layout match available." ::= { rPDUIdent 13 } rPDUIdentDeviceDisplayOrientation OBJECT-TYPE SYNTAX INTEGER { displayNormal (1), displayReverse (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this OID will return the intended physical orientation of the Seven-Segment Display. Normal(1) indicates Normal. Reverse(2)indicates Upside-Down." ::= { rPDUIdent 14 } rPDUIdentDeviceLinetoLineVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Getting/Setting this OID will return/set the Line to Line Voltage. This OID defaults to the nominal input line voltage in volts AC. This setting is used to calculate total power and must be configured for best accuracy. This OID does not apply to AP86XX, AP88XX, or AP89XX SKUs. The valid range is between 0V to 440V" ::= { rPDUIdent 15 } rPDUIdentDevicePowerWatts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the Power in Watts." ::= { rPDUIdent 16 } rPDUIdentDevicePowerFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Getting/setting this OID will return/set the Power Factor in thousanths (1000 is power factor of 1). This OID does not apply to AP86XX, AP88XX, or AP89XX SKUs. Valid range is from 0 to 1000." ::= { rPDUIdent 17 } rPDUIdentDevicePowerVA OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the Power in VA." ::= { rPDUIdent 18 } rPDUIdentDeviceLinetoNeutralVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Getting/Setting this OID will return/set the Line to Neutral Voltage. This OID defaults to the nominal line to neutral voltage in volts AC. This setting is used to calculate total power and must be configured for best accuracy. This OID applies only to AP7823. For all other models, the OID is fixed at 0. The valid range is between 0V to 440V." ::= { rPDUIdent 19 } -- the rPDULoadDevice group rPDULoadDevMaxPhaseLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the maximum rated power that each phase of the Rack PDU can provide. It is represented in Amps. 0 will be returned if the unit is banked." ::= { rPDULoadDevice 1 } rPDULoadDevNumPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of phases available with this Rack PDU." ::= { rPDULoadDevice 2 } rPDULoadDevMaxBankLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the maximum rated power that a bank of the Rack PDU can provide. It is represented in Amps. 0 will be returned if the device does not have any banks." ::= { rPDULoadDevice 3 } rPDULoadDevNumBanks OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of banks of outlets available with this Rack PDU. A bank of outlets has a unique circuit breaker for a subset of the total number of outlets on the rPDU. 0 will be returned if the unit has no banks." ::= { rPDULoadDevice 4 } rPDULoadDevBankTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the Bank Table." ::= { rPDULoadDevice 5 } rPDULoadDevBankTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDULoadDevBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting the Bank Max Load in the Rack PDU." ::= { rPDULoadDevice 6 } rPDULoadDevBankEntry OBJECT-TYPE SYNTAX RPDULoadDevBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Rack PDU Banks Access." INDEX { rPDULoadDevBankIndex} ::= { rPDULoadDevBankTable 1 } RPDULoadDevBankEntry ::= SEQUENCE { rPDULoadDevBankIndex INTEGER, rPDULoadDevBankNumber INTEGER, rPDULoadDevBankMaxLoad INTEGER } rPDULoadDevBankIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU bank entry." ::= { rPDULoadDevBankEntry 1 } rPDULoadDevBankNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the bank number." ::= { rPDULoadDevBankEntry 2 } rPDULoadDevBankMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the maximum rated power that each bank of the Rack PDU can provide. It is represented in Amps." ::= { rPDULoadDevBankEntry 3 } rPDULoadDevMaxOutletTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the Outlet Table." ::= { rPDULoadDevice 7 } rPDULoadDevMaxOutletTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDULoadDevMaxOutletEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting the Max Outlet Load in an Outlet Monitored Rack PDU." ::= { rPDULoadDevice 8 } rPDULoadDevMaxOutletEntry OBJECT-TYPE SYNTAX RPDULoadDevMaxOutletEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to Max Outlet Load of an Outlet Monitored Rack PDU" INDEX { rPDULoadDevOutletIndex} ::= { rPDULoadDevMaxOutletTable 1 } RPDULoadDevMaxOutletEntry ::= SEQUENCE { rPDULoadDevOutletIndex INTEGER, rPDULoadDevOutletNumber INTEGER, rPDULoadDevMaxOutletLoad INTEGER } rPDULoadDevOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Outlet Monitored Rack PDU Max Outlet Load entry." ::= { rPDULoadDevMaxOutletEntry 1 } rPDULoadDevOutletNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the Outlet number." ::= { rPDULoadDevMaxOutletEntry 2 } rPDULoadDevMaxOutletLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the maximum rated power that each Outlet of an Outlet Monitored Rack PDU can provide. It is represented in Amps. " ::= { rPDULoadDevMaxOutletEntry 3 } -- the rPDULoadPhaseConfig group rPDULoadPhaseConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDULoadPhaseConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of each Rack PDU phase. The number of entries is contained in the rPDULoadDevNumPhases OID." ::= { rPDULoadPhaseConfig 1 } rPDULoadPhaseConfigEntry OBJECT-TYPE SYNTAX RPDULoadPhaseConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Rack PDU phase to configure." INDEX { rPDULoadPhaseConfigIndex} ::= { rPDULoadPhaseConfigTable 1 } RPDULoadPhaseConfigEntry ::= SEQUENCE { rPDULoadPhaseConfigIndex INTEGER, rPDULoadPhaseConfigLowLoadThreshold INTEGER, rPDULoadPhaseConfigNearOverloadThreshold INTEGER, rPDULoadPhaseConfigOverloadThreshold INTEGER, rPDULoadPhaseConfigAlarm INTEGER } rPDULoadPhaseConfigIndex OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU phase entry." ::= { rPDULoadPhaseConfigEntry 1 } rPDULoadPhaseConfigLowLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing a low consumption condition. It is represented in Amps. A warning will be issued when the load is less than the threshold value. A threshold value of 0 Amps effectively disables this warning. Maximum value must be less than the value returned by the rPDULoadPhaseConfigNearOverloadThreshold OID." ::= { rPDULoadPhaseConfigEntry 2 } rPDULoadPhaseConfigNearOverloadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than the value returned by the rPDULoadPhaseConfigLowLoadThreshold OID. Maximum value must be less than or equal to the value returned by the rPDULoadPhaseConfigOverloadThreshold OID." ::= { rPDULoadPhaseConfigEntry 3 } rPDULoadPhaseConfigOverloadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load has entered an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than or equal to the value returned by the rPDULoadPhaseConfigNearOverloadThreshold OID. Maximum value must be less than or equal to the value returned by the rPDULoadDevMaxPhaseLoad OID." ::= { rPDULoadPhaseConfigEntry 4 } rPDULoadPhaseConfigAlarm OBJECT-TYPE SYNTAX INTEGER { noLoadAlarm (1), underCurrentAlarm (2), nearOverCurrentAlarm (3), overCurrentAlarm (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the current Phase Alarm." ::= { rPDULoadPhaseConfigEntry 5 } -- the rPDULoadStatus group rPDULoadStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDULoadStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of each Rack PDU phase/bank. The number of entries is calculated by adding the number of phases (rPDULoadDevNumPhases OID) and the number of banks of outlets (rPDULoadDevNumBanks) Number of entries = #phases + #banks. NOTE: If a device has phase and bank information, all phase information shall precede the bank information. If a device has total information, it shall precede both the bank and the phase information." ::= { rPDULoadStatus 1 } rPDULoadStatusEntry OBJECT-TYPE SYNTAX RPDULoadStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Rack PDU phase/bank to gather status from." INDEX { rPDULoadStatusIndex} ::= { rPDULoadStatusTable 1 } RPDULoadStatusEntry ::= SEQUENCE { rPDULoadStatusIndex INTEGER, rPDULoadStatusLoad Gauge, rPDULoadStatusLoadState INTEGER, rPDULoadStatusPhaseNumber INTEGER, rPDULoadStatusBankNumber INTEGER } rPDULoadStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU phase/bank entry. All phase information will precede any bank information" ::= { rPDULoadStatusEntry 1 } rPDULoadStatusLoad OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the phase/bank load measured in tenths of Amps." ::= { rPDULoadStatusEntry 2 } rPDULoadStatusLoadState OBJECT-TYPE SYNTAX INTEGER { phaseLoadNormal (1), phaseLoadLow (2), phaseLoadNearOverload (3), phaseLoadOverload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the phase/bank load state. phaseLoadNormal(1) indicates that the phase/bank is operating properly within the rPDULoadConfigLowLoadThreshold and rPDULoadConfigNearOverloadThreshold OID values. phaseLoadLow(2) indicates that the phase/bank load has dropped below the rPDULoadConfigLowLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. phaseLoadNearOverload(3) indicates that the phase/bank load is greater than or equal to the rPDULoadConfigNearOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. phaseLoadOverload(4) indicates that the phase/bank load is greater than or equal to the rPDULoadConfigOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared." ::= { rPDULoadStatusEntry 3 } rPDULoadStatusPhaseNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The phase number to which this record refers." ::= { rPDULoadStatusEntry 4 } rPDULoadStatusBankNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The bank number to which this record refers. A value of 0 will be returned if any bank is not present or if it is phase related." ::= { rPDULoadStatusEntry 5 } -- the rPDULoadBankConfig group rPDULoadBankConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDULoadBankConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of each Rack PDU bank. The number of entries is contained in the rPDULoadDevNumBanks OID." ::= { rPDULoadBankConfig 1 } rPDULoadBankConfigEntry OBJECT-TYPE SYNTAX RPDULoadBankConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Rack PDU bank to configure." INDEX { rPDULoadBankConfigIndex} ::= { rPDULoadBankConfigTable 1 } RPDULoadBankConfigEntry ::= SEQUENCE { rPDULoadBankConfigIndex INTEGER, rPDULoadBankConfigLowLoadThreshold INTEGER, rPDULoadBankConfigNearOverloadThreshold INTEGER, rPDULoadBankConfigOverloadThreshold INTEGER, rPDULoadBankConfigAlarm INTEGER } rPDULoadBankConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU bank entry." ::= { rPDULoadBankConfigEntry 1 } rPDULoadBankConfigLowLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing a low consumption condition. It is represented in Amps. A warning will be issued when the load is less than the threshold value. A threshold value of 0 Amps effectively disables this warning. Maximum value must be less than the value returned by the rPDULoadBankConfigNearOverloadThreshold OID." ::= { rPDULoadBankConfigEntry 2 } rPDULoadBankConfigNearOverloadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than the value returned by the rPDULoadBankConfigLowLoadThreshold OID. Maximum value must be less than or equal to the value returned by the rPDULoadBankConfigOverloadThreshold OID." ::= { rPDULoadBankConfigEntry 3 } rPDULoadBankConfigOverloadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load has entered an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than or equal to the value returned by the rPDULoadBankConfigNearOverloadThreshold OID. Maximum value must be less than or equal to the value returned by the rPDULoadDevMaxBankLoad OID." ::= { rPDULoadBankConfigEntry 4 } rPDULoadBankConfigAlarm OBJECT-TYPE SYNTAX INTEGER { noLoadAlarm (1), underCurrentAlarm (2), nearOverCurrentAlarm (3), overCurrentAlarm (4) } ACCESS read-only STATUS mandatory DESCRIPTION " Getting this OID will return the current Bank Alarm." ::= { rPDULoadBankConfigEntry 5 } -- the rPDUOutletDevice group rPDUOutletDevCommand OBJECT-TYPE SYNTAX INTEGER { noCommandAll (1), immediateAllOn (2), immediateAllOff (3), immediateAllReboot (4), delayedAllOn (5), delayedAllOff (6), delayedAllReboot (7), cancelAllPendingCommands (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to immediateAllOn (2) will turn all outlets on immediately. Setting this OID to immediateAllOff (3) will turn all outlets off immediately. Setting this OID to immediateAllReboot (4) will reboot all outlets immediately. Setting this OID to delayedAllOn (5) will turn all outlets on as defined by each outlet's rPDUOutletConfigPowerOnTime OID value. Setting this OID to delayedAllOff (6) will turn all outlets off as defined by each outlet's rPDUOutletConfigPowerOffTime OID value. Setting this OID to delayedAllReboot (7) will cause a delayedAllOff command to be performed. Once all outlets are off, the Switched Rack PDU will then delay the largest rPDUOutletConfigRebootDuration OID time, and then perform a delayedAllOn command. Setting this OID to cancelAllPendingCommands (8) will cause all pending commands on the Switched Rack PDU to be canceled. Getting this OID will return the noCommandAll (1) value." ::= { rPDUOutletDevice 1 } rPDUOutletDevColdstartDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of delay, in seconds, between when power is provided to the Switched Rack PDU and when the Switched Rack PDU provides basic master power to the outlets. Allowed values are: -1 - never apply power automatically. 0 - apply power immediately. 1 to 300 - delay up to 300 seconds (5 minutes)." ::= { rPDUOutletDevice 2 } rPDUOutletDevNumCntrlOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of controlled outlets on this Switched Rack PDU." ::= { rPDUOutletDevice 3 } rPDUOutletDevNumTotalOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of outlets on this Rack PDU." ::= { rPDUOutletDevice 4 } rPDUOutletDevMonitoredOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of monitored outlets on this Rack PDU." ::= { rPDUOutletDevice 5 } -- the rPDUOutletPhase group rPDUOutletPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUOutletPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for management of outlets on a per phase basis." ::= { rPDUOutletPhase 1 } rPDUOutletPhaseEntry OBJECT-TYPE SYNTAX RPDUOutletPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The phase to manage." INDEX { rPDUOutletPhaseIndex} ::= { rPDUOutletPhaseTable 1 } RPDUOutletPhaseEntry ::= SEQUENCE { rPDUOutletPhaseIndex INTEGER, rPDUOutletPhaseOverloadRestriction INTEGER } rPDUOutletPhaseIndex OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Switched Rack PDU phase entry." ::= { rPDUOutletPhaseEntry 1 } rPDUOutletPhaseOverloadRestriction OBJECT-TYPE SYNTAX INTEGER { alwaysAllowTurnON (1), restrictOnNearOverload (2), restrictOnOverload (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID controls the behavior of a Switched Rack PDU phase when an overload condition is possible and additional outlets are requested to be turned on. Setting this OID to alwaysAllowTurnON (1) will always allow the outlets on the corresponding phase to turn on. Setting this OID to restrictOnNearOverload (2) will not allow outlets on the corresponding phase to turn on if the rPDULoadConfigNearOverloadThreshold OID is exceeded. Setting this OID to restrictOnOverload (3) will not allow outlets on the corresponding phase to turn on if the rPDULoadConfigOverloadThreshold OID is exceeded." ::= { rPDUOutletPhaseEntry 2 } -- the rPDUOutletControl group rPDUOutletControlTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUOutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of the individual outlets. The number of entries is contained in the rPDUOutletDevNumCntrlOutlets OID." ::= { rPDUOutletControl 1 } rPDUOutletControlEntry OBJECT-TYPE SYNTAX RPDUOutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlet to control." INDEX { rPDUOutletControlIndex} ::= { rPDUOutletControlTable 1 } RPDUOutletControlEntry ::= SEQUENCE { rPDUOutletControlIndex INTEGER, rPDUOutletControlOutletName DisplayString, rPDUOutletControlOutletPhase INTEGER, rPDUOutletControlOutletCommand INTEGER, rPDUOutletControlOutletBank INTEGER } rPDUOutletControlIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { rPDUOutletControlEntry 1 } rPDUOutletControlOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum string size is device dependent. An error will be returned if the set request exceeds the max size. This OID is provided for informational purposes only." ::= { rPDUOutletControlEntry 2 } rPDUOutletControlOutletPhase OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3), phase1-2 (4), phase2-3 (5), phase3-1 (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase/s associated with this outlet. For single phase devices, this object will always return phase1(1). For 3-phase devices, this object will return phase1 (1), phase2 (2), or phase3 (3) for outlets tied to a single phase. For outlets tied to two phases, this object will return phase1-2 (4) for phases 1 and 2, phase2-3 (5) for phases 2 and 3, and phase3-1 (6) for phases 3 and 1." ::= { rPDUOutletControlEntry 3 } rPDUOutletControlOutletCommand OBJECT-TYPE SYNTAX INTEGER { immediateOn (1), immediateOff (2), immediateReboot (3), delayedOn (4), delayedOff (5), delayedReboot (6), cancelPendingCommand (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the immediateOn (1) value will be returned. If the outlet is off, the immediateOff (2) value will be returned. Setting this variable to immediateOn (1) will immediately turn the outlet on. Setting this variable to immediateOff (2) will immediately turn the outlet off. Setting this variable to immediateReboot (3) will immediately reboot the outlet. Setting this variable to delayedOn (4) will turn the outlet on after the rPDUOutletConfigPowerOnTime OID time has elapsed. Setting this variable to delayedOff (5) will turn the outlet off after the rPDUOutletConfigPowerOffTime OID time has elapsed. Setting this variable to delayedReboot (6) will cause the Switched Rack PDU to perform a delayedOff command, wait the rPDUOutletConfigRebootDuration OID time, and then perform a delayedOn command. Setting this variable to cancelPendingCommand (7) will cause any pending command to this outlet to be canceled." ::= { rPDUOutletControlEntry 4 } rPDUOutletControlOutletBank OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The bank associated with this outlet." ::= { rPDUOutletControlEntry 5 } -- the rPDUOutletConfig group rPDUOutletConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the rPDUOutletDevNumCntrlOutlets OID." ::= { rPDUOutletConfig 1 } rPDUOutletConfigEntry OBJECT-TYPE SYNTAX RPDUOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlet to configure." INDEX { rPDUOutletConfigIndex} ::= { rPDUOutletConfigTable 1 } RPDUOutletConfigEntry ::= SEQUENCE { rPDUOutletConfigIndex INTEGER, rPDUOutletConfigOutletName DisplayString, rPDUOutletConfigOutletPhase INTEGER, rPDUOutletConfigPowerOnTime INTEGER, rPDUOutletConfigPowerOffTime INTEGER, rPDUOutletConfigRebootDuration INTEGER, rPDUOutletConfigOutletBank INTEGER } rPDUOutletConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { rPDUOutletConfigEntry 1 } rPDUOutletConfigOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet. The maximum string size is device dependent. An error will be returned if the set request exceeds the max size." ::= { rPDUOutletConfigEntry 2 } rPDUOutletConfigOutletPhase OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3), phase1-2 (4), phase2-3 (5), phase3-1 (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase/s associated with this outlet. For single phase devices, this object will always return phase1(1). For 3-phase devices, this object will return phase1 (1), phase2 (2), or phase3 (3) for outlets tied to a single phase. For outlets tied to two phases, this object will return phase1-2 (4) for phases 1 and 2, phase2-3 (5) for phases 2 and 3, and phase3-1 (6) for phases 3 and 1." ::= { rPDUOutletConfigEntry 3 } rPDUOutletConfigPowerOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering on at coldstart or when a command that requires a turn-on delay is issued. Allowed values are: -1 - never power on. 0 - power on immediately. 1 to 7200 - power on up to 7200 seconds after being commanded." ::= { rPDUOutletConfigEntry 4 } rPDUOutletConfigPowerOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering off when a command that requires a turn-off delay is issued. Allowed values are: -1 - never power off. 0 - power off immediately. 1 to 7200 - power off up to 7200 seconds after being commanded." ::= { rPDUOutletConfigEntry 5 } rPDUOutletConfigRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allowed range is any value between 5 and 60 seconds (1 minute)." ::= { rPDUOutletConfigEntry 6 } rPDUOutletConfigOutletBank OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The bank associated with this outlet." ::= { rPDUOutletConfigEntry 7 } -- Monitored Outlets table rPDUOutletConfigMonitoredTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the Outlet Config Monitored Table" ::= { rPDUOutletConfig 2 } rPDUOutletConfigMonitoredTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUOutletConfigMonitoredEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting/setting of outlet thresholds of an Outlet Monitored Rack PDU." ::= { rPDUOutletConfig 3 } rPDUOutletConfigMonitoredEntry OBJECT-TYPE SYNTAX RPDUOutletConfigMonitoredEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to Monitored Outlet entries" INDEX { rPDUOutletConfigMonitoredIndex } ::= { rPDUOutletConfigMonitoredTable 1 } RPDUOutletConfigMonitoredEntry ::= SEQUENCE { rPDUOutletConfigMonitoredIndex INTEGER, rPDUOutletConfigMonitoredName DisplayString, rPDUOutletConfigMonitoredNumber INTEGER, rPDUOutletConfigMonitoredLowLoadThreshold INTEGER, rPDUOutletConfigMonitoredNearOverloadThreshold INTEGER, rPDUOutletConfigMonitoredOverloadThreshold INTEGER } rPDUOutletConfigMonitoredIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the RACK PDU Phase entry." ::= { rPDUOutletConfigMonitoredEntry 1 } rPDUOutletConfigMonitoredName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the Monitored Outlet. The maximum string size is device dependent. An error will be returned if the set request exceeds the max size." ::= { rPDUOutletConfigMonitoredEntry 2 } rPDUOutletConfigMonitoredNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The outlet number of an Outlet Monitored RACK PDU." ::= { rPDUOutletConfigMonitoredEntry 3 } rPDUOutletConfigMonitoredLowLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing a low consumption condition. It is represented in Amps. A warning will be issued when the load is less than the threshold value. A threshold value of 0 Amps effectively disables this warning. Maximum value must be less than the value returned by the rPDUOutletConfigMonitoredNearOverloadThreshold OID. 0 will be returned if the unit is not Outlet Monitored Rack PDU." ::= { rPDUOutletConfigMonitoredEntry 4 } rPDUOutletConfigMonitoredNearOverloadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than the value returned by the rPDUOutletConfigMonitoredLowLoadThreshold OID. Maximum value must be less than or equal to the value returned by the rPDUOutletConfigMonitoredOverloadThreshold OID. 0 will be returned if the unit is not Outlet Monitored Rack PDU." ::= { rPDUOutletConfigMonitoredEntry 5 } rPDUOutletConfigMonitoredOverloadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load has entered an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than or equal to the value returned by the rPDUOutletConfigMonitoredNearOverloadThreshold OID. Maximum value must be less than or equal to the value returned by the rPDULoadDevMaxOutletLoad OID. 0 will be returned if the unit is not Outlet Monitored Rack PDU." ::= { rPDUOutletConfigMonitoredEntry 6 } -- the rPDUOutletStatus group rPDUOutletStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUOutletStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of individual outlets. The number of entries is contained in the rPDUOutletDevNumCntrlOutlets OID or rPDUOutletDevMonitoredOutlets OID." ::= { rPDUOutletStatus 1 } rPDUOutletStatusEntry OBJECT-TYPE SYNTAX RPDUOutletStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlet to gather status from." INDEX { rPDUOutletStatusIndex} ::= { rPDUOutletStatusTable 1 } RPDUOutletStatusEntry ::= SEQUENCE { rPDUOutletStatusIndex INTEGER, rPDUOutletStatusOutletName DisplayString, rPDUOutletStatusOutletPhase INTEGER, rPDUOutletStatusOutletState INTEGER, rPDUOutletStatusCommandPending INTEGER, rPDUOutletStatusOutletBank INTEGER, rPDUOutletStatusLoad Gauge } rPDUOutletStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { rPDUOutletStatusEntry 1 } rPDUOutletStatusOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. The maximum string size is device dependent. This OID is provided for informational purposes only." ::= { rPDUOutletStatusEntry 2 } rPDUOutletStatusOutletPhase OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3), phase1-2 (4), phase2-3 (5), phase3-1 (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase/s associated with this outlet. For single phase devices, this object will always return phase1(1). For 3-phase devices, this object will return phase1 (1), phase2 (2), or phase3 (3) for outlets tied to a single phase. For outlets tied to two phases, this object will return phase1-2 (4) for phases 1 and 2, phase2-3 (5) for phases 2 and 3, and phase3-1 (6) for phases 3 and 1." ::= { rPDUOutletStatusEntry 3 } rPDUOutletStatusOutletState OBJECT-TYPE SYNTAX INTEGER { outletStatusOn (1), outletStatusOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the outletStatusOn (1) value will be returned. If the outlet is off, the outletStatusOff (2) value will be returned." ::= { rPDUOutletStatusEntry 4 } rPDUOutletStatusCommandPending OBJECT-TYPE SYNTAX INTEGER { outletStatusCommandPending (1), outletStatusNoCommandPending (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the command pending state of the outlet. If a command is pending on the outlet, the outletStatusCommandPending (1) value will be returned. If there is not a command pending on the outlet, the outletStatusNoCommandPending (2) will be returned." ::= { rPDUOutletStatusEntry 5 } rPDUOutletStatusOutletBank OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The bank associated with this outlet." ::= { rPDUOutletStatusEntry 6 } rPDUOutletStatusLoad OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the measured Outlet load for an Outlet Monitored Rack PDU in tenths of Amps. For other models this OID is not supported." ::= { rPDUOutletStatusEntry 7 } -- the rPDUOutletBank group rPDUOutletBankTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUOutletBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for management of outlets on a per bank basis." ::= { rPDUOutletBank 1 } rPDUOutletBankEntry OBJECT-TYPE SYNTAX RPDUOutletBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The bank to manage." INDEX { rPDUOutletBankIndex} ::= { rPDUOutletBankTable 1 } RPDUOutletBankEntry ::= SEQUENCE { rPDUOutletBankIndex INTEGER, rPDUOutletBankOverloadRestriction INTEGER } rPDUOutletBankIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Switched Rack PDU bank entry." ::= { rPDUOutletBankEntry 1 } rPDUOutletBankOverloadRestriction OBJECT-TYPE SYNTAX INTEGER { alwaysAllowTurnON (1), restrictOnNearOverload (2), restrictOnOverload (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID controls the behavior of a Switched Rack PDU bank when an overload condition is possible and additional outlets are requested to be turned on. Setting this OID to alwaysAllowTurnON (1) will always allow the outlets on the corresponding bank to turn on. Setting this OID to restrictOnNearOverload (2) will not allow outlets on the corresponding bank to turn on if the rPDULoadBankConfigNearOverloadThreshold OID is exceeded. Setting this OID to restrictOnOverload (3) will not allow outlets on the corresponding bank to turn on if the rPDULoadBankConfigOverloadThreshold OID is exceeded." ::= { rPDUOutletBankEntry 2 } -- the rPDUPowerSupplyDevice group rPDUPowerSupply1Status OBJECT-TYPE SYNTAX INTEGER { powerSupplyOneOk (1), powerSupplyOneFailed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return powerSupply1Ok(1) if power supply 1 is functioning normally. If not functioning normally, this OID will return powerSupply1Failed(2)." ::= { rPDUPowerSupplyDevice 1 } rPDUPowerSupply2Status OBJECT-TYPE SYNTAX INTEGER { powerSupplyTwoOk (1), powerSupplyTwoFailed (2), powerSupplyTwoNotPresent (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return powerSupply2Ok(1) if power supply 2 is functioning normally. If not functioning normally, this OID will return powerSupply2Failed(2). Metered Rack PDUs do not have a redundant powersupply." ::= { rPDUPowerSupplyDevice 2 } rPDUPowerSupplyAlarm OBJECT-TYPE SYNTAX INTEGER { allAvailablePowerSuppliesOK (1), powerSupplyOneFailed (2), powerSupplyTwoFailed (3), powerSupplyOneandTwoFailed (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return powerSupply Alarm" ::= { rPDUPowerSupplyDevice 3 } -- the rPDUStatus group rPDUStatusBankTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the Status Bank Table" ::= { rPDUStatus 1 } rPDUStatusBankTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUStatusBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of each Rack PDU Bank" ::= { rPDUStatus 2 } rPDUStatusBankEntry OBJECT-TYPE SYNTAX RPDUStatusBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to Bank entries" INDEX { rPDUStatusBankIndex } ::= { rPDUStatusBankTable 1 } RPDUStatusBankEntry ::= SEQUENCE { rPDUStatusBankIndex INTEGER, rPDUStatusBankNumber INTEGER, rPDUStatusBankState INTEGER } rPDUStatusBankIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the RACK PDU Bank entry." ::= { rPDUStatusBankEntry 1 } rPDUStatusBankNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the bank number." ::= { rPDUStatusBankEntry 2 } rPDUStatusBankState OBJECT-TYPE SYNTAX INTEGER { bankLoadNormal (1), bankLoadLow (2), bankLoadNearOverload (3), bankLoadOverload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the bank load state. bankLoadNormal(1) indicates that the bank is operating properly within the rPDULoadBankConfigLowLoadThreshold and rPDULoadBankConfigNearOverloadThreshold OID values. bankLoadLow(2) indicates that the bank load has dropped below the rPDULoadBankConfigLowLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. bankLoadNearOverload(3) indicates that the bank load is greater than or equal to the rPDULoadBankConfigNearOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. bankLoadOverload(4) indicates that the bank load is greater than or equal to the rPDULoadBankConfigOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared." ::= { rPDUStatusBankEntry 3 } -- Phase status table rPDUStatusPhaseTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the Status Phase Table" ::= { rPDUStatus 3 } rPDUStatusPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUStatusPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of each Rack PDU Phase" ::= { rPDUStatus 4 } rPDUStatusPhaseEntry OBJECT-TYPE SYNTAX RPDUStatusPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to Phase entries" INDEX { rPDUStatusPhaseIndex } ::= { rPDUStatusPhaseTable 1 } RPDUStatusPhaseEntry ::= SEQUENCE { rPDUStatusPhaseIndex INTEGER, rPDUStatusPhaseNumber INTEGER, rPDUStatusPhaseState INTEGER } rPDUStatusPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the RACK PDU Phase entry." ::= { rPDUStatusPhaseEntry 1 } rPDUStatusPhaseNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the phase number." ::= { rPDUStatusPhaseEntry 2 } rPDUStatusPhaseState OBJECT-TYPE SYNTAX INTEGER { phaseLoadNormal (1), phaseLoadLow (2), phaseLoadNearOverload (3), phaseLoadOverload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the Phase load state. phaseLoadNormal(1) indicates that the Phase is operating properly within the rPDULoadPhaseConfigLowLoadThreshold and rPDULoadPhaseConfigNearOverloadThreshold OID values. phaseLoadLow(2) indicates that the Phase load has dropped below the rPDULoadPhaseConfigLowLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. phaseLoadNearOverload(3) indicates that the Phase load is greater than or equal to the rPDULoadPhaseConfigNearOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. phaseLoadOverload(4) indicates that the Phase load is greater than or equal to the rPDULoadPhaseConfigOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared." ::= { rPDUStatusPhaseEntry 3 } -- Outlet status table rPDUStatusOutletTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the Status Outlet Table" ::= { rPDUStatus 5 } rPDUStatusOutletTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDUStatusOutletEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting of status of each Outlet of an Outlet Monitored Rack PDU." ::= { rPDUStatus 6 } rPDUStatusOutletEntry OBJECT-TYPE SYNTAX RPDUStatusOutletEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to Outlet entries" INDEX { rPDUStatusOutletIndex } ::= { rPDUStatusOutletTable 1 } RPDUStatusOutletEntry ::= SEQUENCE { rPDUStatusOutletIndex INTEGER, rPDUStatusOutletNumber INTEGER, rPDUStatusOutletState INTEGER } rPDUStatusOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the RACK PDU Outlet entry." ::= { rPDUStatusOutletEntry 1 } rPDUStatusOutletNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the Outlet number." ::= { rPDUStatusOutletEntry 2 } rPDUStatusOutletState OBJECT-TYPE SYNTAX INTEGER { outletLoadNormal (1), outletLoadLow (2), outletLoadNearOverload (3), outletLoadOverload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the Outlet load state. outletLoadNormal(1) indicates that the Outlet is operating properly within the rPDUOutletConfigMonitoredLowLoadThreshold and rPDUOutletConfigMonitoredNearOverloadThreshold OID values. outletLoadLow(2) indicates that the Outlet load has dropped below the rPDUOutletConfigMonitoredLowLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. outletLoadNearOverload(3) indicates that the Outlet load is greater than or equal to the rPDUOutletConfigMonitoredNearOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. outletLoadOverload(4) indicates that the Outlet load is greater than or equal to the rPDUOutletConfigMonitoredOverloadThreshold OID value. An SNMP trap will occur when this state is entered or cleared." ::= { rPDUStatusOutletEntry 3 } -- Common rPDU2 values Rpdu2OutletPhaseLayoutType ::= INTEGER { seqPhase1ToNeutral (1), seqPhase2ToNeutral (2), seqPhase3ToNeutral (3), seqPhase1ToPhase2 (4), seqPhase2ToPhase3 (5), seqPhase3ToPhase1 (6) } -- rPDU2 Ident Table rPDU2IdentTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of Rack PDUs" ::= { rPDU2 1 } rPDU2IdentTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2IdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU identification data" ::= { rPDU2 2 } rPDU2IdentEntry OBJECT-TYPE SYNTAX RPDU2IdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Identification data from Rack PDU being queried" INDEX { rPDU2IdentIndex } ::= { rPDU2IdentTable 1 } RPDU2IdentEntry ::= SEQUENCE { rPDU2IdentIndex INTEGER, rPDU2IdentModule INTEGER, rPDU2IdentName DisplayString, rPDU2IdentLocation DisplayString, rPDU2IdentHardwareRev DisplayString, rPDU2IdentFirmwareRev DisplayString, rPDU2IdentDateOfManufacture DisplayString, rPDU2IdentModelNumber DisplayString, rPDU2IdentSerialNumber DisplayString, rPDU2IdentContact DisplayString } rPDU2IdentIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU identification table entry" ::= { rPDU2IdentEntry 1 } rPDU2IdentModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2IdentEntry 2 } rPDU2IdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A user-defined string identifying the Rack PDU" ::= { rPDU2IdentEntry 3 } rPDU2IdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A user-defined string identifying the location of the Rack PDU" ::= { rPDU2IdentEntry 4 } rPDU2IdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The Rack PDU hardware version" ::= { rPDU2IdentEntry 5 } rPDU2IdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The Rack PDU firware version" ::= { rPDU2IdentEntry 6 } rPDU2IdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date the Rack PDU was manufactured in mm/dd/yyyy format" ::= { rPDU2IdentEntry 7 } rPDU2IdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The Rack PDU model number" ::= { rPDU2IdentEntry 8 } rPDU2IdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The Rack PDU serial number" ::= { rPDU2IdentEntry 9 } rPDU2IdentContact OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A user-defined string identifying the person to contact regarding the Rack PDU" ::= { rPDU2IdentEntry 10 } -- rPDU2 Device Data rPDU2DeviceTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of Rack PDUs" ::= { rPDU2 3 } rPDU2Device OBJECT IDENTIFIER ::= { rPDU2 4 } -- rPDU2 Device Config rPDU2DeviceConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2DeviceConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU configuration data" ::= { rPDU2Device 1 } rPDU2DeviceConfigEntry OBJECT-TYPE SYNTAX RPDU2DeviceConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration data from Rack PDU being queried" INDEX { rPDU2DeviceConfigIndex } ::= { rPDU2DeviceConfigTable 1 } RPDU2DeviceConfigEntry ::= SEQUENCE { rPDU2DeviceConfigIndex INTEGER, rPDU2DeviceConfigModule INTEGER, rPDU2DeviceConfigName DisplayString, rPDU2DeviceConfigLocation DisplayString, rPDU2DeviceConfigDisplayOrientation INTEGER, rPDU2DeviceConfigColdstartDelay INTEGER, rPDU2DeviceConfigLowLoadPowerThreshold INTEGER, rPDU2DeviceConfigNearOverloadPowerThreshold INTEGER, rPDU2DeviceConfigOverloadPowerThreshold INTEGER, rPDU2DeviceConfigDevicePeakPowerReset INTEGER, rPDU2DeviceConfigDeviceEnergyReset INTEGER, rPDU2DeviceConfigOutletsEnergyReset INTEGER } rPDU2DeviceConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU table entry" ::= { rPDU2DeviceConfigEntry 1 } rPDU2DeviceConfigModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2DeviceConfigEntry 2 } rPDU2DeviceConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined string identifying the Rack PDU" ::= { rPDU2DeviceConfigEntry 3 } rPDU2DeviceConfigLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined string identifying the location of the Rack PDU" ::= { rPDU2DeviceConfigEntry 4 } rPDU2DeviceConfigDisplayOrientation OBJECT-TYPE SYNTAX INTEGER { displayNormal (1), displayReverse (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates the intended physical orientation of the seven segment display displayNormal(1) indicates normal orientation displayReverse(2) indicates upside down orientation" ::= { rPDU2DeviceConfigEntry 5 } rPDU2DeviceConfigColdstartDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of delay, measured in seconds, between when power is provided to the Rack PDU and when the Rack PDU provides basic master power to the outlets" ::= { rPDU2DeviceConfigEntry 6 } rPDU2DeviceConfigLowLoadPowerThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined low power draw alarm threshold, measured in tenths of kilowatts" ::= { rPDU2DeviceConfigEntry 7 } rPDU2DeviceConfigNearOverloadPowerThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined near power overload threshold, measured in tenths of kilowatts" ::= { rPDU2DeviceConfigEntry 8 } rPDU2DeviceConfigOverloadPowerThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined power overload threshold, measured in tenths of kilowatts" ::= { rPDU2DeviceConfigEntry 9 } rPDU2DeviceConfigDevicePeakPowerReset OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset (2) will cause the existing peak power value to be replaced by the current load power value. Getting this OID will do nothing and return the noOperation(1) value." ::= { rPDU2DeviceConfigEntry 10 } rPDU2DeviceConfigDeviceEnergyReset OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2), notSupported (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset (2) will cause the device energy meter value to be reset to zero. Getting this OID in models that support this feature will do nothing and return the noOperation(1) value. Models that do not support this feature will respond to this OID with a value of notSupported (3). Attempts to set this OID in these models will fail." ::= { rPDU2DeviceConfigEntry 11 } rPDU2DeviceConfigOutletsEnergyReset OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2), notSupported (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset (2) will cause the all outlet energy meter values to be reset to zero. Getting this OID will do nothing and return the noOperation(1) value. Models that do not support this feature will respond to this OID with a value of notSupported (3). Attempts to set this OID in these models will fail." ::= { rPDU2DeviceConfigEntry 12 } -- rPDU2 Device Properties rPDU2DevicePropertiesTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2DevicePropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU properties" ::= { rPDU2Device 2 } rPDU2DevicePropertiesEntry OBJECT-TYPE SYNTAX RPDU2DevicePropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Properties of the Rack PDU being queried" INDEX { rPDU2DevicePropertiesIndex } ::= { rPDU2DevicePropertiesTable 1 } RPDU2DevicePropertiesEntry ::= SEQUENCE { rPDU2DevicePropertiesIndex INTEGER, rPDU2DevicePropertiesModule INTEGER, rPDU2DevicePropertiesName DisplayString, rPDU2DevicePropertiesNumOutlets INTEGER, rPDU2DevicePropertiesNumSwitchedOutlets INTEGER, rPDU2DevicePropertiesNumMeteredOutlets INTEGER, rPDU2DevicePropertiesNumPhases INTEGER, rPDU2DevicePropertiesNumMeteredBanks INTEGER, rPDU2DevicePropertiesMaxCurrentRating INTEGER, rPDU2DevicePropertiesOrientation INTEGER, rPDU2DevicePropertiesOutletLayout INTEGER, rPDU2DevicePropertiesMaxPhaseCurrentRating INTEGER } rPDU2DevicePropertiesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU properties table entry" ::= { rPDU2DevicePropertiesEntry 1 } rPDU2DevicePropertiesModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2DevicePropertiesEntry 2 } rPDU2DevicePropertiesName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A user-defined string identifying the Rack PDU" ::= { rPDU2DevicePropertiesEntry 3 } rPDU2DevicePropertiesNumOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlets on the Rack PDU" ::= { rPDU2DevicePropertiesEntry 4 } rPDU2DevicePropertiesNumSwitchedOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of switched outlets on the Rack PDU" ::= { rPDU2DevicePropertiesEntry 5 } rPDU2DevicePropertiesNumMeteredOutlets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of metered outlets on the Rack PDU" ::= { rPDU2DevicePropertiesEntry 6 } rPDU2DevicePropertiesNumPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of phases present in the Rack PDU" ::= { rPDU2DevicePropertiesEntry 7 } rPDU2DevicePropertiesNumMeteredBanks OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of metered banks present in the Rack PDU" ::= { rPDU2DevicePropertiesEntry 8 } rPDU2DevicePropertiesMaxCurrentRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum current rating, measured in Amps, for the Rack PDU" ::= { rPDU2DevicePropertiesEntry 9 } rPDU2DevicePropertiesOrientation OBJECT-TYPE SYNTAX INTEGER { horizontal (1), vertical (2), verticalISXv2 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Rack PDU orientation" ::= { rPDU2DevicePropertiesEntry 10 } rPDU2DevicePropertiesOutletLayout OBJECT-TYPE SYNTAX INTEGER { seqPhaseToNeutral (1), seqPhaseToPhase (2), seqPhToNeu21PhToPh (3), seqPhToPhGrouped (4), seqPhToNGrouped (5), seqPToN1516PToPGrouped (6), seqPhToPh2xGrouped (7), seqPhToN2xGrouped (8), seqNotApplicable (9) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return outlet layout for the device. seqPhaseToNeutral(1) indicates outlet layout as follows: 1:1-N,2:2-N,3:3-N,4:1-N,5:2-N,... seqPhaseToPhase(2) indicates outlet layout as follows: 1:1-2,2:2-3,3:3-1,4:1-2,5:2-3,... seqPhToNeu21PhToPh(3) indicates outlet layout as follows: 1:1-N,2:2-N...21:3-N,22:1-2,23:2-3,24:3-1,... seqPhToPhGrouped(4) indicates outlet layout as follows: This unit has 3 outlet groups. Group 1:1-2, Group 2:2-3, Group 3:3-1. seqPhToNGrouped(5) indicates outlet layout as follows: This unit has 3 outlet groups. Group 1:1-N, Group 2:2-N, Group 3:3-N. seqPToN1516PToPGrouped(6) indicates outlet layout as follows: This unit has 4 outlet groups. Group 1 (Outlets 1-14):1-2, Group 2 (Outlets 15-16):1-N, Group 3:2-3, Group 4:3-1. seqPhToPh2xGrouped(7) indicates outlet layout as follows: This unit has 6 outlet groups. Group 1:1-2, Group 2:1-2, Group 3:2-3, Group 4:2-3, Group 5:3-1, Group 6:3-1. seqPhToN2xGrouped(8) indicates outlet layout as follows: This unit has 6 outlet groups. Group 1:1-N, Group 2:1-N, Group 3:2-N, Group 4:2-N, Group 5:3-N, Group 6:3-N. seqNotApplicable(9): Outlet layout does not affect any of the user interfaces for AP88XX SKUs. These SKUs may report seqNotApplicable(9) if there is not an exact outlet layout match available." ::= { rPDU2DevicePropertiesEntry 11 } rPDU2DevicePropertiesMaxPhaseCurrentRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum current rating, measured in Amps, for the Rack PDU" ::= { rPDU2DevicePropertiesEntry 12 } -- rPDU2 Device Status rPDU2DeviceStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2DeviceStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU status information" ::= { rPDU2Device 3 } rPDU2DeviceStatusEntry OBJECT-TYPE SYNTAX RPDU2DeviceStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Status information from the Rack PDU being queried" INDEX { rPDU2DeviceStatusIndex } ::= { rPDU2DeviceStatusTable 1 } RPDU2DeviceStatusEntry ::= SEQUENCE { rPDU2DeviceStatusIndex INTEGER, rPDU2DeviceStatusModule INTEGER, rPDU2DeviceStatusName DisplayString, rPDU2DeviceStatusLoadState INTEGER, rPDU2DeviceStatusPower INTEGER, rPDU2DeviceStatusPeakPower INTEGER, rPDU2DeviceStatusPeakPowerTimestamp DisplayString, rPDU2DeviceStatusPeakPowerStartTime DisplayString, rPDU2DeviceStatusEnergy INTEGER, rPDU2DeviceStatusEnergyStartTime DisplayString, rPDU2DeviceStatusCommandPending INTEGER, rPDU2DeviceStatusPowerSupplyAlarm INTEGER, rPDU2DeviceStatusPowerSupply1Status INTEGER, rPDU2DeviceStatusPowerSupply2Status INTEGER, rPDU2DeviceStatusOutletsEnergyStartTime DisplayString } rPDU2DeviceStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU status table entry" ::= { rPDU2DeviceStatusEntry 1 } rPDU2DeviceStatusModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2DeviceStatusEntry 2 } rPDU2DeviceStatusName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A user-defined string identifying the Rack PDU" ::= { rPDU2DeviceStatusEntry 3 } rPDU2DeviceStatusLoadState OBJECT-TYPE SYNTAX INTEGER { lowLoad (1), normal (2), nearOverload (3), overload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the present load status of the Rack PDU" ::= { rPDU2DeviceStatusEntry 4 } rPDU2DeviceStatusPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power consumption of the Rack PDU load in hundredths of kilowatts" ::= { rPDU2DeviceStatusEntry 5 } rPDU2DeviceStatusPeakPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The peak power consumption of the Rack PDU load in hundredths of kilowatts" ::= { rPDU2DeviceStatusEntry 6 } rPDU2DeviceStatusPeakPowerTimestamp OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the date and time that peak power consumption occurred" ::= { rPDU2DeviceStatusEntry 7 } rPDU2DeviceStatusPeakPowerStartTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the date and time of the last device peak power reset" ::= { rPDU2DeviceStatusEntry 8 } rPDU2DeviceStatusEnergy OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A user resettable energy meter measuring Rack PDU load energy consumption in tenths of kilowatt-hours" ::= { rPDU2DeviceStatusEntry 9 } rPDU2DeviceStatusEnergyStartTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the date and time of the last device energy meter reset" ::= { rPDU2DeviceStatusEntry 10 } rPDU2DeviceStatusCommandPending OBJECT-TYPE SYNTAX INTEGER { commandPending (1), noCommandPending (2), commandPendingUnknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the device is processing a pending command. If the commandPendingUnknown (3) value is returned, all devices powered by the Rack PDU should be shut down. The Rack PDU's power should then be cycled to clear this condition." ::= { rPDU2DeviceStatusEntry 11 } rPDU2DeviceStatusPowerSupplyAlarm OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates a power supply alarm is active when value equals alarm (2)" ::= { rPDU2DeviceStatusEntry 12 } rPDU2DeviceStatusPowerSupply1Status OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2), notInstalled (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not an alarm is active in Power Supply 1" ::= { rPDU2DeviceStatusEntry 13 } rPDU2DeviceStatusPowerSupply2Status OBJECT-TYPE SYNTAX INTEGER { normal (1), alarm (2), notInstalled (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not an alarm is active in Power Supply 2" ::= { rPDU2DeviceStatusEntry 14 } rPDU2DeviceStatusOutletsEnergyStartTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the date and time of the last outlets energy meter reset" ::= { rPDU2DeviceStatusEntry 15 } -- rPDU2 Device Control rPDU2DeviceControlTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2DeviceControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU control data" ::= { rPDU2Device 4 } rPDU2DeviceControlEntry OBJECT-TYPE SYNTAX RPDU2DeviceControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Control data from Rack PDU being queried" INDEX { rPDU2DeviceControlIndex } ::= { rPDU2DeviceControlTable 1 } RPDU2DeviceControlEntry ::= SEQUENCE { rPDU2DeviceControlIndex INTEGER, rPDU2DeviceControlModule INTEGER, rPDU2DeviceControlName DisplayString, rPDU2DeviceControlCommand INTEGER } rPDU2DeviceControlIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU control table entry" ::= { rPDU2DeviceControlEntry 1 } rPDU2DeviceControlModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2DeviceControlEntry 2 } rPDU2DeviceControlName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A user-defined string identifying the Rack PDU" ::= { rPDU2DeviceControlEntry 3 } rPDU2DeviceControlCommand OBJECT-TYPE SYNTAX INTEGER { immediateAllOn (1), delayedAllOn (2), immediateAllOff (3), immediateAllReboot (4), delayedAllReboot (5), noCommandAll (6), delayedAllOff (7), cancelAllPendingCommands (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to immediateAllOn (1) will turn all outlets on immediately. Setting this OID to delayedAllOn (2) will turn all outlets on as defined by each outlet's rPDU2OutletSwitchedConfigPowerOnTime OID value. Setting this OID to immediateAllOff (3) will turn all outlets off immediately. Setting this OID to immediateAllReboot (4) will cause an immediateAllOff command to be performed. Once all outlets are off, the Switched Rack PDU will then delay the rPDU2OutletSwitchedConfigRebootDuration OID time, and then perform an immediateAllOn command. Setting this OID to delayedAllReboot (5) will cause a delayedAllOff command to be performed. Once all outlets are off, the Switched Rack PDU will then delay the largest rPDU2OutletSwitchedConfigRebootDuration OID time, and then perform a delayedAllOn command. Setting this OID to noCommandAll (6) will have no effect. Setting this OID to delayedAllOff (7) will turn all outlets off as defined by each outlet's rPDU2OutletSwitchedConfigPowerOffTime OID value. Setting this OID to cancelAllPendingCommands (8) will cause all pending commands on the Switched Rack PDU to be cancelled. Getting this OID will return the noCommandAll (6) value." ::= { rPDU2DeviceControlEntry 4 } -- rPDU2 Phase Data rPDU2PhaseTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of connected Rack PDU phases" ::= { rPDU2 5} rPDU2Phase OBJECT IDENTIFIER ::= { rPDU2 6 } -- rPDU2 Phase Config rPDU2PhaseConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2PhaseConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU phase configuration data" ::= { rPDU2Phase 1 } rPDU2PhaseConfigEntry OBJECT-TYPE SYNTAX RPDU2PhaseConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration data from currently queried Rack PDU phase" INDEX { rPDU2PhaseConfigIndex } ::= { rPDU2PhaseConfigTable 1 } RPDU2PhaseConfigEntry ::= SEQUENCE { rPDU2PhaseConfigIndex INTEGER, rPDU2PhaseConfigModule INTEGER, rPDU2PhaseConfigNumber INTEGER, rPDU2PhaseConfigOverloadRestriction INTEGER, rPDU2PhaseConfigLowLoadCurrentThreshold INTEGER, rPDU2PhaseConfigNearOverloadCurrentThreshold INTEGER, rPDU2PhaseConfigOverloadCurrentThreshold INTEGER } rPDU2PhaseConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU phase configuration table entry" ::= { rPDU2PhaseConfigEntry 1 } rPDU2PhaseConfigModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2PhaseConfigEntry 2 } rPDU2PhaseConfigNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric phase ID" ::= { rPDU2PhaseConfigEntry 3 } rPDU2PhaseConfigOverloadRestriction OBJECT-TYPE SYNTAX INTEGER { alwaysAllowTurnON (1), restrictOnNearOverload (2), restrictOnOverload (3), notSupported (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID controls the behavior of a Switched Rack PDU phase when an overload condition is possible and additional outlets are requested to be turned on. Setting this OID to alwaysAllowTurnON (1) will always allow the outlets on the corresponding phase to turn on. Setting this OID to restrictOnNearOverload (2) will not allow outlets on the corresponding phase to turn on if the rPDULoadConfigNearOverloadThreshold OID is exceeded. Setting this OID to restrictOnOverload (3) will not allow outlets on the corresponding phase to turn on if the rPDULoadConfigOverloadThreshold OID is exceeded. Models that do not support this feature will respond to this OID with a value of notSupported (4). Attempts to set this OID in these models will fail." ::= { rPDU2PhaseConfigEntry 4 } rPDU2PhaseConfigLowLoadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined low load phase current threshold in Amps" ::= { rPDU2PhaseConfigEntry 5 } rPDU2PhaseConfigNearOverloadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined near phase overload warning threshold in Amps" ::= { rPDU2PhaseConfigEntry 6 } rPDU2PhaseConfigOverloadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined phase overload current threshold in Amps" ::= { rPDU2PhaseConfigEntry 7 } -- rPDU2 Phase Properties rPDU2PhasePropertiesTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2PhasePropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU phase properties" ::= { rPDU2Phase 2 } rPDU2PhasePropertiesEntry OBJECT-TYPE SYNTAX RPDU2PhasePropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Properties of the currently queried Rack PDU phase" INDEX { rPDU2PhasePropertiesIndex } ::= { rPDU2PhasePropertiesTable 1 } RPDU2PhasePropertiesEntry ::= SEQUENCE { rPDU2PhasePropertiesIndex INTEGER, rPDU2PhasePropertiesModule INTEGER, rPDU2PhasePropertiesNumber INTEGER } rPDU2PhasePropertiesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU phase properties table entry" ::= { rPDU2PhasePropertiesEntry 1 } rPDU2PhasePropertiesModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2PhasePropertiesEntry 2 } rPDU2PhasePropertiesNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric phase ID" ::= { rPDU2PhasePropertiesEntry 3 } -- rPDU2 Phase Status rPDU2PhaseStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2PhaseStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU phase status data" ::= { rPDU2Phase 3 } rPDU2PhaseStatusEntry OBJECT-TYPE SYNTAX RPDU2PhaseStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Status data from currently queried Rack PDU phase" INDEX { rPDU2PhaseStatusIndex } ::= { rPDU2PhaseStatusTable 1 } RPDU2PhaseStatusEntry ::= SEQUENCE { rPDU2PhaseStatusIndex INTEGER, rPDU2PhaseStatusModule INTEGER, rPDU2PhaseStatusNumber INTEGER, rPDU2PhaseStatusLoadState INTEGER, rPDU2PhaseStatusCurrent INTEGER, rPDU2PhaseStatusVoltage INTEGER, rPDU2PhaseStatusPower INTEGER } rPDU2PhaseStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU phase status table entry" ::= { rPDU2PhaseStatusEntry 1 } rPDU2PhaseStatusModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2PhaseStatusEntry 2 } rPDU2PhaseStatusNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric phase ID" ::= { rPDU2PhaseStatusEntry 3 } rPDU2PhaseStatusLoadState OBJECT-TYPE SYNTAX INTEGER { lowLoad (1), normal (2), nearOverload (3), overload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the present load status of the Rack PDU phase being queried" ::= { rPDU2PhaseStatusEntry 4 } rPDU2PhaseStatusCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the current draw, in tenths of Amps, of the load on the Rack PDU phase being queried" ::= { rPDU2PhaseStatusEntry 5 } rPDU2PhaseStatusVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the Voltage, in Volts, of the Rack PDU phase being queried" ::= { rPDU2PhaseStatusEntry 6 } rPDU2PhaseStatusPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the load power, in hundredths of kilowatts, consumed on the Rack PDU phase being queried" ::= { rPDU2PhaseStatusEntry 7 } -- rPDU2 Bank Data rPDU2BankTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of connected Rack PDU banks" ::= { rPDU2 7} rPDU2Bank OBJECT IDENTIFIER ::= { rPDU2 8 } -- rPDU2 Bank Config rPDU2BankConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2BankConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU bank configuration data" ::= { rPDU2Bank 1 } rPDU2BankConfigEntry OBJECT-TYPE SYNTAX RPDU2BankConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration data from currently queried Rack PDU bank" INDEX { rPDU2BankConfigIndex } ::= { rPDU2BankConfigTable 1 } RPDU2BankConfigEntry ::= SEQUENCE { rPDU2BankConfigIndex INTEGER, rPDU2BankConfigModule INTEGER, rPDU2BankConfigNumber INTEGER, rPDU2BankConfigOverloadRestriction INTEGER, rPDU2BankConfigLowLoadCurrentThreshold INTEGER, rPDU2BankConfigNearOverloadCurrentThreshold INTEGER, rPDU2BankConfigOverloadCurrentThreshold INTEGER } rPDU2BankConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU bank configuration table entry" ::= { rPDU2BankConfigEntry 1 } rPDU2BankConfigModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2BankConfigEntry 2 } rPDU2BankConfigNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric bank ID" ::= { rPDU2BankConfigEntry 3 } rPDU2BankConfigOverloadRestriction OBJECT-TYPE SYNTAX INTEGER { alwaysAllowTurnON (1), restrictOnNearOverload (2), restrictOnOverload (3), notSupported (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID controls the behavior of a Switched Rack PDU bank when an overload condition is possible and additional outlets are requested to be turned on. Setting this OID to alwaysAllowTurnON (1) will always allow the outlets on the corresponding bank to turn on. Setting this OID to restrictOnNearOverload (2) will not allow outlets on the corresponding bank to turn on if the rPDU2BankConfigNearOverloadCurrentThreshold OID is exceeded. Setting this OID to restrictOnOverload (3) will not allow outlets on the corresponding bank to turn on if the rPDU2BankConfigOverloadCurrentThreshold OID is exceeded. Models that do not support this feature will respond to this OID with a value of notSupported (4). Attempts to set this OID in these models will fail." ::= { rPDU2BankConfigEntry 4 } rPDU2BankConfigLowLoadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined low load bank current threshold in Amps" ::= { rPDU2BankConfigEntry 5 } rPDU2BankConfigNearOverloadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined near bank overload current warning threshold in Amps" ::= { rPDU2BankConfigEntry 6 } rPDU2BankConfigOverloadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined bank overload current threshold in Amps" ::= { rPDU2BankConfigEntry 7 } -- rPDU2 Bank Properties rPDU2BankPropertiesTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2BankPropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU bank properties" ::= { rPDU2Bank 2 } rPDU2BankPropertiesEntry OBJECT-TYPE SYNTAX RPDU2BankPropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Properties of the currently queried Rack PDU bank" INDEX { rPDU2BankPropertiesIndex } ::= { rPDU2BankPropertiesTable 1 } RPDU2BankPropertiesEntry ::= SEQUENCE { rPDU2BankPropertiesIndex INTEGER, rPDU2BankPropertiesModule INTEGER, rPDU2BankPropertiesNumber INTEGER, rPDU2BankPropertiesPhaseLayout Rpdu2OutletPhaseLayoutType } rPDU2BankPropertiesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU bank properties table entry" ::= { rPDU2BankPropertiesEntry 1 } rPDU2BankPropertiesModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2BankPropertiesEntry 2 } rPDU2BankPropertiesNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric bank ID" ::= { rPDU2BankPropertiesEntry 3 } rPDU2BankPropertiesPhaseLayout OBJECT-TYPE SYNTAX Rpdu2OutletPhaseLayoutType ACCESS read-only STATUS mandatory DESCRIPTION "This OID describes the outlet phase connections on the referenced bank as follows: seqPhase1ToNeutral(1) indicates that bank outlets are wired from Phase 1 to Neutral. seqPhase2ToNeutral(2) indicates that bank outlets are wired from Phase 2 to Neutral. seqPhase3ToNeutral(3) indicates that bank outlets are wired from Phase 3 to Neutral. seqPhase1ToPhase2(4) indicates that bank outlets are wired from Phase 1 to Phase 2. seqPhase2ToPhase3(5) indicates that bank outlets are wired from Phase 2 to Phase 3. seqPhase3ToPhase1(6) indicates that bank outlets are wired from Phase 3 to Phase 1." ::= { rPDU2BankPropertiesEntry 4 } -- rPDU2 Bank Status rPDU2BankStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2BankStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU bank status data" ::= { rPDU2Bank 3 } rPDU2BankStatusEntry OBJECT-TYPE SYNTAX RPDU2BankStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Status data from currently queried Rack PDU bank" INDEX { rPDU2BankStatusIndex } ::= { rPDU2BankStatusTable 1 } RPDU2BankStatusEntry ::= SEQUENCE { rPDU2BankStatusIndex INTEGER, rPDU2BankStatusModule INTEGER, rPDU2BankStatusNumber INTEGER, rPDU2BankStatusLoadState INTEGER, rPDU2BankStatusCurrent INTEGER } rPDU2BankStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU bank status table entry" ::= { rPDU2BankStatusEntry 1 } rPDU2BankStatusModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2BankStatusEntry 2 } rPDU2BankStatusNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric bank ID" ::= { rPDU2BankStatusEntry 3 } rPDU2BankStatusLoadState OBJECT-TYPE SYNTAX INTEGER { lowLoad (1), normal (2), nearOverload (3), overload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the present load status of the Rack PDU bank being queried" ::= { rPDU2BankStatusEntry 4 } rPDU2BankStatusCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the current draw, in tenths of Amps, of the load on the Rack PDU bank being queried" ::= { rPDU2BankStatusEntry 5 } -- rPDU2 Outlet Data rPDU2Outlet OBJECT IDENTIFIER ::= { rPDU2 9 } -- rPDU2 Switched Outlet Data rPDU2OutletSwitchedTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of switched outlets on connected Rack PDUs" ::= { rPDU2Outlet 1} rPDU2OutletSwitched OBJECT IDENTIFIER ::= { rPDU2Outlet 2 } -- rPDU2 Switched Outlet Config rPDU2OutletSwitchedConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletSwitchedConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU switched outlet configuration data" ::= { rPDU2OutletSwitched 1 } rPDU2OutletSwitchedConfigEntry OBJECT-TYPE SYNTAX RPDU2OutletSwitchedConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration data from currently queried Rack PDU switched outlet" INDEX { rPDU2OutletSwitchedConfigIndex } ::= { rPDU2OutletSwitchedConfigTable 1 } RPDU2OutletSwitchedConfigEntry ::= SEQUENCE { rPDU2OutletSwitchedConfigIndex INTEGER, rPDU2OutletSwitchedConfigModule INTEGER, rPDU2OutletSwitchedConfigName DisplayString, rPDU2OutletSwitchedConfigNumber INTEGER, rPDU2OutletSwitchedConfigPowerOnTime INTEGER, rPDU2OutletSwitchedConfigPowerOffTime INTEGER, rPDU2OutletSwitchedConfigRebootDuration INTEGER } rPDU2OutletSwitchedConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU switched outlet configuration table entry" ::= { rPDU2OutletSwitchedConfigEntry 1 } rPDU2OutletSwitchedConfigModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletSwitchedConfigEntry 2 } rPDU2OutletSwitchedConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The user-defined switched outlet ID string" ::= { rPDU2OutletSwitchedConfigEntry 3 } rPDU2OutletSwitchedConfigNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric switched outlet ID" ::= { rPDU2OutletSwitchedConfigEntry 4 } rPDU2OutletSwitchedConfigPowerOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of delay, in seconds, between when power is provided to the Rack PDU and when this switched outlet starts providing power" ::= { rPDU2OutletSwitchedConfigEntry 5 } rPDU2OutletSwitchedConfigPowerOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time, in seconds, this outlet will delay powering off" ::= { rPDU2OutletSwitchedConfigEntry 6 } rPDU2OutletSwitchedConfigRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "After turning power off during a reboot sequence, the amount of time to wait before turning power to this outlet back on" ::= { rPDU2OutletSwitchedConfigEntry 7 } -- rPDU2 Switched Outlet Config rPDU2OutletSwitchedPropertiesTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletSwitchedPropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU switched outlet properties" ::= { rPDU2OutletSwitched 2 } rPDU2OutletSwitchedPropertiesEntry OBJECT-TYPE SYNTAX RPDU2OutletSwitchedPropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Properties of the currently queried Rack PDU switched outlet" INDEX { rPDU2OutletSwitchedPropertiesIndex } ::= { rPDU2OutletSwitchedPropertiesTable 1 } RPDU2OutletSwitchedPropertiesEntry ::= SEQUENCE { rPDU2OutletSwitchedPropertiesIndex INTEGER, rPDU2OutletSwitchedPropertiesModule INTEGER, rPDU2OutletSwitchedPropertiesName DisplayString, rPDU2OutletSwitchedPropertiesNumber INTEGER, rPDU2OutletSwitchedPropertiesPhaseLayout Rpdu2OutletPhaseLayoutType, rPDU2OutletSwitchedPropertiesBank INTEGER } rPDU2OutletSwitchedPropertiesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU switched outlet properties table entry" ::= { rPDU2OutletSwitchedPropertiesEntry 1 } rPDU2OutletSwitchedPropertiesModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletSwitchedPropertiesEntry 2 } rPDU2OutletSwitchedPropertiesName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined switched outlet ID string" ::= { rPDU2OutletSwitchedPropertiesEntry 3 } rPDU2OutletSwitchedPropertiesNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric switched outlet ID" ::= { rPDU2OutletSwitchedPropertiesEntry 4 } rPDU2OutletSwitchedPropertiesPhaseLayout OBJECT-TYPE SYNTAX Rpdu2OutletPhaseLayoutType ACCESS read-only STATUS mandatory DESCRIPTION "This OID describes the phase connections of the referenced outlet as follows: seqPhase1ToNeutral(1) indicates that the outlet is wired from Phase 1 to Neutral. seqPhase2ToNeutral(2) indicates that the outlet is wired from Phase 2 to Neutral. seqPhase3ToNeutral(3) indicates that the outlet is wired from Phase 3 to Neutral. seqPhase1ToPhase2(4) indicates that the outlet is wired from Phase 1 to Phase 2. seqPhase2ToPhase3(5) indicates that the outlet is wired from Phase 2 to Phase 3. seqPhase3ToPhase1(6) indicates that the outlet is wired from Phase 3 to Phase 1." ::= { rPDU2OutletSwitchedPropertiesEntry 5 } rPDU2OutletSwitchedPropertiesBank OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric bank ID" ::= { rPDU2OutletSwitchedPropertiesEntry 6 } -- rPDU2 Switched Outlet Status rPDU2OutletSwitchedStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletSwitchedStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU switched outlet status information" ::= { rPDU2OutletSwitched 3 } rPDU2OutletSwitchedStatusEntry OBJECT-TYPE SYNTAX RPDU2OutletSwitchedStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Status information for currently queried Rack PDU switched outlet" INDEX { rPDU2OutletSwitchedStatusIndex } ::= { rPDU2OutletSwitchedStatusTable 1 } RPDU2OutletSwitchedStatusEntry ::= SEQUENCE { rPDU2OutletSwitchedStatusIndex INTEGER, rPDU2OutletSwitchedStatusModule INTEGER, rPDU2OutletSwitchedStatusName DisplayString, rPDU2OutletSwitchedStatusNumber INTEGER, rPDU2OutletSwitchedStatusState INTEGER, rPDU2OutletSwitchedStatusCommandPending INTEGER } rPDU2OutletSwitchedStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU switched outlet status information table entry" ::= { rPDU2OutletSwitchedStatusEntry 1 } rPDU2OutletSwitchedStatusModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletSwitchedStatusEntry 2 } rPDU2OutletSwitchedStatusName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined switched outlet ID string" ::= { rPDU2OutletSwitchedStatusEntry 3 } rPDU2OutletSwitchedStatusNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric switched outlet ID" ::= { rPDU2OutletSwitchedStatusEntry 4 } rPDU2OutletSwitchedStatusState OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the present switch state of the Rack PDU switched outlet being queried" ::= { rPDU2OutletSwitchedStatusEntry 5 } rPDU2OutletSwitchedStatusCommandPending OBJECT-TYPE SYNTAX INTEGER { commandPending (1), noCommandPending (2), commandPendingUnknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the device is processing a command for this outlet. If the commandPendingUnknown (3) value is returned, all devices powered by the Rack PDU should be shut down. The Rack PDU's power should then be cycled to clear this condition." ::= { rPDU2OutletSwitchedStatusEntry 6 } -- rPDU2 Switched Outlet Control rPDU2OutletSwitchedControlTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletSwitchedControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU switched outlet control data" ::= { rPDU2OutletSwitched 4 } rPDU2OutletSwitchedControlEntry OBJECT-TYPE SYNTAX RPDU2OutletSwitchedControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Control data for currently queried Rack PDU switched outlet" INDEX { rPDU2OutletSwitchedControlIndex } ::= { rPDU2OutletSwitchedControlTable 1 } RPDU2OutletSwitchedControlEntry ::= SEQUENCE { rPDU2OutletSwitchedControlIndex INTEGER, rPDU2OutletSwitchedControlModule INTEGER, rPDU2OutletSwitchedControlName DisplayString, rPDU2OutletSwitchedControlNumber INTEGER, rPDU2OutletSwitchedControlCommand INTEGER } rPDU2OutletSwitchedControlIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU switched outlet control data table entry" ::= { rPDU2OutletSwitchedControlEntry 1 } rPDU2OutletSwitchedControlModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletSwitchedControlEntry 2 } rPDU2OutletSwitchedControlName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined switched outlet ID string" ::= { rPDU2OutletSwitchedControlEntry 3 } rPDU2OutletSwitchedControlNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric switched outlet ID" ::= { rPDU2OutletSwitchedControlEntry 4 } rPDU2OutletSwitchedControlCommand OBJECT-TYPE SYNTAX INTEGER { immediateOn (1), immediateOff (2), immediateReboot (3), outletUnknown (4), delayedOn (5), delayedOff (6), delayedReboot (7), cancelPendingCommand (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the immediateOn (1) value will be returned. If the outlet is off, the immediateOff (2) value will be returned. If the state of the outlet cannot be determined, the outletUnknown (4) value will be returned. If the outletUnknown condition should occur, all devices powered by the PDU should be shut down. The PDU's power should then be cycled to clear this condition. Setting this variable to immediateOn (1) will immediately turn the outlet on. Setting this variable to immediateOff (2) will immediately turn the outlet off. Setting this variable to immediateReboot (3) will cause the Switched Rack PDU to perform an immediateOff command, wait the rPDU2OutletSwitchedConfigRebootDuration OID time, and then perform an immediateOn command. Setting this variable to delayedOn (5) will turn the outlet on after the rPDU2OutletSwitchedConfigPowerOnTime OID time has elapsed. Setting this variable to delayedOff (6) will turn the outlet off after the rPDU2OutletSwitchedConfigPowerOffTime OID time has elapsed. Setting this variable to delayedReboot (7) will cause the Switched Rack PDU to perform a delayedOff command, wait the rPDU2OutletSwitchedConfigRebootDuration OID time, and then perform a delayedOn command. Setting this variable to cancelPendingCommand (8) will cause any pending command to this outlet to be cancelled." ::= { rPDU2OutletSwitchedControlEntry 5 } -- rPDU2 Metered Outlet Data rPDU2OutletMeteredTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of metered outlets on connect Rack PDUs" ::= { rPDU2Outlet 3} rPDU2OutletMetered OBJECT IDENTIFIER ::= { rPDU2Outlet 4 } -- rPDU2 Metered Outlet Config rPDU2OutletMeteredConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletMeteredConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU metered outlet configuration data" ::= { rPDU2OutletMetered 1 } rPDU2OutletMeteredConfigEntry OBJECT-TYPE SYNTAX RPDU2OutletMeteredConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration data from currently queried Rack PDU metered outlet" INDEX { rPDU2OutletMeteredConfigIndex } ::= { rPDU2OutletMeteredConfigTable 1 } RPDU2OutletMeteredConfigEntry ::= SEQUENCE { rPDU2OutletMeteredConfigIndex INTEGER, rPDU2OutletMeteredConfigModule INTEGER, rPDU2OutletMeteredConfigName DisplayString, rPDU2OutletMeteredConfigNumber INTEGER, rPDU2OutletMeteredConfigLowLoadCurrentThreshold INTEGER, rPDU2OutletMeteredConfigNearOverloadCurrentThreshold INTEGER, rPDU2OutletMeteredConfigOverloadCurrentThreshold INTEGER } rPDU2OutletMeteredConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU metered outlet configuration table entry" ::= { rPDU2OutletMeteredConfigEntry 1 } rPDU2OutletMeteredConfigModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletMeteredConfigEntry 2 } rPDU2OutletMeteredConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The user-defined metered outlet ID string" ::= { rPDU2OutletMeteredConfigEntry 3 } rPDU2OutletMeteredConfigNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric switched outlet ID" ::= { rPDU2OutletMeteredConfigEntry 4 } rPDU2OutletMeteredConfigLowLoadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined low load outlet current threshold in Watts" ::= { rPDU2OutletMeteredConfigEntry 5 } rPDU2OutletMeteredConfigNearOverloadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined near outlet overload warning threshold in Watts" ::= { rPDU2OutletMeteredConfigEntry 6 } rPDU2OutletMeteredConfigOverloadCurrentThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "User-defined outlet overload current threshold in Watts" ::= { rPDU2OutletMeteredConfigEntry 7 } -- rPDU2 Metered Outlet Properties rPDU2OutletMeteredPropertiesTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletMeteredPropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU metered outlet properties" ::= { rPDU2OutletMetered 2 } rPDU2OutletMeteredPropertiesEntry OBJECT-TYPE SYNTAX RPDU2OutletMeteredPropertiesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Properties of currently queried Rack PDU metered outlet" INDEX { rPDU2OutletMeteredPropertiesIndex } ::= { rPDU2OutletMeteredPropertiesTable 1 } RPDU2OutletMeteredPropertiesEntry ::= SEQUENCE { rPDU2OutletMeteredPropertiesIndex INTEGER, rPDU2OutletMeteredPropertiesModule INTEGER, rPDU2OutletMeteredPropertiesName DisplayString, rPDU2OutletMeteredPropertiesNumber INTEGER, rPDU2OutletMeteredPropertiesLayout Rpdu2OutletPhaseLayoutType, rPDU2OutletMeteredPropertiesPowerRating INTEGER, rPDU2OutletMeteredPropertiesBank INTEGER } rPDU2OutletMeteredPropertiesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU metered properties table entry" ::= { rPDU2OutletMeteredPropertiesEntry 1 } rPDU2OutletMeteredPropertiesModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletMeteredPropertiesEntry 2 } rPDU2OutletMeteredPropertiesName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined metered outlet ID string" ::= { rPDU2OutletMeteredPropertiesEntry 3 } rPDU2OutletMeteredPropertiesNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric metered outlet ID" ::= { rPDU2OutletMeteredPropertiesEntry 4 } rPDU2OutletMeteredPropertiesLayout OBJECT-TYPE SYNTAX Rpdu2OutletPhaseLayoutType ACCESS read-only STATUS mandatory DESCRIPTION "This OID describes the phase connections of the referenced outlet as follows: seqPhase1ToNeutral(1) indicates that the outlet is wired from Phase 1 to Neutral. seqPhase2ToNeutral(2) indicates that the outlet is wired from Phase 2 to Neutral. seqPhase3ToNeutral(3) indicates that the outlet is wired from Phase 3 to Neutral. seqPhase1ToPhase2(4) indicates that the outlet is wired from Phase 1 to Phase 2. seqPhase2ToPhase3(5) indicates that the outlet is wired from Phase 2 to Phase 3. seqPhase3ToPhase1(6) indicates that the outlet is wired from Phase 3 to Phase 1." ::= { rPDU2OutletMeteredPropertiesEntry 5 } rPDU2OutletMeteredPropertiesPowerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Maximum power rating of Rack PDU metered outlet" ::= { rPDU2OutletMeteredPropertiesEntry 6 } rPDU2OutletMeteredPropertiesBank OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This outlet's numeric bank ID" ::= { rPDU2OutletMeteredPropertiesEntry 7 } -- rPDU2 Metered Outlet Status rPDU2OutletMeteredStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2OutletMeteredStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of Rack PDU metered outlet status data" ::= { rPDU2OutletMetered 3 } rPDU2OutletMeteredStatusEntry OBJECT-TYPE SYNTAX RPDU2OutletMeteredStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Status data from currently queried Rack PDU metered outlet" INDEX { rPDU2OutletMeteredStatusIndex } ::= { rPDU2OutletMeteredStatusTable 1 } RPDU2OutletMeteredStatusEntry ::= SEQUENCE { rPDU2OutletMeteredStatusIndex INTEGER, rPDU2OutletMeteredStatusModule INTEGER, rPDU2OutletMeteredStatusName DisplayString, rPDU2OutletMeteredStatusNumber INTEGER, rPDU2OutletMeteredStatusState INTEGER, rPDU2OutletMeteredStatusCurrent INTEGER, rPDU2OutletMeteredStatusPower INTEGER, rPDU2OutletMeteredStatusPeakPower INTEGER, rPDU2OutletMeteredStatusPeakPowerTimestamp DisplayString, rPDU2OutletMeteredStatusPeakPowerStartTime DisplayString, rPDU2OutletMeteredStatusEnergy INTEGER } rPDU2OutletMeteredStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the Rack PDU metered status table entry" ::= { rPDU2OutletMeteredStatusEntry 1 } rPDU2OutletMeteredStatusModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2OutletMeteredStatusEntry 2 } rPDU2OutletMeteredStatusName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined metered outlet ID string" ::= { rPDU2OutletMeteredStatusEntry 3 } rPDU2OutletMeteredStatusNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The numeric metered outlet ID" ::= { rPDU2OutletMeteredStatusEntry 4 } rPDU2OutletMeteredStatusState OBJECT-TYPE SYNTAX INTEGER { lowLoad (1), normal (2), nearOverload (3), overload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the present load status of the Rack PDU metered outlet being queried" ::= { rPDU2OutletMeteredStatusEntry 5 } rPDU2OutletMeteredStatusCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the current draw, in tenths of Amps, of the load on the Rack PDU outlet being queried" ::= { rPDU2OutletMeteredStatusEntry 6 } rPDU2OutletMeteredStatusPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the power draw of the load on the Rack PDU outlet being queried" ::= { rPDU2OutletMeteredStatusEntry 7 } rPDU2OutletMeteredStatusPeakPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the peak power load draw on the Rack PDU outlet being queried" ::= { rPDU2OutletMeteredStatusEntry 8 } rPDU2OutletMeteredStatusPeakPowerTimestamp OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the date and time that this metered outlet's peak power consumption occurred" ::= { rPDU2OutletMeteredStatusEntry 9 } rPDU2OutletMeteredStatusPeakPowerStartTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the start date and time that this metered outlet began recording peak power observations" ::= { rPDU2OutletMeteredStatusEntry 10 } rPDU2OutletMeteredStatusEnergy OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A user resettable energy meter measuring Rack PDU load energy consumption in tenths of kilowatt-hours" ::= { rPDU2OutletMeteredStatusEntry 11 } -- rPDU2 Sensor Data rPDU2Sensor OBJECT IDENTIFIER ::= { rPDU2 10 } -- rPDU2 Temperature and Humidity Sensor Data rPDU2SensorTempHumidityTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of connected temperature-humidity sensors" ::= { rPDU2Sensor 1} rPDU2SensorTempHumidity OBJECT IDENTIFIER ::= { rPDU2Sensor 2 } -- rPDU2 Temperature and Humidity Sensor Config rPDU2SensorTempHumidityConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2SensorTempHumidityConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of temperature-humidity sensor configuration data" ::= { rPDU2SensorTempHumidity 1 } rPDU2SensorTempHumidityConfigEntry OBJECT-TYPE SYNTAX RPDU2SensorTempHumidityConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Configuration data from temperature-humidity sensor being queried" INDEX { rPDU2SensorTempHumidityConfigIndex } ::= { rPDU2SensorTempHumidityConfigTable 1 } RPDU2SensorTempHumidityConfigEntry ::= SEQUENCE { rPDU2SensorTempHumidityConfigIndex INTEGER, rPDU2SensorTempHumidityConfigModule INTEGER, rPDU2SensorTempHumidityConfigName DisplayString, rPDU2SensorTempHumidityConfigNumber INTEGER, rPDU2SensorTempHumidityConfigTemperatureAlarmEnable INTEGER, rPDU2SensorTempHumidityConfigHumidityAlarmEnable INTEGER, rPDU2SensorTempHumidityConfigTempMaxThreshF INTEGER, rPDU2SensorTempHumidityConfigTempHighThreshF INTEGER, rPDU2SensorTempHumidityConfigTempHysteresisF INTEGER, rPDU2SensorTempHumidityConfigTempMaxThreshC INTEGER, rPDU2SensorTempHumidityConfigTempHighThreshC INTEGER, rPDU2SensorTempHumidityConfigTempHysteresisC INTEGER, rPDU2SensorTempHumidityConfigHumidityLowThresh INTEGER, rPDU2SensorTempHumidityConfigHumidityMinThresh INTEGER, rPDU2SensorTempHumidityConfigHumidityHysteresis INTEGER } rPDU2SensorTempHumidityConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the temperature-humidity sensor configuration data table entry" ::= { rPDU2SensorTempHumidityConfigEntry 1 } rPDU2SensorTempHumidityConfigModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2SensorTempHumidityConfigEntry 2 } rPDU2SensorTempHumidityConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The user-defined temperature-humidity sensor ID string" ::= { rPDU2SensorTempHumidityConfigEntry 3 } rPDU2SensorTempHumidityConfigNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature-humidity sensor numeric ID" ::= { rPDU2SensorTempHumidityConfigEntry 4 } rPDU2SensorTempHumidityConfigTemperatureAlarmEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID enables or disables generation of sensor temperature alarm. Getting this OID returns the current value of the temperature alarm enable." ::= { rPDU2SensorTempHumidityConfigEntry 5 } rPDU2SensorTempHumidityConfigHumidityAlarmEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID enables or disables generation of sensor humidity alarm. Getting this OID returns the current value of the humidity alarm enable." ::= { rPDU2SensorTempHumidityConfigEntry 6 } rPDU2SensorTempHumidityConfigTempMaxThreshF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor maximum temperature alarm threshold in Fahrenheit. Attempting to set this OID to a value less than or equal to that of rPDU2SensorTempHumidityConfigTempHighThreshF will result in an error." ::= { rPDU2SensorTempHumidityConfigEntry 7 } rPDU2SensorTempHumidityConfigTempHighThreshF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor high temperature warning alarm threshold in Fahrenheit. Attempting to set this OID to a value greater than or equal to that of rPDU2SensorTempHumidityConfigTempMaxThreshF will result in an error." ::= { rPDU2SensorTempHumidityConfigEntry 8 } rPDU2SensorTempHumidityConfigTempHysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor temperature hysteresis setting in Fahrenheit" ::= { rPDU2SensorTempHumidityConfigEntry 9 } rPDU2SensorTempHumidityConfigTempMaxThreshC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor maximum temperature alarm threshold in Celsius. Attempting to set this OID to a value less than or equal to that of rPDU2SensorTempHumidityConfigTempHighThreshC will result in an error." ::= { rPDU2SensorTempHumidityConfigEntry 10 } rPDU2SensorTempHumidityConfigTempHighThreshC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor high temperature warning alarm threshold in Celsius. Attempting to set this OID to a value greater than or equal to that of rPDU2SensorTempHumidityConfigTempMaxThreshC will result in an error." ::= { rPDU2SensorTempHumidityConfigEntry 11 } rPDU2SensorTempHumidityConfigTempHysteresisC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor temperature hysteresis setting in Celsius" ::= { rPDU2SensorTempHumidityConfigEntry 12 } rPDU2SensorTempHumidityConfigHumidityLowThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor low humidity warning alarm threshold in percent relative humidity. Attempting to set this OID to a value less than or equal to that of rPDU2SensorTempHumidityConfigHumidityMinThresh will result in an error." ::= { rPDU2SensorTempHumidityConfigEntry 13 } rPDU2SensorTempHumidityConfigHumidityMinThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor minimum humidity alarm threshold in percent relative humidity. Attempting to set this OID to a value greater than or equal to that of rPDU2SensorTempHumidityConfigHumidityLowThresh will result in an error." ::= { rPDU2SensorTempHumidityConfigEntry 14 } rPDU2SensorTempHumidityConfigHumidityHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Sensor humidity hysteresis setting in percent relative humidity" ::= { rPDU2SensorTempHumidityConfigEntry 15 } -- rPDU2 Temperature and Humidity Sensor Status rPDU2SensorTempHumidityStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RPDU2SensorTempHumidityStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of temperature-humidity sensor status data" ::= { rPDU2SensorTempHumidity 2 } rPDU2SensorTempHumidityStatusEntry OBJECT-TYPE SYNTAX RPDU2SensorTempHumidityStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Status information from temperature-humidity sensor being queried" INDEX { rPDU2SensorTempHumidityStatusIndex } ::= { rPDU2SensorTempHumidityStatusTable 1 } RPDU2SensorTempHumidityStatusEntry ::= SEQUENCE { rPDU2SensorTempHumidityStatusIndex INTEGER, rPDU2SensorTempHumidityStatusModule INTEGER, rPDU2SensorTempHumidityStatusName DisplayString, rPDU2SensorTempHumidityStatusNumber INTEGER, rPDU2SensorTempHumidityStatusType INTEGER, rPDU2SensorTempHumidityStatusCommStatus INTEGER, rPDU2SensorTempHumidityStatusTempF INTEGER, rPDU2SensorTempHumidityStatusTempC INTEGER, rPDU2SensorTempHumidityStatusTempStatus INTEGER, rPDU2SensorTempHumidityStatusRelativeHumidity INTEGER, rPDU2SensorTempHumidityStatusHumidityStatus INTEGER } rPDU2SensorTempHumidityStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the temperature-humidity status data table entry" ::= { rPDU2SensorTempHumidityStatusEntry 1 } rPDU2SensorTempHumidityStatusModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined Rack PDU numeric ID" ::= { rPDU2SensorTempHumidityStatusEntry 2 } rPDU2SensorTempHumidityStatusName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The user-defined temperature-humidity sensor ID string" ::= { rPDU2SensorTempHumidityStatusEntry 3 } rPDU2SensorTempHumidityStatusNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature-humidity sensor numeric ID" ::= { rPDU2SensorTempHumidityStatusEntry 4 } rPDU2SensorTempHumidityStatusType OBJECT-TYPE SYNTAX INTEGER { temperatureOnly (1), temperatureHumidity (2), commsLost (3), notInstalled (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of the sensor" ::= { rPDU2SensorTempHumidityStatusEntry 5 } rPDU2SensorTempHumidityStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { notInstalled (1), commsOK (2), commsLost (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communications status of the sensor" ::= { rPDU2SensorTempHumidityStatusEntry 6 } rPDU2SensorTempHumidityStatusTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Sensor temperature reading in tenths of degrees Fahrenheit" ::= { rPDU2SensorTempHumidityStatusEntry 7 } rPDU2SensorTempHumidityStatusTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Sensor temperature reading in tenths of degrees Celsius" ::= { rPDU2SensorTempHumidityStatusEntry 8 } rPDU2SensorTempHumidityStatusTempStatus OBJECT-TYPE SYNTAX INTEGER { notPresent (1), belowMin (2), belowLow (3), normal (4), aboveHigh (5), aboveMax (6) } ACCESS read-only STATUS mandatory DESCRIPTION "This OID reports the current state of the temperature probe. A notPresent (1) response indicates that no probe is attached. A belowMin (2) response indicates that the probe is present and its measured temperature lies below the minimum threshold. A belowLow (3) response indicates that the probe is present and its measured temperature lies below the low threshold. A normal (4) response indicates that the probe is present and its measured temperature lies within all temperature thresholds. An aboveHigh (5) response indicates that the probe is present and is measuring a temperature above the high threshold. An aboveMax (6) response indicates that the probe is present and is measuring a temperature above the max threshold." ::= { rPDU2SensorTempHumidityStatusEntry 9 } rPDU2SensorTempHumidityStatusRelativeHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Sensor humidity reading in percent relative humidity" ::= { rPDU2SensorTempHumidityStatusEntry 10 } rPDU2SensorTempHumidityStatusHumidityStatus OBJECT-TYPE SYNTAX INTEGER { notPresent (1), belowMin (2), belowLow (3), normal (4), aboveHigh (5), aboveMax (6) } ACCESS read-only STATUS mandatory DESCRIPTION "This OID reports the current state of the humidity probe. A notPresent (1) response indicates that no probe is attached. A belowMin (2) response indicates that the probe is present and its measured humidity lies below the minimum threshold. A belowLow (3) response indicates that the probe is present and its measured humidity lies below the low threshold. A normal (4) response indicates that the probe is present and its measured humidity lies within all humidity thresholds. An aboveHigh (5) response indicates that the probe is present and is measuring a humidity above the high threshold. An aboveMax (6) response indicates that the probe is present and is measuring a humidity above the max threshold." ::= { rPDU2SensorTempHumidityStatusEntry 11 } rPDU2Group OBJECT IDENTIFIER ::= { rPDU2 11 } -- rPDU2 Total Rack PDU group power and energy rPDU2GroupNumberOfDevices OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of Rack PDU devices contributing to the group power and energy values." ::= { rPDU2Group 1 } rPDU2GroupTotalPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the total power consumption of the Rack PDU group devices in hundredths of kilowatts." ::= { rPDU2Group 2 } rPDU2GroupTotalEnergy OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the total energy consumption of the Rack PDU group devices in tenths of kilowatt-hours. To reset the energy meters for each of the Rack PDU devices that contribute to this value, see the rPDU2GroupEnergyReset OID. To view the start time for each of the Rack PDU device energy meters that contribute to this value, see the rPDU2DeviceStatusEnergyStartTime OID." ::= { rPDU2Group 3 } rPDU2GroupEnergyReset OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2), notSupported (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset (2) will cause the device energy meter value on each device in the Rack PDU group to be reset to zero. Each device in the Rack PDU group will also have its corresponding rPDU2DeviceStatusEnergyStartTime OID value updated. Getting this OID in models that support this feature will do nothing and return the noOperation(1) value. Models that do not support this feature will respond to this OID with a value of notSupported (3). Attempts to set this OID in these models will fail." ::= { rPDU2Group 4 } -- the dm3IdentSystem group dm3IdentSysDescriptionTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC description records." ::= { dm3IdentSystem 1 } dm3IdentSysDescriptionTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3IdentSysDescriptionEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing description records of the powerplant. The number of entries is contained in the dm3IdentSysDescriptionTableSize OID." ::= { dm3IdentSystem 2 } dm3IdentSysDescriptionEntry OBJECT-TYPE SYNTAX Dm3IdentSysDescriptionEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The powerplant description record to reference." INDEX { dm3IdentSysDescriptionIndex } ::= { dm3IdentSysDescriptionTable 1 } Dm3IdentSysDescriptionEntry ::= SEQUENCE { dm3IdentSysDescriptionIndex INTEGER, dm3IdentSysDescriptionText DisplayString } dm3IdentSysDescriptionIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant description record." ::= { dm3IdentSysDescriptionEntry 1 } dm3IdentSysDescriptionText OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 16 character text field describing the DC power plant device. This field can be configured from the dm3ConfigSysDescriptionText OID." ::= { dm3IdentSysDescriptionEntry 2 } dm3IdentSysModel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Model type of the DC power plant." ::= { dm3IdentSystem 3 } dm3IdentSysCntrlRev OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Integer representation of the hardware revision of the Master Controller board." ::= { dm3IdentSystem 4 } dm3IdentSysFWVersion OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Integer representation of the power plant Master Controller firmware revision." ::= { dm3IdentSystem 5 } -- the dm3ConfigSystem group dm3ConfigSysDescriptionTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC description records." ::= { dm3ConfigSystem 1 } dm3ConfigSysDescriptionTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3ConfigSysDescriptionEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing description records of the powerplant. The number of entries is contained in the dm3ConfigSysDescriptionTableSize OID." ::= { dm3ConfigSystem 2 } dm3ConfigSysDescriptionEntry OBJECT-TYPE SYNTAX Dm3ConfigSysDescriptionEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The powerplant description record to reference." INDEX { dm3ConfigSysDescriptionIndex } ::= { dm3ConfigSysDescriptionTable 1 } Dm3ConfigSysDescriptionEntry ::= SEQUENCE { dm3ConfigSysDescriptionIndex INTEGER, dm3ConfigSysDescriptionText DisplayString } dm3ConfigSysDescriptionIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant description record." ::= { dm3ConfigSysDescriptionEntry 1 } dm3ConfigSysDescriptionText OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "16 character text field describing the DC power plant device." ::= { dm3ConfigSysDescriptionEntry 2 } dm3ConfigSysHighTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Ambient high temperature threshold. Temperature sensor located on Master Controller board. Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigSystem 3 } dm3ConfigSysHighTempAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the System High Temperature Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigSystem 4 } dm3ConfigSysLowTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Ambient low temperature threshold. Temperature sensor located on Master Controller board. Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigSystem 5 } dm3ConfigSysLowTempAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the System Low Temperature Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigSystem 6 } dm3ConfigSysHardwareTempAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the System Hardware Temperature Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigSystem 7 } dm3ConfigSysRemoteAccess OBJECT-TYPE SYNTAX INTEGER { accessEnabled (1), accessDisabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION " This OID is used to disable remote write access to the power plant. Setting this OID to accessEnabled (1) will have no affect. Setting this OID to accessDisabled (2) will disable the ability to remotely configure the DC powerplant. Once remote access is disabled, it can only be restored from the front panel of the DC power plant." ::= { dm3ConfigSystem 8 } -- the dm3ConfigLVD group dm3ConfigLVDTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant LVDs controllable by this IP address." ::= { dm3ConfigLVD 1 } dm3ConfigLVDTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3ConfigLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the LVDs. The number of entries is contained in the dm3ConfigLVDTableSize OID." ::= { dm3ConfigLVD 2 } dm3ConfigLVDEntry OBJECT-TYPE SYNTAX Dm3ConfigLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The LVD to configure." INDEX { dm3ConfigLVDIndex } ::= { dm3ConfigLVDTable 1 } Dm3ConfigLVDEntry ::= SEQUENCE { dm3ConfigLVDIndex INTEGER, dm3ConfigLVDName DisplayString, dm3ConfigLVDEnable INTEGER, dm3ConfigLVDTripThresh INTEGER, dm3ConfigLVDResetThresh INTEGER, dm3ConfigLVDOpenAlarm INTEGER, dm3ConfigLVDHWAlarm INTEGER } dm3ConfigLVDIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant LVD." ::= { dm3ConfigLVDEntry 1 } dm3ConfigLVDName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the LVD. The maximum value is 16 characters." ::= { dm3ConfigLVDEntry 2 } dm3ConfigLVDEnable OBJECT-TYPE SYNTAX INTEGER { enabledYes (1), enabledNo (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID is used to control and indicate if the LVD is on or off. Setting this OID to enabledYes (1) will enable (turn on) the LVD. Setting this OID to enabledNo (2) will disable (turn off) the LVD." ::= { dm3ConfigLVDEntry 3 } dm3ConfigLVDTripThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "LVD Trip threshold. If voltage exceeds threshold, the LVD will trip. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigLVDEntry 4 } dm3ConfigLVDResetThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "LVD Reset threshold. If voltage exceeds threshold, the LVD will reset. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigLVDEntry 5 } dm3ConfigLVDOpenAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the LVD Open Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigLVDEntry 6 } dm3ConfigLVDHWAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the LVD Hardware Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigLVDEntry 7 } -- the dm3ConfigBattery group dm3ConfigBattFloatVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery Float Voltage. This setting controls the power plant voltage. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 1 } dm3ConfigBattMaxRecharge OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery Maximum Recharge Rate. This setting controls the battery max recharge rate. The value is based on C/20 for 240 AHr battery string. Values are represented in thousandths of Amps (mA). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 2 } dm3ConfigBattDischargeThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery discharge threshold. If battery output current exceeds threshold a battery discharge alarm will occur. Values are represented in thousandths of Amps (mA). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 3 } dm3ConfigBattDischargeAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery Discharge Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 4 } dm3ConfigBattHighVoltThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery high voltage threshold. If system battery voltage exceeds threshold a battery high voltage alarm will occur. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 5 } dm3ConfigBattHighVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery High Voltage Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 6 } dm3ConfigBattLowVoltThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery low voltage threshold. If system battery voltage is under threshold a battery low voltage alarm will occur. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 7 } dm3ConfigBattLowVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery Low Voltage Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 8 } dm3ConfigBattHighTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery high temperature threshold. If system battery temperature exceeds threshold a battery high temperature alarm will occur. Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 9 } dm3ConfigBattHighTempAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery High Temperature Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 10 } dm3ConfigBattLowTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery low temperature threshold. If system battery temperature is under threshold a battery low temperature alarm will occur. Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 11 } dm3ConfigBattLowTempAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery Low Temperature Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 12 } dm3ConfigBattAmpHour OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery Amp-Hour Size. Units are thousandths of Amp hours (mAHr). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 13 } dm3ConfigCompMethod OBJECT-TYPE SYNTAX INTEGER { tempcompOn (1), tempcompOff (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID is used to configure and get the state of the battery temperature compensation. Setting this OID to tempcompOn (1) will enable/turn on the battery temperature compensation. Setting this OID to tempcompOff (2) will disable/turn off the battery temperature compensation." ::= { dm3ConfigBattery 14 } dm3ConfigCompTempCoeff OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compensation Temperature Coefficient. (uV/degC/cell). Units are presented in microvolts. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 15 } dm3ConfigHighKneeTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "High Knee for temperature compensation: Compensation temperature coefficient becomes 0mV/degC/cell. Values are represented in thousandths of degrees Celsius. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 16 } dm3ConfigLowKneeTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Low Knee for temperature compensation: Compensation temperature coefficient becomes 0mV/degC/cell. Values are represented in thousandths of degrees Celsius. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigBattery 17 } dm3ConfigBattHwCurrentAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery Current Hardware Alarm (indicating current is outside realistic limits, or a possible measurement fault; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 18 } dm3ConfigBattHwTempAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Battery Temperature Hardware Alarm (indicating temperature is outside realistic limits, or a possible measurement fault; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBattery 19 } -- the dm3ConfigRectThresh group dm3ConfigRectHighVoltThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Rectifier high voltage threshold. If rectifier voltage exceeds threshold a rectifier high voltage alarm will occur. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigRectThresh 1 } dm3ConfigRectLowVoltThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Rectifier low voltage threshold. If rectifier voltage is under threshold a rectifier low voltage alarm will occur. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigRectThresh 2 } dm3ConfigRectFailSafe OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Rectifier Fail Safe point. This OID represents the value sent to rectifier controllers to use in the event of communications loss with the Master Controller or Master Controller board failure. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigRectThresh 3 } dm3ConfigRectFailComm OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Rectifier Communication Fail timeout. This OID represents the time interval in which there is no communication between the rectifier and the master controller at which the rectifier will reset all its values to default. Values are represented in hundredths of Seconds. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigRectThresh 4 } -- the dm3ConfigRectAlarms group dm3ConfigRectHighVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier High Voltage Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 1 } dm3ConfigRectLowVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Low Voltage Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 2 } dm3ConfigRectConfigAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "This alarm is activated when a new rectifier is detected; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 3 } dm3ConfigRect1ofNAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "This setting indicates the action if ONE rectifier of a N+1 system has failed; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 4 } dm3ConfigRect2ofNAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "This setting indicates the action if TWO OR MORE rectifiers of a N+1 system have failed; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 5 } dm3ConfigRectDiagAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Controller Diagnostics Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system." ::= { dm3ConfigRectAlarms 6 } dm3ConfigRectImbalanceAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Imbalance Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 7 } dm3ConfigRectCurrLimitAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Current Limit Alarm (indicating rectifier in the Current Limit state); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system." ::= { dm3ConfigRectAlarms 8 } dm3ConfigRectStandbyAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Standby Alarm (indicating output DC has been turned off); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system." ::= { dm3ConfigRectAlarms 9 } dm3ConfigRectFanFailAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Fan Fail Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system." ::= { dm3ConfigRectAlarms 10 } dm3ConfigRectFailAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Fail Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system." ::= { dm3ConfigRectAlarms 11 } dm3ConfigRectHwVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Rectifier Hardware Voltage Alarm (indicating voltage outside realistic limits, or a possible measurement fault); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigRectAlarms 12 } -- the dm3ConfigConvThresh group dm3ConfigConvHighVoltThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter high voltage threshold. If converter voltage exceeds threshold a converter high voltage alarm will occur. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 1 } dm3ConfigConvLowVoltThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter low voltage threshold. If converter voltage exceeds threshold a converter low voltage alarm will occur. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 2 } dm3ConfigConvFailSafe OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter Fail Safe point. This OID represents the value sent to converter controllers to use in the event of communications loss with the Master Controller or Master Controller board failure. Values are represented in thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 3 } dm3ConfigConvSetPoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter Set point. This OID represents the initial set point used in the voltage control loop. Units are thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 4 } dm3ConfigConvFailMax OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter Fail Maximum limit. This OID represents the value sent to the converter controllers to define the maximum set point allowed. Units are thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 5 } dm3ConfigConvFailMin OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter Fail Minimum limit. This OID represents the value sent to the converter controllers to define the minimum set point allowed. Units are thousandths of Volts (mV). Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 6 } dm3ConfigConvFailComm OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Converter Communication Fail timeout. This OID represents the time interval in which there is no communication between the converter and the master controller at which the converter will reset all its values to default. Values are represented in hundredths of Seconds. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigConvThresh 7 } -- the dm3ConfigConvAlarms group dm3ConfigConvHighVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter High Voltage Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigConvAlarms 1 } dm3ConfigConvLowVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Low Voltage Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigConvAlarms 2 } dm3ConfigConvConfigAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Configuration Alarm (indicating a new converter has been detected); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigConvAlarms 3 } dm3ConfigConv1ofNAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter 1ofN Alarm (indicating action if ONE converter of a N+1 system has failed); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigConvAlarms 4 } dm3ConfigConv2ofNAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter 2ofN Alarm (indicating action if TWO OR MORE converters of a N+1 system has failed); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigConvAlarms 5 } dm3ConfigConvDiagAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Diagnostics Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 6 } dm3ConfigConvImbalanceAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Imbalance Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 7 } dm3ConfigConvCurrLimitAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Current Limit Alarm (indicating the converter is in the Current Limit state); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 8 } dm3ConfigConvStandbyAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Standby Alarm (indicating the converter is in the Standby state); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 9 } dm3ConfigConvFanFailAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Fan Fail Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 10 } dm3ConfigConvFailAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Fail Alarm; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 11 } dm3ConfigConvHwVoltAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9), alarmNofN (10) } ACCESS read-write STATUS mandatory DESCRIPTION "For the Converter Voltage Alarm (indicating voltage outside realistic limits, or a possible measurement fault); Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system." ::= { dm3ConfigConvAlarms 12 } -- the dm3ConfigOutputRelays group dm3ConfigOutRlyTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant Output Relays controllable by this IP address." ::= { dm3ConfigOutputRelays 1 } dm3ConfigOutRlyTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3ConfigOutRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the Output Relays. The number of entries is contained in the dm3ConfigOutRlyTableSize OID." ::= { dm3ConfigOutputRelays 2 } dm3ConfigOutRlyEntry OBJECT-TYPE SYNTAX Dm3ConfigOutRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The output relay to configure." INDEX { dm3ConfigOutRlyIndex } ::= { dm3ConfigOutRlyTable 1 } Dm3ConfigOutRlyEntry ::= SEQUENCE { dm3ConfigOutRlyIndex INTEGER, dm3ConfigOutRlyName DisplayString, dm3ConfigOutRlyDelay INTEGER, dm3ConfigOutRlyAlarm INTEGER } dm3ConfigOutRlyIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant output relay." ::= { dm3ConfigOutRlyEntry 1 } dm3ConfigOutRlyName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the output relay. The maximum value is 16 characters." ::= { dm3ConfigOutRlyEntry 2 } dm3ConfigOutRlyDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Output Relay Delay. This OID represents the time delay from the initiation of an output relay action to when the output relay action does occur. If the alarm condition disappears before the end of the delay, no action will occur. Delay for Major and Minor alarms is not configurable and is always set to 0. Values are represented in hundredths of seconds. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigOutRlyEntry 3 } dm3ConfigOutRlyAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "Output Relay Alarm. This setting indicates what action to perform in the event of an output relay alarm condition; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition. Relay Alarm for Major and Minor alarms is not configurable and is always set to alarmMajor and alarmMinor respectively." ::= { dm3ConfigOutRlyEntry 4 } -- the dm3ConfigInputRelays group dm3ConfigInRlyTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant Input Relays controllable by this IP address." ::= { dm3ConfigInputRelays 1 } dm3ConfigInRlyTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3ConfigInRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the Input Relays. The number of entries is contained in the dm3ConfigInRlyTableSize OID." ::= { dm3ConfigInputRelays 2 } dm3ConfigInRlyEntry OBJECT-TYPE SYNTAX Dm3ConfigInRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input relay to configure." INDEX { dm3ConfigInRlyIndex } ::= { dm3ConfigInRlyTable 1 } Dm3ConfigInRlyEntry ::= SEQUENCE { dm3ConfigInRlyIndex INTEGER, dm3ConfigInRlyName DisplayString, dm3ConfigInRlyDelay INTEGER, dm3ConfigInRlyAlarm INTEGER } dm3ConfigInRlyIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant input relay." ::= { dm3ConfigInRlyEntry 1 } dm3ConfigInRlyName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the input relay. The maximum value is 16 characters." ::= { dm3ConfigInRlyEntry 2 } dm3ConfigInRlyDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Input Relay Delay. This OID represents the time delay from the initiation of an input relay action to when the input relay action does occur. If the alarm condition disappears before the end of the delay, no action will occur. Values are represented in hundredths of seconds. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively." ::= { dm3ConfigInRlyEntry 3 } dm3ConfigInRlyAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "Input Relay Alarm. This setting indicates what action to perform in the event of an input relay alarm condition; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigInRlyEntry 4 } -- the dm3ConfigBreakers group dm3ConfigBreakersTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant circuit breakers controllable by this IP address." ::= { dm3ConfigBreakers 1 } dm3ConfigBreakersTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3ConfigBreakersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the circuit breakers. The number of entries is contained in the dm3ConfigBreakersTableSize OID." ::= { dm3ConfigBreakers 2 } dm3ConfigBreakersEntry OBJECT-TYPE SYNTAX Dm3ConfigBreakersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The circuit breaker to configure." INDEX { dm3ConfigBreakersIndex } ::= { dm3ConfigBreakersTable 1 } Dm3ConfigBreakersEntry ::= SEQUENCE { dm3ConfigBreakersIndex INTEGER, dm3ConfigBreakersName DisplayString, dm3ConfigBreakersAlarm INTEGER } dm3ConfigBreakersIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant circuit breaker." ::= { dm3ConfigBreakersEntry 1 } dm3ConfigBreakersName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the circuit breaker. The maximum value is 16 characters." ::= { dm3ConfigBreakersEntry 2 } dm3ConfigBreakersAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "Circuit Breaker Alarm. This setting indicates what action to perform in the event of a circuit breaker alarm condition; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigBreakersEntry 3 } -- the dm3ConfigFuses group dm3ConfigFusesTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant Fuses controllable by this IP address." ::= { dm3ConfigFuses 1 } dm3ConfigFusesTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3ConfigFusesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the Fuses. The number of entries is contained in the dm3ConfigFusesTableSize OID." ::= { dm3ConfigFuses 2 } dm3ConfigFusesEntry OBJECT-TYPE SYNTAX Dm3ConfigFusesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The fuse to configure." INDEX { dm3ConfigFusesIndex } ::= { dm3ConfigFusesTable 1 } Dm3ConfigFusesEntry ::= SEQUENCE { dm3ConfigFusesIndex INTEGER, dm3ConfigFusesName DisplayString, dm3ConfigFusesAlarm INTEGER } dm3ConfigFusesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant fuse." ::= { dm3ConfigFusesEntry 1 } dm3ConfigFusesName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the fuse. The maximum value is 16 characters." ::= { dm3ConfigFusesEntry 2 } dm3ConfigFusesAlarm OBJECT-TYPE SYNTAX INTEGER { alarmIgnore (1), alarmRelay1 (2), alarmRelay2 (3), alarmRelay3 (4), alarmRelay4 (5), alarmRelay5 (6), alarmRelay6 (7), alarmMinor (8), alarmMajor (9) } ACCESS read-write STATUS mandatory DESCRIPTION "Fuses Alarm. This setting indicates what action to perform in the event of a Fuse alarm condition; Setting this OID to alarmIgnore (1) results in the alarm condition being ignored. Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an alarm condition. Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an alarm condition. Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an alarm condition. Setting this OID to alarmMajor (9) causes the Major relay to be activated for an alarm condition." ::= { dm3ConfigFusesEntry 3 } -- the dm3StatusSystem group dm3StatusSystemTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System temperature based on sensor on Master Controller PCB. Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dm3StatusSystem 1 } dm3StatusSystemStart OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Time stamp at DC powerplant initialization. The time is represented as MMM,DD,YYYY,HH:MM:SS." ::= { dm3StatusSystem 2 } dm3StatusSysRemoteAccess OBJECT-TYPE SYNTAX INTEGER { accessEnabled (1), accessDisabled (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Remote Access indicator This setting indicates if configuration (write) access to the powerplant is enabled or disabled at the powerplant level. This value will be accessEnabled (1) if remote configuration is enabled, and accessDisabled (2) if remote configuration is disabled." ::= { dm3StatusSystem 3 } dm3StatusSysSecurityLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This variable shows the current active security access level of controller. This can only be changed directly from the front panel." ::= { dm3StatusSystem 4 } dm3StatusSysTempSanity OBJECT-TYPE SYNTAX INTEGER{ saneYES (1), saneNO (2) } ACCESS read-only STATUS mandatory DESCRIPTION "System temperature sanity indicator. Indicates if the system temperature is reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1) indicates temperature is reasonable, a value of saneNo (2) indicates it is not." ::= { dm3StatusSystem 5 } dm3StatusSysAlarmState OBJECT-TYPE SYNTAX INTEGER{ alarmMinor (1), alarmMajor (2), alarmBoth (3), alarmNone (4) } ACCESS read-only STATUS mandatory DESCRIPTION "System Alarm State. Reflects the alarm status of the overall DC system. If a minor alarm is present, the value will be alarmMinor(1). If a major alarm is present, the value will be alarmMajor(2). If both minor and a major alarm is present, the value will be alarmBoth(3). If no alarm is present, the value will be alarmNone(4)." ::= { dm3StatusSystem 6 } dm3StatusSysTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature in the DC system, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { dm3StatusSystem 7 } -- the dm3StatusAlarms group dm3StatusAlarmsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant alarms viewable by this IP address." ::= { dm3StatusAlarms 1 } dm3StatusAlarmsTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusAlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing system alarms. The number of entries is contained in the dm3StatusAlarmsTableSize OID." ::= { dm3StatusAlarms 2 } dm3StatusAlarmsEntry OBJECT-TYPE SYNTAX Dm3StatusAlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The alarm to display." INDEX { dm3StatusAlarmsIndex } ::= { dm3StatusAlarmsTable 1 } Dm3StatusAlarmsEntry ::= SEQUENCE { dm3StatusAlarmsIndex INTEGER, dm3StatusAlarmsText DisplayString } dm3StatusAlarmsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the system alarm." ::= { dm3StatusAlarmsEntry 1 } dm3StatusAlarmsText OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The 16 character text describing the active alarm condition." ::= { dm3StatusAlarmsEntry 2 } -- the dm3StatusBattery group dm3StatusBattCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery Current: This OID shows the battery current in thousandths of Amps (mA)." ::= { dm3StatusBattery 1 } dm3StatusBattTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery Temperature: Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dm3StatusBattery 2 } dm3StatusBattCurrentSanity OBJECT-TYPE SYNTAX INTEGER{ saneYES (1), saneNO (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Battery current sanity indicator. Indicates if the battery current is reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1) indicates current is reasonable, a value of saneNo (2) indicates it is not." ::= { dm3StatusBattery 3 } dm3StatusBattTempSanity OBJECT-TYPE SYNTAX INTEGER{ saneYES (1), saneNO (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Battery temperature sanity indicator. Indicates if the battery temperature is reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1) indicates temperature is reasonable, a value of saneNo (2) indicates it is not." ::= { dm3StatusBattery 4 } -- the dm3StatusOEM group dm3StatusOEMrectOffset OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier offset value in thousandths of Volts (mV)." ::= { dm3StatusOEM 1 } dm3StatusOEMrectGain OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier gain value in thousandths of Volts (mV/V)." ::= { dm3StatusOEM 2 } dm3StatusOEMconvOffset OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter offset value in thousandths of Volts (mV)." ::= { dm3StatusOEM 3 } dm3StatusOEMconvGain OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter gain value in thousandths of Volts (mV/V)." ::= { dm3StatusOEM 4 } dm3StatusOEMshuntOffset OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the shunt offset value in thousandths of Amps (mA)." ::= { dm3StatusOEM 5 } dm3StatusOEMshuntGain OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the shunt gain value in thousandths of Amps (mA/A)." ::= { dm3StatusOEM 6 } -- the dm3StatusLVD group dm3StatusLVDTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant LVDs viewable by this IP address." ::= { dm3StatusLVD 1 } dm3StatusLVDTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the LVDs. The number of entries is contained in the dm3StatusLVDTableSize OID." ::= { dm3StatusLVD 2 } dm3StatusLVDEntry OBJECT-TYPE SYNTAX Dm3StatusLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The LVD to gather status from." INDEX { dm3StatusLVDIndex } ::= { dm3StatusLVDTable 1 } Dm3StatusLVDEntry ::= SEQUENCE { dm3StatusLVDIndex INTEGER, dm3StatusLVDName DisplayString, dm3StatusLVDState INTEGER, dm3StatusLVDHwFault INTEGER } dm3StatusLVDIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant LVD." ::= { dm3StatusLVDEntry 1 } dm3StatusLVDName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the LVD. The maximum size is 16 characters. The name is set by using the dm3ConfigLVDName OID. This OID is provided for informational purposes only." ::= { dm3StatusLVDEntry 2 } dm3StatusLVDState OBJECT-TYPE SYNTAX INTEGER { statusClosed (1), statusOpened (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusClosed (1) if the LVD is closed. statusOpened (2) will be returned if the LVD is opened." ::= { dm3StatusLVDEntry 3 } dm3StatusLVDHwFault OBJECT-TYPE SYNTAX INTEGER { statusFault (1), statusNofault (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusFault (1) if the LVD is faulted. statusNofault (2) will be returned if the LVD is not faulted." ::= { dm3StatusLVDEntry 4 } -- the dm3StatusRectifier group dm3StatusRectTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant rectifiers viewable by this IP address." ::= { dm3StatusRectifier 1 } dm3StatusRectTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusRectEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the rectifiers. The number of entries is contained in the dm3StatusRectTableSize OID." ::= { dm3StatusRectifier 2 } dm3StatusRectEntry OBJECT-TYPE SYNTAX Dm3StatusRectEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The rectifier to gather status from." INDEX { dm3StatusRectIndex } ::= { dm3StatusRectTable 1 } Dm3StatusRectEntry ::= SEQUENCE { dm3StatusRectIndex INTEGER, dm3StatusRectID INTEGER, dm3StatusRectDesc DisplayString, dm3StatusRectCurrent INTEGER, dm3StatusRectCurrentLimit INTEGER, dm3StatusRectStandby INTEGER, dm3StatusRectFanFail INTEGER, dm3StatusRectFail INTEGER, dm3StatusRectDevType INTEGER, dm3StatusRectPhyAddr INTEGER, dm3StatusRectCfg INTEGER, dm3StatusRectPcbRev INTEGER, dm3StatusRectFwVer INTEGER, dm3StatusRectPresent INTEGER, dm3StatusRectDiagPass INTEGER, dm3StatusRectState INTEGER } dm3StatusRectIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant rectifier." ::= { dm3StatusRectEntry 1 } dm3StatusRectID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier ID. This enumerates the number of the rectifier within a group of rectifiers." ::= { dm3StatusRectEntry 2 } dm3StatusRectDesc OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the 16-character rectifier description." ::= { dm3StatusRectEntry 3 } dm3StatusRectCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier current in thousandths of Amps (mA)." ::= { dm3StatusRectEntry 4 } dm3StatusRectCurrentLimit OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier is in the Current Limit state. statusFalse (2) will be returned if the rectifier is not in the Current Limit state." ::= { dm3StatusRectEntry 5 } dm3StatusRectStandby OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier is in the Standby state. statusFalse (2) will be returned if the rectifier is not in the Standby state." ::= { dm3StatusRectEntry 6 } dm3StatusRectFanFail OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier Fan has failed. statusFalse (2) will be returned if the rectifier Fan has not failed." ::= { dm3StatusRectEntry 7 } dm3StatusRectFail OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier has failed. statusFalse (2) will be returned if the rectifier has not failed." ::= { dm3StatusRectEntry 8 } dm3StatusRectDevType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier device type." ::= { dm3StatusRectEntry 9 } dm3StatusRectPhyAddr OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier physical address (the address on the bus)." ::= { dm3StatusRectEntry 10 } dm3StatusRectCfg OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier is present after power-up or set-configuration. statusFalse (2) will be returned if the rectifier is not configured." ::= { dm3StatusRectEntry 11 } dm3StatusRectPcbRev OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier device PCB serial number." ::= { dm3StatusRectEntry 12 } dm3StatusRectFwVer OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier device firmware revision." ::= { dm3StatusRectEntry 13 } dm3StatusRectPresent OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier is present. statusFalse (2) will be returned if the rectifier is not present." ::= { dm3StatusRectEntry 14 } dm3StatusRectDiagPass OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier diagnostics have passed. statusFalse (2) will be returned if the rectifier diagnostics have not passed." ::= { dm3StatusRectEntry 15 } dm3StatusRectState OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier device state as defined by the device status register." ::= { dm3StatusRectEntry 16 } dm3StatusSysRectVoltSanity OBJECT-TYPE SYNTAX INTEGER { saneYES (1), saneNO (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Rectifier voltage sanity indicator. Indicates if the rectifier voltage is reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1) indicates voltage is reasonable, a value of saneNo (2) indicates it is not." ::= { dm3StatusRectifier 3 } dm3StatusSysRectAvailable OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier is available. statusFalse (2) will be returned if the rectifier is not available." ::= { dm3StatusRectifier 4 } dm3StatusSysRectType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the type of rectifier the system has. There can only be a single type of rectifier in the power plant" ::= { dm3StatusRectifier 5 } dm3StatusSysRectVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the system level rectifier voltage in thousandths of Volts (mV)." ::= { dm3StatusRectifier 6 } dm3StatusSysRectCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the system level rectifier current in thousandths of Amps (mA)." ::= { dm3StatusRectifier 7 } -- the dm3StatusConverter group dm3StatusConvTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant converters viewable by this IP address." ::= { dm3StatusConverter 1 } dm3StatusConvTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusConvEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for viewing status of the converters. The number of entries is contained in the dm3StatusConvTableSize OID." ::= { dm3StatusConverter 2 } dm3StatusConvEntry OBJECT-TYPE SYNTAX Dm3StatusConvEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The converter to gather status from." INDEX { dm3StatusConvIndex } ::= { dm3StatusConvTable 1 } Dm3StatusConvEntry ::= SEQUENCE { dm3StatusConvIndex INTEGER, dm3StatusConvID INTEGER, dm3StatusConvDesc DisplayString, dm3StatusConvCurrent INTEGER, dm3StatusConvCurrentLimit INTEGER, dm3StatusConvStandby INTEGER, dm3StatusConvFanFail INTEGER, dm3StatusConvFail INTEGER, dm3StatusConvDevType INTEGER, dm3StatusConvPhyAddr INTEGER, dm3StatusConvCfg INTEGER, dm3StatusConvPcbRev INTEGER, dm3StatusConvFwVer INTEGER, dm3StatusConvPresent INTEGER, dm3StatusConvDiagPass INTEGER, dm3StatusConvState INTEGER } dm3StatusConvIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant converter." ::= { dm3StatusConvEntry 1 } dm3StatusConvID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter ID. This enumerates the number of the converter within a group of converters." ::= { dm3StatusConvEntry 2 } dm3StatusConvDesc OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the 16 character converter description." ::= { dm3StatusConvEntry 3 } dm3StatusConvCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter current in thousandths of Amps (mA)." ::= { dm3StatusConvEntry 4 } dm3StatusConvCurrentLimit OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter is in the Current Limit state. statusFalse (2) will be returned if the converter is not in the Current Limit state." ::= { dm3StatusConvEntry 5 } dm3StatusConvStandby OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter is in the Standby state. statusFalse (2) will be returned if the converter is not in the Standby state." ::= { dm3StatusConvEntry 6 } dm3StatusConvFanFail OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter Fan has failed. statusFalse (2) will be returned if the converter Fan has not failed." ::= { dm3StatusConvEntry 7 } dm3StatusConvFail OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter has failed. statusFalse (2) will be returned if the converter has not failed." ::= { dm3StatusConvEntry 8 } dm3StatusConvDevType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter device type." ::= { dm3StatusConvEntry 9 } dm3StatusConvPhyAddr OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter physical address (the address on the bus)." ::= { dm3StatusConvEntry 10 } dm3StatusConvCfg OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter is present after power-up or set-configuration. statusFalse (2) will be returned if the converter is not configured." ::= { dm3StatusConvEntry 11 } dm3StatusConvPcbRev OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter device PCB serial number." ::= { dm3StatusConvEntry 12 } dm3StatusConvFwVer OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter device firmware version." ::= { dm3StatusConvEntry 13 } dm3StatusConvPresent OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter is present. statusFalse (2) will be returned if the converter is not present." ::= { dm3StatusConvEntry 14 } dm3StatusConvDiagPass OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter diagnostics have passed. statusFalse (2) will be returned if the converter diagnostics have not passed." ::= { dm3StatusConvEntry 15 } dm3StatusConvState OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter state as defined by the device status register." ::= { dm3StatusConvEntry 16 } dm3StatusSysConvVoltSanity OBJECT-TYPE SYNTAX INTEGER{ saneYES (1), saneNO (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Converter voltage sanity indicator. Indicates if the converter voltage is reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1) indicates voltage is reasonable, a value of saneNo (2) indicates it is not." ::= { dm3StatusConverter 3 } dm3StatusSysConvAvailable OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the converter is available. statusFalse (2) will be returned if the converter is not available." ::= { dm3StatusConverter 4 } dm3StatusSysConvType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the converter type." ::= { dm3StatusConverter 5 } dm3StatusSysConvVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the system level converter voltage in thousandths of volts (mV)." ::= { dm3StatusConverter 6 } dm3StatusSysConvCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the system level converter current in thousandths of Amps (mA)." ::= { dm3StatusConverter 7 } -- the dm3StatusOutputRelays group dm3StatusOutRlyTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant output relays viewable by this IP address." ::= { dm3StatusOutputRelays 1 } dm3StatusOutRlyTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusOutRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for viewing status of the output relays. The number of entries is contained in the dm3StatusOutRlyTableSize OID." ::= { dm3StatusOutputRelays 2 } dm3StatusOutRlyEntry OBJECT-TYPE SYNTAX Dm3StatusOutRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The output relay to gather status from." INDEX { dm3StatusOutRlyIndex } ::= { dm3StatusOutRlyTable 1 } Dm3StatusOutRlyEntry ::= SEQUENCE { dm3StatusOutRlyIndex INTEGER, dm3StatusOutRlyName DisplayString, dm3StatusOutRlyStatus INTEGER } dm3StatusOutRlyIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant output relay." ::= { dm3StatusOutRlyEntry 1 } dm3StatusOutRlyName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the output relay. The maximum size is 16 characters. The name is set by using the dm3ConfigOutRlyName OID. This OID is provided for informational purposes only." ::= { dm3StatusOutRlyEntry 2 } dm3StatusOutRlyStatus OBJECT-TYPE SYNTAX INTEGER { statusOn (1), statusOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusOn (1) if the output relay is enabled/on. statusOff (2) will be returned if the output relay is disabled/off." ::= { dm3StatusOutRlyEntry 3 } -- the dm3StatusInputRelays group dm3StatusInRlyTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant input relays viewable by this IP address." ::= { dm3StatusInputRelays 1 } dm3StatusInRlyTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusInRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for viewing status of the input relays. The number of entries is contained in the dm3StatusInRlyTableSize OID." ::= { dm3StatusInputRelays 2 } dm3StatusInRlyEntry OBJECT-TYPE SYNTAX Dm3StatusInRlyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input relays to gather status from." INDEX { dm3StatusInRlyIndex } ::= { dm3StatusInRlyTable 1 } Dm3StatusInRlyEntry ::= SEQUENCE { dm3StatusInRlyIndex INTEGER, dm3StatusInRlyName DisplayString, dm3StatusInRlyStatus INTEGER } dm3StatusInRlyIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant input relay." ::= { dm3StatusInRlyEntry 1 } dm3StatusInRlyName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the input relay. The maximum size is 16 characters. The name is set by using the dm3ConfigInRlyName OID. This OID is provided for informational purposes only." ::= { dm3StatusInRlyEntry 2 } dm3StatusInRlyStatus OBJECT-TYPE SYNTAX INTEGER { statusOn (1), statusOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusOn (1) if the input relay is enabled/on. statusOff (2) will be returned if the input relay is disabled/off." ::= { dm3StatusInRlyEntry 3 } -- the dm3StatusBreakers group dm3StatusBreakersTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant circuit breakers viewable by this IP address." ::= { dm3StatusBreakers 1 } dm3StatusBreakersTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusBreakersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for viewing status of the circuit breakers. The number of entries is contained in the dm3StatusBreakersTableSize OID." ::= { dm3StatusBreakers 2 } dm3StatusBreakersEntry OBJECT-TYPE SYNTAX Dm3StatusBreakersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The circuit breaker to gather status from." INDEX { dm3StatusBreakersIndex } ::= { dm3StatusBreakersTable 1 } Dm3StatusBreakersEntry ::= SEQUENCE { dm3StatusBreakersIndex INTEGER, dm3StatusBreakersName DisplayString, dm3StatusBreakersStatus INTEGER } dm3StatusBreakersIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant circuit breaker." ::= { dm3StatusBreakersEntry 1 } dm3StatusBreakersName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the circuit breaker. The maximum size is 16 characters. The name is set by using the dm3ConfigBreakersName OID. This OID is provided for informational purposes only." ::= { dm3StatusBreakersEntry 2 } dm3StatusBreakersStatus OBJECT-TYPE SYNTAX INTEGER { statusClosed (1), statusOpen (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusClosed (1) if the circuit breaker is closed. statusOpen (2) will be returned if the circuit breaker is open." ::= { dm3StatusBreakersEntry 3 } -- the dm3StatusFuses group dm3StatusFusesTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant fuses controllable by this IP address." ::= { dm3StatusFuses 1 } dm3StatusFusesTable OBJECT-TYPE SYNTAX SEQUENCE OF Dm3StatusFusesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for viewing status of the fuses. The number of entries is contained in the dm3StatusFusesTableSize OID." ::= { dm3StatusFuses 2 } dm3StatusFusesEntry OBJECT-TYPE SYNTAX Dm3StatusFusesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The fuse to gather status from." INDEX { dm3StatusFusesIndex } ::= { dm3StatusFusesTable 1 } Dm3StatusFusesEntry ::= SEQUENCE { dm3StatusFusesIndex INTEGER, dm3StatusFusesName DisplayString, dm3StatusFusesStatus INTEGER } dm3StatusFusesIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant fuse." ::= { dm3StatusFusesEntry 1 } dm3StatusFusesName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the fuse. The maximum size is 16 characters. The name is set by using the dm3ConfigFuseName OID. This OID is provided for informational purposes only." ::= { dm3StatusFusesEntry 2 } dm3StatusFusesStatus OBJECT-TYPE SYNTAX INTEGER { statusClosed (1), statusOpen (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusClosed (1) if the fuse is closed. statusOpen (2) will be returned if the fuse is open." ::= { dm3StatusFusesEntry 3 } -- the atsIdent group atsIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Automatic Transfer Switch. This value is set at the factory." ::= { atsIdent 1 } atsIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A string identifying the Automatic Transfer Switch firmware revision." ::= { atsIdent 2 } atsIdentFirmwareDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of release for this Automatic Transfer Switch firmware revision. " ::= { atsIdent 3 } atsIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the Automatic Transfer Switch was manufactured in mm/dd/yyyy format. This value is set at the factory. " ::= { atsIdent 4 } atsIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A string identifying the model number of the Automatic Transfer Switch. This value is set at the factory." ::= { atsIdent 5 } atsIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A string identifying the serial number of the Automatic Transfer Switch. This value is set at the factory." ::= { atsIdent 6 } atsIdentNominalLineVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "RMS Utility Voltage measured in Volts." ::= { atsIdent 7 } atsIdentNominalLineFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Utility Power Frequency measured in Hertz." ::= { atsIdent 8 } atsIdentDeviceRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This gives the device rating in Amps" ::= { atsIdent 9 } -- the atsCalibration group -- Input Voltage Calibration Factor table atsCalibrationNumInputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of inputs to this device." ::= { atsCalibrationInput 1 } atsCalibrationNumInputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of phases per input for this device." ::= { atsCalibrationInput 2 } atsCalibrationInputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF ATSCalibrationInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The number of phases per input line to this device." ::= { atsCalibrationInput 3 } atsCalibrationInputPhaseEntry OBJECT-TYPE SYNTAX ATSCalibrationInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing calibration information applicable to a particular input phase." INDEX { atsCalibrationInputTableIndex, atsCalibrationInputPhaseTableIndex } ::= { atsCalibrationInputPhaseTable 1 } ATSCalibrationInputPhaseEntry ::= SEQUENCE { atsCalibrationInputTableIndex INTEGER, atsCalibrationInputPhaseTableIndex INTEGER, atsLineVoltageCalibrationFactor INTEGER } atsCalibrationInputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { atsCalibrationInputPhaseEntry 1 } atsCalibrationInputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input phase identifier." ::= { atsCalibrationInputPhaseEntry 2 } atsLineVoltageCalibrationFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Line Voltage Calibration factor. This value is set at the factory." ::= { atsCalibrationInputPhaseEntry 3 } -- Power Supply Voltage Calibration table atsCalibrationPowerSupplyVoltages OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of power supply voltages supported by this device. This variable indicates the number of rows in the atsCalibrationPowerSupplyTable." ::= { atsCalibrationPowerSupply 1 } atsCalibrationPowerSupplyVoltageTable OBJECT-TYPE SYNTAX SEQUENCE OF ATSCalibrationPowerSupplyVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of Power Supply table entries." ::= { atsCalibrationPowerSupply 2 } atsCalibrationPowerSupplyVoltageEntry OBJECT-TYPE SYNTAX ATSCalibrationPowerSupplyVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular Power Supply Voltage." INDEX { atsCalibrationPowerSupplyVoltageTableIndex } ::= { atsCalibrationPowerSupplyVoltageTable 1 } ATSCalibrationPowerSupplyVoltageEntry ::= SEQUENCE { atsCalibrationPowerSupplyVoltageTableIndex INTEGER, atsCalibrationPowerSupplyVoltage INTEGER, atsPowerSupplyVoltageCalibrationFactor INTEGER } atsCalibrationPowerSupplyVoltageTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power supply voltage identifier." ::= { atsCalibrationPowerSupplyVoltageEntry 1 } atsCalibrationPowerSupplyVoltage OBJECT-TYPE SYNTAX INTEGER { powerSupply24V(1), powerSupply12V(2), powerSupply(3), powerSupply24VSourceB(4), powerSupplyMinus12V(5) } ACCESS read-only STATUS mandatory DESCRIPTION "This value describes the power supply voltage of 24V Source A, 24V Source B, +12V, -12V and 5V." ::= { atsCalibrationPowerSupplyVoltageEntry 2 } atsPowerSupplyVoltageCalibrationFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Line Voltage Calibration factor. This value is set at the factory." ::= { atsCalibrationPowerSupplyVoltageEntry 3 } -- Output Current Calibration table atsCalibrationNumOutputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output lines from this device. This variable indicates the number of rows in the atsCalibrationOutputTable." ::= { atsCalibrationOutput 1 } atsCalibrationNumOutputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output phases utilized in this device." ::= { atsCalibrationOutput 2 } atsCalibrationOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF ATSCalibrationOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries." ::= { atsCalibrationOutput 3 } atsCalibrationOutputEntry OBJECT-TYPE SYNTAX ATSCalibrationOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { atsCalibrationOutputTableIndex, atsCalibrationOutputPhasesTableIndex } ::= { atsCalibrationOutputTable 1 } ATSCalibrationOutputEntry ::= SEQUENCE { atsCalibrationOutputTableIndex INTEGER, atsCalibrationOutputPhasesTableIndex INTEGER, atsOutputCurrentCalibrationFactor INTEGER } atsCalibrationOutputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { atsCalibrationOutputEntry 1 } atsCalibrationOutputPhasesTableIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3), neutral(4) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each calibration factor for each output phase utilized in this device and one for neutral. " ::= { atsCalibrationOutputEntry 2 } atsOutputCurrentCalibrationFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current calibration factor measured in Amps." ::= { atsCalibrationOutputEntry 3 } -- the atsControl group atsControlResetATS OBJECT-TYPE SYNTAX INTEGER { none(1), reset(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable will cause the Automatic Transfer Switch to perform a power-on reset." ::= { atsControl 1 } atsControlClearAllAlarms OBJECT-TYPE SYNTAX INTEGER { none(1), clear(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable will clear all alarms in the Automatic Transfer Switch. Returns (-1) if unsupported." ::= { atsControl 2 } -- the atsConfig group atsConfigProductName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A configurable character string." ::= { atsConfig 1 } atsConfigPreferredSource OBJECT-TYPE SYNTAX INTEGER { sourceA(1), sourceB(2), none(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This variable returns the preferred source of power when both sources are OK." ::= { atsConfig 2 } atsConfigFrontPanelLockout OBJECT-TYPE SYNTAX INTEGER { disableFrontPanel(1), enableFrontPanel(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to disableFrontPanel(1), prevents source preference configuration of the Automatic Transfer Switch via the Front Panel. Setting this variable to enableFrontPanel(2)allows, source preference configuration of the Automatic Transfer Switch via the Front Panel." ::= { atsConfig 3 } atsConfigVoltageSensitivity OBJECT-TYPE SYNTAX INTEGER { high(1), low(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This variable defines the sensitivity to changes in voltage: high(1) for best protection, low(2) for frequent small line voltage changes." ::= { atsConfig 4 } atsConfigTransferVoltageRange OBJECT-TYPE SYNTAX INTEGER { wide(1), medium(2), narrow(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This variable defines the range of acceptable voltage from a power source. If the voltage measured from the selected input source is not within this range, the Automatic Transfer Switch will switch over (transfer) to the alternate power source." ::= { atsConfig 5 } atsConfigCurrentLimit OBJECT-TYPE SYNTAX INTEGER (0..20) ACCESS read-write STATUS mandatory DESCRIPTION "The threshold (in Amps) at which an Over Current Alarm will be generated. This OID returns the overload threshold value of the OID atsConfigPhaseOverLoadThreshold for the 1U ATS and OID atsConfigBankOverLoadThreshold of total for the 2U ATS. Setting this OID does not have any impact on the device." ::= { atsConfig 6 } atsConfigResetValues OBJECT-TYPE SYNTAX INTEGER { none(1), reset(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Resets the ATS configuration to its default values. Returns (-1) if not supported." ::= { atsConfig 7 } atsConfigLineVRMS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "To configure the input RMS voltage." ::= { atsConfig 8 } atsConfigLineVRMSNarrowLimit OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "To configure the Line VRMS Narrow Limit." ::= { atsConfig 9 } atsConfigLineVRMSMediumLimit OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "To configure the Line VRMS Medium Limit." ::= { atsConfig 10 } atsConfigLineVRMSWideLimit OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "To configure the Line VRMS Wide Limit." ::= { atsConfig 11 } atsConfigFrequencyDeviation OBJECT-TYPE SYNTAX INTEGER { one(1), two(2), three(3) } ACCESS read-write STATUS mandatory DESCRIPTION "To configure the frequency deviation." ::= { atsConfig 12 } -- Bank table atsConfigBankTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the bank table." ::= { atsConfig 13 } atsConfigBankTable OBJECT-TYPE SYNTAX SEQUENCE OF ATSConfigBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of each ATS bank." ::= { atsConfig 14 } atsConfigBankEntry OBJECT-TYPE SYNTAX ATSConfigBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to bank current threshold" INDEX { atsConfigBankTableIndex } ::= { atsConfigBankTable 1 } ATSConfigBankEntry ::= SEQUENCE { atsConfigBankTableIndex INTEGER, atsConfigBank INTEGER, atsConfigBankLowLoadThreshold INTEGER, atsConfigBankNearOverLoadThreshold INTEGER, atsConfigBankOverLoadThreshold INTEGER } atsConfigBankTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index to the bank table entry." ::= { atsConfigBankEntry 1 } atsConfigBank OBJECT-TYPE SYNTAX INTEGER { total (1), bank1 (2), bank2 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The bank number of an ATS" ::= { atsConfigBankEntry 2 } atsConfigBankLowLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the current drawn is nearing a low consumption condition. It is represented in Amps. A warning will be issued when the load is less than the threshold value. A threshold value of 0 Amps disables this warning. Maximum value must be less than the value returned by the atsConfigBankNearOverLoadThreshold OID." ::= { atsConfigBankEntry 3 } atsConfigBankNearOverLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the current drawn is nearing an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than the value returned by the atsConfigBankLowLoadThreshold OID. Maximum value must be less than or equal to the value returned by the atsConfigBankOverLoadThreshold OID." ::= { atsConfigBankEntry 4 } atsConfigBankOverLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the current drawn has entered an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than or equal to the value returned by the atsConfigBankNearOverLoadThreshold OID. Maximum value must be less than or equal to the value returned by atsIdentDeviceRating OID." ::= { atsConfigBankEntry 5 } -- Phase table atsConfigPhaseTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the phase table." ::= { atsConfig 15 } atsConfigPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF ATSConfigPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of each ATS phase." ::= { atsConfig 16 } atsConfigPhaseEntry OBJECT-TYPE SYNTAX ATSConfigPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to phase threshold" INDEX { atsConfigPhaseTableIndex } ::= { atsConfigPhaseTable 1 } ATSConfigPhaseEntry ::= SEQUENCE { atsConfigPhaseTableIndex INTEGER, atsConfigPhase INTEGER, atsConfigPhaseLowLoadThreshold INTEGER, atsConfigPhaseNearOverLoadThreshold INTEGER, atsConfigPhaseOverLoadThreshold INTEGER } atsConfigPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the phase table entry." ::= { atsConfigPhaseEntry 1 } atsConfigPhase OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase number of an ATS" ::= { atsConfigPhaseEntry 2 } atsConfigPhaseLowLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the current drawn is nearing a low consumption condition. It is represented in Amps. A warning will be issued when the load is less than the threshold value. A threshold value of 0 Amps disables this warning. Maximum value must be less than the value returned by the atsConfigPhaseNearOverLoadThreshold OID." ::= { atsConfigPhaseEntry 3 } atsConfigPhaseNearOverLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the current drawn is nearing an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than the value returned by the atsConfigPhaseLowLoadThreshold OID. Maximum value must be less than or equal to the value returned by the atsConfigPhaseOverLoadThreshold OID." ::= { atsConfigPhaseEntry 4 } atsConfigPhaseOverLoadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the current drawn has entered an overload condition. It is represented in Amps. A warning will be issued when the load is greater than or equal to the threshold value. Minimum value must be greater than or equal to the value returned by the atsConfigPhaseNearOverLoadThreshold OID. Maximum value must be less than or equal to the value returned by atsIdentDeviceRating OID." ::= { atsConfigPhaseEntry 5 } -- the atsStatus group atsStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { atsNeverDiscovered(1), atsCommEstablished(2), atsCommLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the current communication status of the Automatic Transfer Switch. " ::= { atsStatusDeviceStatus 1 } atsStatusSelectedSource OBJECT-TYPE SYNTAX INTEGER { sourceA(1), sourceB(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the current source of power. " ::= { atsStatusDeviceStatus 2 } atsStatusRedundancyState OBJECT-TYPE SYNTAX INTEGER { atsRedundancyLost(1), atsFullyRedundant(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the current redundancy state of the ATS. atsRedundancyLost(1) indicates that the ATS is unable to switch over to the alternate power source if the current source fails. atsFullyRedundant(2) indicates that the ATS will switch over to the alternate power source if the current source fails." ::= { atsStatusDeviceStatus 3 } atsStatusOverCurrentState OBJECT-TYPE SYNTAX INTEGER { atsOverCurrent(1), atsCurrentOK(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the output current state of the ATS. atsOverCurrent(1) indicates that the ATS has exceeded the output current threshold and will not allow a switch over to the alternate power source if the current source fails. atsCurrentOK(2) indicates that the output current is below the output current threshold. This OID returns the value of the OID atsOutputPhaseState for the 1U ATS and OID atsOutputBankState for the 2U ATS." ::= { atsStatusDeviceStatus 4 } atsStatus5VPowerSupply OBJECT-TYPE SYNTAX INTEGER { atsPowerSupplyFailure(1), atsPowerSupplyOK(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the present state of the ATS 5V power supply. atsPowerSupplyFailure(1) indicates the 5V power supply has failed and that the ATS serial port Configuration Menu is not accessible . atsPowerSupplyOK(2) indicates that the ATS 5V power supply is operating within tolerance." ::= { atsStatusDeviceStatus 5 } atsStatus24VPowerSupply OBJECT-TYPE SYNTAX INTEGER { atsPowerSupplyFailure(1), atsPowerSupplyOK(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the present state of the ATS 24V power supply for Source A. atsPowerSupplyFailure(1) indicates the 24V power supply has failed and the ATS is unable to switch over to the alternate power source if the current source fails. atsPowerSupplyOK(2) indicates that the ATS 24V power supply is operating within tolerance." ::= { atsStatusDeviceStatus 6 } atsStatus24VSourceBPowerSupply OBJECT-TYPE SYNTAX INTEGER { atsPowerSupplyFailure(1), atsPowerSupplyOK(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the present state of the ATS 24V power supply for Source B. atsPowerSupplyFailure(1) indicates the 24V power supply has failed and the ATS is unable to switch over to the alternate power source if the current source fails. atsPowerSupplyOK(2) indicates that the ATS 24V power supply is operating within tolerance." ::= { atsStatusDeviceStatus 7 } atsStatusPlus12VPowerSupply OBJECT-TYPE SYNTAX INTEGER { atsPowerSupplyFailure(1), atsPowerSupplyOK(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the present state of the ATS 12V power supply. atsPowerSupplyFailure(1) indicates the 12V power supply has failed and the ATS is unable to monitor the current sensors. atsPowerSupplyOK(2) indicates that the ATS 12V power supply is operating within tolerance." ::= { atsStatusDeviceStatus 8 } atsStatusMinus12VPowerSupply OBJECT-TYPE SYNTAX INTEGER { atsPowerSupplyFailure(1), atsPowerSupplyOK(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the present state of the ATS -12V power supply. atsPowerSupplyFailure(1) indicates the -12V power supply has failed and the ATS is unable to monitor the current sensors. atsPowerSupplyOK(2) indicates that the ATS -12V power supply is operating within tolerance." ::= { atsStatusDeviceStatus 9 } atsStatusSwitchStatus OBJECT-TYPE SYNTAX INTEGER { fail(1), ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the status of the ATS." ::= { atsStatusDeviceStatus 10 } atsStatusFrontPanel OBJECT-TYPE SYNTAX INTEGER { locked(1), unlocked(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the present state of the ATS front panel. locked(1): Front panel button cannot be used to change the sources. unlocked(2): Front panel button can be used to change the sources. " ::= { atsStatusDeviceStatus 11 } atsStatusSourceAStatus OBJECT-TYPE SYNTAX INTEGER { fail(1), ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the status of the Source A." ::= { atsStatusDeviceStatus 12 } atsStatusSourceBStatus OBJECT-TYPE SYNTAX INTEGER { fail(1), ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the status of the Source B." ::= { atsStatusDeviceStatus 13 } atsStatusPhaseSyncStatus OBJECT-TYPE SYNTAX INTEGER { inSync(1), outOfSync(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the status of the phase synch." ::= { atsStatusDeviceStatus 14 } atsStatusVoltageOutStatus OBJECT-TYPE SYNTAX INTEGER { fail(1), ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the output voltage status." ::= { atsStatusDeviceStatus 15 } atsStatusHardwareStatus OBJECT-TYPE SYNTAX INTEGER { fail(1), ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable returns the status of display board hardware." ::= { atsStatusDeviceStatus 16 } atsStatusResetMaxMinValues OBJECT-TYPE SYNTAX INTEGER { none(1), reset(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Resets the maximum and minimum ATS values: atsInputMaxVoltage, atsInputMinVoltage, atsInputMaxCurrent, atsInputMinCurrent, atsInputMaxPower, atsInputMinPower, atsOutputMaxCurrent, atsOutputMinCurrent, atsOutputMaxLoad, atsOutputMinLoad, atsOutputMaxPercentLoad, atsOutputMinPercentLoad, atsOutputMaxPower, atsOutputMinPower, atsOutputMaxPercentPower, atsOutputMinPercentPower. These variables represent the maximum and minimum ATS values since the last time they were read or reset by this OID. Values unsupported by this ATS will return (-1)." ::= { atsStatusResetValues 1 } -- -- Input Group -- -- Number of Inputs atsNumInputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input feeds to this device. This variable indicates the number of rows in the input table." ::= { atsStatusInput 1 } -- Input Table atsInputTable OBJECT-TYPE SYNTAX SEQUENCE OF AtsInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the value of atsNumInputs." ::= { atsStatusInput 2 } atsInputEntry OBJECT-TYPE SYNTAX AtsInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input." INDEX { atsInputTableIndex } ::= { atsInputTable 1 } AtsInputEntry ::= SEQUENCE { atsInputTableIndex INTEGER, atsNumInputPhases INTEGER, atsInputVoltageOrientation INTEGER, atsInputFrequency INTEGER, atsInputType INTEGER, atsInputName DisplayString } atsInputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { atsInputEntry 1 } atsNumInputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input phases utilized in this device. The sum of all the atsNumInputPhases variable indicates the number of rows in the input phase table." ::= { atsInputEntry 2 } atsInputVoltageOrientation OBJECT-TYPE SYNTAX INTEGER { unknown(1), singlePhase(2), splitPhase(3), threePhasePhaseToNeutral(4), threePhasePhaseToPhase(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage orientation: 1: unknown for this Source 2: singlePhase - phase 1 voltage is between Phase 1 and Neutral. 3: splitPhase - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 1 and Phase 2. 4: threePhasePhaseToNeutral - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 3 and Neutral. 5: threePhasePhaseToPhase - phase 1 voltage is between Phase 1 and Phase 2; phase 2 voltage is between Phase 2 and Phase 3; phase 3 voltage is between Phase 3 and Phase 1." ::= { atsInputEntry 3 } atsInputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input frequency in Hertz, or -1 if it's unsupported by this Source." ::= { atsInputEntry 4 } atsInputType OBJECT-TYPE SYNTAX INTEGER { unknown(1), main(2), bypass(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The input type." ::= { atsInputEntry 5 } atsInputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A name given to a particular input." ::= { atsInputEntry 6 } -- Input Phase Table atsInputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF AtsInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the sum of the atsNumInputPhases." ::= { atsStatusInput 3 } atsInputPhaseEntry OBJECT-TYPE SYNTAX AtsInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input phase." INDEX { atsInputPhaseTableIndex, atsInputPhaseIndex } ::= { atsInputPhaseTable 1 } AtsInputPhaseEntry ::= SEQUENCE { atsInputPhaseTableIndex INTEGER, atsInputPhaseIndex INTEGER, atsInputVoltage INTEGER, atsInputMaxVoltage INTEGER, atsInputMinVoltage INTEGER, atsInputCurrent INTEGER, atsInputMaxCurrent INTEGER, atsInputMinCurrent INTEGER, atsInputPower INTEGER, atsInputMaxPower INTEGER, atsInputMinPower INTEGER } atsInputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { atsInputPhaseEntry 1 } atsInputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input phase identifier." ::= { atsInputPhaseEntry 2 } atsInputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage in VAC, or -1 if it's unsupported by this Source." ::= { atsInputPhaseEntry 3 } atsInputMaxVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input voltage in VAC measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsInputPhaseEntry 4 } atsInputMinVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input voltage in VAC measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsInputPhaseEntry 5 } atsInputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input current in amperes, or -1 if it's unsupported by this Source." ::= { atsInputPhaseEntry 6 } atsInputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input current in amperes measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsInputPhaseEntry 7 } atsInputMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input current in amperes measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsInputPhaseEntry 8 } atsInputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input power in Watts, or -1 if it's unsupported by this Source." ::= { atsInputPhaseEntry 9 } atsInputMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input power in Watts measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsInputPhaseEntry 10 } atsInputMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input power in Watts measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsInputPhaseEntry 11 } -- -- The Output group. -- -- Number of Outputs atsNumOutputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output feeds to this device. This variable indicates the number of rows in the output table." ::= { atsStatusOutput 1 } -- Output Table atsOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF AtsOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the value of atsOutputNumPhases." ::= { atsStatusOutput 2 } atsOutputEntry OBJECT-TYPE SYNTAX AtsOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { atsOutputTableIndex } ::= { atsOutputTable 1 } AtsOutputEntry ::= SEQUENCE { atsOutputTableIndex INTEGER, atsNumOutputPhases INTEGER, atsOutputVoltageOrientation INTEGER, atsOutputFrequency INTEGER } atsOutputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { atsOutputEntry 1 } atsNumOutputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output phases utilized in this device. The sum of all the atsNumOutputPhases variable indicates the number of rows in the output phase table." ::= { atsOutputEntry 2 } atsOutputVoltageOrientation OBJECT-TYPE SYNTAX INTEGER { unknown(1), singlePhase(2), splitPhase(3), threePhasePhaseToNeutral(4), threePhasePhaseToPhase(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage orientation: 1: unknown for this ATS 2: singlePhase - phase 1 voltage is between Phase 1 and Neutral. 3: splitPhase - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 1 and Phase 2. 4: threePhasePhaseToNeutral - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 3 and Neutral. 5: threePhasePhaseToPhase - phase 1 voltage is between Phase 1 and Phase 2; phase 2 voltage is between Phase 2 and Phase 3; phase 3 voltage is between Phase 3 and Phase 1." ::= { atsOutputEntry 3 } atsOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output frequency in Hertz, or -1 if it's unsupported by this ATS." ::= { atsOutputEntry 4 } -- Output Phase Table atsOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF AtsOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the sum of the atsNumOutputPhases." ::= { atsStatusOutput 3 } atsOutputPhaseEntry OBJECT-TYPE SYNTAX AtsOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output phase." INDEX { atsOutputPhaseTableIndex, atsOutputPhaseIndex } ::= { atsOutputPhaseTable 1 } AtsOutputPhaseEntry ::= SEQUENCE { atsOutputPhaseTableIndex INTEGER, atsOutputPhaseIndex INTEGER, atsOutputVoltage INTEGER, atsOutputCurrent INTEGER, atsOutputMaxCurrent INTEGER, atsOutputMinCurrent INTEGER, atsOutputLoad INTEGER, atsOutputMaxLoad INTEGER, atsOutputMinLoad INTEGER, atsOutputPercentLoad INTEGER, atsOutputMaxPercentLoad INTEGER, atsOutputMinPercentLoad INTEGER, atsOutputPower INTEGER, atsOutputMaxPower INTEGER, atsOutputMinPower INTEGER, atsOutputPercentPower INTEGER, atsOutputMaxPercentPower INTEGER, atsOutputMinPercentPower INTEGER, atsOutputPhaseState INTEGER } atsOutputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { atsOutputPhaseEntry 1 } atsOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3), neutral(4) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each output phase utilized in this device and one for neutral. " ::= { atsOutputPhaseEntry 2 } atsOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage in VAC, or -1 if it's unsupported by this ATS." ::= { atsOutputPhaseEntry 3 } atsOutputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current in 0.1 amperes drawn by the load on the ATS, or -1 if it's unsupported by this ATS." ::= { atsOutputPhaseEntry 4 } atsOutputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output current in 0.1 amperes measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 5 } atsOutputMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output current in 0.1 amperes measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 6 } atsOutputLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output load in VA, or -1 if it's unsupported by this ATS." ::= { atsOutputPhaseEntry 7 } atsOutputMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output load in VA measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 8 } atsOutputMinLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output load in VA measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 9 } atsOutputPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the ATS load capacity in VA at redundancy @ (n + x) presently being used on this output phase, or -1 if it's unsupported by this ATS." ::= { atsOutputPhaseEntry 10 } atsOutputMaxPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the ATS load capacity in VA measured at redundancy @ (n + x) presently being used on this output phase since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 11 } atsOutputMinPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum percentage of the ATS load capacity in VA measured at redundancy @ (n + x) presently being used on this output phase since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 12 } atsOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output power in Watts, or -1 if it's unsupported by this ATS." ::= { atsOutputPhaseEntry 13 } atsOutputMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output power in Watts measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 14 } atsOutputMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output power in Watts measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 15 } atsOutputPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the ATSpower capacity in Watts at redundancy @ (n + x) presently being used on this output phase, or -1 if it's unsupported by this ATS." ::= { atsOutputPhaseEntry 16 } atsOutputMaxPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the ATSpower capacity in Watts measured at redundancy @ (n + x) presently being used on this output phase since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 17 } atsOutputMinPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum percentage of the ATSpower capacity in Watts measured at redundancy @ (n + x) presently being used on this output phase since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputPhaseEntry 18 } atsOutputPhaseState OBJECT-TYPE SYNTAX INTEGER { normal (1), lowload (2), nearoverload (3), overload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the phase load state. normal(1) indicates that the bank is operating properly within the atsConfigPhaseLowLoadThreshold and atsConfigPhaseNearOverLoadThreshold OID values. lowload(2) indicates that the bank load has dropped below the atsConfigPhaseLowLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. nearoverload(3) indicates that the bank load is greater than or equal to the atsConfigPhaseNearOverLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. overload(4) indicates that the bank load is greater than or equal to the atsConfigPhaseOverLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared." ::= { atsOutputPhaseEntry 19 } atsOutputBankTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size of the bank table." ::= { atsStatusOutput 4 } atsOutputBankTable OBJECT-TYPE SYNTAX SEQUENCE OF ATSOutputBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting table entries." ::= { atsStatusOutput 5 } atsOutputBankEntry OBJECT-TYPE SYNTAX ATSOutputBankEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This gives access to bank table entries" INDEX { atsOutputBankTableIndex } ::= { atsOutputBankTable 1 } ATSOutputBankEntry ::= SEQUENCE { atsOutputBankTableIndex INTEGER, atsOutputPhase INTEGER, atsOutputBank INTEGER, atsOutputBankCurrent Gauge, atsOutputBankState INTEGER, atsOutputBankOutputVoltage INTEGER, atsOutputBankMaxCurrent INTEGER, atsOutputBankMinCurrent INTEGER, atsOutputBankLoad INTEGER, atsOutputBankMaxLoad INTEGER, atsOutputBankMinLoad INTEGER, atsOutputBankPercentLoad INTEGER, atsOutputBankMaxPercentLoad INTEGER, atsOutputBankMinPercentLoad INTEGER, atsOutputBankPower INTEGER, atsOutputBankMaxPower INTEGER, atsOutputBankMinPower INTEGER, atsOutputBankPercentPower INTEGER, atsOutputBankMaxPercentPower INTEGER, atsOutputBankMinPercentPower INTEGER } atsOutputBankTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the bank table entry." ::= { atsOutputBankEntry 1 } atsOutputPhase OBJECT-TYPE SYNTAX INTEGER { phase1 (1), phase2 (2), phase3 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The phase number of an ATS" ::= { atsOutputBankEntry 2 } atsOutputBank OBJECT-TYPE SYNTAX INTEGER { total (1), bank1 (2), bank2 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The bank number of an ATS" ::= { atsOutputBankEntry 3 } atsOutputBankCurrent OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the bank current measured in tenths of Amps." ::= { atsOutputBankEntry 4 } atsOutputBankState OBJECT-TYPE SYNTAX INTEGER { normal (1), lowload (2), nearoverload (3), overload (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the bank load state. normal(1) indicates that the bank is operating properly within the atsConfigBankLowLoadThreshold and atsConfigBankNearOverLoadThreshold OID values. lowload(2) indicates that the bank load has dropped below the atsConfigBankLowLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. nearoverload(3) indicates that the bank load is greater than or equal to the atsConfigBankNearOverLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared. overload(4) indicates that the bank load is greater than or equal to the atsConfigBankOverLoadThreshold OID value. An SNMP trap will occur when this state is entered or cleared." ::= { atsOutputBankEntry 5 } atsOutputBankOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage in VAC, or -1 if it's unsupported by this ATS." ::= { atsOutputBankEntry 6 } atsOutputBankMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output current, on the bank represented by OID atsOutputBank, in 0.1 amperes measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 7 } atsOutputBankMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output current, on the bank represented by OID atsOutputBank, in 0.1 amperes measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 8 } atsOutputBankLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output load, on the bank represented by OID atsOutputBank, in VA, or -1 if it's unsupported by this ATS." ::= { atsOutputBankEntry 9 } atsOutputBankMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output load, on the bank represented by OID atsOutputBank, in VA measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 10 } atsOutputBankMinLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output load, on the bank represented by OID atsOutputBank, in VA measured since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 11 } atsOutputBankPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the ATS load capacity in VA at redundancy @ (n + x) presently being used on this bank, represented by OID atsOutputBank. Returns (-1) if unsupported." ::= { atsOutputBankEntry 12 } atsOutputBankMaxPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the ATS load capacity in VA measured at redundancy @ (n + x) presently being used on this bank, represented by OID atsOutputBank, since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 13 } atsOutputBankMinPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum percentage of the ATS load capacity in VA measured at redundancy @ (n + x) presently being used on this bank, represented by OID atsOutputBank, since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 14 } atsOutputBankPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output power in Watts on the bank represented by OID atsOutputBank or -1 if it's unsupported by this ATS." ::= { atsOutputBankEntry 15 } atsOutputBankMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output power in Watts measured on the bank represented by OID atsOutputBank since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 16 } atsOutputBankMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output power in Watts measured on the bank represented by OID atsOutputBank since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 17 } atsOutputBankPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the ATSpower capacity in Watts at redundancy @ (n + x) presently being used on this bank, represented by OID atsOutputBank, or -1 if it's unsupported by this ATS." ::= { atsOutputBankEntry 18 } atsOutputBankMaxPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the ATSpower capacity in Watts measured at redundancy @ (n + x) presently being used on this bank, represented by OID atsOutputBank, since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 19 } atsOutputBankMinPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum percentage of the ATSpower capacity in Watts measured at redundancy @ (n + x) presently being used on this bank, represented by OID atsOutputBank since the last time this variable was read or reset (atsStatusResetMaxMinValues). Returns (-1) if unsupported." ::= { atsOutputBankEntry 20 } -- the dcmim2IdentSystem group dcmim2IdentSysFWVersion OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Integer representation of the power plant Master Controller firmware revision." ::= { dcmim2IdentSystem 1 } -- the dcmim2ControlSystem group dcmim2ControlRunFunctBatteryTest OBJECT-TYPE SYNTAX INTEGER { battTestOff (1), battTestOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this OID will return the battery functional test state. If the test is off, the battTestOff (1) value will be returned. If the test is on, the battTestOn (2) value will be returned. Setting this OID to battTestOff (1) will turn the battery functional test off. Setting this OID to battTestOn (2) will turn the battery functional test on." ::= { dcmim2ControlSystem 1 } dcmim2ControlRunCapacityBatteryTest OBJECT-TYPE SYNTAX INTEGER { battTestOff (1), battTestOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this OID will return the battery capacity test state. If the test is off, the battTestOff (1) value will be returned. If the test is on, the battTestOn (2) value will be returned. Setting this OID to battTestOff (1) will turn the battery capacity test off. Setting this OID to battTestOn (2) will turn the battery capacity test on." ::= { dcmim2ControlSystem 2 } -- the dcmim2ConfigSystem group dcmim2ConfigSysHighTempTrip OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Trip level (threshold) at which System High Temp alarm condition is created. Range 28 to 100 (degC). Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dcmim2ConfigSystem 1 } dcmim2ConfigSysHighTempReset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Level at which System High Temp alarm condition is reset (cleared). Range 25 to (upper temp - 3) (degC). Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dcmim2ConfigSystem 2 } dcmim2ConfigSysLowTempTrip OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Trip level (threshold) at which System Low Temp alarm condition is created. Range -100 to 10 (degC). Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dcmim2ConfigSystem 3 } dcmim2ConfigSysLowTempReset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Level at which System Low Temp alarm condition is reset (cleared). Range (lower temp + 3) to 13 (degC). Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dcmim2ConfigSystem 4 } -- the dcmim2ConfigBattery group dcmim2ConfigBattFloatVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery Float Voltage defined at 25 degrees Celsius. Values are represented in thousandths of Volts (mV)." ::= { dcmim2ConfigBattery 1 } dcmim2ConfigBattMaxRecharge OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery Maximum Recharge Rate. This is the maximum current used during battery charging. Values are represented in thousandths of Amps (mA)." ::= { dcmim2ConfigBattery 2 } dcmim2ConfigBattMfgCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Battery capacity (Amp-Hour Size) as specified by the battery manufacturer. Values are represented in thousandths of Amp hours (mAHr)." ::= { dcmim2ConfigBattery 3 } dcmim2ConfigBattType OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Type of battery in the powerplant Valid values range from 0 to 254." ::= { dcmim2ConfigBattery 4 } dcmim2ConfigBattFunctTestDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Duration of the battery functional test. Values are represented in thousandths of seconds (mSecs)." ::= { dcmim2ConfigBattery 5 } dcmim2ConfigBattFunctTestThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Threshold the battery voltage of the system must remain above in order to pass the battery functional test. Values are represented in thousandths of Volts (mV)." ::= { dcmim2ConfigBattery 6 } dcmim2ConfigBattCapacityTestPercent OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Threshold for good battery capacity test results. Values range from 0 to 100 percent." ::= { dcmim2ConfigBattery 7 } dcmim2ConfigBattCapacityTestEndThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Safeguard voltage at which battery capacity test will end if there is a battery problem. Values are represented in thousandths of Volts (mV)." ::= { dcmim2ConfigBattery 8 } dcmim2ConfigBattCapacityTestCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Constant current value used during battery capacity testing. Values are represented in thousandths of Amps (mA)." ::= { dcmim2ConfigBattery 9 } -- the dcmim2ConfigLVD group dcmim2ConfigLVDTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant LVDs controllable by this IP address." ::= { dcmim2ConfigLVD 1 } dcmim2ConfigLVDTable OBJECT-TYPE SYNTAX SEQUENCE OF Dcmim2ConfigLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the LVDs. The number of entries is contained in the dcmim2ConfigLVDTableSize OID." ::= { dcmim2ConfigLVD 2 } dcmim2ConfigLVDEntry OBJECT-TYPE SYNTAX Dcmim2ConfigLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The LVD to configure." INDEX { dcmim2ConfigLVDIndex } ::= { dcmim2ConfigLVDTable 1 } Dcmim2ConfigLVDEntry ::= SEQUENCE { dcmim2ConfigLVDIndex INTEGER, dcmim2ConfigLVDTrip INTEGER, dcmim2ConfigLVDReset INTEGER, dcmim2ConfigLVDState INTEGER } dcmim2ConfigLVDIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant LVD." ::= { dcmim2ConfigLVDEntry 1 } dcmim2ConfigLVDTrip OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "LVD Trip threshold. System bus voltage at which LVD will trip (open) during a battery backup operation. Values are represented in thousandths of Volts (mV)." ::= { dcmim2ConfigLVDEntry 2 } dcmim2ConfigLVDReset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "LVD Reset threshold. System bus voltage at which LVD will reset (close) after AC power has been restored. Values are represented in thousandths of Volts (mV)." ::= { dcmim2ConfigLVDEntry 3 } dcmim2ConfigLVDState OBJECT-TYPE SYNTAX INTEGER { statusClosed (1), statusOpened (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusClosed (1) if the LVD is closed. statusOpened (2) will be returned if the LVD is opened." ::= { dcmim2ConfigLVDEntry 4 } -- the dcmim2StatusSystem group dcmim2StatusSysRectCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System (Total Rectifier) current in thousandths of Amps (mA)." ::= { dcmim2StatusSystem 1 } dcmim2StatusSysLoadCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Load current in thousandths of Amps (mA)." ::= { dcmim2StatusSystem 2 } dcmim2StatusSysBusVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System bus voltage in thousandths of Volts (mV)." ::= { dcmim2StatusSystem 3 } dcmim2StatusSysAmbientTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "System temperature based on sensor on Master Controller PCB. Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dcmim2StatusSystem 4 } dcmim2StatusSysUpTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Length of time since the DC Powerplant controller has been powered up." ::= { dcmim2StatusSystem 5 } dcmim2StatusSysTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature in the DC system, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { dcmim2StatusSystem 6 } -- the dcmim2StatusRectifier group dcmim2StatusRectTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant rectifiers viewable by this IP address." ::= { dcmim2StatusRectifier 1 } dcmim2StatusRectTable OBJECT-TYPE SYNTAX SEQUENCE OF Dcmim2StatusRectEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing settings of the rectifiers. The number of entries is contained in the dcmim2StatusRectTableSize OID." ::= { dcmim2StatusRectifier 2 } dcmim2StatusRectEntry OBJECT-TYPE SYNTAX Dcmim2StatusRectEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The rectifier to gather status from." INDEX { dcmim2StatusRectIndex } ::= { dcmim2StatusRectTable 1 } Dcmim2StatusRectEntry ::= SEQUENCE { dcmim2StatusRectIndex INTEGER, dcmim2StatusRectDevType INTEGER, dcmim2StatusRectID INTEGER, dcmim2StatusRectPhyAddr INTEGER, dcmim2StatusRectFail INTEGER, dcmim2StatusRectCurrent INTEGER } dcmim2StatusRectIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant rectifier." ::= { dcmim2StatusRectEntry 1 } dcmim2StatusRectDevType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier device type." ::= { dcmim2StatusRectEntry 2 } dcmim2StatusRectID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier ID. This enumerates the number of the rectifier within a group of rectifiers." ::= { dcmim2StatusRectEntry 3 } dcmim2StatusRectPhyAddr OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the rectifier physical address (the address on the bus)." ::= { dcmim2StatusRectEntry 4 } dcmim2StatusRectFail OBJECT-TYPE SYNTAX INTEGER { statusTrue (1), statusFalse (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusTrue (1) if the rectifier has failed. statusFalse (2) will be returned if the rectifier has not failed." ::= { dcmim2StatusRectEntry 5 } dcmim2StatusRectCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID shows the individual rectifier current in thousandths of Amps (mA)." ::= { dcmim2StatusRectEntry 6 } -- the dcmim2StatusBattery group dcmim2StatusBattFloatVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery Float Voltage represented in thousandths of Volts (mV)." ::= { dcmim2StatusBattery 1 } dcmim2StatusBattCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery Current: This OID shows the battery current in thousandths of Amps (mA)." ::= { dcmim2StatusBattery 2 } dcmim2StatusBattTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery Temperature: Values are represented in thousandths of a degree. Units are displayed in the scale shown in the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)." ::= { dcmim2StatusBattery 3 } dcmim2StatusBattMfgCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery capacity (Amp-Hour Size) as specified by the battery manufacturer. Values are represented in thousandths of Amp hours (mAHr)." ::= { dcmim2StatusBattery 4 } dcmim2StatusBattTestCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Battery capacity (Amp-Hour Size) as determined by the battery capacity test. Values are represented in thousandths of Amp hours (mAHr)." ::= { dcmim2StatusBattery 5 } dcmim2StatusBattFunctTestResult OBJECT-TYPE SYNTAX INTEGER{ functTestNotPerformed (1), functTestInProcess (2), functTestInterrupted (3), functTestPass (4), functTestFail (5) } ACCESS read-only STATUS mandatory DESCRIPTION "Results of the last battery functional test that was run." ::= { dcmim2StatusBattery 6 } dcmim2StatusBattCapacityTestResult OBJECT-TYPE SYNTAX INTEGER{ capacityTestNotPerformed (1), capacityTestInProcess (2), capacityTestInterrupted (3), capacityTestPass (4), capacityTestFail (5) } ACCESS read-only STATUS mandatory DESCRIPTION "Results of the last battery capacity test that was run." ::= { dcmim2StatusBattery 7 } -- the dcmim2StatusLVD group dcmim2StatusLVDTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant LVDs accessible by this IP address." ::= { dcmim2StatusLVD 1 } dcmim2StatusLVDTable OBJECT-TYPE SYNTAX SEQUENCE OF Dcmim2StatusLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing the LVDs. The number of entries is contained in the dcmim2StatusLVDTableSize OID." ::= { dcmim2StatusLVD 2 } dcmim2StatusLVDEntry OBJECT-TYPE SYNTAX Dcmim2StatusLVDEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The LVD to access." INDEX { dcmim2StatusLVDIndex } ::= { dcmim2StatusLVDTable 1 } Dcmim2StatusLVDEntry ::= SEQUENCE { dcmim2StatusLVDIndex INTEGER, dcmim2StatusLVDState INTEGER } dcmim2StatusLVDIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the DC powerplant LVD." ::= { dcmim2StatusLVDEntry 1 } dcmim2StatusLVDState OBJECT-TYPE SYNTAX INTEGER { statusClosed (1), statusOpened (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return statusClosed (1) if the LVD is closed. statusOpened (2) will be returned if the LVD is opened." ::= { dcmim2StatusLVDEntry 2 } -- the dcmim2StatusAlarms group dcmim2StatusAlarmsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of DC powerplant alarms viewable by this IP address." ::= { dcmim2StatusAlarms 1 } dcmim2StatusAlarmsTable OBJECT-TYPE SYNTAX SEQUENCE OF Dcmim2StatusAlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for accessing system alarms. The number of entries is contained in the dcmim2StatusAlarmsTableSize OID." ::= { dcmim2StatusAlarms 2 } dcmim2StatusAlarmsEntry OBJECT-TYPE SYNTAX Dcmim2StatusAlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The alarm to display." INDEX { dcmim2StatusAlarmsIndex } ::= { dcmim2StatusAlarmsTable 1 } Dcmim2StatusAlarmsEntry ::= SEQUENCE { dcmim2StatusAlarmsIndex INTEGER, dcmim2StatusAlarmsText DisplayString } dcmim2StatusAlarmsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the system alarm." ::= { dcmim2StatusAlarmsEntry 1 } dcmim2StatusAlarmsText OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The 16 character text describing the active alarm condition." ::= { dcmim2StatusAlarmsEntry 2 } -- External Environmental Monitor emIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the Environmental Monitor." ::= { emIdent 1 } emConfigProbesNumProbes OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of temperature and humidity probes available." ::= { emConfig 1 } emConfigProbesTable OBJECT-TYPE SYNTAX SEQUENCE OF EmConfigProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of probes supported by the Environmental Monitor and their configurations." ::= { emConfig 2 } emConfigProbesEntry OBJECT-TYPE SYNTAX EmConfigProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Environmental Monitor probe configurations." INDEX { emConfigProbeNumber } ::= { emConfigProbesTable 1 } EmConfigProbesEntry ::= SEQUENCE { emConfigProbeNumber INTEGER, emConfigProbeName DisplayString, emConfigProbeHighTempThreshold INTEGER, emConfigProbeLowTempThreshold INTEGER, emConfigProbeTempUnits INTEGER, emConfigProbeHighHumidThreshold INTEGER, emConfigProbeLowHumidThreshold INTEGER, emConfigProbeHighTempEnable INTEGER, emConfigProbeLowTempEnable INTEGER, emConfigProbeHighHumidEnable INTEGER, emConfigProbeLowHumidEnable INTEGER, emConfigProbeMaxTempThreshold INTEGER, emConfigProbeMinTempThreshold INTEGER, emConfigProbeMaxHumidThreshold INTEGER, emConfigProbeMinHumidThreshold INTEGER, emConfigProbeMaxTempEnable INTEGER, emConfigProbeMinTempEnable INTEGER, emConfigProbeMaxHumidEnable INTEGER, emConfigProbeMinHumidEnable INTEGER, emConfigProbeTempHysteresis INTEGER, emConfigProbeHumidHysteresis INTEGER, emConfigProbeLocation DisplayString } emConfigProbeNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index into an Environmental Monitor probe entry." ::= { emConfigProbesEntry 1 } emConfigProbeName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name of the probe set by the user, possibly denoting its location or purpose." ::= { emConfigProbesEntry 2 } emConfigProbeHighTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emConfigProbesEntry 3 } emConfigProbeLowTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emConfigProbesEntry 4 } emConfigProbeTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature thresholds of the probe, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { emConfigProbesEntry 5 } emConfigProbeHighHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high humidity alarm threshold for the probe in percent relative humidity." ::= { emConfigProbesEntry 6 } emConfigProbeLowHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low humidity alarm threshold for the probe in percent relative humidity." ::= { emConfigProbesEntry 7 } emConfigProbeHighTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 8 } emConfigProbeLowTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 9 } emConfigProbeHighHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The high humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 10 } emConfigProbeLowHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The low humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 11 } emConfigProbeMaxTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emConfigProbesEntry 12 } emConfigProbeMinTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emConfigProbesEntry 13 } emConfigProbeMaxHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximun humidity alarm threshold for the probe in percent relative humidity." ::= { emConfigProbesEntry 14 } emConfigProbeMinHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum humidity alarm threshold for the probe in percent relative humidity." ::= { emConfigProbesEntry 15 } emConfigProbeMaxTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The maximum temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 16 } emConfigProbeMinTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The minimum temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 17 } emConfigProbeMaxHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The maximum humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 18 } emConfigProbeMinHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The minimum humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { emConfigProbesEntry 19 } emConfigProbeTempHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of degrees beyond the temperature thresholds at which an active temperature alarm will be cleared. This configuration setting applies to all temperature thresholds. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emConfigProbesEntry 20 } emConfigProbeHumidHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of percent RH points beyond the humidity thresholds at which an active humidity alarm will be cleared. This configuration setting applies to all humidity thresholds. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emConfigProbesEntry 21 } emConfigProbeLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A string describing the location of the probe." ::= { emConfigProbesEntry 22 } emConfigContactsNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported by the Environmental Monitor." ::= { emConfig 3 } emConfigContactsTable OBJECT-TYPE SYNTAX SEQUENCE OF EmConfigContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the Environmental Monitor and their configurations." ::= { emConfig 4 } emConfigContactsEntry OBJECT-TYPE SYNTAX EmConfigContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Environmental Monitor contact configurations." INDEX { emConfigContactNumber } ::= { emConfigContactsTable 1 } EmConfigContactsEntry ::= SEQUENCE { emConfigContactNumber INTEGER, emConfigContactName DisplayString, emConfigContactEnable INTEGER, emConfigContactSeverity INTEGER, emConfigContactNormalState INTEGER, emConfigContactLocation DisplayString } emConfigContactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an Environmental Monitor contact." ::= { emConfigContactsEntry 1 } emConfigContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for an Environmental Monitor contact set by the user, possibly denoting its location or purpose." ::= { emConfigContactsEntry 2 } emConfigContactEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "An Environmental Monitor contact alarm enable/disable. No alarm will be generated if the contact is disabled(1). An alarm will be generated if the contact is enabled(2) and the contact has been faulted." ::= { emConfigContactsEntry 3 } emConfigContactSeverity OBJECT-TYPE SYNTAX INTEGER { critical(1), warning(2), informational(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The severity of the alarm that will be triggered when the input contact is activated. The alarms can be critical(1), warning(2) or informational(3)." ::= { emConfigContactsEntry 4 } emConfigContactNormalState OBJECT-TYPE SYNTAX INTEGER { open(1), closed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The contact state that will be considered normal, i.e. will not trigger an alarm. The states are open(1) or closed(2)." ::= { emConfigContactsEntry 5 } emConfigContactLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive label for the contact denoting its location or purpose." ::= { emConfigContactsEntry 6 } emStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { noComm(1), comm(2), commLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communication status between the agent and the Environmental Monitor. noComm(1), Communication has never been established. comm(2), Communication has been established. commLost(3), Communication was established, but was lost." ::= { emStatus 1 } emStatusProbesNumProbes OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of available probes on the Environmental Monitor." ::= { emStatus 2 } emStatusProbesTable OBJECT-TYPE SYNTAX SEQUENCE OF EmStatusProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of probes supported by the Environmental Monitor and their status." ::= { emStatus 3 } emStatusProbesEntry OBJECT-TYPE SYNTAX EmStatusProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The status of the probe." INDEX { emStatusProbeNumber } ::= { emStatusProbesTable 1 } EmStatusProbesEntry ::= SEQUENCE { emStatusProbeNumber INTEGER, emStatusProbeName DisplayString, emStatusProbeStatus INTEGER, emStatusProbeCurrentTemp INTEGER, emStatusProbeTempUnits INTEGER, emStatusProbeCurrentHumid INTEGER, emStatusProbeHighTempViolation INTEGER, emStatusProbeLowTempViolation INTEGER, emStatusProbeHighHumidViolation INTEGER, emStatusProbeLowHumidViolation INTEGER, emStatusProbeMaxTempViolation INTEGER, emStatusProbeMinTempViolation INTEGER, emStatusProbeMaxHumidViolation INTEGER, emStatusProbeMinHumidViolation INTEGER } emStatusProbeNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the probe." ::= { emStatusProbesEntry 1 } emStatusProbeName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A descriptive name for the probe set by the user, possibly denoting its location or purpose." ::= { emStatusProbesEntry 2 } emStatusProbeStatus OBJECT-TYPE SYNTAX INTEGER { disconnected(1), connected(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The connected status of the probe, either disconnected(1) or connected(2)." ::= { emStatusProbesEntry 3 } emStatusProbeCurrentTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current temperature reading from the probe displayed in the units shown in the 'emStatusProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { emStatusProbesEntry 4 } emStatusProbeTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature thresholds of the probe, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { emStatusProbesEntry 5 } emStatusProbeCurrentHumid OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current humidity reading from the probe in percent relative humidity." ::= { emStatusProbesEntry 6 } emStatusProbeHighTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), highTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The high temperature violation status of the probe temperature reading. This OID will show a highTempViolation(2) if the current temperature reading shown in the 'emStatusProbeCurrentTemp' OID is greater than or equal to the high temperature threshold value, the 'emConfigProbeHighTempThreshold' OID, and the value of the 'emConfigProbeHighTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeHighTempEnable' OID is disabled, this OID will show disabled(3)." ::= { emStatusProbesEntry 7 } emStatusProbeLowTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), lowTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The high temperature violation status of the probe temperature reading. This OID will show a lowTempViolation(2) if the current temperature reading shown in the 'emStatusProbeCurrentTemp' OID is less than or equal to the low temperature threshold value, the 'emConfigProbeLowTempThreshold' OID, and the value of the 'emConfigProbeLowTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeLowTempEnable' OID is disabled, this OID will show disabled(3)." ::= { emStatusProbesEntry 8 } emStatusProbeHighHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), highHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The high humidity violation status of the probe humidity reading. This OID will show a highTempViolation(2) if the current humidity reading shown in the 'emStatusProbeCurrentHumid' OID is greater than or equal to the high humidity threshold value, the 'emConfigProbeHighHumidThreshold' OID, and the value of the 'emConfigProbeHighHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeHighHumidEnable' OID is disabled, this OID will show disabled(3)" ::= { emStatusProbesEntry 9 } emStatusProbeLowHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), lowHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The low humidity violation status of the probe humidity reading. This OID will show a lowTempViolation(2) if the current humidity reading shown in the 'emStatusProbeCurrentHumid' OID is less than or equal to the low humidity threshold value, the 'emConfigProbeLowHumidThreshold' OID, and the value of the 'emConfigProbeLowHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeLowHumidEnable' OID is disabled, this OID will show disabled(3)." ::= { emStatusProbesEntry 10 } emStatusProbeMaxTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), maxTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The max temperature violation status of the probe temperature reading. This OID will show a maxTempViolation(2) if the current temperature reading shown in the 'emStatusProbeCurrentTemp' OID is greater than or equal to the maximun temperature threshold value, the 'emConfigProbeMaxTempThreshold' OID, and the value of the 'emConfigProbeMaxTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeMaxTempEnable' OID is disabled, this OID will show disabled(3)." ::= { emStatusProbesEntry 11 } emStatusProbeMinTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), minTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The minimum temperature violation status of the probe temperature reading. This OID will show a minTempViolation(2) if the current temperature reading shown in the 'emStatusProbeCurrentTemp' OID is less than or equal to the minimum temperature threshold value, the 'emConfigProbeMinTempThreshold' OID, and the value of the 'emConfigProbeMinTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeMinTempEnable' OID is disabled, this OID will show disabled(3)." ::= { emStatusProbesEntry 12 } emStatusProbeMaxHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), maxHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The maximum humidity violation status of the probe humidity reading. This OID will show a maxTempViolation(2) if the current humidity reading shown in the 'emStatusProbeCurrentHumid' OID is greater than or equal to the maximum humidity threshold value, the 'emConfigProbeMaxHumidThreshold' OID, and the value of the 'emConfigProbeMaxHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeMaxHumidEnable' OID is disabled, this OID will show disabled(3)" ::= { emStatusProbesEntry 13 } emStatusProbeMinHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), minHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The minimum humidity violation status of the probe humidity reading. This OID will show a minTempViolation(2) if the current humidity reading shown in the 'emStatusProbeCurrentHumid' OID is less than or equal to the minimum humidity threshold value, the 'emConfigProbeMinHumidThreshold' OID, and the value of the 'emConfigProbeMinHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'emConfigProbeMinHumidEnable' OID is disabled, this OID will show disabled(3)." ::= { emStatusProbesEntry 14 } emStatusContactsNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported by the Environmental Monitor." ::= { emStatus 4 } emStatusContactsTable OBJECT-TYPE SYNTAX SEQUENCE OF EmStatusContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the Environmental Monitor and their status." ::= { emStatus 5 } emStatusContactsEntry OBJECT-TYPE SYNTAX EmStatusContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The status of the contact." INDEX { emStatusContactNumber } ::= { emStatusContactsTable 1 } EmStatusContactsEntry ::= SEQUENCE { emStatusContactNumber INTEGER, emStatusContactName DisplayString, emStatusContactStatus INTEGER } emStatusContactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the Environmental Monitor contact." ::= { emStatusContactsEntry 1 } emStatusContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A descriptive name for the Environmental Monitor contact set by the user, possibly denoting its location or purpose." ::= { emStatusContactsEntry 2 } emStatusContactStatus OBJECT-TYPE SYNTAX INTEGER { noFault(1), fault(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Environmental Monitor contact. The status will show noFault(1) if the contact is in the normal state and the 'emConfigContactEnable' OID is enabled. The status will show a fault(2) if the contact is faulted and the 'emContactEnable' OID is enabled. If the 'emConfigContactEnable' OID is disabled, the status will show disabled(3)." ::= { emStatusContactsEntry 3 } -- Modular Environmental Manager (MEM) -- MEM Modules Status table memModulesStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memModulesStatusTable." ::= { memModules 1 } memModulesStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF MemModulesStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting status information from the modules attached to the system." ::= { memModules 2 } memModulesStatusEntry OBJECT-TYPE SYNTAX MemModulesStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memModulesStatusModuleNumber } ::= { memModulesStatusTable 1 } MemModulesStatusEntry ::= SEQUENCE { memModulesStatusModuleNumber INTEGER, memModulesStatusModuleName DisplayString, memModulesStatusModuleLocation DisplayString, memModulesStatusModelNumber DisplayString, memModulesStatusSerialNumber DisplayString, memModulesStatusFirmwareRev DisplayString, memModulesStatusHardwareRev DisplayString } memModulesStatusModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module number." ::= { memModulesStatusEntry 1 } memModulesStatusModuleName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The module name." ::= { memModulesStatusEntry 2 } memModulesStatusModuleLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the module." ::= { memModulesStatusEntry 3 } memModulesStatusModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The model number of the module." ::= { memModulesStatusEntry 4 } memModulesStatusSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the module." ::= { memModulesStatusEntry 5 } memModulesStatusFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the module." ::= { memModulesStatusEntry 6 } memModulesStatusHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision." ::= { memModulesStatusEntry 7 } -- MEM Modules Config table memModulesConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memModulesConfigTable." ::= { memModules 3 } memModulesConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF MemModulesConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting status information from the modules attached to the system." ::= { memModules 4 } memModulesConfigEntry OBJECT-TYPE SYNTAX MemModulesConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memModulesConfigModuleNumber } ::= { memModulesConfigTable 1 } MemModulesConfigEntry ::= SEQUENCE { memModulesConfigModuleNumber INTEGER, memModulesConfigModuleName DisplayString, memModulesConfigModuleLocation DisplayString } memModulesConfigModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module number." ::= { memModulesConfigEntry 1 } memModulesConfigModuleName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The module name." ::= { memModulesConfigEntry 2 } memModulesConfigModuleLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the module." ::= { memModulesConfigEntry 3 } -- MEM Sensor Status Table memSensorsStatusSysTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature in the system, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { memSensors 1 } memSensorsStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memSensorsStatusTable." ::= { memSensors 2 } memSensorsStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF MemSensorsStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting sensor status information." ::= { memSensors 3 } memSensorsStatusEntry OBJECT-TYPE SYNTAX MemSensorsStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memSensorsStatusModuleNumber, memSensorsStatusSensorNumber } ::= { memSensorsStatusTable 1 } MemSensorsStatusEntry ::= SEQUENCE { memSensorsStatusModuleNumber INTEGER, memSensorsStatusSensorNumber INTEGER, memSensorsStatusSensorName DisplayString, memSensorsStatusSensorLocation DisplayString, memSensorsTemperature INTEGER, memSensorsHumidity INTEGER, memSensorsCommStatus INTEGER, memSensorsAlarmStatus INTEGER } memSensorsStatusModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the sensor is attached to." ::= { memSensorsStatusEntry 1 } memSensorsStatusSensorNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this sensor on the module." ::= { memSensorsStatusEntry 2 } memSensorsStatusSensorName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The sensor name." ::= { memSensorsStatusEntry 3 } memSensorsStatusSensorLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the sensor." ::= { memSensorsStatusEntry 4 } memSensorsTemperature OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The sensor's current temperature reading. Units are displayed in the scale shown in the memSensorsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { memSensorsStatusEntry 5 } memSensorsHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current humidity reading from the sensor." ::= { memSensorsStatusEntry 6 } memSensorsCommStatus OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), commsOK(2), commsLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communications status of the sensor." ::= { memSensorsStatusEntry 7 } memSensorsAlarmStatus OBJECT-TYPE SYNTAX INTEGER { memNormal(1), memWarning(2), memCritical(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The alarm status of the sensor." ::= { memSensorsStatusEntry 8 } -- MEM Sensor Config Table memSensorsConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memSensorsConfigTable." ::= { memSensors 4 } memSensorsConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF MemSensorsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting configuration information from sensors attached to the system." ::= { memSensors 5 } memSensorsConfigEntry OBJECT-TYPE SYNTAX MemSensorsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memSensorsConfigModuleNumber, memSensorsConfigSensorNumber } ::= { memSensorsConfigTable 1 } MemSensorsConfigEntry ::= SEQUENCE { memSensorsConfigModuleNumber INTEGER, memSensorsConfigSensorNumber INTEGER, memSensorsName DisplayString, memSensorsLocation DisplayString, memSensorsAlarmGeneration INTEGER, memSensorsTempMaxThresh INTEGER, memSensorsTempHighThresh INTEGER, memSensorsTempLowThresh INTEGER, memSensorsTempMinThresh INTEGER, memSensorsTempThreshHysteresis INTEGER, memSensorsTempShortDecRateThreshValue INTEGER, memSensorsTempShortDecRateThreshTime INTEGER, memSensorsTempShortIncRateThreshValue INTEGER, memSensorsTempShortIncRateThreshTime INTEGER, memSensorsTempLongDecRateThreshValue INTEGER, memSensorsTempLongDecRateThreshTime INTEGER, memSensorsTempLongIncRateThreshValue INTEGER, memSensorsTempLongIncRateThreshTime INTEGER, memSensorsHumidityMaxThresh INTEGER, memSensorsHumidityHighThresh INTEGER, memSensorsHumidityLowThresh INTEGER, memSensorsHumidityMinThresh INTEGER, memSensorsHumidityThreshHysteresis INTEGER } memSensorsConfigModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the sensor is attached to." ::= { memSensorsConfigEntry 1 } memSensorsConfigSensorNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this sensor on the module." ::= { memSensorsConfigEntry 2 } memSensorsName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for the sensor." ::= { memSensorsConfigEntry 3 } memSensorsLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the sensor." ::= { memSensorsConfigEntry 4 } memSensorsAlarmGeneration OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable alarm generation on this sensor." ::= { memSensorsConfigEntry 5 } memSensorsTempMaxThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which the MEM will generate a maximum temperature threshold violation alarm on this sensor. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 6 } memSensorsTempHighThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which the MEM will generate a high temperature threshold violation alarm on this sensor. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 7 } memSensorsTempLowThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which the MEM will generate a low temperature threshold violation alarm on this sensor. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 8 } memSensorsTempMinThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which the MEM will generate a minimum temperature threshold violation alarm on this sensor. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 9 } memSensorsTempThreshHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The change in temperature required to cause a temperature alarm to change from an active to an inactive state. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 10 } memSensorsTempShortDecRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature short-term decreasing rate time that will cause an alarm to be generated. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 11 } memSensorsTempShortDecRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not decrease beyond the value specified by the temperature short-term decreasing rate threshold value." ::= { memSensorsConfigEntry 12 } memSensorsTempShortIncRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature short-term increasing rate time that will cause an alarm to be generated. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 13 } memSensorsTempShortIncRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not increase beyond the value specified by the temperature short-term increasing rate threshold value." ::= { memSensorsConfigEntry 14 } memSensorsTempLongDecRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature long-term decreasing rate time that will cause an alarm to be generated. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 15 } memSensorsTempLongDecRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not decrease beyond the value specified by the temperature long-term decreasing rate threshold value." ::= { memSensorsConfigEntry 16 } memSensorsTempLongIncRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature long-term increasing rate time that will cause an alarm to be generated. The temperature scale is based on the memSensorsStatusSysTempUnits OID." ::= { memSensorsConfigEntry 17 } memSensorsTempLongIncRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not increase beyond the value specified by the temperature long-term increasing rate threshold value." ::= { memSensorsConfigEntry 18 } memSensorsHumidityMaxThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The humidity at which the maximum humidity threshold alarm will be generated." ::= { memSensorsConfigEntry 19 } memSensorsHumidityHighThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The humidity at which the high humidity threshold alarm will be generated." ::= { memSensorsConfigEntry 20 } memSensorsHumidityLowThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The humidity at which the low humidity threshold alarm will be generated." ::= { memSensorsConfigEntry 21 } memSensorsHumidityMinThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The humidity at which the minimum humidity threshold alarm will be generated." ::= { memSensorsConfigEntry 22 } memSensorsHumidityThreshHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The change in humidity required to cause an active humidity alarm to change to the inactive state." ::= { memSensorsConfigEntry 23 } -- MEM Input Status Table memInputsStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memInputsStatusTable." ::= { memInputs 1 } memInputsStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF MemInputsStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting input status information." ::= { memInputs 2 } memInputsStatusEntry OBJECT-TYPE SYNTAX MemInputsStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memInputsStatusModuleNumber, memInputsStatusInputNumber } ::= { memInputsStatusTable 1 } MemInputsStatusEntry ::= SEQUENCE { memInputsStatusModuleNumber INTEGER, memInputsStatusInputNumber INTEGER, memInputsStatusInputName DisplayString, memInputsStatusInputLocation DisplayString, memInputsStatusCurrentState INTEGER, memInputsStatusCurrentAnalogValue DisplayString, memInputsStatusAlarmStatus INTEGER, memInputsCommStatus INTEGER } memInputsStatusModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the input is attached to." ::= { memInputsStatusEntry 1 } memInputsStatusInputNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this input on the module." ::= { memInputsStatusEntry 2 } memInputsStatusInputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The input name." ::= { memInputsStatusEntry 3 } memInputsStatusInputLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the input." ::= { memInputsStatusEntry 4 } memInputsStatusCurrentState OBJECT-TYPE SYNTAX INTEGER { inputClosedHighMEM (1), inputOpenLowMEM (2), inputDisabled (3), inputStateNotApplicable (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the input. This OID will return inputStateNotAplicable(4) for analog input types. " ::= { memInputsStatusEntry 5 } memInputsStatusCurrentAnalogValue OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The current analog value of the input in the units defined by the user." ::= { memInputsStatusEntry 6 } memInputsStatusAlarmStatus OBJECT-TYPE SYNTAX INTEGER { memNormal(1), memWarning(2), memCritical(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The alarm status of the input." ::= { memInputsStatusEntry 7 } memInputsCommStatus OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), commsOK(2), commsLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communications status of the input. This OID is only supported by NBRK0200." ::= { memInputsStatusEntry 8 } -- MEM Input Config Table memInputsConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memInputsConfigTable." ::= { memInputs 3 } memInputsConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF MemInputsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting input configuration information." ::= { memInputs 4 } memInputsConfigEntry OBJECT-TYPE SYNTAX MemInputsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memInputsConfigModuleNumber, memInputsConfigInputNumber } ::= { memInputsConfigTable 1 } MemInputsConfigEntry ::= SEQUENCE { memInputsConfigModuleNumber INTEGER, memInputsConfigInputNumber INTEGER, memInputName DisplayString, memInputLocation DisplayString, memInputType INTEGER, memInputAlarmGeneration INTEGER, memInputNormalState INTEGER, memInputAbnormalSeverity INTEGER, memInputNumberCalibrationPoints INTEGER, memInputAnalogCalibrationPoint1 DisplayString, memInputAnalogCalibrationPoint2 DisplayString, memInputAnalogCalibrationPoint3 DisplayString, memInputAnalogCalibrationPoint4 DisplayString, memInputAnalogCalibrationPoint5 DisplayString, memInputAnalogCalibrationPoint1Value DisplayString, memInputAnalogCalibrationPoint2Value DisplayString, memInputAnalogCalibrationPoint3Value DisplayString, memInputAnalogCalibrationPoint4Value DisplayString, memInputAnalogCalibrationPoint5Value DisplayString, memInputAnalogMeasurementUnits DisplayString, memInputAnalogMaxThresh DisplayString, memInputAnalogHighThresh DisplayString, memInputAnalogLowThresh DisplayString, memInputAnalogMinThresh DisplayString, memInputAnalogThreshHysteresis DisplayString } memInputsConfigModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the input is attached to." ::= { memInputsConfigEntry 1 } memInputsConfigInputNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this input on the module." ::= { memInputsConfigEntry 2 } memInputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the input." ::= { memInputsConfigEntry 3 } memInputLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the input." ::= { memInputsConfigEntry 4 } memInputType OBJECT-TYPE SYNTAX INTEGER { noConnection (1), dryContact (2), digital (3), analogmAmps (4), analogVolts (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The type of input this contact will take." ::= { memInputsConfigEntry 5 } memInputAlarmGeneration OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable alarm generation on this input." ::= { memInputsConfigEntry 6 } memInputNormalState OBJECT-TYPE SYNTAX INTEGER { inputClosedHighMEM (1), inputOpenLowMEM (2), inputDisabled (3), inputStateNotApplicable (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Defines the normal (no alarm) state of the input." ::= { memInputsConfigEntry 7 } memInputAbnormalSeverity OBJECT-TYPE SYNTAX INTEGER { inputSeverityinformational (1), inputSeveritywarning (2), inputSeveritysevere (3), inputSeverityNotApplicable (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Defines the severity of the event that is associated with the abnormal state of the input. This OID will return inputSeverityNotApplicable(4) for analog input types. " ::= { memInputsConfigEntry 8 } memInputNumberCalibrationPoints OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of calibration points that are required for this input." ::= { memInputsConfigEntry 9 } memInputAnalogCalibrationPoint1 OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The electrical value that the input sensor will measure at the first calibration point. This OID is relevant only for inputs configured as analog type (ma or V)." ::= { memInputsConfigEntry 10 } memInputAnalogCalibrationPoint2 OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The electrical value that the input sensor will measure at the second calibration point. This OID is relevant only for inputs configured as analog type (ma or V)." ::= { memInputsConfigEntry 11 } memInputAnalogCalibrationPoint3 OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The electrical value that the input sensor will measure at the third calibration point. This OID is relevant only for inputs configured as analog type (ma or V)." ::= { memInputsConfigEntry 12 } memInputAnalogCalibrationPoint4 OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The electrical value that the input sensor will measure at the fourth calibration point. This OID is relevant only for inputs configured as analog type (ma or V)." ::= { memInputsConfigEntry 13 } memInputAnalogCalibrationPoint5 OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The electrical value that the input sensor will measure at the fifth calibration point. This OID is relevant only for inputs configured as analog type (ma or V)." ::= { memInputsConfigEntry 14 } memInputAnalogCalibrationPoint1Value OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The value of the input, in units of measure defined by the user, that corresponds to the current setting at the first calibration point." ::= { memInputsConfigEntry 15 } memInputAnalogCalibrationPoint2Value OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The value of the input, in units of measure defined by the user, that corresponds to the current setting at the second calibration point." ::= { memInputsConfigEntry 16 } memInputAnalogCalibrationPoint3Value OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The value of the input, in units of measure defined by the user, that corresponds to the current setting at the third calibration point." ::= { memInputsConfigEntry 17 } memInputAnalogCalibrationPoint4Value OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The value of the input, in units of measure defined by the user, that corresponds to the current setting at the fourth calibration point." ::= { memInputsConfigEntry 18 } memInputAnalogCalibrationPoint5Value OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The value of the input, in units of measure defined by the user, that corresponds to the current setting at the fifth calibration point." ::= { memInputsConfigEntry 19 } memInputAnalogMeasurementUnits OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The units of measure to be used for this input." ::= { memInputsConfigEntry 20 } memInputAnalogMaxThresh OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The input value at which a maximum threshold violation alarm will be generated on this input." ::= { memInputsConfigEntry 21 } memInputAnalogHighThresh OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The input value at which a high threshold violation alarm will be generated on this input." ::= { memInputsConfigEntry 22 } memInputAnalogLowThresh OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The input value at which a low threshold violation alarm will be generated on this input." ::= { memInputsConfigEntry 23 } memInputAnalogMinThresh OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The input value at which a minimum threshold violation alarm will be generated on this input." ::= { memInputsConfigEntry 24 } memInputAnalogThreshHysteresis OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The change in value required to cause an alarm on this input to change from active to inactive." ::= { memInputsConfigEntry 25 } -- MEM Output Status Table memOutputStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memOutputStatusTable." ::= { memOutputs 1 } memOutputStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF MemOutputStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting output status information." ::= { memOutputs 2 } memOutputStatusEntry OBJECT-TYPE SYNTAX MemOutputStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memOutputStatusModuleNumber, memOutputStatusOutputNumber } ::= { memOutputStatusTable 1 } MemOutputStatusEntry ::= SEQUENCE { memOutputStatusModuleNumber INTEGER, memOutputStatusOutputNumber INTEGER, memOutputStatusOutputName DisplayString, memOutputStatusOutputLocation DisplayString, memOutputStatusCurrentState INTEGER } memOutputStatusModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the output is attached to." ::= { memOutputStatusEntry 1 } memOutputStatusOutputNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this output on the module." ::= { memOutputStatusEntry 2 } memOutputStatusOutputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The output name." ::= { memOutputStatusEntry 3 } memOutputStatusOutputLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the output." ::= { memOutputStatusEntry 4 } memOutputStatusCurrentState OBJECT-TYPE SYNTAX INTEGER { memOutputClosed (1), memOutputOpen (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the output." ::= { memOutputStatusEntry 5 } -- MEM Output Config Table memOutputConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memOutputConfigTable." ::= { memOutputs 3 } memOutputConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF MemOutputConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting output configuration information." ::= { memOutputs 4 } memOutputConfigEntry OBJECT-TYPE SYNTAX MemOutputConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memOutputConfigModuleNumber, memOutputConfigOutputNumber } ::= { memOutputConfigTable 1 } MemOutputConfigEntry ::= SEQUENCE { memOutputConfigModuleNumber INTEGER, memOutputConfigOutputNumber INTEGER, memOutputName DisplayString, memOutputLocation DisplayString, memOutputNormalState INTEGER, memOutputAction INTEGER } memOutputConfigModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the output is attached to." ::= { memOutputConfigEntry 1 } memOutputConfigOutputNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this output on the module." ::= { memOutputConfigEntry 2 } memOutputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the output." ::= { memOutputConfigEntry 3 } memOutputLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the output." ::= { memOutputConfigEntry 4 } memOutputNormalState OBJECT-TYPE SYNTAX INTEGER { memOutputClosed (1), memOutputOpen (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the output that will not generate an alarm." ::= { memOutputConfigEntry 5 } memOutputAction OBJECT-TYPE SYNTAX INTEGER { memActionClose (1), memActionOpen (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Manual control actions for the output. SNMP get command will return the state of the output, SNMP set of this OID controls the output." ::= { memOutputConfigEntry 6 } -- MEM Outlet Status Table memOutletStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memOutletStatusTable." ::= { memOutlets 1 } memOutletStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF MemOutletStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting outlet status information." ::= { memOutlets 2 } memOutletStatusEntry OBJECT-TYPE SYNTAX MemOutletStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memOutletStatusModuleNumber, memOutletStatusOutletNumber } ::= { memOutletStatusTable 1 } MemOutletStatusEntry ::= SEQUENCE { memOutletStatusModuleNumber INTEGER, memOutletStatusOutletNumber INTEGER, memOutletStatusOutletName DisplayString, memOutletStatusOutletLocation DisplayString, memOutletStatusCurrentState INTEGER } memOutletStatusModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the outlet is attached to." ::= { memOutletStatusEntry 1 } memOutletStatusOutletNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this outlet on the module." ::= { memOutletStatusEntry 2 } memOutletStatusOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The outlet name." ::= { memOutletStatusEntry 3 } memOutletStatusOutletLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the outlet." ::= { memOutletStatusEntry 4 } memOutletStatusCurrentState OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the outlet." ::= { memOutletStatusEntry 5 } -- MEM Outlet Config Table memOutletConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memOutletConfigTable." ::= { memOutlets 3 } memOutletConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF MemOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting outlet configuration information." ::= { memOutlets 4 } memOutletConfigEntry OBJECT-TYPE SYNTAX MemOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memOutletConfigModuleNumber, memOutletConfigOutletNumber } ::= { memOutletConfigTable 1 } MemOutletConfigEntry ::= SEQUENCE { memOutletConfigModuleNumber INTEGER, memOutletConfigOutletNumber INTEGER, memOutletName DisplayString, memOutletLocation DisplayString, memOutletNormalState INTEGER, memOutletAction INTEGER } memOutletConfigModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the Outlet is attached to." ::= { memOutletConfigEntry 1 } memOutletConfigOutletNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this Outlet on the module." ::= { memOutletConfigEntry 2 } memOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the Outlet." ::= { memOutletConfigEntry 3 } memOutletLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the Outlet." ::= { memOutletConfigEntry 4 } memOutletNormalState OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Outlet that will not generate an alarm." ::= { memOutletConfigEntry 5 } memOutletAction OBJECT-TYPE SYNTAX INTEGER { turnOff (1), turnOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Manual control actions for the Outlet. Get displays state of outlet, set controls outlet." ::= { memOutletConfigEntry 6 } -- MEM Beacon Status Table memBeaconStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memBeaconStatusTable." ::= { memBeacons 1 } memBeaconStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF MemBeaconStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting beacon status information." ::= { memBeacons 2 } memBeaconStatusEntry OBJECT-TYPE SYNTAX MemBeaconStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memBeaconStatusModuleNumber, memBeaconStatusBeaconNumber } ::= { memBeaconStatusTable 1 } MemBeaconStatusEntry ::= SEQUENCE { memBeaconStatusModuleNumber INTEGER, memBeaconStatusBeaconNumber INTEGER, memBeaconStatusBeaconName DisplayString, memBeaconStatusBeaconLocation DisplayString, memBeaconStatusCurrentState INTEGER } memBeaconStatusModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the beacon is attached to." ::= { memBeaconStatusEntry 1 } memBeaconStatusBeaconNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this beacon on the module." ::= { memBeaconStatusEntry 2 } memBeaconStatusBeaconName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The beacon name." ::= { memBeaconStatusEntry 3 } memBeaconStatusBeaconLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the beacon." ::= { memBeaconStatusEntry 4 } memBeaconStatusCurrentState OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the beacon." ::= { memBeaconStatusEntry 5 } -- MEM Beacon Config Table memBeaconConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the memBeaconConfigTable." ::= { memBeacons 3 } memBeaconConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF MemBeaconConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting beacon configuration information." ::= { memBeacons 4 } memBeaconConfigEntry OBJECT-TYPE SYNTAX MemBeaconConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { memBeaconConfigModuleNumber, memBeaconConfigBeaconNumber } ::= { memBeaconConfigTable 1 } MemBeaconConfigEntry ::= SEQUENCE { memBeaconConfigModuleNumber INTEGER, memBeaconConfigBeaconNumber INTEGER, memBeaconConfigName DisplayString, memBeaconConfigLocation DisplayString, memBeaconAction INTEGER } memBeaconConfigModuleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the module that the beacon is attached to." ::= { memBeaconConfigEntry 1 } memBeaconConfigBeaconNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this beacon on the module." ::= { memBeaconConfigEntry 2 } memBeaconConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the beacon." ::= { memBeaconConfigEntry 3 } memBeaconConfigLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the beacon." ::= { memBeaconConfigEntry 4 } memBeaconAction OBJECT-TYPE SYNTAX INTEGER { turnOff (1), turnOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Control action (on/off) for the beacon. Setting this OID will turn the beacon on/off. Getting this OID will respond with the current state." ::= { memBeaconConfigEntry 5 } -- Integrated Environmental Monitor (IEM) iemIdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the Integrated Environmental Monitor." ::= { iemIdent 1 } iemConfigProbesNumProbes OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of temperature and humidity probes available." ::= { iemConfig 1 } iemConfigProbesTable OBJECT-TYPE SYNTAX SEQUENCE OF IemConfigProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of probes supported by the Environmental Monitor and their configurations." ::= { iemConfig 2 } iemConfigProbesEntry OBJECT-TYPE SYNTAX IemConfigProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Environmental Monitor probe configurations." INDEX { iemConfigProbeNumber } ::= { iemConfigProbesTable 1 } IemConfigProbesEntry ::= SEQUENCE { iemConfigProbeNumber INTEGER, iemConfigProbeName DisplayString, iemConfigProbeHighTempThreshold INTEGER, iemConfigProbeLowTempThreshold INTEGER, iemConfigProbeTempUnits INTEGER, iemConfigProbeHighHumidThreshold INTEGER, iemConfigProbeLowHumidThreshold INTEGER, iemConfigProbeHighTempEnable INTEGER, iemConfigProbeLowTempEnable INTEGER, iemConfigProbeHighHumidEnable INTEGER, iemConfigProbeLowHumidEnable INTEGER, iemConfigProbeMaxTempThreshold INTEGER, iemConfigProbeMinTempThreshold INTEGER, iemConfigProbeMaxHumidThreshold INTEGER, iemConfigProbeMinHumidThreshold INTEGER, iemConfigProbeMaxTempEnable INTEGER, iemConfigProbeMinTempEnable INTEGER, iemConfigProbeMaxHumidEnable INTEGER, iemConfigProbeMinHumidEnable INTEGER, iemConfigProbeTempHysteresis INTEGER, iemConfigProbeHumidHysteresis INTEGER, iemConfigProbeLocation DisplayString } iemConfigProbeNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to a Environmental Monitor probe entry." ::= { iemConfigProbesEntry 1 } iemConfigProbeName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for the probe set by the user, possibly denoting its location or purpose." ::= { iemConfigProbesEntry 2 } iemConfigProbeHighTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemConfigProbesEntry 3 } iemConfigProbeLowTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemConfigProbesEntry 4 } iemConfigProbeTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature thresholds of the probe, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { iemConfigProbesEntry 5 } iemConfigProbeHighHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high humidity alarm threshold for the probe in percent relative humidity." ::= { iemConfigProbesEntry 6 } iemConfigProbeLowHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low humidity alarm threshold for the probe in percent relative humidity." ::= { iemConfigProbesEntry 7 } iemConfigProbeHighTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 8 } iemConfigProbeLowTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 9 } iemConfigProbeHighHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The high humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 10 } iemConfigProbeLowHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The low humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 11 } iemConfigProbeMaxTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximun temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemConfigProbesEntry 12 } iemConfigProbeMinTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimun temperature alarm threshold for the probe. Units are displayed in the scale selected in the 'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemConfigProbesEntry 13 } iemConfigProbeMaxHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum humidity alarm threshold for the probe in percent relative humidity." ::= { iemConfigProbesEntry 14 } iemConfigProbeMinHumidThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum humidity alarm threshold for the probe in percent relative humidity." ::= { iemConfigProbesEntry 15 } iemConfigProbeMaxTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The maximum temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 16 } iemConfigProbeMinTempEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 17 } iemConfigProbeMaxHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The maximum humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 18 } iemConfigProbeMinHumidEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The minimum humidity alarm enable/disable for the probe. No alarm will be generated if this value is set to disabled(1). The alarm will be generated if this value is set to enabled(2) and the threshold has been violated." ::= { iemConfigProbesEntry 19 } iemConfigProbeTempHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of degrees beyond the temperature thresholds at which an active temperature alarm will be cleared. This configuration setting applies to all temperature thresholds. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemConfigProbesEntry 20 } iemConfigProbeHumidHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of percent RH points beyond the humidity thresholds at which an active humidity alarm will be cleared. This configuration setting applies to all humidity thresholds. Units are displayed in the scale selected in the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemConfigProbesEntry 21 } iemConfigProbeLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A string describing the location of the probe." ::= { iemConfigProbesEntry 22 } iemConfigContactsNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts available on the Environmental Monitor." ::= { iemConfig 3 } iemConfigContactsTable OBJECT-TYPE SYNTAX SEQUENCE OF IemConfigContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the Environmental Monitor and their configurations." ::= { iemConfig 4 } iemConfigContactsEntry OBJECT-TYPE SYNTAX IemConfigContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Environmental Monitor contact configurations." INDEX { iemConfigContactNumber } ::= { iemConfigContactsTable 1 } IemConfigContactsEntry ::= SEQUENCE { iemConfigContactNumber INTEGER, iemConfigContactName DisplayString, iemConfigContactEnable INTEGER, iemConfigContactSeverity INTEGER, iemConfigContactNormalState INTEGER, iemConfigContactLocation DisplayString } iemConfigContactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an Environmental Monitor contact." ::= { iemConfigContactsEntry 1 } iemConfigContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for the Environmental Monitor contact set by the user, possibly denoting its location or purpose." ::= { iemConfigContactsEntry 2 } iemConfigContactEnable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "An Environmental Monitor contact alarm enable/disable." ::= { iemConfigContactsEntry 3 } iemConfigContactSeverity OBJECT-TYPE SYNTAX INTEGER { critical(1), warning(2), informational(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The severtity of the alarm that will be triggered when the input contact is activated. The alarms can be critical(1), warning(2) or informational(3). NOTE: informational(3) is deprecated (and no longer valid) for this OID." ::= { iemConfigContactsEntry 4 } iemConfigContactNormalState OBJECT-TYPE SYNTAX INTEGER { open(1), closed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The contact state that will be considered normal, i.e. will not trigger an alarm. The states are open(1) or closed(2)." ::= { iemConfigContactsEntry 5 } iemConfigContactLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive label for the contact denoting its location or purpose." ::= { iemConfigContactsEntry 6 } iemConfigConfigRelaysNumRelays OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output relays supported by the Environmental Monitor." ::= { iemConfig 5 } iemConfigRelaysTable OBJECT-TYPE SYNTAX SEQUENCE OF IemConfigRelaysEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output relays supported by the Environmental Monitor and their configurations." ::= { iemConfig 6 } iemConfigRelaysEntry OBJECT-TYPE SYNTAX IemConfigRelaysEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Environmental Monitor output relay configurations." INDEX { iemConfigRelayNumber } ::= { iemConfigRelaysTable 1 } IemConfigRelaysEntry ::= SEQUENCE { iemConfigRelayNumber INTEGER, iemConfigRelayName DisplayString, iemConfigRelayNormalState INTEGER, iemConfigRelayFaultCondition INTEGER } iemConfigRelayNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an Environmental Monitor output relay." ::= { iemConfigRelaysEntry 1 } iemConfigRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name of an Environmental Monitor output relay, set by the user, describing its location or purpose." ::= { iemConfigRelaysEntry 2 } iemConfigRelayNormalState OBJECT-TYPE SYNTAX INTEGER { open(1), closed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state (non-fault state) of an Environmental Monitor output relay, either open(1) or closed(2)." ::= { iemConfigRelaysEntry 3 } iemConfigRelayFaultCondition OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The fault condition used to activate the output relay." ::= { iemConfigRelaysEntry 4 } iemStatusProbesNumProbes OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of available probes on the Environmental Monitor." ::= { iemStatus 1 } iemStatusProbesTable OBJECT-TYPE SYNTAX SEQUENCE OF IemStatusProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of probes supported by the Environmental Monitor and their status." ::= { iemStatus 2 } iemStatusProbesEntry OBJECT-TYPE SYNTAX IemStatusProbesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The status of the probe." INDEX { iemStatusProbeNumber } ::= { iemStatusProbesTable 1 } IemStatusProbesEntry ::= SEQUENCE { iemStatusProbeNumber INTEGER, iemStatusProbeName DisplayString, iemStatusProbeStatus INTEGER, iemStatusProbeCurrentTemp INTEGER, iemStatusProbeTempUnits INTEGER, iemStatusProbeCurrentHumid INTEGER, iemStatusProbeHighTempViolation INTEGER, iemStatusProbeLowTempViolation INTEGER, iemStatusProbeHighHumidViolation INTEGER, iemStatusProbeLowHumidViolation INTEGER, iemStatusProbeMaxTempViolation INTEGER, iemStatusProbeMinTempViolation INTEGER, iemStatusProbeMaxHumidViolation INTEGER, iemStatusProbeMinHumidViolation INTEGER, iemStatusProbeLocation DisplayString } iemStatusProbeNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the probe." ::= { iemStatusProbesEntry 1 } iemStatusProbeName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A descriptive name for the probe set by the user." ::= { iemStatusProbesEntry 2 } iemStatusProbeStatus OBJECT-TYPE SYNTAX INTEGER { disconnected(1), connected(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The connected status of the probe, either disconnected(1) or connected(2)." ::= { iemStatusProbesEntry 3 } iemStatusProbeCurrentTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current temperature reading from the probe displayed in the units shown in the 'iemStatusProbeTempUnits' OID (Celsius or Fahrenheit)." ::= { iemStatusProbesEntry 4 } iemStatusProbeTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature thresholds of the probe, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { iemStatusProbesEntry 5 } iemStatusProbeCurrentHumid OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current humidity reading from the probe in percent relative humidity." ::= { iemStatusProbesEntry 6 } iemStatusProbeHighTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), highTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The high temperature violation status of the probe temperature reading. This OID will show a highTempViolation(2) if the current temperature reading shown in the 'iemStatusProbeCurrentTemp' OID is greater than or equal to the high temperature threshold value, the 'iemConfigProbeHighTempThreshold' OID, and the value of the 'iemConfigProbeHighTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeHighTempEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 7 } iemStatusProbeLowTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), lowTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The high temperature violation status of the probe temperature reading. This OID will show a lowTempViolation(2) if the current temperature reading shown in the 'iemStatusProbeCurrentTemp' OID is less than or equal to the low temperature threshold value, the 'iemConfigProbeLowTempThreshold' OID, and the value of the 'iemPConfigrobeLowTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeLowTempEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 8 } iemStatusProbeHighHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), highHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The high humidity violation status of the probe humidity reading. This OID will show a highTempViolation(2) if the current humidity reading shown in the 'iemStatusProbeCurrentHumid' OID is greater than or equal to the high humidity threshold value, the 'iemConfigProbeHighHumidThreshold' OID, and the value of the 'iemConfigProbeHighHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeHighHumidEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 9 } iemStatusProbeLowHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), lowHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The low humidity violation status of the probe humidity reading. This OID will show a lowTempViolation(2) if the current humidity reading shown in the 'iemStatusProbeCurrentHumid' OID is less than or equal to the low humidity threshold value, the 'iemConfigProbeLowHumidThreshold' OID, and the value of the 'iemConfigProbeLowHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeLowHumidEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 10 } iemStatusProbeMaxTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), maxTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The max temperature violation status of the probe temperature reading. This OID will show a maxTempViolation(2) if the current temperature reading shown in the 'iemStatusProbeCurrentTemp' OID is greater than or equal to the maximun temperature threshold value, the 'iemConfigProbeMaxTempThreshold' OID, and the value of the 'iemConfigProbeMaxTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeMaxTempEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 11 } iemStatusProbeMinTempViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), minTempViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The minimum temperature violation status of the probe temperature reading. This OID will show a minTempViolation(2) if the current temperature reading shown in the 'iemStatusProbeCurrentTemp' OID is less than or equal to the minimum temperature threshold value, the 'iemConfigProbeMinTempThreshold' OID, and the value of the 'iemConfigProbeMinTempEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeMinTempEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 12 } iemStatusProbeMaxHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), maxHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The maximum humidity violation status of the probe humidity reading. This OID will show a maxTempViolation(2) if the current humidity reading shown in the 'iemStatusProbeCurrentHumid' OID is greater than or equal to the maximum humidity threshold value, the 'iemConfigProbeMaxHumidThreshold' OID, and the value of the 'iemConfigProbeMaxHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeMaxHumidEnable' OID is disabled, this OID will show disabled(3)" ::= { iemStatusProbesEntry 13 } iemStatusProbeMinHumidViolation OBJECT-TYPE SYNTAX INTEGER { noViolation(1), minHumidViolation(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The minimum humidity violation status of the probe humidity reading. This OID will show a minTempViolation(2) if the current humidity reading shown in the 'iemStatusProbeCurrentHumid' OID is less than or equal to the minimum humidity threshold value, the 'iemConfigProbeMinHumidThreshold' OID, and the value of the 'iemConfigProbeMinHumidEnable' OID is enabled. Otherwise it will show noViolation(1). If the 'iemConfigProbeMinHumidEnable' OID is disabled, this OID will show disabled(3)." ::= { iemStatusProbesEntry 14 } iemStatusProbeLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A descriptive location for the probe set by the user." ::= { iemStatusProbesEntry 15 } iemStatusContactsNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported on the Environmental Monitor." ::= { iemStatus 3 } iemStatusContactsTable OBJECT-TYPE SYNTAX SEQUENCE OF IemStatusContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the Environmental Monitor and their status." ::= { iemStatus 4 } iemStatusContactsEntry OBJECT-TYPE SYNTAX IemStatusContactsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The status of the contact." INDEX { iemStatusContactNumber } ::= { iemStatusContactsTable 1 } IemStatusContactsEntry ::= SEQUENCE { iemStatusContactNumber INTEGER, iemStatusContactName DisplayString, iemStatusContactStatus INTEGER } iemStatusContactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the Environmental Monitor contact." ::= { iemStatusContactsEntry 1 } iemStatusContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A descriptive name for the Environmental Monitor contact set by the user, denoting its location or purpose." ::= { iemStatusContactsEntry 2 } iemStatusContactStatus OBJECT-TYPE SYNTAX INTEGER { noFault(1), fault(2), disabled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Environmental Monitor contact. The status will show noFault(1) if the contact is in the normal state and the 'iemConfigContactEnable' OID is enabled. The status will show a fault(2) if the contact is faulted and the 'iemConfigContactEnable' OID is enabled. If the 'iemConfigContactEnable' OID is disabled, the status will show disabled(3)." ::= { iemStatusContactsEntry 3 } iemStatusRelaysNumRelays OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output relays supported on the Environmental Monitor." ::= { iemStatus 6 } iemStatusRelaysTable OBJECT-TYPE SYNTAX SEQUENCE OF IemStatusRelaysEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output relays supported by the Environmental Monitor and their status." ::= { iemStatus 7 } iemStatusRelaysEntry OBJECT-TYPE SYNTAX IemStatusRelaysEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The status of the relay." INDEX { iemStatusRelayNumber } ::= { iemStatusRelaysTable 1 } IemStatusRelaysEntry ::= SEQUENCE { iemStatusRelayNumber INTEGER, iemStatusRelayName DisplayString, iemStatusRelayStatus INTEGER } iemStatusRelayNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { iemStatusRelaysEntry 1 } iemStatusRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A descriptive name for the output relay set by the user, denoting its location or purpose." ::= { iemStatusRelaysEntry 2 } iemStatusRelayStatus OBJECT-TYPE SYNTAX INTEGER { faultState(1), normalState(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the output relay, either faultState(1) or normalState(2)." ::= { iemStatusRelaysEntry 3 } -- Environmental Management System (EMS) -- EMS IDENT emsIdentEMSName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device. " ::= { emsIdent 1 } emsIdentProductNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number of the device. This value is set at the factory." ::= { emsIdent 2 } emsIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the device." ::= { emsIdent 3 } emsIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the device. This value is set at the factory." ::= { emsIdent 4 } emsIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the device was manufactured in mm/dd/yyyy format. This value is set at the factory. " ::= { emsIdent 5 } emsIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the device. This value is set at the factory." ::= { emsIdent 6 } -- EMS CONTROL -- EMS OUTPUT RELAY CONTROL STATUS TABLE emsOutputRelayControlTable OBJECT-TYPE SYNTAX SEQUENCE OF EmsOutputRelayControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual output relays. The number of entries is contained in the emsStatusOutputRelayCount OID." ::= { emsOutputRelayControl 1 } emsOutputRelayControlEntry OBJECT-TYPE SYNTAX EmsOutputRelayControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The output relays to control." INDEX { emsOutputRelayControlOutputRelayIndex } ::= { emsOutputRelayControlTable 1 } EmsOutputRelayControlEntry ::= SEQUENCE { emsOutputRelayControlOutputRelayIndex INTEGER, emsOutputRelayControlOutputRelayName DisplayString, emsOutputRelayControlOutputRelayCommand INTEGER } emsOutputRelayControlOutputRelayIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the output relay entry." ::= { emsOutputRelayControlEntry 1 } emsOutputRelayControlOutputRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the output relay. This OID is provided for informational purposes only." ::= { emsOutputRelayControlEntry 2 } emsOutputRelayControlOutputRelayCommand OBJECT-TYPE SYNTAX INTEGER { immediateCloseEMS (1), immediateOpenEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the output relay state. If the output relay is closed, the immediateCloseEMS (1) value will be returned. If the output relay is open, the immediateOpenEMS (2) value will be returned. Setting this variable to immediateCloseEMS (1) will immediately close the relay. Setting this variable to immediateOpenEMS (2) will immediately open the relay." ::= { emsOutputRelayControlEntry 3 } -- EMS OUTLET CONTROL TABLE emsOutletControlTable OBJECT-TYPE SYNTAX SEQUENCE OF EmsOutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet switches. The number of entries is contained in the emsStatusOutletCount OID." ::= { emsOutletControl 1 } emsOutletControlEntry OBJECT-TYPE SYNTAX EmsOutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { emsOutletControlOutletIndex } ::= { emsOutletControlTable 1 } EmsOutletControlEntry ::= SEQUENCE { emsOutletControlOutletIndex INTEGER, emsOutletControlOutletName DisplayString, emsOutletControlOutletCommand INTEGER } emsOutletControlOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { emsOutletControlEntry 1 } emsOutletControlOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. This OID is provided for informational purposes only." ::= { emsOutletControlEntry 2 } emsOutletControlOutletCommand OBJECT-TYPE SYNTAX INTEGER { immediateOnEMS (1), immediateOffEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the immediateOnEMS (1) value will be returned. If the outlet is off, the immediateOffEMS (2) value will be returned. Setting this variable to immediateOnEMS (1) will immediately turn the outlet on. Setting this variable to immediateOffEMS (2) will immediately turn the outlet off." ::= { emsOutletControlEntry 3 } -- EMS SENSOR CONTROL TABLE emsSensorControlTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSSensorControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control/reset of individual sensors. The number of entries is contained in the emsStatusSensorCount OID." ::= { emsSensorControl 1 } emsSensorControlEntry OBJECT-TYPE SYNTAX EMSSensorControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The sensors to control/reset." INDEX { emsSensorControlSensorIndex } ::= { emsSensorControlTable 1 } EMSSensorControlEntry ::= SEQUENCE { emsSensorControlSensorIndex INTEGER, emsSensorControlSensorSystemName DisplayString, emsSensorControlSensorUserName DisplayString, emsSensorControlSensorCommand INTEGER } emsSensorControlSensorIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the sensor entry." ::= { emsSensorControlEntry 1 } emsSensorControlSensorSystemName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The system name of the sensor. This describes the hardware system intent of this sensor." ::= { emsSensorControlEntry 2 } emsSensorControlSensorUserName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the sensor as given by the system user." ::= { emsSensorControlEntry 3 } emsSensorControlSensorCommand OBJECT-TYPE SYNTAX INTEGER { noCommandEMS (1), resetCommandEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return noCommandEMS(1). Setting this variable to resetCommandEMS(2) will issue a reset command to the sensor. Some sensors cannot be manually reset and will not be affected by this command." ::= { emsSensorControlEntry 4 } -- EMS ALARM DEVICE CONTROL TABLE emsAlarmDeviceControlTable OBJECT-TYPE SYNTAX SEQUENCE OF EmsAlarmDeviceControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual alarm devices. Note: Some alarm devices are not controllable. The number of entries is contained in the emsStatusAlarmDeviceCount OID." ::= { emsAlarmDeviceControl 1 } emsAlarmDeviceControlEntry OBJECT-TYPE SYNTAX EmsAlarmDeviceControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The alarm devices to control." INDEX { emsAlarmDeviceControlDeviceIndex } ::= { emsAlarmDeviceControlTable 1 } EmsAlarmDeviceControlEntry ::= SEQUENCE { emsAlarmDeviceControlDeviceIndex INTEGER, emsAlarmDeviceControlDeviceName DisplayString, emsAlarmDeviceControlDeviceCommand INTEGER } emsAlarmDeviceControlDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the alarm device entry." ::= { emsAlarmDeviceControlEntry 1 } emsAlarmDeviceControlDeviceName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the alarm device. This OID is provided for informational purposes only." ::= { emsAlarmDeviceControlEntry 2 } emsAlarmDeviceControlDeviceCommand OBJECT-TYPE SYNTAX INTEGER { alarmDeviceOnEMS (1), alarmDeviceOffEMS (2), alarmDeviceNotInstalledEMS (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the device state. If the device is active, the alarmDeviceOnEMS (1) value will be returned. If the device is inactive, the alarmDeviceOffEMS (2) value will be returned. If the device is not installed, the alarmDeviceNotInstalledEMS (3) value will be returned. Actions resulting from setting this variable are device-dependent. Setting this variable to alarmDeviceOnEMS (1) will turn that device (ex. Beacon) on. Setting this variable to alarmDeviceOffEMS (2) will turn that device off." ::= { emsAlarmDeviceControlEntry 3 } -- EMS CONFIG emsConfigName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the device." ::= { emsConfig 1 } emsConfigCheckLogLight OBJECT-TYPE SYNTAX INTEGER { lightDisabled (1), lightOnInformational (2), lightOnWarning (3), lightOnSevere (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The setting of this OID determines the level of event that will trigger the check-log light on the EMS. This is not available on the EMU2. lightDisabled (1) disables the check-log light. lightOnInformational (2) lights check-log for any event of informational severity or above. lightOnWarning (3) lights check-log for any event of warning severity or above. lightOnSevere (4) lights check-log for any event of severe severity." ::= { emsConfig 2 } -- EMS PROBE CONFIG TABLE emsProbeConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSProbeConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual probes. The number of entries is contained in the emsStatusProbeCount OID." ::= { emsProbeConfig 1 } emsProbeConfigEntry OBJECT-TYPE SYNTAX EMSProbeConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The probes to configure." INDEX { emsProbeConfigProbeIndex } ::= { emsProbeConfigTable 1 } EMSProbeConfigEntry ::= SEQUENCE { emsProbeConfigProbeIndex INTEGER, emsProbeConfigProbeName DisplayString, emsProbeConfigProbeHighTempThresh INTEGER, emsProbeConfigProbeLowTempThresh INTEGER, emsProbeConfigProbeHighHumidityThresh INTEGER, emsProbeConfigProbeLowHumidityThresh INTEGER, emsProbeConfigProbeMaxTempThresh INTEGER, emsProbeConfigProbeMinTempThresh INTEGER, emsProbeConfigProbeDeltaTemp INTEGER, emsProbeConfigProbeMaxHumidityThresh INTEGER, emsProbeConfigProbeMinHumidityThresh INTEGER, emsProbeConfigProbeDeltaHumidity INTEGER, emsProbeConfigProbeSTIncTempVariance INTEGER, emsProbeConfigProbeSTIncTempTime INTEGER, emsProbeConfigProbeSTDecTempVariance INTEGER, emsProbeConfigProbeSTDecTempTime INTEGER, emsProbeConfigProbeLTIncTempVariance INTEGER, emsProbeConfigProbeLTIncTempTime INTEGER, emsProbeConfigProbeLTDecTempVariance INTEGER, emsProbeConfigProbeLTDecTempTime INTEGER } emsProbeConfigProbeIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the probe entry." ::= { emsProbeConfigEntry 1 } emsProbeConfigProbeName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the probe." ::= { emsProbeConfigEntry 2 } emsProbeConfigProbeHighTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe high temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 3 } emsProbeConfigProbeLowTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe low temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 4 } emsProbeConfigProbeHighHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe high humidity threshold. Values are represented in whole number percentage." ::= { emsProbeConfigEntry 5 } emsProbeConfigProbeLowHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe low humidity threshold. Values are represented in whole number percentage." ::= { emsProbeConfigEntry 6 } emsProbeConfigProbeMaxTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe maximum temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 7 } emsProbeConfigProbeMinTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe minimum temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 8 } emsProbeConfigProbeDeltaTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe delta temperature. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 9 } emsProbeConfigProbeMaxHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe maximum humidity threshold. Values are represented in whole number percentage." ::= { emsProbeConfigEntry 10 } emsProbeConfigProbeMinHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe minimum humidity threshold. Values are represented in whole number percentage." ::= { emsProbeConfigEntry 11 } emsProbeConfigProbeDeltaHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe delta humidity. Values are represented in whole number percentage." ::= { emsProbeConfigEntry 12 } emsProbeConfigProbeSTIncTempVariance OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe short-term increasing temperature variance used for rate of change alarms. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 13 } emsProbeConfigProbeSTIncTempTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe short-term increasing temperature time used for rate of change alarms. Values are represented in whole number minutes." ::= { emsProbeConfigEntry 14 } emsProbeConfigProbeSTDecTempVariance OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe short-term decreasing temperature variance used for rate of change alarms. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 15 } emsProbeConfigProbeSTDecTempTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe short-term decreasing temperature time used for rate of change alarms. Values are represented in whole number minutes." ::= { emsProbeConfigEntry 16 } emsProbeConfigProbeLTIncTempVariance OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe long-term increasing temperature variance used for rate of change alarms. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 17 } emsProbeConfigProbeLTIncTempTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe long-term increasing temperature time used for rate of change alarms. Values are represented in whole number hours." ::= { emsProbeConfigEntry 18 } emsProbeConfigProbeLTDecTempVariance OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe long-term decreasing temperature variance used for rate of change alarms. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeConfigEntry 19 } emsProbeConfigProbeLTDecTempTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Probe long-term decreasing temperature time used for rate of change alarms. Values are represented in whole number hours." ::= { emsProbeConfigEntry 20 } -- EMS INPUT CONTACT CONFIG STATUS TABLE emsInputContactConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSInputContactConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual input contacts. The number of entries is contained in the emsStatusInputContactCount OID." ::= { emsInputContactConfig 1 } emsInputContactConfigEntry OBJECT-TYPE SYNTAX EMSInputContactConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input contacts to configure." INDEX { emsInputContactConfigInputContactIndex } ::= { emsInputContactConfigTable 1 } EMSInputContactConfigEntry ::= SEQUENCE { emsInputContactConfigInputContactIndex INTEGER, emsInputContactConfigInputContactName DisplayString, emsInputContactConfigInputContactNormalState INTEGER } emsInputContactConfigInputContactIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the input contact entry." ::= { emsInputContactConfigEntry 1 } emsInputContactConfigInputContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the input contact." ::= { emsInputContactConfigEntry 2 } emsInputContactConfigInputContactNormalState OBJECT-TYPE SYNTAX INTEGER { normallyClosedEMS (1), normallyOpenEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the input contact. If the normal state is closed, the normallyClosedEMS (1) value will be returned. If the normal state is closed, the normallyOpenEMS (2) value will be returned. Setting this variable will change the normal state of the input contact" ::= { emsInputContactConfigEntry 3 } -- EMS OUTPUT RELAY CONFIG STATUS TABLE emsOutputRelayConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSOutputRelayConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual output relays. The number of entries is contained in the emsStatusOutputRelayCount OID." ::= { emsOutputRelayConfig 1 } emsOutputRelayConfigEntry OBJECT-TYPE SYNTAX EMSOutputRelayConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The output relays to configure." INDEX { emsOutputRelayConfigOutputRelayIndex } ::= { emsOutputRelayConfigTable 1 } EMSOutputRelayConfigEntry ::= SEQUENCE { emsOutputRelayConfigOutputRelayIndex INTEGER, emsOutputRelayConfigOutputRelayName DisplayString, emsOutputRelayConfigOutputRelayNormalState INTEGER } emsOutputRelayConfigOutputRelayIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the output relay entry." ::= { emsOutputRelayConfigEntry 1 } emsOutputRelayConfigOutputRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the output relay." ::= { emsOutputRelayConfigEntry 2 } emsOutputRelayConfigOutputRelayNormalState OBJECT-TYPE SYNTAX INTEGER { normallyClosedEMS (1), normallyOpenEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the output relay. If the normal state is closed, the normallyClosedEMS (1) value will be returned. If the normal state is closed, the normallyOpenEMS (2) value will be returned. Setting this variable will change the normal state of the output relay" ::= { emsOutputRelayConfigEntry 3 } -- EMS OUTLET CONFIG TABLE emsOutletConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the emsStatusOutletCount OID." ::= { emsOutletConfig 1 } emsOutletConfigEntry OBJECT-TYPE SYNTAX EMSOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { emsOutletConfigOutletIndex } ::= { emsOutletConfigTable 1 } EMSOutletConfigEntry ::= SEQUENCE { emsOutletConfigOutletIndex INTEGER, emsOutletConfigOutletName DisplayString, emsOutletConfigOutletNormalState INTEGER } emsOutletConfigOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { emsOutletConfigEntry 1 } emsOutletConfigOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet." ::= { emsOutletConfigEntry 2 } emsOutletConfigOutletNormalState OBJECT-TYPE SYNTAX INTEGER { normallyOnEMS (1), normallyOffEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the outlet. If the normal state is on, the normallyOnEMS (1) value will be returned. If the normal state is off, the normallyOffEMS (2) value will be returned. Setting this variable will change the normal state of the outlet" ::= { emsOutletConfigEntry 3 } -- EMS SENSOR CONFIG TABLE emsSensorConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSSensorConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual sensors. The number of entries is contained in the emsStatusSensorCount OID." ::= { emsSensorConfig 1 } emsSensorConfigEntry OBJECT-TYPE SYNTAX EMSSensorConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The sensors to configure." INDEX { emsSensorConfigSensorIndex } ::= { emsSensorConfigTable 1 } EMSSensorConfigEntry ::= SEQUENCE { emsSensorConfigSensorIndex INTEGER, emsSensorConfigSensorSystemName DisplayString, emsSensorConfigSensorUserName DisplayString, emsSensorConfigSensorNormalState INTEGER, emsSensorConfigSensorAlarmDelay INTEGER } emsSensorConfigSensorIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the sensor entry." ::= { emsSensorConfigEntry 1 } emsSensorConfigSensorSystemName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The system name of the sensor. This describes the hardware system intent of this sensor." ::= { emsSensorConfigEntry 2 } emsSensorConfigSensorUserName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the sensor as given by the system user." ::= { emsSensorConfigEntry 3 } emsSensorConfigSensorNormalState OBJECT-TYPE SYNTAX INTEGER { normallyClosedEMS (1), normallyOpenEMS (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the sensor. If the normal state is closed, the normallyClosedEMS (1) value will be returned. If the normal state is closed, the normallyOpenEMS (2) value will be returned. Setting this variable will change the normal state of the sensor. Note: Only the AUX sensor in the EMS has a configurable Normal State" ::= { emsSensorConfigEntry 4 } emsSensorConfigSensorAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The delay (in seconds) after a sensor detects an alarm condition before the condition is reported." ::= { emsSensorConfigEntry 5 } -- EMS STATUS --- EMS MASTER status emsStatusEMSName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device. " ::= { emsStatus 1 } emsStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { noComm(1), comm(2), commLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communication status between the agent and the device. noComm(1), Communication has never been established. comm(2), Communication has been established. commLost(3), Communication was established, but was lost." ::= { emsStatus 2 } emsStatusProbeCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of T/H probes (both local and remote) that is supported by this device." ::= { emsStatus 3 } emsStatusInputContactCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of Input Contacts that is supported by this device." ::= { emsStatus 4 } emsStatusOutputRelayCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of Output Relays that is supported by this device." ::= { emsStatus 5 } emsStatusOutletCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of AC Outlets that is supported by this device." ::= { emsStatus 6 } emsStatusSensorCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of Sensors that is supported by this device." ::= { emsStatus 7 } emsStatusAlinkAruDeviceCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of remote Aru's supported by this device." ::= { emsStatus 8 } emsStatusAlinkProbeDeviceCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of remote T/H probes supported by this device." ::= { emsStatus 9 } emsStatusAlarmDeviceCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of alarm devices supported by this device." ::= { emsStatus 10 } emsStatusSysTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature in the system, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { emsStatus 11 } emsStatusCheckLogLight OBJECT-TYPE SYNTAX INTEGER { lightOff (1), lightOn (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the check-log light on the device. For the EMU2, this will always indicate lightOff(1). lightOff (1) indicates the light is off (no new log entries). lightOn (2) indicates the light is on (new log entries present)." ::= { emsStatus 12 } emsStatusHardwareStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The status of the EMS hardware. This integer should be interpreted as a bit map, with each bit representing the presence or absence of a specific hardware error condition. 0 indicates there are no error conditions detected in the EMS hardware. 1 indicates a Current Limit error condition related to the Alink port. 2 indicates incorrect hardware is plugged into an EMS port. 3 indicates that both of these error conditions are present." ::= { emsStatus 13 } -- EMS PROBE STATUS TABLE emsProbeStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSProbeStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for access of individual probes. The number of entries is contained in the emsStatusProbeCount OID." ::= { emsProbeStatus 1 } emsProbeStatusEntry OBJECT-TYPE SYNTAX EMSProbeStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The probes to access." INDEX { emsProbeStatusProbeIndex } ::= { emsProbeStatusTable 1 } EMSProbeStatusEntry ::= SEQUENCE { emsProbeStatusProbeIndex INTEGER, emsProbeStatusProbeName DisplayString, emsProbeStatusProbeTemperature INTEGER, emsProbeStatusProbeHighTempThresh INTEGER, emsProbeStatusProbeLowTempThresh INTEGER, emsProbeStatusProbeHumidity INTEGER, emsProbeStatusProbeHighHumidityThresh INTEGER, emsProbeStatusProbeLowHumidityThresh INTEGER, emsProbeStatusProbeSerialNumber DisplayString, emsProbeStatusProbeCommStatus INTEGER, emsProbeStatusProbeAlarmStatus INTEGER, emsProbeStatusProbeMaxTempThresh INTEGER, emsProbeStatusProbeMinTempThresh INTEGER, emsProbeStatusProbeMaxHumidityThresh INTEGER, emsProbeStatusProbeMinHumidityThresh INTEGER } emsProbeStatusProbeIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the probe entry." ::= { emsProbeStatusEntry 1 } emsProbeStatusProbeName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the probe." ::= { emsProbeStatusEntry 2 } emsProbeStatusProbeTemperature OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe temperature reading. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeStatusEntry 3 } emsProbeStatusProbeHighTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe high temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeStatusEntry 4 } emsProbeStatusProbeLowTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe low temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeStatusEntry 5 } emsProbeStatusProbeHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe humidity reading. Values are represented in whole number percentage." ::= { emsProbeStatusEntry 6 } emsProbeStatusProbeHighHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe high humidity threshold. Values are represented in whole number percentage." ::= { emsProbeStatusEntry 7 } emsProbeStatusProbeLowHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe low humidity threshold. Values are represented in whole number percentage." ::= { emsProbeStatusEntry 8 } emsProbeStatusProbeSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A label indicating the type (Local[L] or Remote[R]) and Number of the probe. For example, the first local probe would be L1 and the third remote probe would be R3." ::= { emsProbeStatusEntry 9 } emsProbeStatusProbeCommStatus OBJECT-TYPE SYNTAX INTEGER { commsNeverDiscovered(1), commsEstablished(2), commsLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION " The state of communications to the probe. commNeverDiscovered(1) indicates there has never been communications with this device. commsEstablished(2) indicates communication is normal and active with this device. commsLost(3) indicates communication had been established, but is no longer." ::= { emsProbeStatusEntry 10 } emsProbeStatusProbeAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The alarm status of the probe. This integer should be interpreted as a bit map, with each bit representing the presence or absence of the specific alarm conditions listed below. The bit will be '1' if the condition is present, and '0' if the condition is not present. Bit Hex. Value Description 1 0x0001 Maximum temperature exceeded. 2 0x0002 High temperature exceeded. 3 0x0004 Low temperature exceeded. 4 0x0008 Minimum temperature exceeded. 5 0x0010 Short-term increasing temperature rate exceeded. 6 0x0020 Short-term decreasing temperature rate exceeded. 7 0x0040 Long-term increasing temperature rate exceeded. 8 0x0080 Long-term decreasing temperature rate exceeded. 9 0x0100 Maximum humidity exceeded. 10 0x0200 High humidity exceeded. 11 0x0400 Low humidity exceeded. 12 0x0800 Minimum humidity exceeded." ::= { emsProbeStatusEntry 11 } emsProbeStatusProbeMaxTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe maximum temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeStatusEntry 12 } emsProbeStatusProbeMinTempThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe minimum temperature threshold. Values are represented in whole number degrees. Units are displayed in the scale shown in the emsStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { emsProbeStatusEntry 13 } emsProbeStatusProbeMaxHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe maximum humidity threshold. Values are represented in whole number percentage." ::= { emsProbeStatusEntry 14 } emsProbeStatusProbeMinHumidityThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Probe minimum humidity threshold. Values are represented in whole number percentage." ::= { emsProbeStatusEntry 15 } -- EMS INPUT CONTACT STATUS TABLE emsInputContactStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSInputContactStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for access of individual input contacts. The number of entries is contained in the emsStatusInputContactCount OID." ::= { emsInputContactStatus 1 } emsInputContactStatusEntry OBJECT-TYPE SYNTAX EMSInputContactStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input contacts to access." INDEX { emsInputContactStatusInputContactIndex } ::= { emsInputContactStatusTable 1 } EMSInputContactStatusEntry ::= SEQUENCE { emsInputContactStatusInputContactIndex INTEGER, emsInputContactStatusInputContactName DisplayString, emsInputContactStatusInputContactState INTEGER, emsInputContactStatusInputContactNormalState INTEGER } emsInputContactStatusInputContactIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the input contact entry." ::= { emsInputContactStatusEntry 1 } emsInputContactStatusInputContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the input contact." ::= { emsInputContactStatusEntry 2 } emsInputContactStatusInputContactState OBJECT-TYPE SYNTAX INTEGER { contactClosedEMS (1), contactOpenEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the state of the input contact. If the input contact is closed, the contactClosedEMS (1) value will be returned. If the input contact state is open, the contactOpenEMS (2) value will be returned. " ::= { emsInputContactStatusEntry 3 } emsInputContactStatusInputContactNormalState OBJECT-TYPE SYNTAX INTEGER { normallyClosedEMS (1), normallyOpenEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the input contact. If the normal state is closed, the normallyClosedEMS (1) value will be returned. If the normal state is open, the normallyOpenEMS (2) value will be returned. " ::= { emsInputContactStatusEntry 4 } -- EMS OUTPUT RELAY STATUS TABLE emsOutputRelayStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSOutputRelayStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for access of individual output relays. The number of entries is contained in the emsStatusOutputRelayCount OID." ::= { emsOutputRelayStatus 1 } emsOutputRelayStatusEntry OBJECT-TYPE SYNTAX EMSOutputRelayStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The output relays to access." INDEX { emsOutputRelayStatusOutputRelayIndex } ::= { emsOutputRelayStatusTable 1 } EMSOutputRelayStatusEntry ::= SEQUENCE { emsOutputRelayStatusOutputRelayIndex INTEGER, emsOutputRelayStatusOutputRelayName DisplayString, emsOutputRelayStatusOutputRelayState INTEGER, emsOutputRelayStatusOutputRelayNormalState INTEGER } emsOutputRelayStatusOutputRelayIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the output relay entry." ::= { emsOutputRelayStatusEntry 1 } emsOutputRelayStatusOutputRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the output relay." ::= { emsOutputRelayStatusEntry 2 } emsOutputRelayStatusOutputRelayState OBJECT-TYPE SYNTAX INTEGER { relayClosedEMS (1), relayOpenEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the state of the output relay. If the output relay is closed, the relayClosedEMS (1) value will be returned. If the output relay is open, the relayOpenEMS (2) value will be returned. " ::= { emsOutputRelayStatusEntry 3 } emsOutputRelayStatusOutputRelayNormalState OBJECT-TYPE SYNTAX INTEGER { normallyClosedEMS (1), normallyOpenEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the output relay. If the normal state is closed, the normallyClosedEMS (1) value will be returned. If the normal state is open, the normallyOpenEMS (2) value will be returned. " ::= { emsOutputRelayStatusEntry 4 } -- EMS OUTLET STATUS TABLE emsOutletStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSOutletStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for access of individual outlets. The number of entries is contained in the emsStatusOutletCount OID." ::= { emsOutletStatus 1 } emsOutletStatusEntry OBJECT-TYPE SYNTAX EMSOutletStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to access." INDEX { emsOutletStatusOutletIndex } ::= { emsOutletStatusTable 1 } EMSOutletStatusEntry ::= SEQUENCE { emsOutletStatusOutletIndex INTEGER, emsOutletStatusOutletName DisplayString, emsOutletStatusOutletState INTEGER, emsOutletStatusOutletNormalState INTEGER } emsOutletStatusOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { emsOutletStatusEntry 1 } emsOutletStatusOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet." ::= { emsOutletStatusEntry 2 } emsOutletStatusOutletState OBJECT-TYPE SYNTAX INTEGER { outletOnEMS (1), outletOffEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the state of the outlet. If the outlet is on, the outletOnEMS (1) value will be returned. If the outlet is off, the outletOffEMS (2) value will be returned. " ::= { emsOutletStatusEntry 3 } emsOutletStatusOutletNormalState OBJECT-TYPE SYNTAX INTEGER { normallyOnEMS (1), normallyOffEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the outlet. If the normal state is on, the normallyOnEMS (1) value will be returned. If the normal state is off, the normallyOffEMS (2) value will be returned. " ::= { emsOutletStatusEntry 4 } -- EMS ALARM DEVICE STATUS TABLE emsAlarmDeviceStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSAlarmDeviceStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for access of individual alarm devices. The number of entries is contained in the emsStatusAlarmDeviceCount OID." ::= { emsAlarmDeviceStatus 1 } emsAlarmDeviceStatusEntry OBJECT-TYPE SYNTAX EMSAlarmDeviceStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The alarm devices to access." INDEX { emsAlarmDeviceStatusDeviceIndex } ::= { emsAlarmDeviceStatusTable 1 } EMSAlarmDeviceStatusEntry ::= SEQUENCE { emsAlarmDeviceStatusDeviceIndex INTEGER, emsAlarmDeviceStatusDeviceName DisplayString, emsAlarmDeviceStatusDeviceState INTEGER } emsAlarmDeviceStatusDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the alarm device entry." ::= { emsAlarmDeviceStatusEntry 1 } emsAlarmDeviceStatusDeviceName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the alarm device. This OID is provided for informational purposes only." ::= { emsAlarmDeviceStatusEntry 2 } emsAlarmDeviceStatusDeviceState OBJECT-TYPE SYNTAX INTEGER { alarmDeviceOnEMS (1), alarmDeviceOffEMS (2), alarmDeviceNotInstalledEMS (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the device state. If the device is active, the alarmDeviceOnEMS (1) value will be returned. If the device is inactive, the alarmDeviceOffEMS (2) value will be returned. If the device is not installed, the alarmDeviceNotInstalledEMS (3) value will be returned." ::= { emsAlarmDeviceStatusEntry 3 } -- EMS SENSOR STATUS TABLE emsSensorStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF EMSSensorStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for access of individual sensors. The number of entries is contained in the emsStatusSensorCount OID." ::= { emsSensorStatus 1 } emsSensorStatusEntry OBJECT-TYPE SYNTAX EMSSensorStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The sensors to access." INDEX { emsSensorStatusSensorIndex } ::= { emsSensorStatusTable 1 } EMSSensorStatusEntry ::= SEQUENCE { emsSensorStatusSensorIndex INTEGER, emsSensorStatusSensorSystemName DisplayString, emsSensorStatusSensorName DisplayString, emsSensorStatusSensorState INTEGER, emsSensorStatusSensorNormalState INTEGER, emsSensorStatusSensorAlarmDelay INTEGER } emsSensorStatusSensorIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the sensor entry." ::= { emsSensorStatusEntry 1 } emsSensorStatusSensorSystemName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The system name of the sensor. This describes the hardware system intent of this sensor." ::= { emsSensorStatusEntry 2 } emsSensorStatusSensorName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the sensor as given by the system user." ::= { emsSensorStatusEntry 3 } emsSensorStatusSensorState OBJECT-TYPE SYNTAX INTEGER { sensorFaultedEMS (1), sensorOKEMS (2), sensorNotInstalledEMS (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the sensor state. If the sensor is faulted, the sensorFaultedEMS (1) value will be returned. If the sensor is not faulted, the sensorOKEMS (2) value will be returned. If the sensor is not installed, the sensorNotInstalledEMS (3) value will be returned." ::= { emsSensorStatusEntry 4 } emsSensorStatusSensorNormalState OBJECT-TYPE SYNTAX INTEGER { normallyClosedEMS (1), normallyOpenEMS (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this variable will return the normal state of the sensor. If the normal state is closed, the normallyClosedEMS (1) value will be returned. If the normal state is closed, the normallyOpenEMS (2) value will be returned." ::= { emsSensorStatusEntry 5 } emsSensorStatusSensorAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The delay (in seconds) after a sensor detects an alarm condition before the condition is reported." ::= { emsSensorStatusEntry 6 } -- airFM AIR CONDITIONER IDENT airFMIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the device." ::= { airFMIdent 1 } airFMIdentTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMIdentTable. " ::= { airFMIdent 2 } airFMIdentTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting identification information from each module in the system. " ::= { airFMIdent 3 } airFMIdentEntry OBJECT-TYPE SYNTAX AirFMIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMIdentModuleIndex } ::= { airFMIdentTable 1 } AirFMIdentEntry ::= SEQUENCE { airFMIdentModuleIndex INTEGER, airFMIdentModuleModelNumber DisplayString, airFMIdentModuleDateOfMfg DisplayString, airFMIdentModuleSerialNumber DisplayString, airFMIdentModuleFirmwareRev DisplayString, airFMIdentModuleHardwareRev DisplayString } airFMIdentModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module information." ::= { airFMIdentEntry 1 } airFMIdentModuleModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number. " ::= { airFMIdentEntry 2 } airFMIdentModuleDateOfMfg OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the manufacture date. " ::= { airFMIdentEntry 3 } airFMIdentModuleSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number. " ::= { airFMIdentEntry 4 } airFMIdentModuleFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the firmware revision. " ::= { airFMIdentEntry 5 } airFMIdentModuleHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the hardware revision. " ::= { airFMIdentEntry 6 } airFMIdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the location of the device. " ::= { airFMIdent 4 } airFMIdentContact OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the person to contact regarding the device. " ::= { airFMIdent 5 } -- airFM AIR CONDITIONER STATUS airFMStatusSystemOn OBJECT-TYPE SYNTAX INTEGER { statusOn (1), statusOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The operating state of the system. This OID has been deprecated in favor of airFMGroupSysStatus." ::= { airFMStatus 1 } airFMStatusSystemAverageRetTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system average return air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMSysAvgReturnTempC." ::= { airFMStatus 2 } airFMStatusSystemAverageRetTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system average return air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMSysAvgReturnTempF." ::= { airFMStatus 3 } airFMStatusSystemAverageRetHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system average return air humidity in tenths of percent RH. This OID has been deprecated in favor of airFMSysAvgReturnHum." ::= { airFMStatus 4 } airFMStatusSystemActionTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system action air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMSysCtrlTempC." ::= { airFMStatus 5 } airFMStatusSystemActionTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system action air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMSysCtrlTempF." ::= { airFMStatus 6 } airFMStatusSystemActionHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system action air humidity in tenths of percent RH. This OID has been deprecated in favor of airFMSysCtrlHum." ::= { airFMStatus 7 } airFMStatusSystemRemoteHighTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote high air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMSysMaxRemoteTempC." ::= { airFMStatus 8 } airFMStatusSystemRemoteHighTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote high air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMSysMaxRemoteTempF." ::= { airFMStatus 9 } airFMStatusSystemRemoteAvgTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote average air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMSysAvgRemoteTempC." ::= { airFMStatus 10 } airFMStatusSystemRemoteAvgTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote average air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMSysAvgRemoteTempF." ::= { airFMStatus 11 } airFMStatusSystemRemoteAvgHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote average air humidity in tenths of percent RH. This OID has been deprecated in favor of airFMSysAvgRemoteHum." ::= { airFMStatus 12 } airFMStatusSystemRemoteLowTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote low air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMSysMinRemoteTempC." ::= { airFMStatus 13 } airFMStatusSystemRemoteLowTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system remote low air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMSysMinRemoteTempF." ::= { airFMStatus 14 } airFMStatusSystemCoolingEnabled OBJECT-TYPE SYNTAX INTEGER { enabledYes (1), enabledNo (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the system cooling function enable. This OID has been deprecated in favor of airFMSysCoolState." ::= { airFMStatus 15 } airFMStatusSystemReheatingEnabled OBJECT-TYPE SYNTAX INTEGER { enabledYes (1), enabledNo (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the system reheating function enable. This OID has been deprecated in favor of airFMSysReheatState." ::= { airFMStatus 16 } airFMStatusSystemHumidifyEnabled OBJECT-TYPE SYNTAX INTEGER { enabledYes (1), enabledNo (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the system humidify function enable. This OID has been deprecated in favor of airFMSysHumState." ::= { airFMStatus 17 } airFMStatusSystemDehumidifyEnabled OBJECT-TYPE SYNTAX INTEGER { enabledYes (1), enabledNo (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the system dehumidify function enable. This OID has been deprecated in favor of airFMSysDehumState." ::= { airFMStatus 18 } airFMStatusModuleTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMStatusModuleTable." ::= { airFMStatus 19 } airFMStatusModuleTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMStatusModuleEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system." ::= { airFMStatus 20 } airFMStatusModuleEntry OBJECT-TYPE SYNTAX AirFMStatusModuleEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get status from." INDEX { airFMStatusModuleIndex } ::= { airFMStatusModuleTable 1 } AirFMStatusModuleEntry ::= SEQUENCE { airFMStatusModuleIndex INTEGER, airFMStatusModuleOutputCapacity INTEGER, airFMStatusModuleSupplyTempC INTEGER, airFMStatusModuleSupplyTempF INTEGER, airFMStatusModuleSupplyHum INTEGER, airFMStatusModuleReturnTempC INTEGER, airFMStatusModuleReturnTempF INTEGER, airFMStatusModuleReturnHum INTEGER } airFMStatusModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module information." ::= { airFMStatusModuleEntry 1 } airFMStatusModuleOutputCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module output capacity in kilowatts. This OID has been deprecated in favor of airFMModOutputCapacity." ::= { airFMStatusModuleEntry 2 } airFMStatusModuleSupplyTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module supply air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMModSupplyTempC." ::= { airFMStatusModuleEntry 3 } airFMStatusModuleSupplyTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module supply air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMModSupplyTempF." ::= { airFMStatusModuleEntry 4 } airFMStatusModuleSupplyHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module supply air humidity in tenths of percent RH. This OID has been deprecated in favor of airFMModSupplyHum." ::= { airFMStatusModuleEntry 5 } airFMStatusModuleReturnTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module return air temperature in tenths of degrees Celsius. This OID has been deprecated in favor of airFMModReturnTempC." ::= { airFMStatusModuleEntry 6 } airFMStatusModuleReturnTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module return air temperature in tenths of degrees Fahrenheit. This OID has been deprecated in favor of airFMModReturnTempF." ::= { airFMStatusModuleEntry 7 } airFMStatusModuleReturnHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module return air humidity in tenths of percent RH. This OID has been deprecated in favor of airFMModReturnHum." ::= { airFMStatusModuleEntry 8 } -- airFM AIR CONDITIONER GROUP DATA airFMGroupSysStatus OBJECT-TYPE SYNTAX INTEGER { statusOnLine (1), statusIdle (2), statusLoadShare (3), statusOffLine (4), statusFailed (5), statusDisabled (6), statusUndefined (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of this system within the group." ::= { airFMGroup 1 } airFMGroupSysRuntime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of hours the system has been running." ::= { airFMGroup 2 } airFMGroupSysRole OBJECT-TYPE SYNTAX INTEGER { rolePrimary (1), roleBackup (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The role of this system within the group." ::= { airFMGroup 3 } -- airFM Group System Roles airFMGroupSysRolesTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMGroupSysRolesTable. " ::= { airFMGroupSysRoles 1 } airFMGroupSysRolesTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMGroupSysRolesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each system in the group. " ::= { airFMGroupSysRoles 2 } airFMGroupSysRolesEntry OBJECT-TYPE SYNTAX AirFMGroupSysRolesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The system to get status from." INDEX { airFMGroupSysIndex } ::= { airFMGroupSysRolesTable 1 } AirFMGroupSysRolesEntry ::= SEQUENCE { airFMGroupSysIndex INTEGER, airFMGroupSysRoleStatus INTEGER, airFMGroupSysPresentRole INTEGER, airFMGroupSysManualRoleSetting INTEGER, airFMGroupSysRunHours INTEGER, airFMGroupSysComm INTEGER, airFMGroupSysIPAddress IpAddress } airFMGroupSysIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the system information." ::= { airFMGroupSysRolesEntry 1 } airFMGroupSysRoleStatus OBJECT-TYPE SYNTAX INTEGER { reserved1 (1), reserved2 (2), onLine (3), idle (4), loadShare (5), failed (6), offLine (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The present mode of the System." ::= { airFMGroupSysRolesEntry 2 } airFMGroupSysPresentRole OBJECT-TYPE SYNTAX INTEGER { primary (1), backup (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The present role of the System in a Group." ::= { airFMGroupSysRolesEntry 3 } airFMGroupSysManualRoleSetting OBJECT-TYPE SYNTAX INTEGER { primary (1), backup (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The manual role setting of the System in a Group. Only applies if Role Assignment Method is set to static (Manually Assigned Roles)." ::= { airFMGroupSysRolesEntry 4 } airFMGroupSysRunHours OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of hours the System has been contributing to environmental control." ::= { airFMGroupSysRolesEntry 5 } airFMGroupSysComm OBJECT-TYPE SYNTAX INTEGER { commLost (1), commEstablished (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether a system is communicating with the other Systems in the Group." ::= { airFMGroupSysRolesEntry 6 } airFMGroupSysIPAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP Address of the System." ::= { airFMGroupSysRolesEntry 7 } airFMGroupSysRoleAssignment OBJECT-TYPE SYNTAX INTEGER { staticManual (1), dynamicAutomatic (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The method used to assign roles (i.e. Primary, Backup) to the Systems in a Group. staticManual: Manually assign Primary or Backup to regulate run hours across the Group. dynamicAutomatic: User indicates the number of Systems that will be assigned a primary role in this Group." ::= { airFMGroupSysRoles 3 } airFMGroupAutoRoleNumPrimary OBJECT-TYPE SYNTAX INTEGER { one (1), two (2), three (3), four (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The number of Systems assigned the 'primary' role in this Group. Only applies if Role Assignment Method is set to dynamic (Automatic Run Hour Balancing)." ::= { airFMGroupSysRoles 4 } -- airFM Group Config airFMGroupCfgName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the group name." ::= { airFMGroupCfg 1 } airFMGroupCfgNumSystems OBJECT-TYPE SYNTAX INTEGER { one (1), two (2), three (3), four (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The number of Systems in this Group." ::= { airFMGroupCfg 2 } airFMGroupCfgIdleBlower OBJECT-TYPE SYNTAX INTEGER { off (1), minimumSpeed (2), normalSpeed (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Blower behavior for backup Systems and Systems that have entered a failure mode." ::= { airFMGroupCfg 3 } airFMGroupCfgShutdownSmoke OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "If enabled, all Systems in the Group will shut down if smoke is detected." ::= { airFMGroupCfg 4 } airFMGroupCfgShutdownFire OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "If enabled, all Systems in the Group will shut down if fire is detected." ::= { airFMGroupCfg 5 } airFMGroupCfgFailoverCommLoss OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Failover on Comm Loss enables an available backup System to run in place of a System that has lost communication with the Group." ::= { airFMGroupCfg 6 } airFMGroupCfgDmdFightStatus OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Demand Fighting and Setpoint Sharing are automatically enabled when a System is responding to a Load Sharing Request." ::= { airFMGroupCfg 7 } airFMGroupCfgDmdFightSetting OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Demand Fighting prevents a System from engaging reheat in a Group where any System is cooling." ::= { airFMGroupCfg 8 } airFMGroupCfgSetpointShareStatus OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Demand Fighting and Setpoint Sharing are automatically enabled when a System is responding to Load Sharing Request." ::= { airFMGroupCfg 9 } airFMGroupCfgSetpointShareSetting OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "All Systems in the Group use the same setpoints." ::= { airFMGroupCfg 10 } airFMGroupCfgResetFieldServiceDefaults OBJECT-TYPE SYNTAX INTEGER { noOperation (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset all Group parameters, which can only be edited by a field service engineer, to their factory default values. Getting this OID will do nothing and return the noOperation(1) value." ::= { airFMGroupCfg 11 } -- airFM Group Load Sharing airFMGroupLoadShareCoolRequests OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Systems that are cooling may request assistance from other Systems in the Group." ::= { airFMGroupLoadShare 1 } airFMGroupLoadShareCoolThreshC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Temperature threshold at which a System will generate a load sharing request for cooling. Measured in tenths of degrees Celsius." ::= { airFMGroupLoadShare 2 } airFMGroupLoadShareCoolThreshF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Temperature threshold at which a System will generate a load sharing request for cooling. Measured in tenths of degrees Fahrenheit." ::= { airFMGroupLoadShare 3 } airFMGroupLoadShareReheatRequests OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Systems that are reheating may request assistance from other Systems in the Group." ::= { airFMGroupLoadShare 4 } airFMGroupLoadShareReheatThreshC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Temperature threshold at which a System will generate a load sharing request for reheating. Measured in tenths of degrees Celsius." ::= { airFMGroupLoadShare 5 } airFMGroupLoadShareReheatThreshF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Temperature threshold at which a System will generate a load sharing request for reheating. Measured in tenths of degrees Fahrenheit." ::= { airFMGroupLoadShare 6 } airFMGroupLoadShareHumRequests OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Systems that are humidifying may request humidification assistance from other Systems in the Group." ::= { airFMGroupLoadShare 7 } airFMGroupLoadShareHumThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidity threshold at which a System will generate a load sharing request for humidification. Measured in tenths of percent relative humidity." ::= { airFMGroupLoadShare 8 } airFMGroupLoadShareDehumRequests OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Systems that are dehumidifying may request assistance from other Systems in the Group." ::= { airFMGroupLoadShare 9 } airFMGroupLoadShareDehumThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidity threshold at which a System will generate a load sharing request for dehumidification. Measured in tenths of percent relative humidity." ::= { airFMGroupLoadShare 10 } -- airFM Group System Failover Events airFMGroupFailoverSysAnyMinorAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if any minor system alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 1 } airFMGroupFailoverSysAnyMajorAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if any major system alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 2 } airFMGroupFailoverSysHighEnvTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the high environmental temperature alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 3 } airFMGroupFailoverSysLowEnvTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the low environmental temperature alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 4 } airFMGroupFailoverSysHighEnvHum OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the high environmental humidity alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 5 } airFMGroupFailoverSysLowEnvHum OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the low environmental humidity alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 6 } airFMGroupFailoverSysFireAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the fire alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 7 } airFMGroupFailoverSysSmokeAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the smoke alarm is active. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 8 } airFMGroupFailoverSysCommLost OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the system has lost comm. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 9 } airFMGroupFailoverSysSupplySensorFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the supply sensor has failed. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 10 } airFMGroupFailoverSysReturnSensorFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the return sensor has failed. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 11 } airFMGroupFailoverSysPrimarySensorFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the primary sensor has failed. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 12 } airFMGroupFailoverSysSecondarySensorFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the secondary sensor has failed. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 13 } airFMGroupFailoverSysNoSensorsAvailable OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if no sensors are available. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverSys 14 } -- airFM Group Module Failover Events airFMGroupFailoverModMaintRequired OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if maintenance is required on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 1 } airFMGroupFailoverModCoolFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if cooling has failed on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 2 } airFMGroupFailoverModHumFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the humidifier has failed on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 3 } airFMGroupFailoverModBlwrCntrl1Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if blower controller 1 has failed on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 4 } airFMGroupFailoverModBlwrCntrl2Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if blower controller 2 has failed on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 5 } airFMGroupFailoverModHighFilterDP OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if a high filter differential pressure is present on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 6 } airFMGroupFailoverModHighSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if a high supply temperature is active on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 7 } airFMGroupFailoverModLowSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if a low supply temperature is active on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 8 } airFMGroupFailoverModLossOrLowAirFlow OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if there is a loss of air flow or low air flow on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 9 } airFMGroupFailoverModHumReplaceCylinder OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if a humidifier needs its cylinder replaced on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 10 } airFMGroupFailoverModAirBlockInterlockOpen OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the air block interlock is open on a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 11 } airFMGroupFailoverModWaterDetected OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if water is detected by a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 12 } airFMGroupFailoverModCondensatePumpFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disable (2), enable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enabling this OID will cause the system to enter a failure state if the condensate pump has failed in a module. Once in the failure state, environmental control ceases for the system, and the blowers enter the Idle Blower Operation mode. A value of notApplicable indicates that this alarm does not apply to this device due to its configuration." ::= { airFMGroupFailoverMod 13 } -- airFM System Status airFMSysNumber OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), one (2), two (3), three (4), four (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The number of the system within the group. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 1 } airFMSysPresentStatus OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), reserved1 (2), reserved2 (3), onLine (4), idle (5), loadShare (6), failed (7), offLine (8) } ACCESS read-only STATUS mandatory DESCRIPTION "The present mode of the System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 2 } airFMSysPresentRole OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), primary (2), backup (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The present role of the System in the Group. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 3 } airFMSysRunHours OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of hours the System has been contributing to environmental control. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 4 } airFMSysCoilFluidTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the coolant at the fluid coil inlet. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 5 } airFMSysCoilFluidTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the coolant at the fluid coil inlet. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 6 } airFMSysHotWaterTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The hot water temperature. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 7 } airFMSysHotWaterTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The hot water temperature. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 8 } airFMSysAvgReturnTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average return temperature calculated from all present modules. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 9 } airFMSysAvgReturnTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average return temperature calculated from all present modules. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 10 } airFMSysAvgReturnHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average return humidity calculated from all present modules. Measured in tenths of percent RH. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 11 } airFMSysAvgRemoteTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average temperature calculated from all operational remote sensors. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 12 } airFMSysAvgRemoteTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average temperature calculated from all operational remote sensors. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 13 } airFMSysAvgRemoteHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average return humidity calculated from all present modules. Measured in tenths of percent RH. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 14 } airFMSysMaxRemoteTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum temperature reading from all operational remote sensors. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 15 } airFMSysMaxRemoteTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum temperature reading from all operational remote sensors. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 16 } airFMSysMinRemoteTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum temperature reading from all operational remote sensors. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 17 } airFMSysMinRemoteTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum temperature reading from all operational remote sensors. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 18 } airFMSysTempCtrlMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), avgReturn (2), avgRemote (3), maxRemote (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The method of environment temperature control selected to regulate the temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 19 } airFMSysActualTempCtrlMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), avgReturn (2), avgRemote (3), maxRemote (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The actual method of environment temperature control being used to regulate the temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 20 } airFMSysHumCtrlMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), avgReturnRH (2), avgReturnDewPt (3), avgRemoteRH (4), avgRemoteDewPt (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The method of environment humidity control selected to regulate the humidity. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 21 } airFMSysActualHumCtrlMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), avgReturnRH (2), avgReturnDewPt (3), avgRemoteRH (4), avgRemoteDewPt (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The actual method of environment humidity control being used to regulate the humidity. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 22 } airFMSysCtrlTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system environmental control air temperature from the sensor denoted by airFMSysActualTempCtrl. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 23 } airFMSysCtrlTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system environmental control air temperature from the sensor denoted by airFMSysActualTempCtrl. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 24 } airFMSysCtrlHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system environmental control air humidity from the sensor denoted by airFMSysActualHumCtrl. Measured in percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysStatus 25 } -- airFM System Demands and Actuals airFMSysDXCoolingDmd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The direct expansion cooling output demanded by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 1 } airFMSysDXDehumDmd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The direct expansion dehumidification output demanded by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 2 } airFMSysDXActualCoolDehum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The direct expansion cooling or dehumidification output measured by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 3 } airFMSysCoilFluidCoolDmd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid coil cooling output demanded by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 4 } airFMSysCoilFluidDehumDmd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid coil dehumidification output demanded by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 5 } airFMSysCoilFluidActualCoolDehum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid coil cooling or dehumidification output measured by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 6 } airFMSysElectricReheatDmd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The electric reheating output demanded by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 7 } airFMSysActualElectricReheat OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The electric reheating output of the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 8 } airFMSysSteamHotGasReheatDmd OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), off (2), on (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The steam, hot water, or hot gas reheating output demanded by the System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 9 } airFMSysActualSteamHotGasReheat OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), off (2), on (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The steam, hot water, or hot gas reheating output of the System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 10 } airFMSysSteamElectrodeHumDmd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The steam electrode humidification output demanded by the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 11 } airFMSysActualSteamElectrodeHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average steam electrode humidification output measured for the Modules in the System. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 12 } airFMSysSteamHumDmd OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), off (2), on (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The steam humidification output demanded by the System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 13 } airFMSysActualSteamHum OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), off (2), on (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The steam humidification output for the System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDemands 14 } -- airFM System Physical Setup airFMSysNumModules OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), one (2), two (3), three (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The number of Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 1 } airFMSysNumPCIOMs OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), one (2), two (3), three (4), four (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The number of Programmable Customer Input/Output Modules (PCIOMs) installed in the Main Module of this System. Each PCIOM adds four input contacts and four output relays to the System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 2 } airFMSysMainsVlt OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The mains voltage for the Modules in this System. A value of N/A indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 3 } airFMSysUPSVlt OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The UPS voltage for the Modules in this System. A value of N/A indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 4 } airFMSysCoilCfg OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), dx (2), econ (3), multicool (4), chilledWater (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of cooling coils installed in the Modules in this System: DX coil, DX and MultiCool (chilled water) coils, DX and Economizer coils, or only a Chilled Liquid coil. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 5 } airFMSysRefrigType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), r22 (2), r407C (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of refrigerant used by each compressor in the system. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 6 } airFMSysHeatRejection OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), airCooled (2), waterCooled (3), glycolCooled (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The method the Modules in this System use to transfer heat away from the refrigerant. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 7 } airFMSysDischAirPtrn OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), upFlow (2), downFlow (3), horizFlow (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The discharge air pattern for the Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 8 } airFMSysAirFltr OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), standard (2), highEfficiency (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of air filters (standard or high efficiency) installed in the Modules of this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 9 } airFMSysFlowSwitch OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), dxEcon (3), multiCoolChillWater (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The location of the optional flow switch. None: No flow switch is installed in this System. DX: Coolant input to the heat exchanger (condenser). MultiCool: Chilled water input to the MultiCool coil. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 10 } airFMSysCoilFluidVlvAct OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), springAnalog (3), floatingControl (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of valve actuator installed on the coil fluid valve. The coil fluid valve controls the flow of coolant into a fluid cooling coil, such as a MultiCool or Economizer coil. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 11 } airFMSysCoilFluidVlvType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), twoWay (2), threeWay (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of coil fluid valve installed for the Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 12 } airFMSysCndsrFluidVlvAct OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), floatingControl (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of valve actuator installed on the Condenser fluid valve. The Condenser fluid valve controls the flow of coolant into the heat exchanger (condenser) to regulate head pressure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 13 } airFMSysCndsrFluidVlvType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), twoWay (2), threeWay (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of Condenser fluid valve installed for the Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 14 } airFMSysHotWaterVlvAct OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), springAnalog (3), floatingControl (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of valve actuator installed on the hot water valve. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysSetup 15 } airFMSysNumRemoteSensors OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of remote sensors detected by the system." ::= { airFMSysSetup 16 } -- airFM System Configuration airFMSysPrimaryControlSensor OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), return (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Selects whether return or remote sensors will control the system. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 1 } airFMSysRemoteSensorData OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), average (2), maximum (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Selects whether average temperature or max temperature will be used when remote sensors are selected for control of the system. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 2 } airFMSysFastStartup OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Minimizes the time for the cooling process to begin after other delay constraints have been met. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 3 } airFMSysStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the delay that begins when power is applied and ends when the System starts. This allows you to create a staged restart among your Systems after a power loss. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 4 } airFMSysModeDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the delay between starting the blowers and engaging the modes. It allows the sensors to read room conditions accurately and allows the controller to check for major alarms before engaging a mode. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 5 } airFMSysCommLossShutdownDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the delay between an Expansion Module losing communication with the Main Module and the Expansion Module shutting down. A value of -1 will keep the Expansion Module running after a communication loss. Measured in hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 6 } airFMSysResetSysFailure OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will allows the system to return from any failure condition, if the failure(s) have cleared. Getting this OID will do nothing and return the noOperation(1) value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 7 } airFMSysResetUserDflts OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset all system parameters that can be edited by the user to their factory default values. Getting this OID will do nothing and return the noOperation(1) value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 8 } airFMSysResetFldSrvcDflts OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset all system parameters that can only be edited by the field service engineer to their factory default values. Getting this OID will do nothing and return the noOperation(1) value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 9 } airFMSysResetRunHours OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to reset(2) will reset the system Run Hours. Getting this OID will do nothing and return the noOperation(1) value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysConfig 10 } -- airFM System Cooling airFMSysCompMinOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the minimum time the compressor continues to operate after it is started. The delay protects the compressor from damage. Caution: Reducing this delay shortens compressor life. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 1 } airFMSysCompMinOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the minimum time the compressor will remain off after it ceases operation. The delay protects the compressor from damage. Caution: Reducing this delay shortens compressor life. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 2 } airFMSysCompRotPeriod OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set how often to perform compressor runtime balancing. Measured in hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 3 } airFMSysEconIsolVlvOpenDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the delay between opening the Economizer Isolator output relay and engaging the compressors. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 4 } airFMSysEconIsolVlvCloseDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the delay between disengaging the compressor and closing the Economizer Isolator output relay. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 5 } airFMSysCndsrFluidVlvCloseDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the time the condenser valve remains open after the compressors disengage. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 6 } airFMSysInterstageDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The DX interstage delay allows the first compressor's cooling to take effect before engaging the second compressor. This prevents the second compressor from cycling on and off excessively. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 7 } airFMSysCoolState OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the mode to enabled or disabled. Disabled modes will not operate, and you cannot make changes to their settings while they are disabled. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 8 } airFMSysCoolEssFunction OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), yes (2), no (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the priority of the mode for alarms and events with the nonessential stop behavior. Nonessential modes are disabled during nonessential stop alarms and events. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 9 } airFMSysCoolSetpointC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The target value for the selected control sensor air for this mode. It must be at least 1.0 C above the reheat setpoint if a heater is installed. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 10 } airFMSysCoolSetpointF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The target value for the selected control sensor air for this mode. It must be at least 1.0 C above the reheat setpoint if a heater is installed. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 11 } airFMSysCoolDeadbandC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature range that controls output when the selected control sensor temperature is above the setpoint. At the top of this range, the cool mode outputs at 100%. The deadband does not apply to PID- controlled modes. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 12 } airFMSysCoolDeadbandF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature range that controls output when the selected control sensor temperature is above the setpoint. At the top of this range, the cool mode outputs at 100%. The deadband does not apply to PID- controlled modes. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 13 } airFMSysCoolEconIsolFunction OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the Economizer Automatic Coolant Isolation valve to enabled or disabled. This valve anticipates a cooling demand and opens the coil fluid valve. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 14 } airFMSysSuctPresCompensation OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the Suction Pressure Compensation to enabled or disabled. This function attempts to keep the suction pressure from exceeding 95 psi. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 15 } airFMSysCoilFluidActivThreshC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum coolant temperature required to use the optional MultiCool or Economizer coil. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 16 } airFMSysCoilFluidActivThreshF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum coolant temperature required to use the optional MultiCool or Economizer coil. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 17 } airFMSysCoilFluidActivDeadbandC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The controller will disengage the MultiCool or Economizer coil when the coolant temperature reaches the coil fluid temperature activation threshold plus the deadband. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 18 } airFMSysCoilFluidActivDeadbandF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The controller will disengage the MultiCool or Economizer coil when the coolant temperature reaches the coil fluid temperature activation threshold plus the deadband. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 19 } airFMSysCoolPIDMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), p (2), pi (3), pid (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the multipliers that the PID algorithm will use to calculate the cool output. Proportional, Proportional + Integral, or Proportional + Integral + Derivative. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 20 } airFMSysCoolPIDGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the proportional multiplier to correct for differences between the selected control sensor actual temperature and the setpoint. Measured in %/C. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 21 } airFMSysCoolPIDResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the integral multiplier to correct for the proportional offset. Measured in %/(C * min). A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 22 } airFMSysCoolPIDDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the derivative multiplier to counteract overshoot and droop during changes in the room load. Measured in %/(C / min). A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysCooling 23 } -- airFM System Humidify Function airFMSysHumState OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the mode to enabled or disabled. Disabled modes will not operate, and you cannot make changes to their settings while they are disabled. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 1 } airFMSysHumEssFunction OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), yes (2), no (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the priority of the mode for alarms and events with the nonessential stop behavior. Nonessential modes are disabled during nonessential stop alarms and events. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 2 } airFMSysHumSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The target value for the selected control sensor air for this mode. It must be at least 1.0 % RH below the dehumidification setpoint. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 3 } airFMSysHumDeadband OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The humidity range that controls output when the selected control sensor humidity is below the setpoint. At the top of this range, the humidification mode outputs at 100%. The deadband does not apply to PID-controlled modes. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 4 } airFMSysHumCtrlSetting OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), relativeHum (2), dewPoint (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the method to control the humidity in the room. The two methods are Relative Humidity (RH) or Dew Point of the selected control sensor air. The dew point method helps correct for hot spots near the selected control sensors. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 5 } airFMSysActualHumCtrl OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), relativeHum (2), dewPoint (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The humidity control method the system is using. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 6 } airFMSysHumSensBand OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The percentage of relative humidity below the setpoint at which the humidifier will output at 100% of capacity. Measured in percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysHumidify 7 } -- airFM System Dehumidify Function airFMSysDehumState OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the mode to enabled or disabled. Disabled modes will not operate, and you cannot make changes to their settings while they are disabled. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 1 } airFMSysDehumEssFunction OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), yes (2), no (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the priority of the mode for alarms and events with the nonessential stop behavior. Nonessential modes are disabled during nonessential stop alarms and events. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 2 } airFMSysDehumSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The target value for the selected control sensor air for this mode. It must be at least 1.0 % RH above the humidification setpoint if a humidifier is installed. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 3 } airFMSysDehumDeadband OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The humidity range above the setpoint at which the dehumidification mode will output at 100%. The deadband does not apply to PID controlled modes. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 4 } airFMSysDehumCapacity OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), half (2), full (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the dehumidification mode to use either half of the cooling coil or the full coil when dehumidifying the room. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 5 } airFMSysDehumPIDMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), p (2), pi (3), pid (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the multipliers that the PID algorithm will use to calculate the output. Proportional, Proportional + Integral, or Proportional + Integral + Derivative. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 6 } airFMSysDehumPIDGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the proportional multiplier to correct for differences between the selected control sensor actual humidity and the setpoint. Measured in %/%RH. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 7 } airFMSysDehumPIDResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the integral multiplier to correct for the proportional offset. Measured in %/(%RH * min). A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 8 } airFMSysDehumPIDDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the derivative multiplier to counteract overshoot and droop during changes in the room humidity. Measure in %/(%RH / min). A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysDehumidify 9 } -- airFM System Reheat Function airFMSysReheatState OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the mode to enabled or disabled. Disabled modes will not operate, and you cannot make changes to their settings while they are disabled. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 1 } airFMSysReheatEssFunction OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), yes (2), no (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the priority of the mode for alarms and events with the nonessential stop behavior. Nonessential modes are disabled during nonessential stop alarms and events. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 2 } airFMSysReheatSetpointC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The target value for the selected control sensor air for this mode. It must be at least 1.0 C below the cooling setpoint. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 3 } airFMSysReheatSetpointF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The target value for the selected control sensor air for this mode. It must be at least 1.0 C below the cooling setpoint. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 4 } airFMSysReheatDeadbandC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature range that controls output when the selected control sensor temperature is below the setpoint. At the bottom of this range, the reheat mode outputs at 100%. The deadband does not apply to PID-controlled modes. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 5 } airFMSysReheatDeadbandF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature range that controls output when the selected control sensor temperature is below the setpoint. At the bottom of this range, the reheat mode outputs at 100%. The deadband does not apply to PID-controlled modes. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 6 } airFMSysReheatPIDMethod OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), p (2), pi (3), pid (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the multipliers that the PID algorithm will use to calculate the output. Proportional, Proportional + Integral, or Proportional + Integral + Derivative. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 7 } airFMSysReheatPIDGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the proportional multiplier to correct for differences between the selected control sensor actual temperature and the setpoint. Measured in %/C. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 8 } airFMSysReheatPIDResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the integral multiplier to correct for the proportional offset. Measured in %/(C * min). A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 9 } airFMSysReheatPIDDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the derivative multiplier to counteract overshoot and droop during changes in the room load. Measured in %/(C / min). A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysReheat 10 } -- airFM System Thresholds airFMSysHighSplyTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature threshold for air blown into the room (supply). If the supply temperature exceeds the threshold, an alarm will occur. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 1 } airFMSysHighSplyTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature threshold for air blown into the room (supply). If the supply temperature exceeds the threshold, an alarm will occur. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 2 } airFMSysLowSplyTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature threshold for air blown into the room (supply). If the supply temperature drops below the threshold, an alarm will occur. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 3 } airFMSysLowSplyTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature threshold for air blown into the room (supply). If the supply temperature drops below the threshold, an alarm will occur. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 4 } airFMSysHighCoilFluidTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature threshold for coolant at the inlet to the fluid coil. If the fluid coil coolant temperature exceeds the threshold, an alarm will occur. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 5 } airFMSysHighCoilFluidTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature threshold for coolant at the inlet to the fluid coil. If the fluid coil coolant temperature exceeds the threshold, an alarm will occur. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 6 } airFMSysLowCoilFluidTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature threshold for coolant at the inlet to the fluid coil. If the fluid coil coolant temperature drops below the threshold, an alarm will occur. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 7 } airFMSysLowCoilFluidTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature threshold for coolant at the inlet to the fluid coil. If the fluid coil coolant temperature drops below the threshold, an alarm will occur. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 8 } airFMSysHighCtrlTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature threshold for air monitored by the System. If the temperature exceeds the threshold, an alarm will occur. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 9 } airFMSysHighCtrlTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high temperature threshold for air monitored by the System. If the temperature exceeds the threshold, an alarm will occur. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 10 } airFMSysLowCtrlTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature threshold for air monitored by the System. If the temperature drops below the threshold, an alarm will occur. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 11 } airFMSysLowCtrlTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low temperature threshold for air monitored by the System. If the temperature drops below the threshold, an alarm will occur. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 12 } airFMSysHighCtrlHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The high humidity threshold for air monitored by the System. If the humidity exceeds the threshold, an alarm will occur. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 13 } airFMSysLowCtrlHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The low humidity threshold for air monitored by the System. If the humidity drops below the threshold, an alarm will occur. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 14 } airFMSysTempAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time the blower must be on before a temperature alarm can be issued. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 15 } airFMSysHumAlarmDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time the blower must be on before a humidity alarm can be issued. Measured in seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysThresholds 16 } -- airFM System Input Contacts airFMSysInputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysInputTable. " ::= { airFMSysInputs 1 } airFMSysInputTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each input contact." ::= { airFMSysInputs 2 } airFMSysInputEntry OBJECT-TYPE SYNTAX AirFMSysInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input contact to obtain status from." INDEX { airFMSysInputIndex } ::= { airFMSysInputTable 1 } AirFMSysInputEntry ::= SEQUENCE { airFMSysInputIndex INTEGER, airFMSysInputName DisplayString, airFMSysInputStatus INTEGER, airFMSysInputNormalState INTEGER, airFMSysInputDelay INTEGER, airFMSysInputAlarmAction INTEGER } airFMSysInputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number designator of the Input Contact." ::= { airFMSysInputEntry 1 } airFMSysInputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The configurable name for the Input Contact. Maximum text input is 13 characters." ::= { airFMSysInputEntry 2 } airFMSysInputStatus OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of this contact: Open or Closed. A violation will occur when this relay is not in its normal state." ::= { airFMSysInputEntry 3 } airFMSysInputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the normal state of this contact (the state when no alarm/event exists)." ::= { airFMSysInputEntry 4 } airFMSysInputDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Set the delay between this contact exiting its normal state and an alarm being triggered. Measured in seconds." ::= { airFMSysInputEntry 5 } airFMSysInputAlarmAction OBJECT-TYPE SYNTAX INTEGER { statusOnly (1), minor (2), major (3), remoteRunStop (4), nonessStop (5), immShutdown (6) } ACCESS read-write STATUS mandatory DESCRIPTION "Sets the behavior for this contact when it exits its normal state." ::= { airFMSysInputEntry 6 } -- airFM System Output Relays airFMSysOutputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysOutputTable. " ::= { airFMSysOutputs 1 } airFMSysOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each output relay. " ::= { airFMSysOutputs 2 } airFMSysOutputEntry OBJECT-TYPE SYNTAX AirFMSysOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The output relay to obtain status from." INDEX { airFMSysOutputIndex } ::= { airFMSysOutputTable 1 } AirFMSysOutputEntry ::= SEQUENCE { airFMSysOutputIndex INTEGER, airFMSysOutputStatus INTEGER, airFMSysOutputNormalState INTEGER } airFMSysOutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number designator of the output relay." ::= { airFMSysOutputEntry 1 } airFMSysOutputStatus OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of this relay: Open or Closed. A violation will occur when this relay is not in its normal state." ::= { airFMSysOutputEntry 2 } airFMSysOutputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the normal state of this relay (the state when no alarm/event exists)." ::= { airFMSysOutputEntry 3 } -- airFM System Output Alarm Mapping airFMSysAlarmMapSysTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysAlarmMapSysTable. " ::= { airFMSysAlarmMapSys 1 } airFMSysAlarmMapSysTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysAlarmMapSysEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting alarm map information." ::= { airFMSysAlarmMapSys 2 } airFMSysAlarmMapSysEntry OBJECT-TYPE SYNTAX AirFMSysAlarmMapSysEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The system alarm map type to reference." INDEX { airFMSysAlarmMapSysOutputIndex } ::= { airFMSysAlarmMapSysTable 1 } AirFMSysAlarmMapSysEntry ::= SEQUENCE { airFMSysAlarmMapSysOutputIndex INTEGER, airFMSysAlarmMapSysAnyAlarm INTEGER, airFMSysAlarmMapSystemOn INTEGER, airFMSysAlarmMapSystemOffline INTEGER, airFMSysAlarmMapSysHighEnvTemp INTEGER, airFMSysAlarmMapSysLowEnvTemp INTEGER, airFMSysAlarmMapSysHighEnvHum INTEGER, airFMSysAlarmMapSysLowEnvHum INTEGER, airFMSysAlarmMapSysFireDet INTEGER, airFMSysAlarmMapSysSmokeDet INTEGER, airFMSysAlarmMapSysEconIsol INTEGER, airFMSysAlarmMapSysSupplySensFail INTEGER, airFMSysAlarmMapSysReturnSensFail INTEGER, airFMSysAlarmMapSysRemSensRemoved INTEGER, airFMSysAlarmMapSysPrimSensFail INTEGER, airFMSysAlarmMapSysSecSensFail INTEGER, airFMSysAlarmMapSysSecSensActive INTEGER } airFMSysAlarmMapSysOutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { airFMSysAlarmMapSysEntry 1 } airFMSysAlarmMapSysAnyAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Any Alarm. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 2 } airFMSysAlarmMapSystemOn OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for System On. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 3 } airFMSysAlarmMapSystemOffline OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for System Offline. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 4 } airFMSysAlarmMapSysHighEnvTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for High Environmental Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 5 } airFMSysAlarmMapSysLowEnvTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Low Environmental Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 6 } airFMSysAlarmMapSysHighEnvHum OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for High Environmental Humidity. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 7 } airFMSysAlarmMapSysLowEnvHum OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Low Environmental Humidity. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 8 } airFMSysAlarmMapSysFireDet OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Fire Detected. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 9 } airFMSysAlarmMapSysSmokeDet OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Smoke Detected. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 10 } airFMSysAlarmMapSysEconIsol OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Econ Isolator. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 11 } airFMSysAlarmMapSysSupplySensFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Supply Sensor Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 12 } airFMSysAlarmMapSysReturnSensFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Return Sensor Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 13 } airFMSysAlarmMapSysRemSensRemoved OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Remote Sensor Removed. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 14 } airFMSysAlarmMapSysPrimSensFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Primary Sensor Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 15 } airFMSysAlarmMapSysSecSensFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Secondary Sensor Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 16 } airFMSysAlarmMapSysSecSensActive OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "System alarm map setting for Secondary Sensor Active. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapSysEntry 17 } -- airFM Main Module Output Alarm Mapping airFMSysAlarmMapMainModTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysAlarmMapMainModTable. " ::= { airFMSysAlarmMapMainMod 1 } airFMSysAlarmMapMainModTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysAlarmMapMainModEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting alarm map information." ::= { airFMSysAlarmMapMainMod 2 } airFMSysAlarmMapMainModEntry OBJECT-TYPE SYNTAX AirFMSysAlarmMapMainModEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The main module alarm map type to reference." INDEX { airFMSysAlarmMapMainModOutputIndex } ::= { airFMSysAlarmMapMainModTable 1 } AirFMSysAlarmMapMainModEntry ::= SEQUENCE { airFMSysAlarmMapMainModOutputIndex INTEGER, airFMSysAlarmMapMainModAnyAlarm INTEGER, airFMSysAlarmMapMainModMaintReq INTEGER, airFMSysAlarmMapMainModCoolFail INTEGER, airFMSysAlarmMapMainModHighSupplyTemp INTEGER, airFMSysAlarmMapMainModLowSupplyTemp INTEGER, airFMSysAlarmMapMainModHumFail INTEGER, airFMSysAlarmMapMainModHumReplCyl INTEGER, airFMSysAlarmMapMainModCondPumpFail INTEGER, airFMSysAlarmMapMainModBlwrCntl1Fail INTEGER, airFMSysAlarmMapMainModBlwrCntl2Fail INTEGER, airFMSysAlarmMapMainModHighFltrDP INTEGER, airFMSysAlarmMapMainModLowAirFlow INTEGER, airFMSysAlarmMapMainModAirBlckIntOpen INTEGER, airFMSysAlarmMapMainModWaterDetected INTEGER } airFMSysAlarmMapMainModOutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { airFMSysAlarmMapMainModEntry 1 } airFMSysAlarmMapMainModAnyAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Any Alarm. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 2 } airFMSysAlarmMapMainModMaintReq OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Module Maintenance Required. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 3 } airFMSysAlarmMapMainModCoolFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Module Cooling Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 4 } airFMSysAlarmMapMainModHighSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for High Supply Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 5 } airFMSysAlarmMapMainModLowSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Low Supply Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 6 } airFMSysAlarmMapMainModHumFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Humidifier Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 7 } airFMSysAlarmMapMainModHumReplCyl OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Humidifier Replace Cylinder. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 8 } airFMSysAlarmMapMainModCondPumpFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Condensate Pump Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 9 } airFMSysAlarmMapMainModBlwrCntl1Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Blower Controller 1 Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 10 } airFMSysAlarmMapMainModBlwrCntl2Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Blower Controller 2 Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 11 } airFMSysAlarmMapMainModHighFltrDP OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for High Filter Differential Pressure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 12 } airFMSysAlarmMapMainModLowAirFlow OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Low Air Flow. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 13 } airFMSysAlarmMapMainModAirBlckIntOpen OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Air Block Interlock Open. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 14 } airFMSysAlarmMapMainModWaterDetected OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Main Module alarm map setting for Water Detected. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapMainModEntry 15 } -- airFM Exp Module 1 Output Alarm Mapping airFMSysAlarmMapExpMod1TableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysAlarmMapExpMod1Table. " ::= { airFMSysAlarmMapExpMod1 1 } airFMSysAlarmMapExpMod1Table OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysAlarmMapExpMod1Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting alarm map information." ::= { airFMSysAlarmMapExpMod1 2 } airFMSysAlarmMapExpMod1Entry OBJECT-TYPE SYNTAX AirFMSysAlarmMapExpMod1Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "The expansion module 1 alarm map type to reference." INDEX { airFMSysAlarmMapExpMod1OutputIndex } ::= { airFMSysAlarmMapExpMod1Table 1 } AirFMSysAlarmMapExpMod1Entry ::= SEQUENCE { airFMSysAlarmMapExpMod1OutputIndex INTEGER, airFMSysAlarmMapExpMod1AnyAlarm INTEGER, airFMSysAlarmMapExpMod1MaintReq INTEGER, airFMSysAlarmMapExpMod1CoolFail INTEGER, airFMSysAlarmMapExpMod1HighSupplyTemp INTEGER, airFMSysAlarmMapExpMod1LowSupplyTemp INTEGER, airFMSysAlarmMapExpMod1HumFail INTEGER, airFMSysAlarmMapExpMod1HumReplCyl INTEGER, airFMSysAlarmMapExpMod1CondPumpFail INTEGER, airFMSysAlarmMapExpMod1BlwrCntl1Fail INTEGER, airFMSysAlarmMapExpMod1BlwrCntl2Fail INTEGER, airFMSysAlarmMapExpMod1HighFltrDP INTEGER, airFMSysAlarmMapExpMod1LowAirFlow INTEGER, airFMSysAlarmMapExpMod1AirBlckIntOpen INTEGER, airFMSysAlarmMapExpMod1WaterDetected INTEGER } airFMSysAlarmMapExpMod1OutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { airFMSysAlarmMapExpMod1Entry 1 } airFMSysAlarmMapExpMod1AnyAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Any Alarm. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 2 } airFMSysAlarmMapExpMod1MaintReq OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Module Maintenance Required. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 3 } airFMSysAlarmMapExpMod1CoolFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Module Cooling Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 4 } airFMSysAlarmMapExpMod1HighSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for High Supply Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 5 } airFMSysAlarmMapExpMod1LowSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Low Supply Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 6 } airFMSysAlarmMapExpMod1HumFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Humidifier Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 7 } airFMSysAlarmMapExpMod1HumReplCyl OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Humidifier Replace Cylinder. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 8 } airFMSysAlarmMapExpMod1CondPumpFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Condensate Pump Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 9 } airFMSysAlarmMapExpMod1BlwrCntl1Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Blower Controller 1 Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 10 } airFMSysAlarmMapExpMod1BlwrCntl2Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Blower Controller 2 Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 11 } airFMSysAlarmMapExpMod1HighFltrDP OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for High Filter Differential Pressure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 12 } airFMSysAlarmMapExpMod1LowAirFlow OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Low Air Flow. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 13 } airFMSysAlarmMapExpMod1AirBlckIntOpen OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Air Block Interlock Open. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 14 } airFMSysAlarmMapExpMod1WaterDetected OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 1 alarm map setting for Water Detected. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod1Entry 15 } -- airFM Expansion Module 2 Output Alarm Mapping airFMSysAlarmMapExpMod2TableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysAlarmMapExpMod2Table." ::= { airFMSysAlarmMapExpMod2 1 } airFMSysAlarmMapExpMod2Table OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysAlarmMapExpMod2Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting alarm map information." ::= { airFMSysAlarmMapExpMod2 2 } airFMSysAlarmMapExpMod2Entry OBJECT-TYPE SYNTAX AirFMSysAlarmMapExpMod2Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "The expansion module 2 alarm map type to reference." INDEX { airFMSysAlarmMapExpMod2OutputIndex } ::= { airFMSysAlarmMapExpMod2Table 1 } AirFMSysAlarmMapExpMod2Entry ::= SEQUENCE { airFMSysAlarmMapExpMod2OutputIndex INTEGER, airFMSysAlarmMapExpMod2AnyAlarm INTEGER, airFMSysAlarmMapExpMod2MaintReq INTEGER, airFMSysAlarmMapExpMod2CoolFail INTEGER, airFMSysAlarmMapExpMod2HighSupplyTemp INTEGER, airFMSysAlarmMapExpMod2LowSupplyTemp INTEGER, airFMSysAlarmMapExpMod2HumFail INTEGER, airFMSysAlarmMapExpMod2HumReplCyl INTEGER, airFMSysAlarmMapExpMod2CondPumpFail INTEGER, airFMSysAlarmMapExpMod2BlwrCntl1Fail INTEGER, airFMSysAlarmMapExpMod2BlwrCntl2Fail INTEGER, airFMSysAlarmMapExpMod2HighFltrDP INTEGER, airFMSysAlarmMapExpMod2LowAirFlow INTEGER, airFMSysAlarmMapExpMod2AirBlckIntOpen INTEGER, airFMSysAlarmMapExpMod2WaterDetected INTEGER } airFMSysAlarmMapExpMod2OutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { airFMSysAlarmMapExpMod2Entry 1 } airFMSysAlarmMapExpMod2AnyAlarm OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Any Alarm. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 2 } airFMSysAlarmMapExpMod2MaintReq OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Module Maintenance Required. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 3 } airFMSysAlarmMapExpMod2CoolFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Module Cooling Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 4 } airFMSysAlarmMapExpMod2HighSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for High Supply Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 5 } airFMSysAlarmMapExpMod2LowSupplyTemp OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Low Supply Temperature. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 6 } airFMSysAlarmMapExpMod2HumFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Humidifier Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 7 } airFMSysAlarmMapExpMod2HumReplCyl OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Humidifier Replace Cylinder. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 8 } airFMSysAlarmMapExpMod2CondPumpFail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Condensate Pump Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 9 } airFMSysAlarmMapExpMod2BlwrCntl1Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Blower Controller 1 Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 10 } airFMSysAlarmMapExpMod2BlwrCntl2Fail OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Blower Controller 2 Failure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 11 } airFMSysAlarmMapExpMod2HighFltrDP OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for High Filter Differential Pressure. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 12 } airFMSysAlarmMapExpMod2LowAirFlow OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Low Air Flow. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 13 } airFMSysAlarmMapExpMod2AirBlckIntOpen OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Air Block Interlock Open. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 14 } airFMSysAlarmMapExpMod2WaterDetected OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Exp Module 2 alarm map setting for Water Detected. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapExpMod2Entry 15 } -- airFM Input Alarm Mapping airFMSysAlarmMapInputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysAlarmMapInputTable. " ::= { airFMSysAlarmMapInput 1 } airFMSysAlarmMapInputTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysAlarmMapInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting alarm map information." ::= { airFMSysAlarmMapInput 2 } airFMSysAlarmMapInputEntry OBJECT-TYPE SYNTAX AirFMSysAlarmMapInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input contact alarm map type to reference." INDEX { airFMSysAlarmMapInputOutputIndex } ::= { airFMSysAlarmMapInputTable 1 } AirFMSysAlarmMapInputEntry ::= SEQUENCE { airFMSysAlarmMapInputOutputIndex INTEGER, airFMSysAlarmMapInput1 INTEGER, airFMSysAlarmMapInput2 INTEGER, airFMSysAlarmMapInput3 INTEGER, airFMSysAlarmMapInput4 INTEGER, airFMSysAlarmMapInput5 INTEGER, airFMSysAlarmMapInput6 INTEGER, airFMSysAlarmMapInput7 INTEGER, airFMSysAlarmMapInput8 INTEGER, airFMSysAlarmMapInput9 INTEGER, airFMSysAlarmMapInput10 INTEGER, airFMSysAlarmMapInput11 INTEGER, airFMSysAlarmMapInput12 INTEGER, airFMSysAlarmMapInput13 INTEGER, airFMSysAlarmMapInput14 INTEGER, airFMSysAlarmMapInput15 INTEGER, airFMSysAlarmMapInput16 INTEGER } airFMSysAlarmMapInputOutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { airFMSysAlarmMapInputEntry 1 } airFMSysAlarmMapInput1 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 1 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 2 } airFMSysAlarmMapInput2 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 2 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 3 } airFMSysAlarmMapInput3 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 3 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 4 } airFMSysAlarmMapInput4 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 4 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 5 } airFMSysAlarmMapInput5 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 5 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 6 } airFMSysAlarmMapInput6 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 6 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 7 } airFMSysAlarmMapInput7 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 7 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 8 } airFMSysAlarmMapInput8 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 8 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 9 } airFMSysAlarmMapInput9 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 9 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 10 } airFMSysAlarmMapInput10 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 10 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 11 } airFMSysAlarmMapInput11 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 11 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 12 } airFMSysAlarmMapInput12 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 12 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 13 } airFMSysAlarmMapInput13 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 13 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 14 } airFMSysAlarmMapInput14 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 14 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 15 } airFMSysAlarmMapInput15 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 15 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 16 } airFMSysAlarmMapInput16 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Input contact 16 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapInputEntry 17 } -- airFM Output Alarm Mapping airFMSysAlarmMapOutputTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMSysAlarmMapOutputTable. " ::= { airFMSysAlarmMapOutput 1 } airFMSysAlarmMapOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMSysAlarmMapOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting alarm map information." ::= { airFMSysAlarmMapOutput 2 } airFMSysAlarmMapOutputEntry OBJECT-TYPE SYNTAX AirFMSysAlarmMapOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input contact alarm map type to reference." INDEX { airFMSysAlarmMapOutputIndex } ::= { airFMSysAlarmMapOutputTable 1 } AirFMSysAlarmMapOutputEntry ::= SEQUENCE { airFMSysAlarmMapOutputIndex INTEGER, airFMSysAlarmMapOutput1 INTEGER, airFMSysAlarmMapOutput2 INTEGER, airFMSysAlarmMapOutput3 INTEGER, airFMSysAlarmMapOutput4 INTEGER, airFMSysAlarmMapOutput5 INTEGER, airFMSysAlarmMapOutput6 INTEGER, airFMSysAlarmMapOutput7 INTEGER, airFMSysAlarmMapOutput8 INTEGER, airFMSysAlarmMapOutput9 INTEGER, airFMSysAlarmMapOutput10 INTEGER, airFMSysAlarmMapOutput11 INTEGER, airFMSysAlarmMapOutput12 INTEGER, airFMSysAlarmMapOutput13 INTEGER, airFMSysAlarmMapOutput14 INTEGER, airFMSysAlarmMapOutput15 INTEGER, airFMSysAlarmMapOutput16 INTEGER } airFMSysAlarmMapOutputIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the output relay." ::= { airFMSysAlarmMapOutputEntry 1 } airFMSysAlarmMapOutput1 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 1 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 2 } airFMSysAlarmMapOutput2 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 2 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 3 } airFMSysAlarmMapOutput3 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 3 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 4 } airFMSysAlarmMapOutput4 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 4 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 5 } airFMSysAlarmMapOutput5 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 5 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 6 } airFMSysAlarmMapOutput6 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 6 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 7 } airFMSysAlarmMapOutput7 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 7 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 8 } airFMSysAlarmMapOutput8 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 8 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 9 } airFMSysAlarmMapOutput9 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 9 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 10 } airFMSysAlarmMapOutput10 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 10 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 11 } airFMSysAlarmMapOutput11 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 11 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 12 } airFMSysAlarmMapOutput12 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 12 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 13 } airFMSysAlarmMapOutput13 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 13 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 14 } airFMSysAlarmMapOutput14 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 14 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 15 } airFMSysAlarmMapOutput15 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 15 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 16 } airFMSysAlarmMapOutput16 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), disabled (2), enabled (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Output relay 16 alarm map setting. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMSysAlarmMapOutputEntry 17 } -- airFM Module Identification Table airFMModIdentTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModIdentTable. " ::= { airFMModIdent 1 } airFMModIdentTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModIdent 2 } airFMModIdentEntry OBJECT-TYPE SYNTAX AirFMModIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModIdentModuleIndex } ::= { airFMModIdentTable 1 } AirFMModIdentEntry ::= SEQUENCE { airFMModIdentModuleIndex INTEGER, airFMModModelNumber DisplayString, airFMModSerialNumber DisplayString, airFMModManufactureDate DisplayString, airFMModFirmwareRev DisplayString, airFMModHardwareRev DisplayString } airFMModIdentModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModIdentEntry 1 } airFMModModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Model number of the Module." ::= { airFMModIdentEntry 2 } airFMModSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Unique identification number for this Module." ::= { airFMModIdentEntry 3 } airFMModManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Date the Module was manufactured." ::= { airFMModIdentEntry 4 } airFMModFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Revision number of the firmware installed on this Module." ::= { airFMModIdentEntry 5 } airFMModHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Revision number of the hardware installed on this Module." ::= { airFMModIdentEntry 6 } -- airFM Module Status Table airFMModStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModStatusTable. " ::= { airFMModStatus 1 } airFMModStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModStatus 2 } airFMModStatusEntry OBJECT-TYPE SYNTAX AirFMModStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModStatusModuleIndex } ::= { airFMModStatusTable 1 } AirFMModStatusEntry ::= SEQUENCE { airFMModStatusModuleIndex INTEGER, airFMModSupplyTempC INTEGER, airFMModSupplyTempF INTEGER, airFMModSupplyHum INTEGER, airFMModReturnTempC INTEGER, airFMModReturnTempF INTEGER, airFMModReturnHum INTEGER, airFMModFilterDiffPresPa INTEGER, airFMModFilterDiffPresInWC INTEGER, airFMModCoilDiffPresPa INTEGER, airFMModCoilDiffPresInWC INTEGER } airFMModStatusModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModStatusEntry 1 } airFMModSupplyTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature measured at the supply sensor. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 2 } airFMModSupplyTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature measured at the supply sensor. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 3 } airFMModSupplyHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The humidity measured at the supply sensor. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 4 } airFMModReturnTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature measured at the return sensor. Measured in tenths of degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 5 } airFMModReturnTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature measured at the return sensor. Measured in tenths of degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 6 } airFMModReturnHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The humidity measured at the return sensor. Measured in tenths of percent relative humidity. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 7 } airFMModFilterDiffPresPa OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The difference in pressure on either side of the air filters. A high differential pressure indicates a clogged filter. Measured in Pascals. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 8 } airFMModFilterDiffPresInWC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The difference in pressure on either side of the air filters. A high differential pressure indicates a clogged filter. Measured in hundredths of inches water column. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 9 } airFMModCoilDiffPresPa OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The difference in pressure on either side of the cooling/dehumidification coils. Measured in Pascals. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 10 } airFMModCoilDiffPresInWC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The difference in pressure on either side of the cooling/dehumidification coils. Measured in hundredths of inches water column. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModStatusEntry 11 } -- airFM Module Properties Table airFMModPropTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModPropTable. " ::= { airFMModProperties 1 } airFMModPropTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModPropEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModProperties 2 } airFMModPropEntry OBJECT-TYPE SYNTAX AirFMModPropEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModPropModuleIndex } ::= { airFMModPropTable 1 } AirFMModPropEntry ::= SEQUENCE { airFMModPropModuleIndex INTEGER, airFMModOutputCapacity INTEGER, airFMModCapacityCtrl INTEGER, airFMModHeaterType INTEGER, airFMModElectricHeaterType INTEGER, airFMModHumidifierType INTEGER, airFMModBlwrFreqSetting INTEGER, airFMModNomCoilDiffPresPa INTEGER, airFMModNomCoilDiffPresInWC INTEGER, airFMModCondPump INTEGER, airFMModFireDetector INTEGER, airFMModSmokeDetector INTEGER, airFMModWaterDetector INTEGER } airFMModPropModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModPropEntry 1 } airFMModOutputCapacity OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), kw45 (2), kw35 (3), kw40 (4), kw50 (5), kw80 (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The cooling capacity (in Kilowatts) of the displayed Module. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 2 } airFMModCapacityCtrl OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), tandem (2), hotGasBypass (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The method used to load and unload the compressors. Tandem compressor Modules use two stages (one compressor each). Single compressor Modules use hot gas bypass. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 3 } airFMModHeaterType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), electricSCR (3), steam (4), hotWaterOnOff (5), hotGasReheat (6), hotGasAndElectric (7), hotWaterProp (8) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of reheating device installed in this Module. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 4 } airFMModElectricHeaterType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), kw10 (2), kw15 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type/capacity of the electric heater, if installed. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 5 } airFMModHumidifierType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), steamElectrode (3), liveSteam (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of equipment installed in the Module to run the humidification mode. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 6 } airFMModBlwrFreqSetting OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Frequency of the blower in tenths of hertz. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 7 } airFMModNomCoilDiffPresPa OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The difference in pressure on either side of the cooling/dehumidification coils. Measured in Pascals. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 8 } airFMModNomCoilDiffPresInWC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The difference in pressure on either side of the cooling/dehumidification coils. Measured in hundredths of inches water column. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 9 } airFMModCondPump OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), notPresent (2), present (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the presence of a condensate pump in the Modules of this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 10 } airFMModFireDetector OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), notPresent (2), present (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the presence of a fire detector for each of the Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 11 } airFMModSmokeDetector OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), notPresent (2), present (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the presence of a smoke detector for each of the Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 12 } airFMModWaterDetector OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), notPresent (2), present (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the presence of a water leak detector for each of the Modules in this System. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModPropEntry 13 } -- airFM Module Cooling Table airFMModCoolTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModCoolTable. " ::= { airFMModCooling 1 } airFMModCoolTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModCoolEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModCooling 2 } airFMModCoolEntry OBJECT-TYPE SYNTAX AirFMModCoolEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModCoolModuleIndex } ::= { airFMModCoolTable 1 } AirFMModCoolEntry ::= SEQUENCE { airFMModCoolModuleIndex INTEGER, airFMModComp1 INTEGER, airFMModComp2 INTEGER, airFMModSuctPresKPa INTEGER, airFMModSuctPresPSI INTEGER, airFMModDischPresKPa INTEGER, airFMModDischPresPSI INTEGER, airFMModCondFluidVlvPos INTEGER, airFMModCoilFluidVlvPos INTEGER } airFMModCoolModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModCoolEntry 1 } airFMModComp1 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), on (2), off (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of compressor 1 of the tandem compressor unit (on or off). A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 2 } airFMModComp2 OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), on (2), off (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of compressor 2 of the tandem compressor unit (on or off). A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 3 } airFMModSuctPresKPa OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The refrigerant pressure measured at the suction inlet of the compressor. Measured in kiloPascals. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 4 } airFMModSuctPresPSI OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The refrigerant pressure measured at the suction inlet of the compressor. Measured in pounds per square inch. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 5 } airFMModDischPresKPa OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The refrigerant pressure measured at the discharge outlet of the compressor. Measured in kiloPascals. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 6 } airFMModDischPresPSI OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The refrigerant pressure measured at the discharge outlet of the compressor. Measured in pounds per square inch. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 7 } airFMModCondFluidVlvPos OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position of the condenser fluid valve. The valve regulates the flow of liquid coolant into the heat exchanger (condenser). 100% indicates the valve is completely open, and 0% indicates that the valve is closed. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 8 } airFMModCoilFluidVlvPos OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position of the coil fluid valve. The valve regulates the flow of liquid coolant in the fluid cooling coil (MultiCool, Economizer, or Chilled Water). 100% indicates the valve is completely open, and 0% indicates that the valve is closed. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModCoolEntry 9 } -- airFM Module Humidity Control Table airFMModHumTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModHumTable. " ::= { airFMModHumidity 1 } airFMModHumTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModHumEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModHumidity 2 } airFMModHumEntry OBJECT-TYPE SYNTAX AirFMModHumEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModHumModuleIndex } ::= { airFMModHumTable 1 } AirFMModHumEntry ::= SEQUENCE { airFMModHumModuleIndex INTEGER, airFMModHumidifier INTEGER, airFMModElectrodeCurrent INTEGER, airFMModHumActualOutput INTEGER, airFMModWaterConductivity INTEGER, airFMModHotWaterVlvPos INTEGER, airFMModStmElectHumMode INTEGER } airFMModHumModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModHumEntry 1 } airFMModHumidifier OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), none (2), steamElectrode (3), liveSteam (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of equipment installed in the Module to run the humidification mode. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModHumEntry 2 } airFMModElectrodeCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current drawn by the electrodes of the steam cylinder humidifier. Measured in tenths of amps. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModHumEntry 3 } airFMModHumActualOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The humidification output of an individual Module. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModHumEntry 4 } airFMModWaterConductivity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The conductivity of the water in the humidifier cylinder. Measured in microSiemens per centimeter. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModHumEntry 5 } airFMModHotWaterVlvPos OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position of the hot water valve. 100% indicates the valve is completely open, and 0% indicates that the valve is closed. Measured in percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModHumEntry 6 } airFMModStmElectHumMode OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), off (2), auto (3), drain (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Set the humidifier function mode. Off: Remove power from electrodes. Auto: Humidifier controlled by Module controller. Drain: Remove power from electrodes and drain the cylinder. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModHumEntry 7 } -- airFM Module Blower 1 Table airFMModBlwr1TableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModBlwr1Table. " ::= { airFMModBlower1 1 } airFMModBlwr1Table OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModBlwr1Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModBlower1 2 } airFMModBlwr1Entry OBJECT-TYPE SYNTAX AirFMModBlwr1Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModBlwr1ModuleIndex } ::= { airFMModBlwr1Table 1 } AirFMModBlwr1Entry ::= SEQUENCE { airFMModBlwr1ModuleIndex INTEGER, airFMModBlwr1CtrlType INTEGER, airFMModBlwr1CmdFreq INTEGER, airFMModBlwr1ActFreq INTEGER, airFMModBlwr1Poles INTEGER, airFMModBlwr1RatedHorsePower INTEGER, airFMModBlwr1RatedCurrent INTEGER, airFMModBlwr1ActTorq INTEGER, airFMModBlwr1Current INTEGER, airFMModBlwr1Vlt INTEGER, airFMModBlwr1DCLinkVlt INTEGER, airFMModBlwr1AccTime INTEGER, airFMModBlwr1DecTime INTEGER, airFMModBlwr1CapLife INTEGER, airFMModBlwr1CtrlCoolFanLife INTEGER, airFMModBlwr1ElOvMode INTEGER, airFMModBlwr1ElOvSetting INTEGER, airFMModBlwr1ElOvTimeConst INTEGER, airFMModBlwr1FanPower INTEGER, airFMModBlwr1HeatsinkTempC INTEGER, airFMModBlwr1HeatsinkTempF INTEGER, airFMModBlwr1ChokeTempC INTEGER, airFMModBlwr1ChokeTempF INTEGER, airFMModBlwr1InverterTempC INTEGER, airFMModBlwr1InverterTempF INTEGER } airFMModBlwr1ModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModBlwr1Entry 1 } airFMModBlwr1CtrlType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), fujiVFD (2), ecController (3), danfossVFD (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of blower controller. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 2 } airFMModBlwr1CmdFreq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The requested operating frequency for the blower. Measured in tenths of hertz. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 3 } airFMModBlwr1ActFreq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frequency at which the blower controller is operating. Measured in tenths of hertz. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 4 } airFMModBlwr1Poles OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of poles of the blower motor that the blower controller is controlling. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 5 } airFMModBlwr1RatedHorsePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power rating of the blower motor. Measured in hundredths of horsepower. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 6 } airFMModBlwr1RatedCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current rating of the blower motor. Measured in hundredths of amps. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 7 } airFMModBlwr1ActTorq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual torque of the blower motor. Measured in hundredths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 8 } airFMModBlwr1Current OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percent of rated current drawn by the blower motor. Measured in hundredths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 9 } airFMModBlwr1Vlt OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage supplied to the blower motor. Measured in tenths of volts RMS. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 10 } airFMModBlwr1DCLinkVlt OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage of the blower controller's DC bus. Measured in volts DC. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 11 } airFMModBlwr1AccTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time to accelerate the blower to the specified frequency. Measured in tenths of seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 12 } airFMModBlwr1DecTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time to decelerate the blower frequency to zero. Measured in tenths of seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 13 } airFMModBlwr1CapLife OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The remaining life of the main circuit capacitor. Measured in tenths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 14 } airFMModBlwr1CtrlCoolFanLife OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total operation time of the blower controller cooling fan. Measured in hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 15 } airFMModBlwr1ElOvMode OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), inactive (2), active (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Enables or disables the electronic overload relay. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 16 } airFMModBlwr1ElOvSetting OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The electronic overload relay is activated when the current exceeds this threshold. Measured in hundredths of amps. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 17 } airFMModBlwr1ElOvTimeConst OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The delay between the current exceeding the overload threshold and the activation of the electronic overload relay. Measured in tenths of minutes. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 18 } airFMModBlwr1FanPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual power of the blower motor. Measured in tenths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 19 } airFMModBlwr1HeatsinkTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the heatsink on the blower controller. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 20 } airFMModBlwr1HeatsinkTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the heatsink on the blower controller. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 21 } airFMModBlwr1ChokeTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the choke on the blower controller. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 22 } airFMModBlwr1ChokeTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the choke on the blower controller. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 23 } airFMModBlwr1InverterTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the inverter on the blower controller. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 24 } airFMModBlwr1InverterTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the inverter on the blower controller. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr1Entry 25 } -- airFM Module Blower 2 Table airFMModBlwr2TableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModBlwr2Table. " ::= { airFMModBlower2 1 } airFMModBlwr2Table OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModBlwr2Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModBlower2 2 } airFMModBlwr2Entry OBJECT-TYPE SYNTAX AirFMModBlwr2Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModBlwr2ModuleIndex } ::= { airFMModBlwr2Table 1 } AirFMModBlwr2Entry ::= SEQUENCE { airFMModBlwr2ModuleIndex INTEGER, airFMModBlwr2CtrlType INTEGER, airFMModBlwr2CmdFreq INTEGER, airFMModBlwr2ActFreq INTEGER, airFMModBlwr2Poles INTEGER, airFMModBlwr2RatedHorsePower INTEGER, airFMModBlwr2RatedCurrent INTEGER, airFMModBlwr2ActTorq INTEGER, airFMModBlwr2Current INTEGER, airFMModBlwr2Vlt INTEGER, airFMModBlwr2DCLinkVlt INTEGER, airFMModBlwr2AccTime INTEGER, airFMModBlwr2DecTime INTEGER, airFMModBlwr2CapLife INTEGER, airFMModBlwr2CtrlCoolFanLife INTEGER, airFMModBlwr2ElOvMode INTEGER, airFMModBlwr2ElOvSetting INTEGER, airFMModBlwr2ElOvTimeConst INTEGER, airFMModBlwr2FanPower INTEGER, airFMModBlwr2HeatsinkTempC INTEGER, airFMModBlwr2HeatsinkTempF INTEGER, airFMModBlwr2ChokeTempC INTEGER, airFMModBlwr2ChokeTempF INTEGER, airFMModBlwr2InverterTempC INTEGER, airFMModBlwr2InverterTempF INTEGER } airFMModBlwr2ModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModBlwr2Entry 1 } airFMModBlwr2CtrlType OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), fujiVFD (2), ecController (3), danfossVFD (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of blower controller. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 2 } airFMModBlwr2CmdFreq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The requested operating frequency for the blower. Measured in tenths of hertz. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 3 } airFMModBlwr2ActFreq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The frequency at which the blower controller is operating. Measured in tenths of hertz. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 4 } airFMModBlwr2Poles OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of poles of the blower motor that the blower controller is controlling. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 5 } airFMModBlwr2RatedHorsePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power rating of the blower motor. Measured in hundredths of horsepower. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 6 } airFMModBlwr2RatedCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current rating of the blower motor. Measured in hundredths of amps. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 7 } airFMModBlwr2ActTorq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual torque of the blower motor. Measured in hundredths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 8 } airFMModBlwr2Current OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percent of rated current drawn by the blower motor. Measured in hundredths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 9 } airFMModBlwr2Vlt OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage supplied to the blower motor. Measured in tenths of volts RMS. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 10 } airFMModBlwr2DCLinkVlt OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The voltage of the blower controller's DC bus. Measured in volts DC. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 11 } airFMModBlwr2AccTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time to accelerate the blower to the specified frequency. Measured in tenths of seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 12 } airFMModBlwr2DecTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time to decelerate the blower frequency to zero. Measured in tenths of seconds. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 13 } airFMModBlwr2CapLife OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The remaining life of the main circuit capacitor. Measured in tenths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 14 } airFMModBlwr2CtrlCoolFanLife OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total operation time of the blower controller cooling fan. Measured in hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 15 } airFMModBlwr2ElOvMode OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), inactive (2), active (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Enables or disables the electronic overload relay. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 16 } airFMModBlwr2ElOvSetting OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The electronic overload relay is activated when the current exceeds this threshold. Measured in hundredths of amps. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 17 } airFMModBlwr2ElOvTimeConst OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The delay between the current exceeding the overload threshold and the activation of the electronic overload relay. Measured in tenths of minutes. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 18 } airFMModBlwr2FanPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual power of the blower motor. Measured in tenths of percent. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 19 } airFMModBlwr2HeatsinkTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the heatsink on the blower controller. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 20 } airFMModBlwr2HeatsinkTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the heatsink on the blower controller. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 21 } airFMModBlwr2ChokeTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the choke on the blower controller. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 22 } airFMModBlwr2ChokeTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the choke on the blower controller. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 23 } airFMModBlwr2InverterTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the inverter on the blower controller. Measured in degrees Celsius. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 24 } airFMModBlwr2InverterTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the inverter on the blower controller. Measured in degrees Fahrenheit. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModBlwr2Entry 25 } -- airFM Module Run Hours Table airFMModRHTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModRHTable. " ::= { airFMModRunHours 1 } airFMModRHTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModRHEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModRunHours 2 } airFMModRHEntry OBJECT-TYPE SYNTAX AirFMModRHEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModRHModuleIndex } ::= { airFMModRHTable 1 } AirFMModRHEntry ::= SEQUENCE { airFMModRHModuleIndex INTEGER, airFMModRHComp1 INTEGER, airFMModRHComp2 INTEGER, airFMModRHHeater INTEGER, airFMModRHHum INTEGER, airFMModRHBlwr1 INTEGER, airFMModRHBlwr2 INTEGER, airFMModRHBlwrCtrl1 INTEGER, airFMModRHBlwrCtrl2 INTEGER, airFMModRHComp1Reset INTEGER, airFMModRHComp2Reset INTEGER, airFMModRHHeaterReset INTEGER, airFMModRHHumReset INTEGER, airFMModRHBlwr1Reset INTEGER, airFMModRHBlwr2Reset INTEGER } airFMModRHModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModRHEntry 1 } airFMModRHComp1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 1 run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 2 } airFMModRHComp2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 2 run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 3 } airFMModRHHeater OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Heater run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 4 } airFMModRHHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier run hours A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 5 } airFMModRHBlwr1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Blower 1 run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 6 } airFMModRHBlwr2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Blower 2 run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 7 } airFMModRHBlwrCtrl1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Blower Controller 1 run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 8 } airFMModRHBlwrCtrl2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Blower Controller 2 run hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 9 } airFMModRHComp1Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the compressor 1 run hours. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 10 } airFMModRHComp2Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the compressor 2 run hours. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 11 } airFMModRHHeaterReset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the heater run hours. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 12 } airFMModRHHumReset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the humidifier run hours. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 13 } airFMModRHBlwr1Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the blower 1 run hours. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 14 } airFMModRHBlwr2Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the blower 2 run hours. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModRHEntry 15 } -- airFM Module Service Intervals airFMModServIntComp1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for compressor 1. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 1 } airFMModServIntComp2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for compressor 2. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 2 } airFMModServIntHeater OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for the reheat components. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 3 } airFMModServIntHum OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for the humidifier. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 4 } airFMModServIntBlwr1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for blower 1. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 5 } airFMModServIntBlwr2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for blower 2. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 6 } airFMModServIntBlwrCtrl1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for blower controller 1. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 7 } airFMModServIntBlwrCtrl2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interval at which to generate a maintenance alarm for blower controller 2. Values stored in increments of 100 hours. A value of -2147483648 indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntervals 8 } -- airFM Module Service Intervals Reset Table airFMModServIntResetTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the airFMModServIntTable. " ::= { airFMModServIntResets 1 } airFMModServIntResetTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMModServIntResetEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each module in the system. " ::= { airFMModServIntResets 2 } airFMModServIntResetEntry OBJECT-TYPE SYNTAX AirFMModServIntResetEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The module to get information from." INDEX { airFMModServIntResetModuleIndex } ::= { airFMModServIntResetTable 1 } AirFMModServIntResetEntry ::= SEQUENCE { airFMModServIntResetModuleIndex INTEGER, airFMModServIntComp1Reset INTEGER, airFMModServIntComp2Reset INTEGER, airFMModServIntHeaterReset INTEGER, airFMModServIntHumReset INTEGER, airFMModServIntBlwr1Reset INTEGER, airFMModServIntBlwr2Reset INTEGER, airFMModServIntBlwrCtrl1Reset INTEGER, airFMModServIntBlwrCtrl2Reset INTEGER } airFMModServIntResetModuleIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the module." ::= { airFMModServIntResetEntry 1 } airFMModServIntComp1Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the compressor 1 service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 2 } airFMModServIntComp2Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the compressor 2 service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 3 } airFMModServIntHeaterReset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the heater service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 4 } airFMModServIntHumReset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the humidifier service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 5 } airFMModServIntBlwr1Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the blower 1 service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 6 } airFMModServIntBlwr2Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the blower 2 service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 7 } airFMModServIntBlwrCtrl1Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the blower controller 1 service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 8 } airFMModServIntBlwrCtrl2Reset OBJECT-TYPE SYNTAX INTEGER { notApplicable (1), noOperation (2), reset (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the blower controller 2 service interval maintenance alarm. Getting this OID will do nothing and return the noOperation value. A value of notApplicable indicates that this OID does not apply to this device due to its configuration." ::= { airFMModServIntResetEntry 9 } -- airFM Alarms Table airFMAlarmClearActiveGroupAlarms OBJECT-TYPE SYNTAX INTEGER { noOperation (1), clearAlarms (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Clear active group alarms. If alarm conditions are still present, new alarms will be generated for those conditions. Getting this OID will do nothing and return the noOperation value." ::= { airFMAlarms 1 } airFMAlarmClearActiveSysModAlarms OBJECT-TYPE SYNTAX INTEGER { noOperation (1), clearAlarms (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Clear active system and module alarms. If alarm conditions are still present, new alarms will be generated for those conditions. Getting this OID will do nothing and return the noOperation value." ::= { airFMAlarms 2 } airFMAlarmConditionsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active alarm conditions in the airFMAlarmConditionTable." ::= { airFMAlarms 3 } airFMAlarmConditionsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirFMAlarmConditionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of active alarm conditions for the device." ::= { airFMAlarms 4 } airFMAlarmConditionsEntry OBJECT-TYPE SYNTAX AirFMAlarmConditionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Alarm condition specification" INDEX { airFMAlarmConditionsIndex } ::= { airFMAlarmConditionsTable 1 } AirFMAlarmConditionsEntry ::= SEQUENCE { airFMAlarmConditionsIndex INTEGER, airFMAlarmSeverity INTEGER, airFMAlarmType INTEGER, airFMEventCode INTEGER, airFMAlarmDate DisplayString, airFMAlarmTime DisplayString, airFMAlarmDescription DisplayString } airFMAlarmConditionsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Alarm condition index." ::= { airFMAlarmConditionsEntry 1 } airFMAlarmSeverity OBJECT-TYPE SYNTAX INTEGER { informational (1), warningMinor (2), criticalMajor (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Severity of the alarm." ::= { airFMAlarmConditionsEntry 2 } airFMAlarmType OBJECT-TYPE SYNTAX INTEGER { group (1), system (2), mainMod (3), expMod1 (4), expMod2 (5) } ACCESS read-only STATUS mandatory DESCRIPTION "Type of alarm." ::= { airFMAlarmConditionsEntry 3 } airFMEventCode OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "APC event code for the alarm." ::= { airFMAlarmConditionsEntry 4 } airFMAlarmDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Date the alarm was recorded." ::= { airFMAlarmConditionsEntry 5 } airFMAlarmTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Time the alarm was recorded." ::= { airFMAlarmConditionsEntry 6 } airFMAlarmDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) ACCESS read-only STATUS mandatory DESCRIPTION "Description of the alarm." ::= { airFMAlarmConditionsEntry 7 } -- airPA Portable Air Conditioner Ident airPAIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device name." ::= { airPAIdent 1 } airPAModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device model number." ::= { airPAIdent 2 } airPADateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying when the device was produced." ::= { airPAIdent 3 } airPASerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device serial number." ::= { airPAIdent 4 } airPAFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device firmware revision." ::= { airPAIdent 5 } airPAHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device hardware revision." ::= { airPAIdent 6 } -- airPA Portable Air Conditioner Status airPASystemPower OBJECT-TYPE SYNTAX INTEGER { powerON (1), powerOFF (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the unit's system power setting. ON(1) The system power is turned on. OFF(2) The system power is turned off. " ::= { airPAStatus 1 } airPAOperatingMode OBJECT-TYPE SYNTAX INTEGER { modeOFF (1), modeVENTING (2), modeCOOLING (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current operating mode of the unit. OFF(1) The system is off. VENTING(2) The system's venting function is active. COOLING(3) The system's cooling function is active. " ::= { airPAStatus 2 } airPASetpointTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature setpoint in Fahrenheit to which the unit is controlling. " ::= { airPAStatus 3 } airPASetpointTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature setpoint in Celsius to which the unity is controlling. " ::= { airPAStatus 4 } airPABlowerSpeed OBJECT-TYPE SYNTAX INTEGER { speedLOW (1), speedHIGH (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The unit's blower speed setting. LOW(1) The blower speed is low. HIGH(2) The blower speed is high. " ::= { airPAStatus 5 } airPACompressor OBJECT-TYPE SYNTAX INTEGER { statusON (1), statusOFF (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The unit's compressor status. ON(1) The compressor is turned on. OFF(2) The compressor is turned off. " ::= { airPAStatus 6 } airPACondenserFan OBJECT-TYPE SYNTAX INTEGER { statusON (1), statusOFF (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The unit's condenser fan status. ON(1) The condenser fan is turned on. OFF(2) The condenser fan is turned off. " ::= { airPAStatus 7 } airPACondensatePump OBJECT-TYPE SYNTAX INTEGER { statusON (1), statusOFF (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The unit's condensate pump status. ON(1) The condensate pump is turned on. OFF(2) The condensate pump is turned off. " ::= { airPAStatus 8 } airPASupplyTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The supply temperature in degrees Fahrenheit. " ::= { airPAStatus 9 } airPASupplyTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The supply temperature in degrees Celsius. " ::= { airPAStatus 10 } airPAReturnTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The return temperature in degrees Fahrenheit. " ::= { airPAStatus 11 } airPAReturnTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The return temperature in degrees Celsius. " ::= { airPAStatus 12 } airPARemoteTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The remote temperature in degrees Fahrenheit. " ::= { airPAStatus 13 } airPARemoteTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The remote temperature in degrees Celsius. " ::= { airPAStatus 14 } airPARemoteHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The remote humidity. " ::= { airPAStatus 15 } -- air InRow Air Conditioners -- airIR AIR CONDITIONER Alarm Status - shared across all IR products airIRAlarmConditionsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active alarm conditions in the airIRAlarmConditionTable." ::= { airIRAlarms 1 } airIRAlarmConditionsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRAlarmConditionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of active alarm conditions for the device." ::= { airIRAlarms 2 } airIRAlarmConditionsEntry OBJECT-TYPE SYNTAX AirIRAlarmConditionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Alarm condition specification" INDEX { airIRAlarmConditionsIndex } ::= { airIRAlarmConditionsTable 1 } AirIRAlarmConditionsEntry ::= SEQUENCE { airIRAlarmConditionsIndex INTEGER, airIREventCode INTEGER, airIRAlarmDescription DisplayString } airIRAlarmConditionsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Alarm condition index." ::= { airIRAlarmConditionsEntry 1 } airIREventCode OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Code for the alarm." ::= { airIRAlarmConditionsEntry 2 } airIRAlarmDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) ACCESS read-only STATUS mandatory DESCRIPTION "Description of the alarm." ::= { airIRAlarmConditionsEntry 3 } -- airIRRC AIR CONDITIONER Group Status airIRRCGroupStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group coolant output in tenths of kW." ::= { airIRRCGroupStatus 1 } airIRRCGroupStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group coolant demand in tenths of kW." ::= { airIRRCGroupStatus 2 } airIRRCGroupStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group air flow in cubic feet per minute." ::= { airIRRCGroupStatus 3 } airIRRCGroupStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group air flow in liters per second." ::= { airIRRCGroupStatus 4 } airIRRCGroupStatusMaxRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group maximum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRCGroupStatus 5 } airIRRCGroupStatusMaxRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group maximum rack inlet temperature in tenths of degrees Celsius." ::= { airIRRCGroupStatus 6 } airIRRCGroupStatusMinRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group minimum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRCGroupStatus 7 } airIRRCGroupStatusMinRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group minimum rack inlet temperature in tenths of degrees Celsius." ::= { airIRRCGroupStatus 8 } airIRRCGroupStatusActiveFlowControlStatus OBJECT-TYPE SYNTAX INTEGER { under (1), okay (2), over (3), notApplicable (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the active flow control system." ::= { airIRRCGroupStatus 9 } -- airIRRC AIR CONDITIONER Group Setpoints airIRRCGroupSetpointsCoolUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRRCGroupSetpoints 1 } airIRRCGroupSetpointsCoolMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Celsius." ::= { airIRRCGroupSetpoints 2 } airIRRCGroupSetpointsSupplyAirUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRRCGroupSetpoints 3 } airIRRCGroupSetpointsSupplyAirMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRRCGroupSetpoints 4 } airIRRCGroupSetpointsFanSpeedPreference OBJECT-TYPE SYNTAX INTEGER { low (1), med-low (2), med (3), med-high (4), high (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The preferred fan speed setting." ::= { airIRRCGroupSetpoints 5 } airIRRCGroupSetpointsFanSpeedControl OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The fan speed control setting. Automatic(1) - controller manages fan speed. Manual(2) - fan speed is fixed and set by the fan speed preference. See airIRRCGroupSetpointsFanSpeedPreference." ::= { airIRRCGroupSetpoints 6 } airIRRCGroupSetpointsActiveFlowControlBias OBJECT-TYPE SYNTAX INTEGER { positive (1), slightlyPositive (2), zero (3), slightlyNegative (4), negative (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The active flow control bias setting." ::= { airIRRCGroupSetpoints 7 } -- airIRRC AIR CONDITIONER Group Config airIRRCGroupConfigNumberofCoolingUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cooling units present in the group." ::= { airIRRCGroupConfig 1 } airIRRCGroupConfigConfigurationType OBJECT-TYPE SYNTAX INTEGER { racs (1), hacs (2), in-row (3), cacs (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The group configuration type." ::= { airIRRCGroupConfig 2 } airIRRCGroupConfigPctGlycol OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The glycol mixture in percent." ::= { airIRRCGroupConfig 3 } airIRRCGroupConfigCoolGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the PID in hundredths." ::= { airIRRCGroupConfig 4 } airIRRCGroupConfigCoolResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the PID in hundredths." ::= { airIRRCGroupConfig 5 } airIRRCGroupConfigCoolDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the PID in hundredths." ::= { airIRRCGroupConfig 6 } airIRRCGroupConfigMaxFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum desired fan speed setting in percent." ::= { airIRRCGroupConfig 7 } airIRRCGroupConfigNumberOfActiveFlowControllers OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of active flow controllers present in the group." ::= { airIRRCGroupConfig 8 } airIRRCGroupConfigActiveFlowControllerLampTest OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Turns off/on the active flow controller lamp test." ::= { airIRRCGroupConfig 9 } airIRRCGroupConfigAltitudeUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The group altitude of the units above sea level in feet." ::= { airIRRCGroupConfig 10 } airIRRCGroupConfigAltitudeMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The group altitude of the units above sea level in meters." ::= { airIRRCGroupConfig 11 } -- airIRRC AIR CONDITIONER UNIT Status airIRRCUnitStatusOperateMode OBJECT-TYPE SYNTAX INTEGER { standby (1), on (2), idle (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The cooling unit operating mode." ::= { airIRRCUnitStatus 1 } airIRRCUnitStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling output in tenths of kW." ::= { airIRRCUnitStatus 2 } airIRRCUnitStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling demand in tenths of kW." ::= { airIRRCUnitStatus 3 } airIRRCUnitStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in cubic feet per minute." ::= { airIRRCUnitStatus 4 } airIRRCUnitStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in hundredths of liters per second." ::= { airIRRCUnitStatus 5 } airIRRCUnitStatusRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRCUnitStatus 6 } airIRRCUnitStatusRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Celsius." ::= { airIRRCUnitStatus 7 } airIRRCUnitStatusSupplyAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Fahrenheit." ::= { airIRRCUnitStatus 8 } airIRRCUnitStatusSupplyAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Celsius." ::= { airIRRCUnitStatus 9 } airIRRCUnitStatusReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Fahrenheit." ::= { airIRRCUnitStatus 10 } airIRRCUnitStatusReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Celsius." ::= { airIRRCUnitStatus 11 } airIRRCUnitStatusContainmtDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in hundredths of inches of water." ::= { airIRRCUnitStatus 12 } airIRRCUnitStatusContainmtDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in Pa." ::= { airIRRCUnitStatus 13 } airIRRCUnitStatusFilterDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in hundredths of inches of water." ::= { airIRRCUnitStatus 14 } airIRRCUnitStatusFilterDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in Pa." ::= { airIRRCUnitStatus 15 } airIRRCUnitStatusFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit average fan speed in tenths of percent." ::= { airIRRCUnitStatus 16 } airIRRCUnitStatusInputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the input contact." ::= { airIRRCUnitStatus 17 } airIRRCUnitStatusOutputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the output relay." ::= { airIRRCUnitStatus 18 } airIRRCUnitStatusActivePowerSource OBJECT-TYPE SYNTAX INTEGER { sourceA (1), sourceB (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The power source that is powering the unit." ::= { airIRRCUnitStatus 19 } airIRRCUnitStatusFluidValvePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid valve position in percent open." ::= { airIRRCUnitStatus 20 } airIRRCUnitStatusFluidFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid flow in tenths of gallons per minute." ::= { airIRRCUnitStatus 21 } airIRRCUnitStatusFluidFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid flow in hundredths of liters per second." ::= { airIRRCUnitStatus 22 } airIRRCUnitStatusEnteringFluidTemperatureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the entering fluid in tenths of degrees Fahrenheit." ::= { airIRRCUnitStatus 23 } airIRRCUnitStatusEnteringFluidTemperatureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the entering fluid in tenths of degrees Celsius." ::= { airIRRCUnitStatus 24 } airIRRCUnitStatusLeavingFluidTemperatureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the Leaving fluid in tenths of degrees Fahrenheit." ::= { airIRRCUnitStatus 25 } airIRRCUnitStatusLeavingFluidTemperatureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the Leaving fluid in tenths of degrees Celsius." ::= { airIRRCUnitStatus 26 } -- airIRRC AIR CONDITIONER UNIT Ident airIRRCUnitIdentID OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The unit identification number." ::= { airIRRCUnitIdent 1 } airIRRCUnitIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRRCUnitIdent 2 } airIRRCUnitIdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRRCUnitIdent 3 } airIRRCUnitIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRRCUnitIdent 4 } airIRRCUnitIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRRCUnitIdent 5 } airIRRCUnitIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRRCUnitIdent 6 } airIRRCUnitIdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRRCUnitIdent 7 } airIRRCUnitIdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRRCUnitIdent 8 } -- airIRRC AIR CONDITIONER UNIT Runhours airIRRCUnitRunHoursAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit air filter run hours." ::= { airIRRCUnitRunHours 1 } airIRRCUnitRunHoursFan1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 1 run hours." ::= { airIRRCUnitRunHours 2 } airIRRCUnitRunHoursFan2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 2 run hours." ::= { airIRRCUnitRunHours 3 } airIRRCUnitRunHoursFan3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 3 run hours." ::= { airIRRCUnitRunHours 4 } airIRRCUnitRunHoursFan4 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 4 run hours." ::= { airIRRCUnitRunHours 5 } airIRRCUnitRunHoursFan5 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 5 run hours." ::= { airIRRCUnitRunHours 6 } airIRRCUnitRunHoursFan6 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 6 run hours." ::= { airIRRCUnitRunHours 7 } airIRRCUnitRunHoursFan7 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 7 run hours." ::= { airIRRCUnitRunHours 8} airIRRCUnitRunHoursFan8 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 8 run hours." ::= { airIRRCUnitRunHours 9 } airIRRCUnitRunHoursFanPowerSupplyLeft OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan left power supply run hours." ::= { airIRRCUnitRunHours 10 } airIRRCUnitRunHoursFanPowerSupplyRight OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan right power supply run hours." ::= { airIRRCUnitRunHours 11 } airIRRCUnitRunHoursCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensate pump run hours." ::= { airIRRCUnitRunHours 12 } -- airIRRC AIR CONDITIONER UNIT Service Intervals airIRRCUnitServiceIntervalsAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Air filter service interval in weeks." ::= { airIRRCUnitServiceIntervals 1 } airIRRCUnitServiceIntervalsAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The air filter service interval alarm enable/disable." ::= { airIRRCUnitServiceIntervals 2 } -- airIRRC AIR CONDITIONER UNIT Thresholds airIRRCUnitThresholdsRackInletHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRCUnitThresholds 1 } airIRRCUnitThresholdsRackInletHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Celsius." ::= { airIRRCUnitThresholds 2 } airIRRCUnitThresholdsSupplyAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRCUnitThresholds 3 } airIRRCUnitThresholdsSupplyAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Celsius." ::= { airIRRCUnitThresholds 4 } airIRRCUnitThresholdsReturnAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRCUnitThresholds 5 } airIRRCUnitThresholdsReturnAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Celsius." ::= { airIRRCUnitThresholds 6 } airIRRCUnitThresholdsEnteringFluidHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit entering fluid high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRCUnitThresholds 7 } airIRRCUnitThresholdsEnteringFluidHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit incoming fluid high temperature threshold in tenths of degrees Celsius." ::= { airIRRCUnitThresholds 8 } -- airIRRC AIR CONDITIONER UNIT Config airIRRCUnitConfigCoolCapacity OBJECT-TYPE SYNTAX INTEGER { automatic (1), maximum (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The cooling capacity options setting." ::= { airIRRCUnitConfig 1 } airIRRCUnitConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The startup delay in seconds." ::= { airIRRCUnitConfig 2 } airIRRCUnitConfigIdleOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The idle on leak options setting." ::= { airIRRCUnitConfig 3 } airIRRCUnitConfigPowerSource OBJECT-TYPE SYNTAX INTEGER { sourceA (1), sourceB (2), sourceAandB (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The configured power source of the unit." ::= { airIRRCUnitConfig 4 } airIRRCUnitConfigInputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the input contact." ::= { airIRRCUnitConfig 5 } airIRRCUnitConfigOutputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the output relay." ::= { airIRRCUnitConfig 6 } airIRRCUnitConfigOutputSource OBJECT-TYPE SYNTAX INTEGER { anyAlarm (1), criticalAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of output relay change." ::= { airIRRCUnitConfig 7 } airIRRCUnitConfigIdleOnCoolFail OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The idle on cool fail options setting. If yes, the system will go into idle mode when a cooling failure is detected. If no, the system will not go into idle mode when a cooling failure is detected. " ::= { airIRRCUnitConfig 8 } -- airIRRP100 AIR CONDITIONER Group Status airIRRP100GroupStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group air flow in cubic feet per minute." ::= { airIRRP100GroupStatus 1 } airIRRP100GroupStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group air flow in liters per second." ::= { airIRRP100GroupStatus 2 } airIRRP100GroupStatusMaxRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group maximum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRP100GroupStatus 3 } airIRRP100GroupStatusMaxRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group maximum rack inlet temperature in tenths of degrees Celsius." ::= { airIRRP100GroupStatus 4 } airIRRP100GroupStatusMinRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group minimum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRP100GroupStatus 5 } airIRRP100GroupStatusMinRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group minimum rack inlet temperature in tenths of degrees Celsius." ::= { airIRRP100GroupStatus 6 } airIRRP100GroupStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group coolant demand in tenths of kiloWatts." ::= { airIRRP100GroupStatus 7 } airIRRP100GroupStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group coolant output in tenths of kiloWatts." ::= { airIRRP100GroupStatus 8 } airIRRP100GroupStatusHumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of humidification the group is demanding from the humidifiers in percent." ::= { airIRRP100GroupStatus 9 } airIRRP100GroupStatusHumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual amount of humidification the group is supplying in percent." ::= { airIRRP100GroupStatus 10 } airIRRP100GroupStatusDehumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of dehumidification the group is demanding from the electric heaters in percent." ::= { airIRRP100GroupStatus 11 } airIRRP100GroupStatusDehumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual amount of dehumidification the group is supplying in percent." ::= { airIRRP100GroupStatus 12 } airIRRP100GroupStatusReheatDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of heating the group is demanding from the electric heaters in percent." ::= { airIRRP100GroupStatus 13 } airIRRP100GroupStatusReheatOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual amount of heating the group is supplying in percent." ::= { airIRRP100GroupStatus 14 } -- airIRRP100 AIR CONDITIONER Group Setpoints airIRRP100GroupSetpointsCoolUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRRP100GroupSetpoints 1 } airIRRP100GroupSetpointsCoolMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Celsius." ::= { airIRRP100GroupSetpoints 2 } airIRRP100GroupSetpointsSupplyAirUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRRP100GroupSetpoints 3 } airIRRP100GroupSetpointsSupplyAirMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRRP100GroupSetpoints 4 } airIRRP100GroupSetpointsHumidify OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group humidify setpoint in tenths of percent relative humidity." ::= { airIRRP100GroupSetpoints 5 } airIRRP100GroupSetpointsDehumidify OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group dehumidify setpoint in tenths of percent relative humidity." ::= { airIRRP100GroupSetpoints 6 } airIRRP100GroupSetpointsDehumidifyDeadband OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group dehumidify deadband in percent relative humidity." ::= { airIRRP100GroupSetpoints 7 } airIRRP100GroupSetpointsReheatUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRRP100GroupSetpoints 8 } airIRRP100GroupSetpointsReheatMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRRP100GroupSetpoints 9 } airIRRP100GroupSetpointsFanSpeedPreference OBJECT-TYPE SYNTAX INTEGER { low (1), med-low (2), med (3), med-high (4), high (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The preferred fan speed setting." ::= { airIRRP100GroupSetpoints 10 } airIRRP100GroupSetpointsFanSpeedControl OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The fan speed control setting." ::= { airIRRP100GroupSetpoints 11 } -- airIRRP100 AIR CONDITIONER Group Config airIRRP100GroupConfigNumberofCoolingUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cooling units present in the group." ::= { airIRRP100GroupConfig 1 } airIRRP100GroupConfigConfigurationType OBJECT-TYPE SYNTAX INTEGER { racs (1), hacs (2), in-row (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The group configuration type." ::= { airIRRP100GroupConfig 2 } airIRRP100GroupConfigCoolGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the cool PID in hundredths." ::= { airIRRP100GroupConfig 3 } airIRRP100GroupConfigCoolResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the cool PID in hundredths." ::= { airIRRP100GroupConfig 4 } airIRRP100GroupConfigCoolDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the cool PID in hundredths." ::= { airIRRP100GroupConfig 5 } airIRRP100GroupConfigHumidifySensitivityBand OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The percent relative humidity below the setpoint that will cause the humidifier to run at 100% capacity." ::= { airIRRP100GroupConfig 6 } airIRRP100GroupConfigReheatGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the reheat PID in hundredths." ::= { airIRRP100GroupConfig 7 } airIRRP100GroupConfigReheatResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the reheat PID in hundredths." ::= { airIRRP100GroupConfig 8 } airIRRP100GroupConfigReheatDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the reheat PID in hundredths." ::= { airIRRP100GroupConfig 9 } airIRRP100GroupConfigNumberofBackupUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of backup units." ::= { airIRRP100GroupConfig 10 } airIRRP100GroupConfigRuntimeBalancingEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable runtime balancing feature." ::= { airIRRP100GroupConfig 11 } airIRRP100GroupConfigLoadAssistEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable load assist feature." ::= { airIRRP100GroupConfig 12 } airIRRP100GroupConfigFullRPBackups OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of full featured RPs that can be used as backup units." ::= { airIRRP100GroupConfig 13 } airIRRP100GroupConfigMaxFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum desired fan speed setting in percent." ::= { airIRRP100GroupConfig 14 } -- airIRRP100 AIR CONDITIONER UNIT Status airIRRP100UnitStatusOperateMode OBJECT-TYPE SYNTAX INTEGER { standby (1), on (2), idle (3), prestart (4), service (5), backup (6), assist (7) } ACCESS read-only STATUS mandatory DESCRIPTION "The cooling unit operating mode." ::= { airIRRP100UnitStatus 1 } airIRRP100UnitStatusRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 2 } airIRRP100UnitStatusRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 3 } airIRRP100UnitStatusSupplyAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 4 } airIRRP100UnitStatusSupplyAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 5 } airIRRP100UnitStatusReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 6 } airIRRP100UnitStatusReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 7 } airIRRP100UnitStatusSupplyHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity of the supply air in tenths of percent." ::= { airIRRP100UnitStatus 8 } airIRRP100UnitStatusReturnHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity of the return air in tenths of percent." ::= { airIRRP100UnitStatus 9 } airIRRP100UnitStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in cubic feet per minute." ::= { airIRRP100UnitStatus 10 } airIRRP100UnitStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in hundredths of liters per second." ::= { airIRRP100UnitStatus 11 } airIRRP100UnitStatusFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit average fan speed in tenths of percent." ::= { airIRRP100UnitStatus 12 } airIRRP100UnitStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling demand in tenths of kiloWatts." ::= { airIRRP100UnitStatus 13 } airIRRP100UnitStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling output in tenths of kiloWatts." ::= { airIRRP100UnitStatus 14 } airIRRP100UnitStatusHumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of humidification the unit is demanding from the humidifier in percent." ::= { airIRRP100UnitStatus 15 } airIRRP100UnitStatusHumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual humidification output of the unit in percent." ::= { airIRRP100UnitStatus 16 } airIRRP100UnitStatusDehumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of dehumidification the unit is demanding in percent." ::= { airIRRP100UnitStatus 17 } airIRRP100UnitStatusDehumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual dehumidification output of the unit in percent." ::= { airIRRP100UnitStatus 18 } airIRRP100UnitStatusReheatDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of heating the unit is demanding from the electric heater in percent." ::= { airIRRP100UnitStatus 19 } airIRRP100UnitStatusReheatOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual heating output of the unit in percent." ::= { airIRRP100UnitStatus 20 } airIRRP100UnitStatusInputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the input contact." ::= { airIRRP100UnitStatus 21 } airIRRP100UnitStatusOutputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the output relay." ::= { airIRRP100UnitStatus 22 } airIRRP100UnitStatusRackInletTemperature1US OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 23 } airIRRP100UnitStatusRackInletTemperature1Metric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 24 } airIRRP100UnitStatusRackInletTemperature2US OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 25 } airIRRP100UnitStatusRackInletTemperature2Metric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 26 } airIRRP100UnitStatusRackInletTemperature3US OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 27 } airIRRP100UnitStatusRackInletTemperature3Metric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 28 } airIRRP100UnitStatusFilterDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in hundredths of inches of water." ::= { airIRRP100UnitStatus 29 } airIRRP100UnitStatusFilterDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in Pa." ::= { airIRRP100UnitStatus 30 } airIRRP100UnitStatusContainmtDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in hundredths of inches of water." ::= { airIRRP100UnitStatus 31 } airIRRP100UnitStatusContainmtDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in Pa." ::= { airIRRP100UnitStatus 32 } airIRRP100UnitStatusHumidifierCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The humidifier current of the unit in amperes." ::= { airIRRP100UnitStatus 33 } airIRRP100UnitStatusHumidifierWaterConductivity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The water conductivity in the humidifier of the unit in microSiemens/cm." ::= { airIRRP100UnitStatus 34 } airIRRP100UnitStatusCompressorDriveSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The compressor drive speed in hundredths of Hertz." ::= { airIRRP100UnitStatus 35 } airIRRP100UnitStatusCompressorDrivePower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The compressor drive power consumption in tenths of kiloWatts." ::= { airIRRP100UnitStatus 36 } airIRRP100UnitStatusCompressorDriveVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The compressor drive voltage consumption in tenths of volts." ::= { airIRRP100UnitStatus 37 } airIRRP100UnitStatusCompressorDriveCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The compressor drive voltage consumption in tenths of amperes." ::= { airIRRP100UnitStatus 38 } airIRRP100UnitStatusCompressorDriveDCLinkVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The compressor drive DC link voltage in tenths of volts." ::= { airIRRP100UnitStatus 39 } airIRRP100UnitStatusCompressorDriveHeatSinkTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the compressor drive heatsink in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 40 } airIRRP100UnitStatusCompressorDriveHeatSinkTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the compressor drive heatsink in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 41 } airIRRP100UnitStatusCompressorDriveControlCardTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the compressor drive control card in tenths of degrees Fahrenheit." ::= { airIRRP100UnitStatus 42 } airIRRP100UnitStatusCompressorDriveControlCardTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the compressor drive control card in tenths of degrees Celsius." ::= { airIRRP100UnitStatus 43 } airIRRP100UnitStatusCompressorDriveWarningStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The four byte warning status of the compressor drive in hexadecimal." ::= { airIRRP100UnitStatus 44 } airIRRP100UnitStatusCompressorDriveAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The four byte alarm status of the compressor drive in hexadecimal." ::= { airIRRP100UnitStatus 45 } airIRRP100UnitStatusSuctionPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit suction pressure in pounds per square inch (PSI)." ::= { airIRRP100UnitStatus 46 } airIRRP100UnitStatusSuctionPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit suction pressure in kiloPascals (kPa)." ::= { airIRRP100UnitStatus 47 } airIRRP100UnitStatusDischargePressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit discharge pressure in pounds per square inch (PSI)." ::= { airIRRP100UnitStatus 48 } airIRRP100UnitStatusDischargePressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit discharge pressure in kiloPascals (kPa)." ::= { airIRRP100UnitStatus 49 } -- airIRRP100 AIR CONDITIONER UNIT Ident airIRRP100UnitIdentID OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The unit identification number." ::= { airIRRP100UnitIdent 1 } airIRRP100UnitIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRRP100UnitIdent 2 } airIRRP100UnitIdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRRP100UnitIdent 3 } airIRRP100UnitIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRRP100UnitIdent 4 } airIRRP100UnitIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRRP100UnitIdent 5 } airIRRP100UnitIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRRP100UnitIdent 6 } airIRRP100UnitIdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRRP100UnitIdent 7 } airIRRP100UnitIdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRRP100UnitIdent 8 } -- airIRRP100 AIR CONDITIONER UNIT Runhours airIRRP100UnitRunHoursAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit air filter run hours." ::= { airIRRP100UnitRunHours 1 } airIRRP100UnitRunHoursCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensate pump run hours." ::= { airIRRP100UnitRunHours 2 } airIRRP100UnitRunHoursHumidifier OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan right power supply run hours." ::= { airIRRP100UnitRunHours 3 } airIRRP100UnitRunHoursFan1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 1 run hours." ::= { airIRRP100UnitRunHours 4 } airIRRP100UnitRunHoursHeater1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit heater 1 run hours." ::= { airIRRP100UnitRunHours 5 } airIRRP100UnitRunHoursFan2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 2 run hours." ::= { airIRRP100UnitRunHours 6 } airIRRP100UnitRunHoursHeater2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit Heater 2 run hours." ::= { airIRRP100UnitRunHours 7 } airIRRP100UnitRunHoursCompressor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit compressor run hours." ::= { airIRRP100UnitRunHours 8 } airIRRP100UnitRunHoursSystem OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total system run hours." ::= { airIRRP100UnitRunHours 9 } -- airIRRP100 AIR CONDITIONER UNIT Service Intervals airIRRP100UnitServiceIntervalAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Air filter service interval in weeks." ::= { airIRRP100UnitServiceIntervals 1 } airIRRP100UnitServiceIntervalAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The air filter service interval alarm enable/disable." ::= { airIRRP100UnitServiceIntervals 2 } airIRRP100UnitServiceIntervalHumidifier OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier service interval in weeks." ::= { airIRRP100UnitServiceIntervals 3 } airIRRP100UnitServiceIntervalHumidifierAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The humidifier service interval alarm enable/disable." ::= { airIRRP100UnitServiceIntervals 4 } airIRRP100UnitServiceIntervalHeater OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Heater service interval in weeks." ::= { airIRRP100UnitServiceIntervals 5 } airIRRP100UnitServiceIntervalHeaterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The heater service interval alarm enable/disable." ::= { airIRRP100UnitServiceIntervals 6 } airIRRP100UnitServiceIntervalCompressor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor service interval in weeks." ::= { airIRRP100UnitServiceIntervals 7 } airIRRP100UnitServiceIntervalCompressorAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The compressor service interval alarm enable/disable." ::= { airIRRP100UnitServiceIntervals 8 } airIRRP100UnitServiceIntervalCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Condensate pump service interval in weeks." ::= { airIRRP100UnitServiceIntervals 9 } airIRRP100UnitServiceIntervalCondensatePumpAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The condensate pump service interval alarm enable/disable." ::= { airIRRP100UnitServiceIntervals 10 } airIRRP100UnitServiceIntervalFans OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Fans service interval in weeks." ::= { airIRRP100UnitServiceIntervals 11 } airIRRP100UnitServiceIntervalFansAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The fans service interval alarm enable/disable." ::= { airIRRP100UnitServiceIntervals 12 } -- airIRRP100 AIR CONDITIONER UNIT Thresholds airIRRP100UnitThresholdsRackInletHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRP100UnitThresholds 1 } airIRRP100UnitThresholdsRackInletHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Celsius." ::= { airIRRP100UnitThresholds 2 } airIRRP100UnitThresholdsSupplyAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRP100UnitThresholds 3 } airIRRP100UnitThresholdsSupplyAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Celsius." ::= { airIRRP100UnitThresholds 4 } airIRRP100UnitThresholdsReturnAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRP100UnitThresholds 5 } airIRRP100UnitThresholdsReturnAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Celsius." ::= { airIRRP100UnitThresholds 6 } airIRRP100UnitThresholdsSupplyHumidityHigh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply humidity high threshold in tenths of percent relative humidity." ::= { airIRRP100UnitThresholds 7 } airIRRP100UnitThresholdsSupplyHumidityLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply humidity low threshold in tenths of percent relative humidity." ::= { airIRRP100UnitThresholds 8 } -- airIRRP100 AIR CONDITIONER UNIT Config airIRRP100UnitConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The startup delay in seconds." ::= { airIRRP100UnitConfig 1 } airIRRP100UnitConfigCoolCapacity OBJECT-TYPE SYNTAX INTEGER { automatic (1), maximum (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The cooling capacity options setting." ::= { airIRRP100UnitConfig 2 } airIRRP100UnitConfigIdleOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The idle on leak options setting." ::= { airIRRP100UnitConfig 3 } airIRRP100UnitConfigInputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the input contact." ::= { airIRRP100UnitConfig 4 } airIRRP100UnitConfigOutputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the output relay." ::= { airIRRP100UnitConfig 5 } airIRRP100UnitConfigOutputSource OBJECT-TYPE SYNTAX INTEGER { anyAlarm (1), criticalAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of output relay change." ::= { airIRRP100UnitConfig 6 } airIRRP100UnitConfigHumidifyEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable humidification." ::= { airIRRP100UnitConfig 7 } airIRRP100UnitConfigHumidifierControl OBJECT-TYPE SYNTAX INTEGER { auto (1), drainOff (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The humidifier drain control." ::= { airIRRP100UnitConfig 8 } airIRRP100UnitConfigDehumidifyEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable dehumidification." ::= { airIRRP100UnitConfig 9 } airIRRP100UnitConfigReheatEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable reheat." ::= { airIRRP100UnitConfig 10 } airIRRP100UnitConfigHeatAssistEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable heat assist." ::= { airIRRP100UnitConfig 11 } airIRRP100UnitConfigPowerSourceConfig OBJECT-TYPE SYNTAX INTEGER { single (1), dual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the input power source: (1) single feed or (2) dual feed." ::= { airIRRP100UnitConfig 12 } airIRRP100UnitConfigUnitRoleOverride OBJECT-TYPE SYNTAX INTEGER { automatic (1), forcedOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "When this OID value is (1) automatic, the system determines which units are used as primary units and which units are used as backups. When this OID value is (2) forcedOn, the connected unit is set as a primary unit." ::= { airIRRP100UnitConfig 13 } -- airIRRP500 AIR CONDITIONER Group Status airIRRP500GroupStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group air flow in cubic feet per minute." ::= { airIRRP500GroupStatus 1 } airIRRP500GroupStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group air flow in liters per second." ::= { airIRRP500GroupStatus 2 } airIRRP500GroupStatusMaxRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group maximum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRP500GroupStatus 3 } airIRRP500GroupStatusMaxRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group maximum rack inlet temperature in tenths of degrees Celsius." ::= { airIRRP500GroupStatus 4 } airIRRP500GroupStatusMinRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group minimum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRP500GroupStatus 5 } airIRRP500GroupStatusMinRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group minimum rack inlet temperature in tenths of degrees Celsius." ::= { airIRRP500GroupStatus 6 } airIRRP500GroupStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group coolant demand in tenths of kiloWatts." ::= { airIRRP500GroupStatus 7 } airIRRP500GroupStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Group coolant output in tenths of kiloWatts." ::= { airIRRP500GroupStatus 8 } airIRRP500GroupStatusHumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of humidification the group is demanding from the humidifiers in percent." ::= { airIRRP500GroupStatus 9 } airIRRP500GroupStatusHumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual amount of humidification the group is supplying in percent." ::= { airIRRP500GroupStatus 10 } airIRRP500GroupStatusDehumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of dehumidification the group is demanding from the electric heaters in percent." ::= { airIRRP500GroupStatus 11 } airIRRP500GroupStatusDehumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual amount of dehumidification the group is supplying in percent." ::= { airIRRP500GroupStatus 12 } airIRRP500GroupStatusReheatDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of heating the group is demanding from the electric heaters in percent." ::= { airIRRP500GroupStatus 13 } airIRRP500GroupStatusReheatOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual amount of heating the group is supplying in percent." ::= { airIRRP500GroupStatus 14 } -- airIRRP500 AIR CONDITIONER Group Setpoints airIRRP500GroupSetpointsCoolUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRRP500GroupSetpoints 1 } airIRRP500GroupSetpointsCoolMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Celsius." ::= { airIRRP500GroupSetpoints 2 } airIRRP500GroupSetpointsSupplyAirUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRRP500GroupSetpoints 3 } airIRRP500GroupSetpointsSupplyAirMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRRP500GroupSetpoints 4 } airIRRP500GroupSetpointsHumidify OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group humidify setpoint in tenths of percent relative humidity." ::= { airIRRP500GroupSetpoints 5 } airIRRP500GroupSetpointsDehumidify OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group dehumidify setpoint in tenths of percent relative humidity." ::= { airIRRP500GroupSetpoints 6 } airIRRP500GroupSetpointsDehumidifyDeadband OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group dehumidify deadband in percent relative humidity." ::= { airIRRP500GroupSetpoints 7 } airIRRP500GroupSetpointsReheatUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRRP500GroupSetpoints 8 } airIRRP500GroupSetpointsReheatMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRRP500GroupSetpoints 9 } airIRRP500GroupSetpointsFanSpeedPreference OBJECT-TYPE SYNTAX INTEGER { low (1), med-low (2), med (3), med-high (4), high (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The preferred fan speed setting." ::= { airIRRP500GroupSetpoints 10 } airIRRP500GroupSetpointsFanSpeedControl OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The fan speed control setting." ::= { airIRRP500GroupSetpoints 11 } -- airIRRP500 AIR CONDITIONER Group Config airIRRP500GroupConfigNumberofCoolingUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cooling units." ::= { airIRRP500GroupConfig 1 } airIRRP500GroupConfigConfigurationType OBJECT-TYPE SYNTAX INTEGER { racs (1), hacs (2), in-row (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The group configuration type." ::= { airIRRP500GroupConfig 2 } airIRRP500GroupConfigPercentGlycol OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The glycol mixture in percent." ::= { airIRRP500GroupConfig 3 } airIRRP500GroupConfigCoolGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the cool PID in hundredths." ::= { airIRRP500GroupConfig 4 } airIRRP500GroupConfigCoolResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the cool PID in hundredths." ::= { airIRRP500GroupConfig 5 } airIRRP500GroupConfigCoolDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the cool PID in hundredths." ::= { airIRRP500GroupConfig 6 } airIRRP500GroupConfigHumidifySensitivityBand OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The percent relative humidity below the setpoint that will cause the humidifier to run at 100% capacity." ::= { airIRRP500GroupConfig 7 } airIRRP500GroupConfigReheatGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the reheat PID in hundredths." ::= { airIRRP500GroupConfig 8 } airIRRP500GroupConfigReheatResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the reheat PID in hundredths." ::= { airIRRP500GroupConfig 9 } airIRRP500GroupConfigReheatDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the reheat PID in hundredths." ::= { airIRRP500GroupConfig 10 } airIRRP500GroupConfigMaxFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum desired fan speed setting in percent." ::= { airIRRP500GroupConfig 11 } airIRRP500GroupConfigNumberofBackupUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of backup units." ::= { airIRRP500GroupConfig 12 } airIRRP500GroupConfigRuntimeBalancingEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable runtime balancing feature." ::= { airIRRP500GroupConfig 13 } airIRRP500GroupConfigLoadAssistEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable load assist feature." ::= { airIRRP500GroupConfig 14 } airIRRP500GroupConfigFullRPBackups OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of full featured RPs that can be used as backup units." ::= { airIRRP500GroupConfig 15 } -- airIRRP500 AIR CONDITIONER UNIT Status airIRRP500UnitStatusOperateMode OBJECT-TYPE SYNTAX INTEGER { standby (1), on (2), idle (3), prestart (4), backup (5), assist (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The cooling unit operating mode." ::= { airIRRP500UnitStatus 1 } airIRRP500UnitStatusMaximumRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum unit rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 2 } airIRRP500UnitStatusMaximumRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum unit rack inlet temperature in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 3 } airIRRP500UnitStatusSupplyAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 4 } airIRRP500UnitStatusSupplyAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 5 } airIRRP500UnitStatusReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 6 } airIRRP500UnitStatusReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 7 } airIRRP500UnitStatusSupplyHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity of the supply air in tenths of percent." ::= { airIRRP500UnitStatus 8 } airIRRP500UnitStatusReturnHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity of the return air in tenths of percent." ::= { airIRRP500UnitStatus 9 } airIRRP500UnitStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in cubic feet per minute." ::= { airIRRP500UnitStatus 10 } airIRRP500UnitStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in hundredths of liters per second." ::= { airIRRP500UnitStatus 11 } airIRRP500UnitStatusFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit average fan speed in tenths of percent." ::= { airIRRP500UnitStatus 12 } airIRRP500UnitStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling demand in tenths of kiloWatts." ::= { airIRRP500UnitStatus 13 } airIRRP500UnitStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling output in tenths of kiloWatts." ::= { airIRRP500UnitStatus 14 } airIRRP500UnitStatusHumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of humidification the unit is demanding from the humidifier in percent." ::= { airIRRP500UnitStatus 15 } airIRRP500UnitStatusHumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual humidification output of the unit in percent." ::= { airIRRP500UnitStatus 16 } airIRRP500UnitStatusDehumidifyDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of dehumidification the unit is demanding in percent." ::= { airIRRP500UnitStatus 17 } airIRRP500UnitStatusDehumidifyOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual dehumidification output of the unit in percent." ::= { airIRRP500UnitStatus 18 } airIRRP500UnitStatusReheatDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of heating the unit is demanding from the electric heater in percent." ::= { airIRRP500UnitStatus 19 } airIRRP500UnitStatusReheatOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual heating output of the unit in percent." ::= { airIRRP500UnitStatus 20 } airIRRP500UnitStatusInputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the input contact." ::= { airIRRP500UnitStatus 21 } airIRRP500UnitStatusOutputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the output relay." ::= { airIRRP500UnitStatus 22 } airIRRP500UnitStatusRackInletTemperature1US OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 23 } airIRRP500UnitStatusRackInletTemperature1Metric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 24 } airIRRP500UnitStatusRackInletTemperature2US OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 25 } airIRRP500UnitStatusRackInletTemperature2Metric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 26 } airIRRP500UnitStatusRackInletTemperature3US OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 27 } airIRRP500UnitStatusRackInletTemperature3Metric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature sensor in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 28 } airIRRP500UnitStatusContainmtDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in hundredths of inches of water." ::= { airIRRP500UnitStatus 29 } airIRRP500UnitStatusContainmtDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in Pa." ::= { airIRRP500UnitStatus 30 } airIRRP500UnitStatusFilterDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in hundredths of inches of water." ::= { airIRRP500UnitStatus 31 } airIRRP500UnitStatusFilterDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in Pa." ::= { airIRRP500UnitStatus 32 } airIRRP500UnitStatusHumidifierCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The humidifier current of the unit in amperes." ::= { airIRRP500UnitStatus 33 } airIRRP500UnitStatusHumidifierWaterConductivity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The water conductivity in the humidifier of the unit in microSiemens/cm." ::= { airIRRP500UnitStatus 34 } airIRRP500UnitStatusActivePowerSource OBJECT-TYPE SYNTAX INTEGER { sourceA (1), sourceB (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The power source that is powering the unit." ::= { airIRRP500UnitStatus 35 } airIRRP500UnitStatusFluidValvePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid valve position in percent open." ::= { airIRRP500UnitStatus 36 } airIRRP500UnitStatusFluidFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid flow in tenths of gallons per minute." ::= { airIRRP500UnitStatus 37 } airIRRP500UnitStatusFluidFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The fluid flow in hundredths of liters per second." ::= { airIRRP500UnitStatus 38 } airIRRP500UnitStatusEnteringFluidTemperatureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the entering fluid in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 39 } airIRRP500UnitStatusEnteringFluidTemperatureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the entering fluid in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 40 } airIRRP500UnitStatusLeavingFluidTemperatureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the Leaving fluid in tenths of degrees Fahrenheit." ::= { airIRRP500UnitStatus 41 } airIRRP500UnitStatusLeavingFluidTemperatureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature of the Leaving fluid in tenths of degrees Celsius." ::= { airIRRP500UnitStatus 42 } -- airIRRP500 AIR CONDITIONER UNIT Ident airIRRP500UnitIdentID OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The unit identification number." ::= { airIRRP500UnitIdent 1 } airIRRP500UnitIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRRP500UnitIdent 2 } airIRRP500UnitIdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRRP500UnitIdent 3 } airIRRP500UnitIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRRP500UnitIdent 4 } airIRRP500UnitIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRRP500UnitIdent 5 } airIRRP500UnitIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRRP500UnitIdent 6 } airIRRP500UnitIdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRRP500UnitIdent 7 } airIRRP500UnitIdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRRP500UnitIdent 8 } -- airIRRP500 AIR CONDITIONER UNIT Runhours airIRRP500UnitRunHoursAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit air filter run hours in hours." ::= { airIRRP500UnitRunHours 1 } airIRRP500UnitRunHoursCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensate pump run hours in hours." ::= { airIRRP500UnitRunHours 2 } airIRRP500UnitRunHoursHumidifier OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan right power supply run hours in hours." ::= { airIRRP500UnitRunHours 3 } airIRRP500UnitRunHoursFan1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 1 run hours in hours." ::= { airIRRP500UnitRunHours 4 } airIRRP500UnitRunHoursHeater1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit heater 1 run hours in hours." ::= { airIRRP500UnitRunHours 5 } airIRRP500UnitRunHoursFan2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 2 run hours in hours." ::= { airIRRP500UnitRunHours 6 } airIRRP500UnitRunHoursHeater2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit Heater 2 run hours in hours." ::= { airIRRP500UnitRunHours 7 } airIRRP500UnitRunHoursFan3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan 3 run hours in hours." ::= { airIRRP500UnitRunHours 8 } airIRRP500UnitRunHoursHeater3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit heater 3 run hours in hours." ::= { airIRRP500UnitRunHours 9 } airIRRP500UnitRunHoursSystem OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total system run hours." ::= { airIRRP500UnitRunHours 10 } -- airIRRP500 AIR CONDITIONER UNIT Service Intervals airIRRP500UnitServiceIntervalAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Air filter service interval in weeks." ::= { airIRRP500UnitServiceIntervals 1 } airIRRP500UnitServiceIntervalAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The air filter service interval alarm enable/disable." ::= { airIRRP500UnitServiceIntervals 2 } airIRRP500UnitServiceIntervalHumidifier OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier service interval in weeks." ::= { airIRRP500UnitServiceIntervals 3 } airIRRP500UnitServiceIntervalHumidifierAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The humidifier service interval alarm enable/disable." ::= { airIRRP500UnitServiceIntervals 4 } airIRRP500UnitServiceIntervalHeater OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Heater service interval in weeks." ::= { airIRRP500UnitServiceIntervals 5 } airIRRP500UnitServiceIntervalHeaterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The heater service interval alarm enable/disable." ::= { airIRRP500UnitServiceIntervals 6 } airIRRP500UnitServiceIntervalCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Condensate pump service interval in weeks." ::= { airIRRP500UnitServiceIntervals 7 } airIRRP500UnitServiceIntervalCondensatePumpAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The condensate pump service interval alarm enable/disable." ::= { airIRRP500UnitServiceIntervals 8 } airIRRP500UnitServiceIntervalFans OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Fans service interval in weeks." ::= { airIRRP500UnitServiceIntervals 9 } airIRRP500UnitServiceIntervalFansAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The fans service interval alarm enable/disable." ::= { airIRRP500UnitServiceIntervals 10 } -- airIRRP500 AIR CONDITIONER UNIT Thresholds airIRRP500UnitThresholdsRackInletHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRP500UnitThresholds 1 } airIRRP500UnitThresholdsRackInletHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Celsius." ::= { airIRRP500UnitThresholds 2 } airIRRP500UnitThresholdsSupplyAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air temperature high threshold in tenths of degrees Fahrenheit." ::= { airIRRP500UnitThresholds 3 } airIRRP500UnitThresholdsSupplyAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature high threshold in tenths of degrees Celsius." ::= { airIRRP500UnitThresholds 4 } airIRRP500UnitThresholdsReturnAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRP500UnitThresholds 5 } airIRRP500UnitThresholdsReturnAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Celsius." ::= { airIRRP500UnitThresholds 6 } airIRRP500UnitThresholdsSupplyHumidityHigh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply humidity high threshold in tenths of percent relative humidity." ::= { airIRRP500UnitThresholds 7 } airIRRP500UnitThresholdsSupplyHumidityLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply humidity low threshold in tenths of percent relative humidity." ::= { airIRRP500UnitThresholds 8 } airIRRP500UnitThresholdsEnteringFluidHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Entering fluid high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRRP500UnitThresholds 9 } airIRRP500UnitThresholdsEnteringFluidHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Entering fluid high temperature threshold in tenths of degrees Celsius." ::= { airIRRP500UnitThresholds 10 } -- airIRRP500 AIR CONDITIONER UNIT Config airIRRP500UnitConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The startup delay in seconds." ::= { airIRRP500UnitConfig 1 } airIRRP500UnitConfigCoolCapacity OBJECT-TYPE SYNTAX INTEGER { automatic (1), maximum (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The cooling capacity options setting." ::= { airIRRP500UnitConfig 2 } airIRRP500UnitConfigIdleOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The idle on leak options setting." ::= { airIRRP500UnitConfig 3 } airIRRP500UnitConfigInputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the input contact." ::= { airIRRP500UnitConfig 4 } airIRRP500UnitConfigOutputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the output relay." ::= { airIRRP500UnitConfig 5 } airIRRP500UnitConfigOutputSource OBJECT-TYPE SYNTAX INTEGER { anyAlarm (1), criticalAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of output relay change." ::= { airIRRP500UnitConfig 6 } airIRRP500UnitConfigHumidifyEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable humidification." ::= { airIRRP500UnitConfig 7 } airIRRP500UnitConfigHumidifierControl OBJECT-TYPE SYNTAX INTEGER { auto (1), drainOff (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The humidifier drain control." ::= { airIRRP500UnitConfig 8 } airIRRP500UnitConfigDehumidifyEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable dehumidification." ::= { airIRRP500UnitConfig 9 } airIRRP500UnitConfigReheatEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable reheat." ::= { airIRRP500UnitConfig 10 } airIRRP500UnitConfigHeatAssistEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/disable heat assist." ::= { airIRRP500UnitConfig 11 } airIRRP500UnitConfigPowerSourceConfig OBJECT-TYPE SYNTAX INTEGER { single (1), dual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Configure the input power source: (1) single feed or (2) dual feed." ::= { airIRRP500UnitConfig 12 } airIRRP500UnitConfigUnitRoleOverride OBJECT-TYPE SYNTAX INTEGER { automatic (1), forcedOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "When this OID value is (1) automatic, the system determines which units are used as primary units and which units are used as backups. When this OID value is (2) forcedOn, the connected unit is set as a primary unit." ::= { airIRRP500UnitConfig 13 } -- airIRSC AIR CONDITIONER Defines AirIRSCConfigType ::= INTEGER { racs (1), spot (2), in-row (3) } AirIRSCCapacityControlType ::= INTEGER { discrete (1), proportional (2) } AirIRSCFanSpeedPreference ::= INTEGER { low (1), med-low (2), med (3), med-high (4), high (5) } AirIRSCFanSpeedControl ::= INTEGER { automatic (1), manual (2) } -- airIRSC AIR CONDITIONER UNIT Status airIRSCUnitStatusOperateMode OBJECT-TYPE SYNTAX INTEGER { standby (1), on (2), idle (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The cooling unit operating mode." ::= { airIRSCUnitStatus 1 } airIRSCUnitStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling output in tenths of kW." ::= { airIRSCUnitStatus 2 } airIRSCUnitStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling demand in tenths of kW." ::= { airIRSCUnitStatus 3 } airIRSCUnitStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in cubic feet per minute." ::= { airIRSCUnitStatus 4 } airIRSCUnitStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in hundredths of liters per second." ::= { airIRSCUnitStatus 5 } airIRSCUnitStatusRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 6 } airIRSCUnitStatusRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 7 } airIRSCUnitStatusSupplyAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 8 } airIRSCUnitStatusSupplyAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 9 } airIRSCUnitStatusReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 10 } airIRSCUnitStatusReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 11 } airIRSCUnitStatusSuctionTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit suction temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 12 } airIRSCUnitStatusSuctionTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit suction temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 13 } airIRSCUnitStatusSuperheatTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit superheat temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 14 } airIRSCUnitStatusSuperheatTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit superheat temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 15 } airIRSCUnitStatusContainmtDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in hundredths of inches of water." ::= { airIRSCUnitStatus 16 } airIRSCUnitStatusContainmtDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit containment differential pressure in Pa." ::= { airIRSCUnitStatus 17 } airIRSCUnitStatusFilterDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in hundredths of inches of water." ::= { airIRSCUnitStatus 18 } airIRSCUnitStatusFilterDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in Pa." ::= { airIRSCUnitStatus 19 } airIRSCUnitStatusSuctionPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit suction pressure in pounds per square inch (PSI)." ::= { airIRSCUnitStatus 20 } airIRSCUnitStatusSuctionPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit suction pressure in kiloPascals (kPa)." ::= { airIRSCUnitStatus 21 } airIRSCUnitStatusDischargePressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit discharge pressure in pounds per square inch (PSI)." ::= { airIRSCUnitStatus 22 } airIRSCUnitStatusDischargePressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit discharge pressure in kiloPascals (kPa)." ::= { airIRSCUnitStatus 23 } airIRSCUnitStatusEvaporatorFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit average evaporator fan speed in tenths of percent." ::= { airIRSCUnitStatus 24 } airIRSCUnitStatusCondenserFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit average condenser fan speed in tenths of percent." ::= { airIRSCUnitStatus 25 } airIRSCUnitStatusInputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the input contact." ::= { airIRSCUnitStatus 26 } airIRSCUnitStatusOutputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the output relay." ::= { airIRSCUnitStatus 27 } airIRSCUnitStatusCondOutletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit condenser outlet air temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 28 } airIRSCUnitStatusCondOutletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit condenser outlet air temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 29 } airIRSCUnitStatusCondInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit condenser inlet air temperature in tenths of degrees Fahrenheit." ::= { airIRSCUnitStatus 30 } airIRSCUnitStatusCondInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit condenser inlet air temperature in tenths of degrees Celsius." ::= { airIRSCUnitStatus 31 } airIRSCUnitStatusCompressor OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state (off/on) of the compressor." ::= { airIRSCUnitStatus 32 } -- airIRSC AIR CONDITIONER UNIT Ident airIRSCUnitIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRSCUnitIdent 1 } airIRSCUnitIdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRSCUnitIdent 2 } airIRSCUnitIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRSCUnitIdent 3 } airIRSCUnitIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRSCUnitIdent 4 } airIRSCUnitIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRSCUnitIdent 5 } airIRSCUnitIdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRSCUnitIdent 6 } airIRSCUnitIdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRSCUnitIdent 7 } -- airIRSC AIR CONDITIONER UNIT Runhours airIRSCUnitRunHoursAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit air filter run hours." ::= { airIRSCUnitRunHours 1 } airIRSCUnitRunHoursEvaporatorFan1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporator fan 1 run hours." ::= { airIRSCUnitRunHours 2 } airIRSCUnitRunHoursEvaporatorFan2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporator fan 2 run hours." ::= { airIRSCUnitRunHours 3 } airIRSCUnitRunHoursEvaporatorFan3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporator fan 3 run hours." ::= { airIRSCUnitRunHours 4 } airIRSCUnitRunHoursCondenserFan1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condenser fan 1 run hours." ::= { airIRSCUnitRunHours 5 } airIRSCUnitRunHoursCondenserFan2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condenser fan 2 run hours." ::= { airIRSCUnitRunHours 6 } airIRSCUnitRunHoursCondenserFan3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condenser fan 3 run hours." ::= { airIRSCUnitRunHours 7 } airIRSCUnitRunHoursFanPowerSupplyLeft OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan left power supply run hours." ::= { airIRSCUnitRunHours 8 } airIRSCUnitRunHoursFanPowerSupplyRight OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit fan right power supply run hours." ::= { airIRSCUnitRunHours 9 } airIRSCUnitRunHoursCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensate pump run hours." ::= { airIRSCUnitRunHours 10 } airIRSCUnitRunHoursCompressor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit compressor run hours." ::= { airIRSCUnitRunHours 11 } -- airIRSC AIR CONDITIONER UNIT Service Intervals airIRSCUnitServiceIntervalsAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Air filter service interval in weeks." ::= { airIRSCUnitServiceIntervals 1 } airIRSCUnitServiceIntervalsAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The air filter service interval alarm enable/disable." ::= { airIRSCUnitServiceIntervals 2 } -- airIRSC AIR CONDITIONER UNIT Thresholds airIRSCUnitThresholdsRackInletHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRSCUnitThresholds 1 } airIRSCUnitThresholdsRackInletHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Celsius." ::= { airIRSCUnitThresholds 2 } airIRSCUnitThresholdsSupplyAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRSCUnitThresholds 3 } airIRSCUnitThresholdsSupplyAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Celsius." ::= { airIRSCUnitThresholds 4 } airIRSCUnitThresholdsReturnAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRSCUnitThresholds 5 } airIRSCUnitThresholdsReturnAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Celsius." ::= { airIRSCUnitThresholds 6 } -- airIRSC AIR CONDITIONER UNIT Setpoints airIRSCUnitSetptsCoolSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRSCUnitSetpoints 1 } airIRSCUnitSetptsCoolSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit cooling setpoint in tenths of degrees Celsius." ::= { airIRSCUnitSetpoints 2 } airIRSCUnitSetptsCoolDeadbandUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit cooling deadband in tenths of degrees Fahrenheit." ::= { airIRSCUnitSetpoints 3 } airIRSCUnitSetptsCoolDeadbandMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit cooling deadband in tenths of degrees Celsius." ::= { airIRSCUnitSetpoints 4 } airIRSCUnitSetptsFanSpeedPreference OBJECT-TYPE SYNTAX AirIRSCFanSpeedPreference ACCESS read-write STATUS mandatory DESCRIPTION "The preferred fan speed setting." ::= { airIRSCUnitSetpoints 5 } airIRSCUnitSetptsSupplyAirSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRSCUnitSetpoints 6 } airIRSCUnitSetptsSupplyAirSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air setpoint in tenths of degrees Celsius." ::= { airIRSCUnitSetpoints 7 } -- airIRSC AIR CONDITIONER UNIT Config airIRSCUnitConfigConfigurationType OBJECT-TYPE SYNTAX AirIRSCConfigType ACCESS read-write STATUS mandatory DESCRIPTION "The unit configuration type." ::= { airIRSCUnitConfig 1 } airIRSCUnitConfigCapacityControlType OBJECT-TYPE SYNTAX AirIRSCCapacityControlType ACCESS read-write STATUS mandatory DESCRIPTION "The unit capacity control." ::= { airIRSCUnitConfig 2 } airIRSCUnitConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The startup delay in seconds." ::= { airIRSCUnitConfig 3 } airIRSCUnitConfigIdleOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The idle on leak options setting." ::= { airIRSCUnitConfig 4 } airIRSCUnitConfigInputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the input contact." ::= { airIRSCUnitConfig 5 } airIRSCUnitConfigOutputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the output relay." ::= { airIRSCUnitConfig 6 } airIRSCUnitConfigOutputSource OBJECT-TYPE SYNTAX INTEGER { anyAlarm (1), criticalAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of output relay change." ::= { airIRSCUnitConfig 7 } airIRSCUnitConfigAltitudeUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The altitude of the unit above sea level in feet." ::= { airIRSCUnitConfig 8 } airIRSCUnitConfigAltitudeMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The altitude of the unit above sea level in meters." ::= { airIRSCUnitConfig 9 } airIRSCUnitConfigOpControl OBJECT-TYPE SYNTAX INTEGER { standby (1), on (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The unit operational control." ::= { airIRSCUnitConfig 10 } -- airIRSC AIR CONDITIONER GROUP Status airIRSCGroupStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group cooling output in tenths of kW." ::= { airIRSCGroupStatus 1 } airIRSCGroupStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group cooling demand in tenths of kW." ::= { airIRSCGroupStatus 2 } airIRSCGroupStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group air flow in cubic feet per minute." ::= { airIRSCGroupStatus 3 } airIRSCGroupStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group air flow in hundredths of liters per second." ::= { airIRSCGroupStatus 4 } airIRSCGroupStatusMaxRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRSCGroupStatus 5 } airIRSCGroupStatusMaxRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum rack inlet temperature in tenths of degrees Celsius." ::= { airIRSCGroupStatus 6 } airIRSCGroupStatusMinRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRSCGroupStatus 7 } airIRSCGroupStatusMinRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum rack inlet temperature in tenths of degrees Celsius." ::= { airIRSCGroupStatus 8 } airIRSCGroupStatusMaxReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum return air temperature in tenths of degrees Fahrenheit." ::= { airIRSCGroupStatus 9 } airIRSCGroupStatusMaxReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum return air temperature in tenths of degrees Celsius." ::= { airIRSCGroupStatus 10 } airIRSCGroupStatusMinReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum return air temperature in tenths of degrees Fahrenheit." ::= { airIRSCGroupStatus 11 } airIRSCGroupStatusMinReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum return air temperature in tenths of degrees Celsius." ::= { airIRSCGroupStatus 12 } -- airIRSC AIR CONDITIONER GROUP Setpoint airIRSCGroupSetptsCoolSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRSCGroupSetpoints 1 } airIRSCGroupSetptsCoolSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Celsius." ::= { airIRSCGroupSetpoints 2 } airIRSCGroupSetptsCoolDeadbandUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling deadband in tenths of degrees Fahrenheit." ::= { airIRSCGroupSetpoints 3 } airIRSCGroupSetptsCoolDeadbandMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling deadband in tenths of degrees Celsius." ::= { airIRSCGroupSetpoints 4 } airIRSCGroupSetptsFanSpeedPreference OBJECT-TYPE SYNTAX AirIRSCFanSpeedPreference ACCESS read-write STATUS mandatory DESCRIPTION "The group preferred fan speed setting." ::= { airIRSCGroupSetpoints 5 } airIRSCGroupSetptsSupplyAirSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRSCGroupSetpoints 6 } airIRSCGroupSetptsSupplyAirSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRSCGroupSetpoints 7 } -- airIRSC AIR CONDITIONER GROUP Config airIRSCGroupConfigNumberofCoolingUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cooling units." ::= { airIRSCGroupConfig 1 } airIRSCGroupConfigConfigurationType OBJECT-TYPE SYNTAX AirIRSCConfigType ACCESS read-write STATUS mandatory DESCRIPTION "The group configuration type." ::= { airIRSCGroupConfig 2 } airIRSCGroupConfigCapacityControlType OBJECT-TYPE SYNTAX AirIRSCCapacityControlType ACCESS read-write STATUS mandatory DESCRIPTION "The group capacity control." ::= { airIRSCGroupConfig 3 } airIRSCGroupConfigAltitudeUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The group altitude of the units above sea level in feet." ::= { airIRSCGroupConfig 4 } airIRSCGroupConfigAltitudeMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The group altitude of the units above sea level in meters." ::= { airIRSCGroupConfig 5 } airIRSCGroupConfigFanSpeedControl OBJECT-TYPE SYNTAX AirIRSCFanSpeedControl ACCESS read-write STATUS mandatory DESCRIPTION "The group fan speed control." ::= { airIRSCGroupConfig 6 } -- ****************************************************************** -- airIRG2 Ident -- ****************************************************************** airIRG2IdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRG2Ident 1 } airIRG2IdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRG2Ident 2 } airIRG2IdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRG2Ident 3 } airIRG2IdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRG2Ident 4 } airIRG2IdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRG2Ident 5 } airIRG2IdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRG2Ident 6 } airIRG2IdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRG2Ident 7 } airIRG2IdentUnitSysOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "This OID contains an OID path to the device's top level unit data." ::= { airIRG2Ident 8 } airIRG2IdentGroupSysOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "This OID contains an OID path to the device's top level group data." ::= { airIRG2Ident 9 } -- ****************************************************************** -- airIRG2 GROUP Status -- ****************************************************************** airIRG2GroupStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group cooling output in tenths of kilowatts (kW)." ::= { airIRG2GroupStatus 1 } airIRG2GroupStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group cooling demand in tenths of kilowatts (kW)." ::= { airIRG2GroupStatus 2 } airIRG2GroupStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group air flow in cubic feet per minute." ::= { airIRG2GroupStatus 3 } airIRG2GroupStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group air flow in hundredths of liters per second." ::= { airIRG2GroupStatus 4 } airIRG2GroupStatusMaxRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRG2GroupStatus 5 } airIRG2GroupStatusMaxRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum rack inlet temperature in tenths of degrees Celsius." ::= { airIRG2GroupStatus 6 } airIRG2GroupStatusMinRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRG2GroupStatus 7 } airIRG2GroupStatusMinRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum rack inlet temperature in tenths of degrees Celsius." ::= { airIRG2GroupStatus 8 } airIRG2GroupStatusMaxReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum return air temperature in tenths of degrees Fahrenheit." ::= { airIRG2GroupStatus 9 } airIRG2GroupStatusMaxReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum return air temperature in tenths of degrees Celsius." ::= { airIRG2GroupStatus 10 } airIRG2GroupStatusMinReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum return air temperature in tenths of degrees Fahrenheit." ::= { airIRG2GroupStatus 11 } airIRG2GroupStatusMinReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum return air temperature in tenths of degrees Celsius." ::= { airIRG2GroupStatus 12 } -- ****************************************************************** -- airIRG2 GROUP Setpoint -- ****************************************************************** airIRG2GroupSetptsCoolSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRG2GroupSetpoints 1 } airIRG2GroupSetptsCoolSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Celsius." ::= { airIRG2GroupSetpoints 2 } airIRG2GroupSetptsCoolDeadbandUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling deadband in tenths of degrees Fahrenheit." ::= { airIRG2GroupSetpoints 3 } airIRG2GroupSetptsCoolDeadbandMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling deadband in tenths of degrees Celsius." ::= { airIRG2GroupSetpoints 4 } airIRG2GroupSetptsFanSpeedPreference OBJECT-TYPE SYNTAX INTEGER { low (1), med-low (2), med (3), med-high (4), high (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The group preferred fan speed setting." ::= { airIRG2GroupSetpoints 5 } airIRG2GroupSetptsSupplyAirSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRG2GroupSetpoints 6 } airIRG2GroupSetptsSupplyAirSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRG2GroupSetpoints 7 } -- ****************************************************************** -- airIRG2 GROUP Config -- ****************************************************************** airIRG2GroupConfigNumberofCoolingUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cooling units." ::= { airIRG2GroupConfig 1 } airIRG2GroupConfigConfigurationType OBJECT-TYPE SYNTAX INTEGER { racs (1), spot (2), in-row (3), hacs (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The group configuration type." ::= { airIRG2GroupConfig 2 } airIRG2GroupConfigCapacityControlType OBJECT-TYPE SYNTAX INTEGER { discrete (1), proportional (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The group capacity control." ::= { airIRG2GroupConfig 3 } airIRG2GroupConfigFanSpeedControl OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The group fan speed control." ::= { airIRG2GroupConfig 4 } airIRG2GroupConfigCoolGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the PID in hundredths." ::= { airIRG2GroupConfig 5 } airIRG2GroupConfigCoolResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the PID in hundredths." ::= { airIRG2GroupConfig 6 } airIRG2GroupConfigCoolDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the PID in hundredths." ::= { airIRG2GroupConfig 7 } airIRG2GroupConfigCoolPIDReset OBJECT-TYPE SYNTAX INTEGER { readBack (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Will reset the PID coefficients back to the factory defaults." ::= { airIRG2GroupConfig 8 } airIRG2GroupConfigNumberofBackupUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of backup units." ::= { airIRG2GroupConfig 9 } airIRG2GroupConfigRuntimeBalancingEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable runtime balancing feature." ::= { airIRG2GroupConfig 10 } airIRG2GroupConfigLoadAssistEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable load assist feature." ::= { airIRG2GroupConfig 11 } -- *************************************** -- airIRG2 Alarm Status -- *************************************** airIRG2AlarmsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active alarms in the airIRG2AlarmsTable." ::= { airIRG2Alarms 1 } AirIRG2AlarmsEntry ::= SEQUENCE { airIRG2AlarmsIndex INTEGER, airIRG2AlarmsEventCode INTEGER, airIRG2AlarmsDescription DisplayString } airIRG2AlarmsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG2AlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of active alarms for the device." ::= { airIRG2Alarms 2 } airIRG2AlarmsEntry OBJECT-TYPE SYNTAX AirIRG2AlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Alarms specification" INDEX { airIRG2AlarmsIndex } ::= { airIRG2AlarmsTable 1 } airIRG2AlarmsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Alarm index." ::= { airIRG2AlarmsEntry 1 } airIRG2AlarmsEventCode OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Code for the alarm." ::= { airIRG2AlarmsEntry 2 } airIRG2AlarmsDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) ACCESS read-only STATUS mandatory DESCRIPTION "Description of the alarm." ::= { airIRG2AlarmsEntry 3 } -- *************************************** -- airIRG2RDType2 AIR CONDITIONER Defines -- *************************************** AirIRG2RDType2IOState ::= INTEGER { open (1), closed (2) } -- ****************************************************************** -- airIRG2RDT2 Status -- ****************************************************************** airIRG2RDT2StatusOperateMode OBJECT-TYPE SYNTAX INTEGER { standby (1), on (2), idle (3), reserved (4), service (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The cooling unit operating mode." ::= { airIRG2RDT2Status 1 } airIRG2RDT2StatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling output in tenths of kilowatts (kW)." ::= { airIRG2RDT2Status 2 } airIRG2RDT2StatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit cooling demand in tenths of kilowatts (kW)." ::= { airIRG2RDT2Status 3 } airIRG2RDT2StatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in cubic feet per minute." ::= { airIRG2RDT2Status 4 } airIRG2RDT2StatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air flow in liters per second." ::= { airIRG2RDT2Status 5 } airIRG2RDT2StatusRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Status 6 } airIRG2RDT2StatusRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit rack inlet temperature in tenths of degrees Celsius." ::= { airIRG2RDT2Status 7 } airIRG2RDT2StatusSupplyAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Status 8 } airIRG2RDT2StatusSupplyAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit supply air temperature in tenths of degrees Celsius." ::= { airIRG2RDT2Status 9 } airIRG2RDT2StatusReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Status 10 } airIRG2RDT2StatusReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit return air temperature in tenths of degrees Celsius." ::= { airIRG2RDT2Status 11 } airIRG2RDT2StatusSuctionTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit suction temperature in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Status 12 } airIRG2RDT2StatusSuctionTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit suction temperature in tenths of degrees Celsius." ::= { airIRG2RDT2Status 13 } airIRG2RDT2StatusSuperheatTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit superheat temperature in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Status 14 } airIRG2RDT2StatusSuperheatTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit superheat temperature in tenths of degrees Celsius." ::= { airIRG2RDT2Status 15 } airIRG2RDT2StatusFilterDPUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in hundredths of inches of water." ::= { airIRG2RDT2Status 16 } airIRG2RDT2StatusFilterDPMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit air filter differential pressure in pascals (Pa)." ::= { airIRG2RDT2Status 17 } airIRG2RDT2StatusSuctionPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit suction pressure in pounds per square inch (PSI)." ::= { airIRG2RDT2Status 18 } airIRG2RDT2StatusSuctionPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit suction pressure in kiloPascals (kPa)." ::= { airIRG2RDT2Status 19 } airIRG2RDT2StatusDischargePressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit discharge pressure in pounds per square inch (PSI)." ::= { airIRG2RDT2Status 20 } airIRG2RDT2StatusDischargePressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit discharge pressure in kiloPascals (kPa)." ::= { airIRG2RDT2Status 21 } airIRG2RDT2StatusEvaporatorFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The unit average evaporator fan speed in tenths of percent." ::= { airIRG2RDT2Status 22 } airIRG2RDT2StatusInputState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-only STATUS mandatory DESCRIPTION "The state of the input contact." ::= { airIRG2RDT2Status 23 } airIRG2RDT2StatusOutputState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-only STATUS mandatory DESCRIPTION "The state of the output relay." ::= { airIRG2RDT2Status 24 } airIRG2RDT2StatusOHEInputState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-only STATUS mandatory DESCRIPTION "The state of the outside heat exchanger(OHE) input contact." ::= { airIRG2RDT2Status 25 } airIRG2RDT2StatusOHEOutputState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-only STATUS mandatory DESCRIPTION "The state of the outside heat exchanger(OHE) output relay." ::= { airIRG2RDT2Status 26 } airIRG2RDT2StatusCompressor OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state (off/on) of the compressor." ::= { airIRG2RDT2Status 27 } airIRG2RDT2StatusFluidValvePos OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position of the fluid valve in percent. This OID is only valid when airIRG2RDT2ConfigUnitType indicates fluidCooled(1)." ::= { airIRG2RDT2Status 28 } airIRG2RDT2StatusHotGasBypassValvePos OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position of the hot gas bypass valve in hundredths of percent." ::= { airIRG2RDT2Status 29 } -- ****************************************************************** -- airIRG2RDT2 Runhours -- ****************************************************************** airIRG2RDT2RunHoursAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit air filter run hours." ::= { airIRG2RDT2RunHours 1 } airIRG2RDT2RunHoursCondensatePump OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensate pump run hours." ::= { airIRG2RDT2RunHours 2 } airIRG2RDT2RunHoursCompressor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit compressor run hours." ::= { airIRG2RDT2RunHours 3 } -- ******************************* -- Run Hour Fan Power supply table -- ******************************* airIRG2RDT2RunHoursFanPSTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the run hour fan power supply table (airIRG2RDT2RunHoursFanPSTable)." ::= { airIRG2RDT2RunHours 4 } AirIRG2RDT2RunHoursFanPSEntry ::= SEQUENCE { airIRG2RDT2RunHoursFanPSIndex INTEGER, airIRG2RDT2RunHoursFanPSPosition INTEGER, airIRG2RDT2RunHoursFanPSHours INTEGER } airIRG2RDT2RunHoursFanPSTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG2RDT2RunHoursFanPSEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting run hour information from each power supply." ::= { airIRG2RDT2RunHours 5 } airIRG2RDT2RunHoursFanPSEntry OBJECT-TYPE SYNTAX AirIRG2RDT2RunHoursFanPSEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The run hours fan power supply table entry." INDEX { airIRG2RDT2RunHoursFanPSIndex } ::= { airIRG2RDT2RunHoursFanPSTable 1 } airIRG2RDT2RunHoursFanPSIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of run hours fan power supply table." ::= { airIRG2RDT2RunHoursFanPSEntry 1 } airIRG2RDT2RunHoursFanPSHours OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan power supply run time in hours." ::= { airIRG2RDT2RunHoursFanPSEntry 2 } airIRG2RDT2RunHoursFanPSPosition OBJECT-TYPE SYNTAX INTEGER { upper (1), lower (2), left (3), right (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Position of fan power supply within the unit." ::= { airIRG2RDT2RunHoursFanPSEntry 3 } -- ***************************** -- Run Hour Evaporator Fan table -- ***************************** airIRG2RDT2RunHoursEvapFanTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the run hour evaporator fan table (airIRG2RDT2RunHoursEvapFanTable)." ::= { airIRG2RDT2RunHours 6 } AirIRG2RDT2RunHoursEvapFanEntry ::= SEQUENCE { airIRG2RDT2RunHoursEvapFanIndex INTEGER, airIRG2RDT2RunHoursEvapFanHours INTEGER } airIRG2RDT2RunHoursEvapFanTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG2RDT2RunHoursEvapFanEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each evaporator fan run hour in the system. " ::= { airIRG2RDT2RunHours 7 } airIRG2RDT2RunHoursEvapFanEntry OBJECT-TYPE SYNTAX AirIRG2RDT2RunHoursEvapFanEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information from each evaporator fan run hour in the system. " INDEX { airIRG2RDT2RunHoursEvapFanIndex } ::= { airIRG2RDT2RunHoursEvapFanTable 1 } airIRG2RDT2RunHoursEvapFanIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of run hours evaporator fan table." ::= { airIRG2RDT2RunHoursEvapFanEntry 1 } airIRG2RDT2RunHoursEvapFanHours OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Evaporator fan run time in hours." ::= { airIRG2RDT2RunHoursEvapFanEntry 2 } airIRG2RDT2RunHoursUnit OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit run time in hours." ::= { airIRG2RDT2RunHours 8 } -- ****************************************************************** -- airIRG2RDT2 Service Intervals -- ****************************************************************** airIRG2RDT2ServiceIntervalsAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Air filter service interval in weeks." ::= { airIRG2RDT2ServiceIntervals 1 } airIRG2RDT2ServiceIntervalsAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The air filter service interval alarm enable/disable." ::= { airIRG2RDT2ServiceIntervals 2 } -- ****************************************************************** -- airIRG2RDT2 Thresholds -- ****************************************************************** airIRG2RDT2ThresholdsRackInletHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Thresholds 1 } airIRG2RDT2ThresholdsRackInletHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit rack inlet air high temperature threshold in tenths of degrees Celsius." ::= { airIRG2RDT2Thresholds 2 } airIRG2RDT2ThresholdsSupplyAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Thresholds 3 } airIRG2RDT2ThresholdsSupplyAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit supply air high temperature threshold in tenths of degrees Celsius." ::= { airIRG2RDT2Thresholds 4 } airIRG2RDT2ThresholdsReturnAirHighTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Fahrenheit." ::= { airIRG2RDT2Thresholds 5 } airIRG2RDT2ThresholdsReturnAirHighTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Unit return air high temperature threshold in tenths of degrees Celsius." ::= { airIRG2RDT2Thresholds 6 } -- ****************************************************************** -- airIRG2RDT2 Setpoints -- ****************************************************************** -- There are no setpoint OIDs. This is just a placeholder in case -- we add some unit setpoints. -- ****************************************************************** -- airIRG2RDT2 Config -- ****************************************************************** airIRG2RDT2ConfigUnitType OBJECT-TYPE SYNTAX INTEGER { fluidCooled (1), airCooled (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of the unit." ::= { airIRG2RDT2Config 1 } airIRG2RDT2ConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The startup delay in seconds." ::= { airIRG2RDT2Config 2 } airIRG2RDT2ConfigIdleOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The idle on leak options setting." ::= { airIRG2RDT2Config 3 } airIRG2RDT2ConfigInputNormalState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the input contact." ::= { airIRG2RDT2Config 4 } airIRG2RDT2ConfigOutputNormalState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the output relay." ::= { airIRG2RDT2Config 5 } airIRG2RDT2ConfigOutputSource OBJECT-TYPE SYNTAX INTEGER { anyAlarm (1), criticalAlarm (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of output relay change." ::= { airIRG2RDT2Config 6 } airIRG2RDT2ConfigOHEInputNormalState OBJECT-TYPE SYNTAX AirIRG2RDType2IOState ACCESS read-write STATUS mandatory DESCRIPTION "The normal state of the outside heat exchanger(OHE) input relay." ::= { airIRG2RDT2Config 7 } airIRG2RDT2ConfigUnitRoleOverride OBJECT-TYPE SYNTAX INTEGER { automatic (1), forcedOn (2) } ACCESS read-write STATUS mandatory DESCRIPTION "When this OID value is (1) automatic, the system determines which units are used as primary units and which units are used as backups. When this OID value is (2) forcedOn, the connected unit is set as a primary unit." ::= { airIRG2RDT2Config 8 } airIRG2RDT2ConfigUnitIdleOnCoolFail OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "When this OID value is (2) yes, the unit idles if it detects that it is blowing warm air into the cold aisle. The unit will attempt to restart at 5 minute intervals." ::= { airIRG2RDT2Config 9 } -- Beginning of AC InRoom -- common InRoom values AirIRmAlarmState ::= INTEGER { ok (1), alarm (2) } AirIRmControlState ::= INTEGER { off (1), on (2) } AirIRmStopState ::= INTEGER { maybeOn (1), unitOff (2) } AirIRmActivityState ::= INTEGER { inactive (1), active (2) } -- *************************************** -- InRoom Ident -- *************************************** airIRmIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRmIdent 1 } airIRmIdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRmIdent 2 } airIRmIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRmIdent 3 } airIRmIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRmIdent 4 } airIRmIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRmIdent 5 } airIRmIdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRmIdent 6 } airIRmIdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRmIdent 7 } airIRmIdentSysOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "This OID contains an OID path to the device's top level data." ::= { airIRmIdent 8 } -- *************************************** -- InRoom Alarm Status -- *************************************** airIRmAlarmsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active alarms in the airIRG2AlarmsTable." ::= { airIRmAlarms 1 } AirIRmAlarmsEntry ::= SEQUENCE { airIRmAlarmsIndex INTEGER, airIRmAlarmsEventCode INTEGER, airIRmAlarmsDescription DisplayString } airIRmAlarmsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRmAlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of active alarms for the device." ::= { airIRmAlarms 2 } airIRmAlarmsEntry OBJECT-TYPE SYNTAX AirIRmAlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Alarms specification" INDEX { airIRmAlarmsIndex } ::= { airIRmAlarmsTable 1 } airIRmAlarmsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Alarm index." ::= { airIRmAlarmsEntry 1 } airIRmAlarmsEventCode OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Code for the alarm." ::= { airIRmAlarmsEntry 2 } airIRmAlarmsDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) ACCESS read-only STATUS mandatory DESCRIPTION "Description of the alarm." ::= { airIRmAlarmsEntry 3 } -- airIRmPmCommon1 airIRmPmUnitType OBJECT-TYPE SYNTAX INTEGER { mc (1), dx (2), cw (3), ch (4), ecoCool (5), msc (6), ge1 (7), ge2 (8), dualFluid (9), cw2 (10), unknown (256) } ACCESS read-only STATUS mandatory DESCRIPTION "Unit type (1)." ::= { airIRmPmCommon1 1 } airIRmPmSwVersion OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Software version (3)." ::= { airIRmPmCommon1 3 } airIRmPmBusAddress OBJECT-TYPE SYNTAX INTEGER (0..65535) ACCESS read-only STATUS mandatory DESCRIPTION "Bus addresss of unit (5)." ::= { airIRmPmCommon1 5 } airIRmPmControllerType OBJECT-TYPE SYNTAX INTEGER { unknown (1), c4000 (2), c1001 (3), c1002 (4), c5000 (5), c6000 (6), c1010 (7), c7000IOC (8), c7000AT (9), c7000PT (10), c5MSC (11), c7000PT2 (12) } ACCESS read-only STATUS mandatory DESCRIPTION "Controller type (7)." ::= { airIRmPmCommon1 7 } airIRmPmGeneralError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "General Error (8)" ::= { airIRmPmCommon1 8 } airIRmPmErrorOnBus OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Error On Bus (9)" ::= { airIRmPmCommon1 9 } -- airIRmPmCommon2 airIRmPmPCStop OBJECT-TYPE SYNTAX AirIRmStopState ACCESS read-only STATUS mandatory DESCRIPTION "PC-STOP (1000)" ::= { airIRmPmCommon2 1 } airIRmPmRemoteStop OBJECT-TYPE SYNTAX AirIRmStopState ACCESS read-only STATUS mandatory DESCRIPTION "Remote Stop (1001)" ::= { airIRmPmCommon2 2 } airIRmPmLocalStop OBJECT-TYPE SYNTAX AirIRmStopState ACCESS read-only STATUS mandatory DESCRIPTION "Local Stop (1002)" ::= { airIRmPmCommon2 3} airIRmPmTimerStop OBJECT-TYPE SYNTAX AirIRmStopState ACCESS read-only STATUS mandatory DESCRIPTION "Timer Stop (1003)" ::= { airIRmPmCommon2 4} airIRmPmSeqStop OBJECT-TYPE SYNTAX AirIRmStopState ACCESS read-only STATUS mandatory DESCRIPTION "Seq. Stop (1004)" ::= { airIRmPmCommon2 5} airIRmPmRemoteUPS OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Remote UPS (1006)" ::= { airIRmPmCommon2 7} airIRmPmLocalUPS OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Local UPS (1007)" ::= { airIRmPmCommon2 8} airIRmPmCommonAlarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Common alarm (1010)." ::= { airIRmPmCommon2 11 } airIRmPmResetAllAlarms OBJECT-TYPE SYNTAX INTEGER { doNothing (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset all alarms control (1011)." ::= { airIRmPmCommon2 12 } airIRmPmUnitOnOff OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Unit running state (1013)." ::= { airIRmPmCommon2 14 } airIRmPmMaintenance OBJECT-TYPE SYNTAX INTEGER { notNecessary (1), necessary (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Maintenance necessary state (1014)." ::= { airIRmPmCommon2 15 } airIRmPmUnitTemperatureScale OBJECT-TYPE SYNTAX INTEGER { celsius (1), fahrenheit (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Current Unit Temperature Scale (1022)." ::= { airIRmPmCommon2 23 } airIRmPmUnitWinterMode OBJECT-TYPE SYNTAX INTEGER { summer (1), winter (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Winter or summer configuration mode (1023)." ::= { airIRmPmCommon2 24 } airIRmPmDayNightMode OBJECT-TYPE SYNTAX INTEGER { day (1), night (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Day or night configuration mode (1024)." ::= { airIRmPmCommon2 25 } -- airIRmPmCommon3 airIRmPmLastMaintenanceYear OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Last maintenance year (1160)." ::= { airIRmPmCommon3 1 } airIRmPmLastMaintenanceMonth OBJECT-TYPE SYNTAX INTEGER (1..12) ACCESS read-only STATUS mandatory DESCRIPTION "Last maintenance month (1161)." ::= { airIRmPmCommon3 2 } airIRmPmLastMaintenanceDay OBJECT-TYPE SYNTAX INTEGER (1..31) ACCESS read-only STATUS mandatory DESCRIPTION "Last maintenance day (1162)." ::= { airIRmPmCommon3 3 } airIRmPmUnitMaintenanceInterval OBJECT-TYPE SYNTAX INTEGER (1..255) ACCESS read-only STATUS mandatory DESCRIPTION "Unit maintenance interval in months (1163)." ::= { airIRmPmCommon3 4 } airIRmPmRuntimeUnit OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Runtime unit in hours (1164)." ::= { airIRmPmCommon3 5 } airIRmPmStoptimeUnit OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit stoptime in hours (1165)" ::= { airIRmPmCommon3 6 } airIRmPmRuntimeCooling OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Cooling runtime in hours (1166)" ::= { airIRmPmCommon3 7 } airIRmPmRuntimeHeating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Heating runtime in hours (1167)" ::= { airIRmPmCommon3 8 } airIRmPmRuntimeHumidification OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Humidification runtime in hours (1168)" ::= { airIRmPmCommon3 9 } airIRmPmRuntimeDehumidification OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Dehumidification runtime in hours (1169)" ::= { airIRmPmCommon3 10 } airIRmPmUnitTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon3 11 } airIRmPmUnitTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit temperature in tenths of degrees Celsius (1170)." ::= { airIRmPmUnitTemperature 1 } airIRmPmUnitTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit temperature in tenths of degrees Fahrenheit (1170)." ::= { airIRmPmUnitTemperature 2 } airIRmPmUnitHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit humidity in tenths of %RH (1171)." ::= { airIRmPmCommon3 12 } airIRmPmSetpointTemperatureDay OBJECT IDENTIFIER ::= { airIRmPmCommon3 14 } airIRmPmSetpointTemperatureDayC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Setpoint daytime temperature in tenths of degrees Celsius (1173)." ::= { airIRmPmSetpointTemperatureDay 1 } airIRmPmSetpointTemperatureDayF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Setpoint daytime temperature in tenths of degrees Fahrenheit (1173)." ::= { airIRmPmSetpointTemperatureDay 2 } airIRmPmSetpointTemperatureNight OBJECT IDENTIFIER ::= { airIRmPmCommon3 15 } airIRmPmSetpointTemperatureNightC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Setpoint nighttime temperature in tenths of degrees Celsius (1174)." ::= { airIRmPmSetpointTemperatureNight 1 } airIRmPmSetpointTemperatureNightF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Setpoint nighttime temperature in tenths of degrees Fahrenheit (1174)." ::= { airIRmPmSetpointTemperatureNight 2 } airIRmPmSetpointHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Setpoint humidity in tenths of %RH (1176)." ::= { airIRmPmCommon3 17 } airIRmPmUnitControlType OBJECT-TYPE SYNTAX INTEGER { room (1), supply (2), room-SupplyLimit (3), supply-RoomLimit (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Current unit control type (1183)." ::= { airIRmPmCommon3 24 } airIRmPmWinterModeStartTemp OBJECT IDENTIFIER ::= { airIRmPmCommon3 29 } airIRmPmWinterModeStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Winter mode start temperature in tenths of degrees Celsius (1188)." ::= { airIRmPmWinterModeStartTemp 1 } airIRmPmWinterModeStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Winter mode start temperature in tenths of degrees Fahrenheit (1188)." ::= { airIRmPmWinterModeStartTemp 2 } airIRmPmWinterModeHysteresis OBJECT IDENTIFIER ::= { airIRmPmCommon3 30 } airIRmPmWinterModeHysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Winter mode hysteresis in tenths of Kelvins (1189)" ::= { airIRmPmWinterModeHysteresis 1 } airIRmPmWinterModeHysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Winter mode hysteresis in tenths of degrees Fahrenheit (1189)" ::= { airIRmPmWinterModeHysteresis 2 } airIRmPmWaterTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon3 32 } airIRmPmWaterTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Water temperature in tenths of degrees Celsius (1191)." ::= { airIRmPmWaterTemperature 1 } airIRmPmWaterTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Water temperature in tenths of degrees Fahrenheit (1191)." ::= { airIRmPmWaterTemperature 2 } airIRmPmReturnAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon3 33 } airIRmPmReturnAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Return air temperature in tenths of degrees Celsius (1192)." ::= { airIRmPmReturnAirTemperature 1 } airIRmPmReturnAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Return air temperature in tenths of degrees Fahrenheit (1192)." ::= { airIRmPmReturnAirTemperature 2 } airIRmPmSupplyAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon3 34 } airIRmPmSupplyAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Supply air temperature in tenths of degrees Celsius (1193)." ::= { airIRmPmSupplyAirTemperature 1 } airIRmPmSupplyAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Supply air temperature in tenths of degrees Fahrenheit (1193)." ::= { airIRmPmSupplyAirTemperature 2 } airIRmPmReturnAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Return air humidity in tenths of %RH (1194)." ::= { airIRmPmCommon3 35 } airIRmPmSupplyAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Supply air humidity in tenths of %RH (1195)." ::= { airIRmPmCommon3 36 } airIRmPmOutsideAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon3 37 } airIRmPmOutsideAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Outside air temperature in tenths of degrees Celsius (1196)" ::= { airIRmPmOutsideAirTemperature 1 } airIRmPmOutsideAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Outside air temperature in tenths of degrees Fahrenheit (1196)" ::= { airIRmPmOutsideAirTemperature 2 } airIRmPmOutsideAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Outside air humidity in tenths of percent relative humidity (1197)" ::= { airIRmPmCommon3 38 } airIRmPmCoolingPriority OBJECT-TYPE SYNTAX INTEGER { ge (1), cw (2), dx (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Cooling priority (1198)." ::= { airIRmPmCommon3 39 } airIRmPmWaterTemperature2 OBJECT IDENTIFIER ::= { airIRmPmCommon3 43 } airIRmPmWaterTemperature2C OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Water temperature 2 in tenths of degrees Celsius (1202)." ::= { airIRmPmWaterTemperature2 1 } airIRmPmWaterTemperature2F OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Water temperature 2 in tenths of degrees Fahrenheit (1202)." ::= { airIRmPmWaterTemperature2 2 } airIRmPmRuntimeFreeCooling OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Freecooling runtime in hours (1203)" ::= { airIRmPmCommon3 44 } airIRmPmRuntimeMixedModeFreeCooling OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Mixed mode freecooling runtime in hours (1203)" ::= { airIRmPmCommon3 45 } -- airIRmPmCommon4 airIRmPmNumberOfCompressors OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of compressors (1761)" ::= { airIRmPmCommon4 4 } airIRmPmNumberOfSuctionValves OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of suction valves (1762)" ::= { airIRmPmCommon4 5 } airIRmPmNumberOfDryCoolers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of drycoolers (1763)" ::= { airIRmPmCommon4 6 } airIRmPmNumberOfPumps OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of pumps (1764)" ::= { airIRmPmCommon4 7 } airIRmPmNumberOfElectricHeaters OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of electric heaters (1765)" ::= { airIRmPmCommon4 8 } airIRmPmNumberOfHumidifiers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of humidifiers (1766)" ::= { airIRmPmCommon4 9 } airIRmPmNumberOfFans OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of fans (1767)" ::= { airIRmPmCommon4 10 } airIRmPmNumberOfLouvers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of louvers (1768)" ::= { airIRmPmCommon4 11 } airIRmPmNumberOfSensors OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of sensors (1769)" ::= { airIRmPmCommon4 12 } airIRmPmNumberOfExternalAlarmInputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of external alarm inputs (1770)" ::= { airIRmPmCommon4 13 } airIRmPmNumberOfGECWValves OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of GE/CW valves (1771)" ::= { airIRmPmCommon4 14 } airIRmPmNumberOfHotGasReheat OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of hot gas reheaters (1772)" ::= { airIRmPmCommon4 15 } airIRmPmNumberOfPWWReheat OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of PWW reheaters (1773)" ::= { airIRmPmCommon4 16 } airIRmPmNumberOfDehumidifiers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of dehumidifiers (1774)" ::= { airIRmPmCommon4 17 } -- airIRmPmCommon5 airIRmPmUnitEvaporationTemperature1 OBJECT IDENTIFIER ::= { airIRmPmCommon5 1 } airIRmPmUnitEvaporationTemperature1C OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporation temperature 1 in tenths of degrees Celsius (2232)" ::= { airIRmPmUnitEvaporationTemperature1 1 } airIRmPmUnitEvaporationTemperature1F OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporation temperature 1 in tenths of degrees Fahrenheit (2232)" ::= { airIRmPmUnitEvaporationTemperature1 2 } airIRmPmUnitEvaporationPressure1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporation pressure 1 in tenths of Bars (2233)" ::= { airIRmPmCommon5 2 } airIRmPmUnitCondensationTemperature1 OBJECT IDENTIFIER ::= { airIRmPmCommon5 3 } airIRmPmUnitCondensationTemperature1C OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensation temperature 1 in tenths of degrees Celsius (2234)" ::= { airIRmPmUnitCondensationTemperature1 1 } airIRmPmUnitCondensationTemperature1F OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensation temperature 1 in tenths of degrees Fahrenheit (2234)" ::= { airIRmPmUnitCondensationTemperature1 2 } airIRmPmUnitCondensationPressure1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensation pressure 1 in tenths of Bars (2235)" ::= { airIRmPmCommon5 4 } airIRmPmMaxLimitReturnAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon5 8 } airIRmPmMaxLimitReturnAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit return air temperature in tenths of degrees Celsius (2239)." ::= { airIRmPmMaxLimitReturnAirTemperature 1 } airIRmPmMaxLimitReturnAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit return air temperature in tenths of degrees Fahrenheit (2239)." ::= { airIRmPmMaxLimitReturnAirTemperature 2 } airIRmPmMinLimitReturnAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon5 9 } airIRmPmMinLimitReturnAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit return air temperature in tenths of degrees Celsius (2240)." ::= { airIRmPmMinLimitReturnAirTemperature 1 } airIRmPmMinLimitReturnAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit return air temperature in tenths of degrees Fahrenheit (2240)." ::= { airIRmPmMinLimitReturnAirTemperature 2 } airIRmPmMaxLimitSupplyAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon5 10 } airIRmPmMaxLimitSupplyAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit supply air temperature in tenths of degrees Celsius (2241)." ::= { airIRmPmMaxLimitSupplyAirTemperature 1 } airIRmPmMaxLimitSupplyAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit supply air temperature in tenths of degrees Fahrenheit (2241)." ::= { airIRmPmMaxLimitSupplyAirTemperature 2 } airIRmPmMinLimitSupplyAirTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon5 11 } airIRmPmMinLimitSupplyAirTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit supply air temperature in tenths of degrees Celsius (2242)." ::= { airIRmPmMinLimitSupplyAirTemperature 1 } airIRmPmMinLimitSupplyAirTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit supply air temperature in tenths of degrees Fahrenheit (2242)." ::= { airIRmPmMinLimitSupplyAirTemperature 2 } airIRmPmMaxLimitWaterTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon5 12 } airIRmPmMaxLimitWaterTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit water temperature in tenths of degrees Celsius (2243)." ::= { airIRmPmMaxLimitWaterTemperature 1 } airIRmPmMaxLimitWaterTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit water temperature in tenths of degrees Fahrenheit (2243)." ::= { airIRmPmMaxLimitWaterTemperature 2 } airIRmPmMinLimitWaterTemperature OBJECT IDENTIFIER ::= { airIRmPmCommon5 13 } airIRmPmMinLimitWaterTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit water temperature in tenths of degrees Celsius (2244)." ::= { airIRmPmMinLimitWaterTemperature 1 } airIRmPmMinLimitWaterTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit water temperature in tenths of degrees Fahrenheit (2244)." ::= { airIRmPmMinLimitWaterTemperature 2 } airIRmPmMaxLimitReturnAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit return air humidity in tenths of %RH (2245)." ::= { airIRmPmCommon5 14 } airIRmPmMinLimitReturnAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit return air humidity in tenths of %RH (2246)." ::= { airIRmPmCommon5 15 } airIRmPmMaxLimitSupplyAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Maximum limit supply air humidity in tenths of %RH (2247)." ::= { airIRmPmCommon5 16 } airIRmPmMinLimitSupplyAirHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Minimum limit supply air humidity in tenths of %RH (2248)." ::= { airIRmPmCommon5 17 } airIRmPmLowPressureWinterDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Winter mode low pressure delay in seconds (2249)" ::= { airIRmPmCommon5 18 } airIRmPmUnitCondensationPressure2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensation pressure 2 in tenths of Bars (2250)" ::= { airIRmPmCommon5 19 } airIRmPmUnitOverloadSwitch OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit overload switch setting in tenths of Kelvins (2251)" ::= { airIRmPmCommon5 20 } airIRmPmUnitCondensationTemperature2 OBJECT IDENTIFIER ::= { airIRmPmCommon5 41 } airIRmPmUnitCondensationTemperature2C OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensation temperature 2 in tenths of degrees Celsius (2272)" ::= { airIRmPmUnitCondensationTemperature2 1 } airIRmPmUnitCondensationTemperature2F OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit condensation temperature 2 in tenths of degrees Fahrenheit (2272)" ::= { airIRmPmUnitCondensationTemperature2 2 } airIRmPmUnitEvaporationPressure2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporation pressure 2 in tenths of Bars (2273)" ::= { airIRmPmCommon5 42 } airIRmPmUnitEvaporationTemperature2 OBJECT IDENTIFIER ::= { airIRmPmCommon5 43 } airIRmPmUnitEvaporationTemperature2C OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporation temperature 2 in tenths of degrees Celsius (2274)" ::= { airIRmPmUnitEvaporationTemperature2 1 } airIRmPmUnitEvaporationTemperature2F OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Unit evaporation temperature 2 in tenths of degrees Fahrenheit (2274)" ::= { airIRmPmUnitEvaporationTemperature2 2 } -- airIRmPmCompressor1 airIRmPmCmp1ManOperationActive OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 1 manual operation active (4401)" ::= { airIRmPmCompressor1 2 } airIRmPmCmp1ManOperationState OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 1 manual operation state (4402)" ::= { airIRmPmCompressor1 3 } airIRmPmCmp1Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 1 running (4403)" ::= { airIRmPmCompressor1 4 } airIRmPmCmp1StartTempSummer OBJECT IDENTIFIER ::= { airIRmPmCompressor1 17 } airIRmPmCmp1StartTempSummerK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 summer mode start temperature in tenths of Kelvins (4416)" ::= { airIRmPmCmp1StartTempSummer 1 } airIRmPmCmp1StartTempSummerF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 summer mode start temperature in tenths of degrees Fahrenheit (4416)" ::= { airIRmPmCmp1StartTempSummer 2 } airIRmPmCmp1HysteresisSummer OBJECT IDENTIFIER ::= { airIRmPmCompressor1 18 } airIRmPmCmp1HysteresisSummerK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 summer mode hysteresis setting in tenths of Kelvins (4417)" ::= { airIRmPmCmp1HysteresisSummer 1 } airIRmPmCmp1HysteresisSummerF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 summer mode hysteresis setting in tenths of Fahrenheit (4417)" ::= { airIRmPmCmp1HysteresisSummer 2 } airIRmPmCmp1StartTempWinter OBJECT IDENTIFIER ::= { airIRmPmCompressor1 19 } airIRmPmCmp1StartTempWinterK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 winter mode start temperature in tenths of Kelvins (4418)" ::= { airIRmPmCmp1StartTempWinter 1 } airIRmPmCmp1StartTempWinterF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 winter mode start temperature in tenths of degrees Fahrenheit (4418)" ::= { airIRmPmCmp1StartTempWinter 2 } airIRmPmCmp1HysteresisWinter OBJECT IDENTIFIER ::= { airIRmPmCompressor1 20 } airIRmPmCmp1HysteresisWinterK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 Winter mode hysteresis setting in tenths of Kelvins (4419)" ::= { airIRmPmCmp1HysteresisWinter 1 } airIRmPmCmp1HysteresisWinterF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 1 Winter mode hysteresis setting in tenths of Fahrenheit (4419)" ::= { airIRmPmCmp1HysteresisWinter 2 } airIRmPmCmp1Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 1 runtime in hours (4428)" ::= { airIRmPmCompressor1 29 } -- airIRmPmCompressor2 airIRmPmCmp2ManOperationActive OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 2 manual operation active (4501)" ::= { airIRmPmCompressor2 2 } airIRmPmCmp2ManOperationState OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 2 manual operation state (4502)" ::= { airIRmPmCompressor2 3 } airIRmPmCmp2Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 2 running (4503)" ::= { airIRmPmCompressor2 4 } airIRmPmCmp2StartTempSummer OBJECT IDENTIFIER ::= { airIRmPmCompressor2 17 } airIRmPmCmp2StartTempSummerK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 summer mode start temperature in tenths of Kelvins (4516)" ::= { airIRmPmCmp2StartTempSummer 1 } airIRmPmCmp2StartTempSummerF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 summer mode start temperature in tenths of degrees Fahrenheit (4516)" ::= { airIRmPmCmp2StartTempSummer 2 } airIRmPmCmp2HysteresisSummer OBJECT IDENTIFIER ::= { airIRmPmCompressor2 18 } airIRmPmCmp2HysteresisSummerK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 summer mode hysteresis setting in tenths of Kelvins (4517)" ::= { airIRmPmCmp2HysteresisSummer 1 } airIRmPmCmp2HysteresisSummerF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 summer mode hysteresis setting in tenths of Fahrenheit (4517)" ::= { airIRmPmCmp2HysteresisSummer 2 } airIRmPmCmp2StartTempWinter OBJECT IDENTIFIER ::= { airIRmPmCompressor2 19 } airIRmPmCmp2StartTempWinterK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 winter mode start temperature in tenths of Kelvins (4518)" ::= { airIRmPmCmp2StartTempWinter 1 } airIRmPmCmp2StartTempWinterF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 winter mode start temperature in tenths of degrees Fahrenheit (4518)" ::= { airIRmPmCmp2StartTempWinter 2 } airIRmPmCmp2HysteresisWinter OBJECT IDENTIFIER ::= { airIRmPmCompressor2 20 } airIRmPmCmp2HysteresisWinterK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 Winter mode hysteresis setting in tenths of Kelvins (4519)" ::= { airIRmPmCmp2HysteresisWinter 1 } airIRmPmCmp2HysteresisWinterF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Compressor 2 Winter mode hysteresis setting in tenths of Fahrenheit (4519)" ::= { airIRmPmCmp2HysteresisWinter 2 } airIRmPmCmp2Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Compressor 2 runtime in hours (4528)" ::= { airIRmPmCompressor2 29 } -- airIRmPmSuctionValve1 -- Empty -- airIRmPmSuctionValve2 -- Empty -- airIRmPmEheating1 airIRmPmEheating1ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #1 manual operation enable (4801)" ::= { airIRmPmEheating1 2 } airIRmPmEheating1Running OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #1 running state (4803)" ::= { airIRmPmEheating1 4 } airIRmPmEheating1ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #1 running in manual operation mode (4804)" ::= { airIRmPmEheating1 5 } airIRmPmEheating1Type OBJECT-TYPE SYNTAX INTEGER { direct (1), pwm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #1 type (4808)" ::= { airIRmPmEheating1 9 } airIRmPmEheating1StartTemperature OBJECT IDENTIFIER ::= { airIRmPmEheating1 10 } airIRmPmEheating1StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #1 start temperature in tenths of Kelvins (4809)" ::= { airIRmPmEheating1StartTemperature 1 } airIRmPmEheating1StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #1 start temperature in tenths of degrees Fahrenheit (4809)" ::= { airIRmPmEheating1StartTemperature 2 } airIRmPmEheating1Hysteresis OBJECT IDENTIFIER ::= { airIRmPmEheating1 11 } airIRmPmEheating1HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #1 hysteresis in tenths of Kelvins (4810)" ::= { airIRmPmEheating1Hysteresis 1 } airIRmPmEheating1HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #1 hysteresis in tenths of degrees Fahrenheit (4810)" ::= { airIRmPmEheating1Hysteresis 2 } airIRmPmEheating1Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #1 runtime in hours (4816)" ::= { airIRmPmEheating1 17 } -- airIRmPmEheating2 airIRmPmEheating2ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #2 manual operation enable (4901)" ::= { airIRmPmEheating2 2 } airIRmPmEheating2Running OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #2 running state (4903)" ::= { airIRmPmEheating2 4 } airIRmPmEheating2ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #2 running in manual operation mode (4904)" ::= { airIRmPmEheating2 5 } airIRmPmEheating2Type OBJECT-TYPE SYNTAX INTEGER { direct (1), pwm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #2 type (4908)" ::= { airIRmPmEheating2 9 } airIRmPmEheating2StartTemperature OBJECT IDENTIFIER ::= { airIRmPmEheating2 10 } airIRmPmEheating2StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #2 start temperature in tenths of Kelvins (4909)" ::= { airIRmPmEheating2StartTemperature 1 } airIRmPmEheating2StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #2 start temperature in tenths of degrees Fahrenheit (4909)" ::= { airIRmPmEheating2StartTemperature 2 } airIRmPmEheating2Hysteresis OBJECT IDENTIFIER ::= { airIRmPmEheating2 11 } airIRmPmEheating2HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #2 hysteresis in tenths of Kelvins (4910)" ::= { airIRmPmEheating2Hysteresis 1 } airIRmPmEheating2HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #2 hysteresis in tenths of degrees Fahrenheit (4910)" ::= { airIRmPmEheating2Hysteresis 2 } airIRmPmEheating2Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #2 runtime in hours (4916)" ::= { airIRmPmEheating2 17 } -- airIRmPmEheating3 airIRmPmEheating3ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #3 manual operation enable (5001)" ::= { airIRmPmEheating3 2 } airIRmPmEheating3Running OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #3 running state (5003)" ::= { airIRmPmEheating3 4 } airIRmPmEheating3ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #3 running in manual operation mode (5004)" ::= { airIRmPmEheating3 5 } airIRmPmEheating3Type OBJECT-TYPE SYNTAX INTEGER { direct (1), pwm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #3 type (5008)" ::= { airIRmPmEheating3 9 } airIRmPmEheating3StartTemperature OBJECT IDENTIFIER ::= { airIRmPmEheating3 10 } airIRmPmEheating3StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #3 start temperature in tenths of Kelvins (5009)" ::= { airIRmPmEheating3StartTemperature 1 } airIRmPmEheating3StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #3 start temperature in tenths of degrees Fahrenheit (5009)" ::= { airIRmPmEheating3StartTemperature 2 } airIRmPmEheating3Hysteresis OBJECT IDENTIFIER ::= { airIRmPmEheating3 11 } airIRmPmEheating3HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #3 hysteresis in tenths of Kelvins (5010)" ::= { airIRmPmEheating3Hysteresis 1 } airIRmPmEheating3HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #3 hysteresis in tenths of degrees Fahrenheit (5010)" ::= { airIRmPmEheating3Hysteresis 2 } airIRmPmEheating3Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #3 runtime in hours (5016)" ::= { airIRmPmEheating3 17 } -- airIRmPmEheating4 airIRmPmEheating4ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #4 manual operation enable (5101)" ::= { airIRmPmEheating4 2 } airIRmPmEheating4Running OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #4 running state (5103)" ::= { airIRmPmEheating4 4 } airIRmPmEheating4ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #4 running in manual operation mode (5104)" ::= { airIRmPmEheating4 5 } airIRmPmEheating4Type OBJECT-TYPE SYNTAX INTEGER { direct (1), pwm (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #4 type (5108)" ::= { airIRmPmEheating4 9 } airIRmPmEheating4StartTemperature OBJECT IDENTIFIER ::= { airIRmPmEheating4 10 } airIRmPmEheating4StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #4 start temperature in tenths of Kelvins (5109)" ::= { airIRmPmEheating4StartTemperature 1 } airIRmPmEheating4StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #4 start temperature in tenths of degrees Fahrenheit (5109)" ::= { airIRmPmEheating4StartTemperature 2 } airIRmPmEheating4Hysteresis OBJECT IDENTIFIER ::= { airIRmPmEheating4 11 } airIRmPmEheating4HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #4 hysteresis in tenths of Kelvins (5110)" ::= { airIRmPmEheating4Hysteresis 1 } airIRmPmEheating4HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Electric heater #4 hysteresis in tenths of degrees Fahrenheit (5110)" ::= { airIRmPmEheating4Hysteresis 2 } airIRmPmEheating4Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Electric heater #4 runtime in hours (5116)" ::= { airIRmPmEheating4 17 } -- airIRmPmGECWvalve airIRmPmGECWvalveManOpEnable OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "GE/CW valve manual operation enable (5201)" ::= { airIRmPmGECWvalve 2 } airIRmPmGECWvalveStartTemperature OBJECT IDENTIFIER ::= { airIRmPmGECWvalve 9 } airIRmPmGECWvalveStartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "GE/CW valve start temperature in tenths of Kelvins (5208)" ::= { airIRmPmGECWvalveStartTemperature 1 } airIRmPmGECWvalveStartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "GE/CW valve start temperature in tenths of degrees Fahrenheit (5208)" ::= { airIRmPmGECWvalveStartTemperature 2 } airIRmPmGECWvalveLinearRange OBJECT IDENTIFIER ::= { airIRmPmGECWvalve 10 } airIRmPmGECWvalveLinearRangeK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "GE/CW valve linear range in tenths of Kelvins (5209)" ::= { airIRmPmGECWvalveLinearRange 1 } airIRmPmGECWvalveLinearRangeF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "GE/CW valve linear range in tenths of degrees Fahrenheit (5209)" ::= { airIRmPmGECWvalveLinearRange 2 } airIRmPmGECWvalveGEOffTemp OBJECT IDENTIFIER ::= { airIRmPmGECWvalve 12 } airIRmPmGECWvalveGEOffTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "GE/CW valve GE off temperature in tenths of degrees Celsius (5211)" ::= { airIRmPmGECWvalveGEOffTemp 1 } airIRmPmGECWvalveGEOffTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "GE/CW valve GE off temperature in tenths of degrees Fahrenheit (5211)" ::= { airIRmPmGECWvalveGEOffTemp 2 } airIRmPmGECWvalveOpeningGrade OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "GE/CW valve opening grade in percent (5214)" ::= { airIRmPmGECWvalve 15 } airIRmPmGECWvalveManOpOpeningGrade OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "GE/CW valve manual operation opening grade in percent (5215)" ::= { airIRmPmGECWvalve 16 } -- airIRmPmGvalve airIRmPmGvalveManOperationEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "G-valve manual operation enable (5301)" ::= { airIRmPmGvalve 2 } airIRmPmGvalvePreOpeningTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "G-valve pre-opening time in seconds (5310)" ::= { airIRmPmGvalve 11 } airIRmPmGvalvePreOpeningGrade OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "G-valve pre-opening grade in percent (5311)" ::= { airIRmPmGvalve 12 } airIRmPmGvalveOpeningGrade OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "G-valve opening grade in percent (5312)" ::= { airIRmPmGvalve 13 } airIRmPmGvalveManOpOpeningGrade OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "G-valve manual operation opening grade in percent (5313)" ::= { airIRmPmGvalve 14 } -- airIRmPmDrycooler1 airIRmPmDrycooler1ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 1 manual operation enable setting (5401)" ::= { airIRmPmDrycooler1 2 } airIRmPmDrycooler1Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 1 running (5402)" ::= { airIRmPmDrycooler1 3 } airIRmPmDrycooler1ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 1 manual operation running (5404)" ::= { airIRmPmDrycooler1 5 } airIRmPmDrycooler1WinterStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler1 9 } airIRmPmDrycooler1WinterStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 1 winter mode start temperature in tenths of degrees Celsius (5408)" ::= { airIRmPmDrycooler1WinterStartTemp 1 } airIRmPmDrycooler1WinterStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 1 winter mode start temperature in tenths of degrees Fahrenheit (5408)" ::= { airIRmPmDrycooler1WinterStartTemp 2 } airIRmPmDrycooler1SummerStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler1 10 } airIRmPmDrycooler1SummerStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 1 summer mode start temperature in tenths of degrees Celsius (5409)" ::= { airIRmPmDrycooler1SummerStartTemp 1 } airIRmPmDrycooler1SummerStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 1 summer mode start temperature in tenths of degrees Fahrenheit (5409)" ::= { airIRmPmDrycooler1SummerStartTemp 2 } airIRmPmDrycooler1Hysteresis OBJECT IDENTIFIER ::= { airIRmPmDrycooler1 11 } airIRmPmDrycooler1HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 1 hysteresis in tenths of Kelvins (5410)" ::= { airIRmPmDrycooler1Hysteresis 1 } airIRmPmDrycooler1HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 1 hysteresis in tenths of degrees Fahrenheit (5410)" ::= { airIRmPmDrycooler1Hysteresis 2 } airIRmPmDrycooler1Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 1 runtime in hours (5415)" ::= { airIRmPmDrycooler1 16 } -- airIRmPmDrycooler2 airIRmPmDrycooler2ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 2 manual operation enable setting (5501)" ::= { airIRmPmDrycooler2 2 } airIRmPmDrycooler2Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 2 running (5502)" ::= { airIRmPmDrycooler2 3 } airIRmPmDrycooler2ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 2 manual operation running (5504)" ::= { airIRmPmDrycooler2 5 } airIRmPmDrycooler2WinterStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler2 9 } airIRmPmDrycooler2WinterStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 2 winter mode start temperature in tenths of degrees Celsius (5508)" ::= { airIRmPmDrycooler2WinterStartTemp 1 } airIRmPmDrycooler2WinterStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 2 winter mode start temperature in tenths of degrees Fahrenheit (5508)" ::= { airIRmPmDrycooler2WinterStartTemp 2 } airIRmPmDrycooler2SummerStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler2 10 } airIRmPmDrycooler2SummerStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 2 summer mode start temperature in tenths of degrees Celsius (5509)" ::= { airIRmPmDrycooler2SummerStartTemp 1 } airIRmPmDrycooler2SummerStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 2 summer mode start temperature in tenths of degrees Fahrenheit (5509)" ::= { airIRmPmDrycooler2SummerStartTemp 2 } airIRmPmDrycooler2Hysteresis OBJECT IDENTIFIER ::= { airIRmPmDrycooler2 11 } airIRmPmDrycooler2HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 2 hysteresis in tenths of Kelvins (5510)" ::= { airIRmPmDrycooler2Hysteresis 1 } airIRmPmDrycooler2HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 2 hysteresis in tenths of degrees Fahrenheit (5510)" ::= { airIRmPmDrycooler2Hysteresis 2 } airIRmPmDrycooler2Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 2 runtime in hours (5515)" ::= { airIRmPmDrycooler2 16 } -- airIRmPmDrycooler3 airIRmPmDrycooler3ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 3 manual operation enable setting (5601)" ::= { airIRmPmDrycooler3 2 } airIRmPmDrycooler3Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 3 running (5602)" ::= { airIRmPmDrycooler3 3 } airIRmPmDrycooler3ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 3 manual operation running (5604)" ::= { airIRmPmDrycooler3 5 } airIRmPmDrycooler3WinterStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler3 9 } airIRmPmDrycooler3WinterStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 3 winter mode start temperature in tenths of degrees Celsius (5608)" ::= { airIRmPmDrycooler3WinterStartTemp 1 } airIRmPmDrycooler3WinterStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 3 winter mode start temperature in tenths of degrees Fahrenheit (5608)" ::= { airIRmPmDrycooler3WinterStartTemp 2 } airIRmPmDrycooler3SummerStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler3 10 } airIRmPmDrycooler3SummerStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 3 summer mode start temperature in tenths of degrees Celsius (5609)" ::= { airIRmPmDrycooler3SummerStartTemp 1 } airIRmPmDrycooler3SummerStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 3 summer mode start temperature in tenths of degrees Fahrenheit (5609)" ::= { airIRmPmDrycooler3SummerStartTemp 2 } airIRmPmDrycooler3Hysteresis OBJECT IDENTIFIER ::= { airIRmPmDrycooler3 11 } airIRmPmDrycooler3HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 3 hysteresis in tenths of Kelvins (5610)" ::= { airIRmPmDrycooler3Hysteresis 1 } airIRmPmDrycooler3HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 3 hysteresis in tenths of degrees Fahrenheit (5610)" ::= { airIRmPmDrycooler3Hysteresis 2 } airIRmPmDrycooler3Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 3 runtime in hours (5615)" ::= { airIRmPmDrycooler3 16 } -- airIRmPmDrycooler4 airIRmPmDrycooler4ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 4 manual operation enable setting (5701)" ::= { airIRmPmDrycooler4 2 } airIRmPmDrycooler4Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 4 running (5702)" ::= { airIRmPmDrycooler4 3 } airIRmPmDrycooler4ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 4 manual operation running (5704)" ::= { airIRmPmDrycooler4 5 } airIRmPmDrycooler4WinterStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler4 9 } airIRmPmDrycooler4WinterStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 4 winter mode start temperature in tenths of degrees Celsius (5708)" ::= { airIRmPmDrycooler4WinterStartTemp 1 } airIRmPmDrycooler4WinterStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 4 winter mode start temperature in tenths of degrees Fahrenheit (5708)" ::= { airIRmPmDrycooler4WinterStartTemp 2 } airIRmPmDrycooler4SummerStartTemp OBJECT IDENTIFIER ::= { airIRmPmDrycooler4 10 } airIRmPmDrycooler4SummerStartTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 4 summer mode start temperature in tenths of degrees Celsius (5709)" ::= { airIRmPmDrycooler4SummerStartTemp 1 } airIRmPmDrycooler4SummerStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 4 summer mode start temperature in tenths of degrees Fahrenheit (5709)" ::= { airIRmPmDrycooler4SummerStartTemp 2 } airIRmPmDrycooler4Hysteresis OBJECT IDENTIFIER ::= { airIRmPmDrycooler4 11 } airIRmPmDrycooler4HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 4 hysteresis in tenths of Kelvins (5710)" ::= { airIRmPmDrycooler4Hysteresis 1 } airIRmPmDrycooler4HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Drycooler 4 hysteresis in tenths of degrees Fahrenheit (5710)" ::= { airIRmPmDrycooler4Hysteresis 2 } airIRmPmDrycooler4Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler 4 runtime in hours (5715)" ::= { airIRmPmDrycooler4 16 } -- airIRmPmPump1 airIRmPmPump1ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 1 manual operation enable state (5801)" ::= { airIRmPmPump1 2 } airIRmPmPump1Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 1 running (5802)" ::= { airIRmPmPump1 3 } airIRmPmPump1ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 1 manual operation running (5805)" ::= { airIRmPmPump1 6 } airIRmPmPump1StartTemperature OBJECT IDENTIFIER ::= { airIRmPmPump1 10 } airIRmPmPump1StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 starting temperature in tenths of Kelvins (5809)" ::= { airIRmPmPump1StartTemperature 1 } airIRmPmPump1StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 starting temperature in tenths of degrees Fahrenheit (5809)" ::= { airIRmPmPump1StartTemperature 2 } airIRmPmPump1Hysteresis OBJECT IDENTIFIER ::= { airIRmPmPump1 11 } airIRmPmPump1HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 hysteresis in tenths of Kelvins (5810)" ::= { airIRmPmPump1Hysteresis 1 } airIRmPmPump1HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 hysteresis in tenths of degrees Fahrenheit (5810)" ::= { airIRmPmPump1Hysteresis 2 } airIRmPmPump1LinearRange OBJECT IDENTIFIER ::= { airIRmPmPump1 12 } airIRmPmPump1LinearRangeK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 linear range in tenths of Kelvins (5811)" ::= { airIRmPmPump1LinearRange 1 } airIRmPmPump1LinearRangeF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 linear range in tenths of degrees Fahrenheit (5811)" ::= { airIRmPmPump1LinearRange 2 } airIRmPmPump1PressureSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 pressure setpoint in tenths of Bars (5812)" ::= { airIRmPmPump1 13 } airIRmPmPump1Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 1 runtime in hours (5820)" ::= { airIRmPmPump1 21 } airIRmPmPump1Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 1 speed in percent (5821)" ::= { airIRmPmPump1 22 } airIRmPmPump1ControlCycle OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 control cycle length in seconds (5827)" ::= { airIRmPmPump1 28 } airIRmPmPump1MaxAdjust OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 maximum adjustment in percent (5828)" ::= { airIRmPmPump1 29 } airIRmPmPump1ControlFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 1 control factor setting (5829)" ::= { airIRmPmPump1 30 } -- airIRmPmPump2 airIRmPmPump2ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 2 manual operation enable state (5901)" ::= { airIRmPmPump2 2 } airIRmPmPump2Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 2 running (5902)" ::= { airIRmPmPump2 3 } airIRmPmPump2ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 2 manual operation running (5905)" ::= { airIRmPmPump2 6 } airIRmPmPump2StartTemperature OBJECT IDENTIFIER ::= { airIRmPmPump2 10 } airIRmPmPump2StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 starting temperature in tenths of Kelvins (5909)" ::= { airIRmPmPump2StartTemperature 1 } airIRmPmPump2StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 starting temperature in tenths of degrees Fahrenheit (5909)" ::= { airIRmPmPump2StartTemperature 2 } airIRmPmPump2Hysteresis OBJECT IDENTIFIER ::= { airIRmPmPump2 11 } airIRmPmPump2HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 hysteresis in tenths of Kelvins (5910)" ::= { airIRmPmPump2Hysteresis 1 } airIRmPmPump2HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 hysteresis in tenths of degrees Fahrenheit (5910)" ::= { airIRmPmPump2Hysteresis 2 } airIRmPmPump2LinearRange OBJECT IDENTIFIER ::= { airIRmPmPump2 12 } airIRmPmPump2LinearRangeK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 linear range in tenths of Kelvins (5911)" ::= { airIRmPmPump2LinearRange 1 } airIRmPmPump2LinearRangeF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 linear range in tenths of degrees Fahrenheit (5911)" ::= { airIRmPmPump2LinearRange 2 } airIRmPmPump2PressureSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 pressure setpoint in tenths of Bars (5912)" ::= { airIRmPmPump2 13 } airIRmPmPump2Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 2 runtime in hours (5920)" ::= { airIRmPmPump2 21 } airIRmPmPump2Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 2 speed in percent (5921)" ::= { airIRmPmPump2 22 } airIRmPmPump2ControlCycle OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 control cycle length in seconds (5927)" ::= { airIRmPmPump2 28 } airIRmPmPump2MaxAdjust OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 maximum adjustment in percent (5928)" ::= { airIRmPmPump2 29 } airIRmPmPump2ControlFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 2 control factor setting (5929)" ::= { airIRmPmPump2 30 } -- airIRmPmPump3 airIRmPmPump3ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 3 manual operation enable state (6001)" ::= { airIRmPmPump3 2 } airIRmPmPump3Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 3 running (6002)" ::= { airIRmPmPump3 3 } airIRmPmPump3ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 3 manual operation running (6005)" ::= { airIRmPmPump3 6 } airIRmPmPump3StartTemperature OBJECT IDENTIFIER ::= { airIRmPmPump3 10 } airIRmPmPump3StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 starting temperature in tenths of Kelvins (6009)" ::= { airIRmPmPump3StartTemperature 1 } airIRmPmPump3StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 starting temperature in tenths of degrees Fahrenheit (6009)" ::= { airIRmPmPump3StartTemperature 2 } airIRmPmPump3Hysteresis OBJECT IDENTIFIER ::= { airIRmPmPump3 11 } airIRmPmPump3HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 hysteresis in tenths of Kelvins (6010)" ::= { airIRmPmPump3Hysteresis 1 } airIRmPmPump3HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 hysteresis in tenths of degrees Fahrenheit (6010)" ::= { airIRmPmPump3Hysteresis 2 } airIRmPmPump3LinearRange OBJECT IDENTIFIER ::= { airIRmPmPump3 12 } airIRmPmPump3LinearRangeK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 linear range in tenths of Kelvins (6011)" ::= { airIRmPmPump3LinearRange 1 } airIRmPmPump3LinearRangeF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 linear range in tenths of degrees Fahrenheit (6011)" ::= { airIRmPmPump3LinearRange 2 } airIRmPmPump3PressureSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 pressure setpoint in tenths of Bars (6012)" ::= { airIRmPmPump3 13 } airIRmPmPump3Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 3 runtime in hours (6020)" ::= { airIRmPmPump3 21 } airIRmPmPump3Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 3 speed in percent (6021)" ::= { airIRmPmPump3 22 } airIRmPmPump3ControlCycle OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 control cycle length in seconds (6027)" ::= { airIRmPmPump3 28 } airIRmPmPump3MaxAdjust OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 maximum adjustment in percent (6028)" ::= { airIRmPmPump3 29 } airIRmPmPump3ControlFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 3 control factor setting (6029)" ::= { airIRmPmPump3 30 } -- airIRmPmPump4 airIRmPmPump4ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 4 manual operation enable state (6101)" ::= { airIRmPmPump4 2 } airIRmPmPump4Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 4 running (6102)" ::= { airIRmPmPump4 3 } airIRmPmPump4ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Pump 4 manual operation running (6105)" ::= { airIRmPmPump4 6 } airIRmPmPump4StartTemperature OBJECT IDENTIFIER ::= { airIRmPmPump4 10 } airIRmPmPump4StartTemperatureK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 starting temperature in tenths of Kelvins (6109)" ::= { airIRmPmPump4StartTemperature 1 } airIRmPmPump4StartTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 starting temperature in tenths of degrees Fahrenheit (6109)" ::= { airIRmPmPump4StartTemperature 2 } airIRmPmPump4Hysteresis OBJECT IDENTIFIER ::= { airIRmPmPump4 11 } airIRmPmPump4HysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 hysteresis in tenths of Kelvins (6110)" ::= { airIRmPmPump4Hysteresis 1 } airIRmPmPump4HysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 hysteresis in tenths of degrees Fahrenheit (6110)" ::= { airIRmPmPump4Hysteresis 2 } airIRmPmPump4LinearRange OBJECT IDENTIFIER ::= { airIRmPmPump4 12 } airIRmPmPump4LinearRangeK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 linear range in tenths of Kelvins (6111)" ::= { airIRmPmPump4LinearRange 1 } airIRmPmPump4LinearRangeF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 linear range in tenths of degrees Fahrenheit (6111)" ::= { airIRmPmPump4LinearRange 2 } airIRmPmPump4PressureSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 pressure setpoint in tenths of Bars (6112)" ::= { airIRmPmPump4 13 } airIRmPmPump4Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 4 runtime in hours (6120)" ::= { airIRmPmPump4 21 } airIRmPmPump4Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Pump 4 speed in percent (6121)" ::= { airIRmPmPump4 22 } airIRmPmPump4ControlCycle OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 control cycle length in seconds (6127)" ::= { airIRmPmPump4 28 } airIRmPmPump4MaxAdjust OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 maximum adjustment in percent (6128)" ::= { airIRmPmPump4 29 } airIRmPmPump4ControlFactor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Pump 4 control factor setting (6129)" ::= { airIRmPmPump4 30 } -- airIRmPmHotgasHeating airIRmPmHotgasHeatRunning OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Hotgas heat running state. (6202)" ::= { airIRmPmHotgasHeating 3 } -- airIRmPmPWWHeating airIRmPmPWWHeatingManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "PWW-heating manual operation enable (6301)" ::= { airIRmPmPWWHeating 2 } airIRmPmPWWHeatingRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "PWW-heating running (6302)" ::= { airIRmPmPWWHeating 3 } airIRmPmPWWHeatingManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "PWW-heating manual operation running (6303)" ::= { airIRmPmPWWHeating 4 } airIRmPmPWWHeatingType OBJECT-TYPE SYNTAX INTEGER { direct (1), undefined (2) } ACCESS read-only STATUS mandatory DESCRIPTION "PWW-heating type (6308)" ::= { airIRmPmPWWHeating 9 } airIRmPmPWWHeatingStartTemp OBJECT IDENTIFIER ::= { airIRmPmPWWHeating 10 } airIRmPmPWWHeatingStartTempK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating starting temperature in Kelvins (6309)" ::= { airIRmPmPWWHeatingStartTemp 1 } airIRmPmPWWHeatingStartTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating starting temperature in degrees Fahrenheit (6309)" ::= { airIRmPmPWWHeatingStartTemp 2 } airIRmPmPWWHeatingHysteresis OBJECT IDENTIFIER ::= { airIRmPmPWWHeating 12 } airIRmPmPWWHeatingHysteresisK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating hysteresis in Kelvins (6311)" ::= { airIRmPmPWWHeatingHysteresis 1 } airIRmPmPWWHeatingHysteresisF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating hysteresis in degrees Fahrenheit (6311)" ::= { airIRmPmPWWHeatingHysteresis 2 } airIRmPmPWWHeatingLinearRange OBJECT IDENTIFIER ::= { airIRmPmPWWHeating 13 } airIRmPmPWWHeatingLinearRangeK OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating linear range in Kelvins (6312)" ::= { airIRmPmPWWHeatingLinearRange 1 } airIRmPmPWWHeatingLinearRangeF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating linear range in degrees Fahrenheit (6312)" ::= { airIRmPmPWWHeatingLinearRange 2 } airIRmPmPWWHeatingCurrentValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating current value in percent (6315)" ::= { airIRmPmPWWHeating 16 } airIRmPmPWWHeatingManOpValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "PWW-heating manual operation value in percent (6316)" ::= { airIRmPmPWWHeating 17 } -- airIRmPmHumidifier1 airIRmPmHumidifier1ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 manual operation enable (6401)" ::= { airIRmPmHumidifier1 2 } airIRmPmHumidifier1Running OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 running state (6402)" ::= { airIRmPmHumidifier1 3 } airIRmPmHumidifier1ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 manual operation running state (6404)" ::= { airIRmPmHumidifier1 5 } airIRmPmHumidifier1Type OBJECT-TYPE SYNTAX INTEGER { direct (1), proportional (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 type (6416)" ::= { airIRmPmHumidifier1 17 } airIRmPmHumidifier1StartHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #1 start humidity in tenths of percent relative humidity (6417)" ::= { airIRmPmHumidifier1 18 } airIRmPmHumidifier1Hysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #1 hysteresis in tenths of percent relative humidity (6419)" ::= { airIRmPmHumidifier1 20 } airIRmPmHumidifier1LinearRange OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #1 linear range in tenths of percent relative humidity per Kelvin (6420)" ::= { airIRmPmHumidifier1 21 } airIRmPmHumidifier1Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 runtime in hours (6426)" ::= { airIRmPmHumidifier1 27 } airIRmPmHumidifier1CurrentValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 current value in percent (6427)" ::= { airIRmPmHumidifier1 28 } airIRmPmHumidifier1ManOpValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #1 manual operation value in percent (6428)" ::= { airIRmPmHumidifier1 29 } -- airIRmPmHumidifier2 airIRmPmHumidifier2ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 manual operation enable (6501)" ::= { airIRmPmHumidifier2 2 } airIRmPmHumidifier2Running OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 running state (6502)" ::= { airIRmPmHumidifier2 3 } airIRmPmHumidifier2ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 manual operation running state (6504)" ::= { airIRmPmHumidifier2 5 } airIRmPmHumidifier2Type OBJECT-TYPE SYNTAX INTEGER { direct (1), proportional (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 type (6516)" ::= { airIRmPmHumidifier2 17 } airIRmPmHumidifier2StartHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #2 start humidity in tenths of percent relative humidity (6517)" ::= { airIRmPmHumidifier2 18 } airIRmPmHumidifier2Hysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #2 hysteresis in tenths of percent relative humidity (6519)" ::= { airIRmPmHumidifier2 20 } airIRmPmHumidifier2LinearRange OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #2 linear range in tenths of percent relative humidity per Kelvin (6520)" ::= { airIRmPmHumidifier2 21 } airIRmPmHumidifier2Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 runtime in hours (6526)" ::= { airIRmPmHumidifier2 27 } airIRmPmHumidifier2CurrentValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 current value in percent (6527)" ::= { airIRmPmHumidifier2 28 } airIRmPmHumidifier2ManOpValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Humidifier #2 manual operation value in percent (6528)" ::= { airIRmPmHumidifier2 29 } -- airIRmPmDehumidification airIRmPmDehumidificManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Dehumidifier manual operation enable setting (6801)" ::= { airIRmPmDehumidification 2 } airIRmPmDehumidificRunning OBJECT-TYPE SYNTAX AirIRmControlState ACCESS read-only STATUS mandatory DESCRIPTION "Dehumidifier running state (6802)" ::= { airIRmPmDehumidification 3 } airIRmPmDehumidificManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Dehumidifier manual operation running (6804)" ::= { airIRmPmDehumidification 5 } airIRmPmDehumidificStartHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier start humidity in tenths of percent relative humidity (6809)" ::= { airIRmPmDehumidification 10 } airIRmPmDehumidificHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier hysteresis in tenths of percent relative humidity (6811)" ::= { airIRmPmDehumidification 12 } airIRmPmDehumidificMinWaterTemp OBJECT IDENTIFIER ::= { airIRmPmDehumidification 18 } airIRmPmDehumidificMinWaterTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier minimum water temperature in tenths of degrees Celsius (6817)" ::= { airIRmPmDehumidificMinWaterTemp 1 } airIRmPmDehumidificMinWaterTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier minimum water temperature in tenths of degrees Fahrenheit (6817)" ::= { airIRmPmDehumidificMinWaterTemp 2 } airIRmPmDehumidificMaxWaterTemp OBJECT IDENTIFIER ::= { airIRmPmDehumidification 19 } airIRmPmDehumidificMaxWaterTempC OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier maximum water temperature in tenths of degrees Celsius (6818)" ::= { airIRmPmDehumidificMaxWaterTemp 1 } airIRmPmDehumidificMaxWaterTempF OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier maximum water temperature in tenths of degrees Fahrenheit (6818)" ::= { airIRmPmDehumidificMaxWaterTemp 2 } airIRmPmDehumidificRuntime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Dehumidifier runtime in hours (6820)" ::= { airIRmPmDehumidification 21 } -- airIRmPmFan1 airIRmPmFan1ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation enable (6901)" ::= { airIRmPmFan1 2 } airIRmPmFan1Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 running (6902)" ::= { airIRmPmFan1 3 } airIRmPmFan1ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation running (6905)" ::= { airIRmPmFan1 6 } airIRmPmFan1Type OBJECT-TYPE SYNTAX INTEGER { direct (1), proportional (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 type (6908)" ::= { airIRmPmFan1 9 } airIRmPmFan1Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 runtime in hours (6931)" ::= { airIRmPmFan1 32 } airIRmPmFan1Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 speed in percent (6932)" ::= { airIRmPmFan1 33 } airIRmPmFan1ManOpSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation speed in percent (6933)" ::= { airIRmPmFan1 34 } -- airIRmPmFan2 airIRmPmFan2ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation enable (7001)" ::= { airIRmPmFan2 2 } airIRmPmFan2Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 running (7002)" ::= { airIRmPmFan2 3 } airIRmPmFan2ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation running (7005)" ::= { airIRmPmFan2 6 } airIRmPmFan2Type OBJECT-TYPE SYNTAX INTEGER { direct (1), proportional (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Fan 2 type (7008)" ::= { airIRmPmFan2 9 } airIRmPmFan2Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 runtime in hours (7031)" ::= { airIRmPmFan2 32 } airIRmPmFan2Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 speed in percent (7032)" ::= { airIRmPmFan2 33 } airIRmPmFan2ManOpSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation speed in percent (7033)" ::= { airIRmPmFan2 34 } -- airIRmPmFan3 airIRmPmFan3ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation enable (7101)" ::= { airIRmPmFan3 2 } airIRmPmFan3Running OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 running (7102)" ::= { airIRmPmFan3 3 } airIRmPmFan3ManOpRunning OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation running (7105)" ::= { airIRmPmFan3 6 } airIRmPmFan3Type OBJECT-TYPE SYNTAX INTEGER { direct (1), proportional (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Fan 3 type (7108)" ::= { airIRmPmFan3 9 } airIRmPmFan3Runtime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 runtime in hours (7131)" ::= { airIRmPmFan3 32 } airIRmPmFan3Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 speed in percent (7132)" ::= { airIRmPmFan3 33 } airIRmPmFan3ManOpSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Fan 1 manual operation speed in percent (7133)" ::= { airIRmPmFan3 34 } -- airIRmPmLouver1 airIRmPmLouver1ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Louver 1 manual operation enable (7201)" ::= { airIRmPmLouver1 2 } airIRmPmLouver1Position OBJECT-TYPE SYNTAX INTEGER { closed (1), open (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Louver 1 position (7202)" ::= { airIRmPmLouver1 3 } airIRmPmLouver1ManOpPosition OBJECT-TYPE SYNTAX INTEGER { closed (1), open (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Louver 1 manual operation position setting (7203)" ::= { airIRmPmLouver1 4 } -- airIRmPmLouver2 airIRmPmLouver2ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Louver 2 manual operation enable (7301)" ::= { airIRmPmLouver2 2 } airIRmPmLouver2Position OBJECT-TYPE SYNTAX INTEGER { closed (1), open (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Louver 2 position (7302)" ::= { airIRmPmLouver2 3 } airIRmPmLouver2ManOpPosition OBJECT-TYPE SYNTAX INTEGER { closed (1), open (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Louver 2 manual operation position setting (7303)" ::= { airIRmPmLouver2 4 } -- airIRmPmLouver3 airIRmPmLouver3ManOpEnable OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Louver 3 manual operation enable (7401)" ::= { airIRmPmLouver3 2 } airIRmPmLouver3Position OBJECT-TYPE SYNTAX INTEGER { closed (1), open (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Louver 3 position (7402)" ::= { airIRmPmLouver3 3 } airIRmPmLouver3ManOpPosition OBJECT-TYPE SYNTAX INTEGER { closed (1), open (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Louver 3 manual operation position setting (7403)" ::= { airIRmPmLouver3 4 } -- airIRmPmAuxAlarm1 -- Empty -- airIRmPmAuxAlarm2 -- Empty -- airIRmPmAuxAlarm3 -- Empty -- airIRmPmAuxAlarm4 -- Empty -- airIRmPmAuxAlarm5 -- Empty -- airIRmPmAlarmBits airIRmPmFan1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fan #1 failure (8500)." ::= { airIRmPmAlarmBits 1 } airIRmPmFan2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fan #2 failure (8501)." ::= { airIRmPmAlarmBits 2 } airIRmPmFan3Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fan #3 failure (8502)." ::= { airIRmPmAlarmBits 3 } airIRmPmCompressor1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor #1 failure (8503)." ::= { airIRmPmAlarmBits 4 } airIRmPmCompressor2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor #2 failure (8504)." ::= { airIRmPmAlarmBits 5 } airIRmPmWaterDetector OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Water detector alarm (8505)." ::= { airIRmPmAlarmBits 6 } airIRmPmPhaseFailure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Phase failure (8506)." ::= { airIRmPmAlarmBits 7 } airIRmPmFireSmokeDetector OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fire/smoke detector (8507)." ::= { airIRmPmAlarmBits 8 } airIRmPmReturnAirTemperatureTooHigh OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Return air temperature too high (8508)." ::= { airIRmPmAlarmBits 9 } airIRmPmReturnAirHumidityTooHigh OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Return air humidity too high (8509)." ::= { airIRmPmAlarmBits 10 } airIRmPmSupplyAirTemperatureTooHigh OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Supply air temperature too high (8510)." ::= { airIRmPmAlarmBits 11 } airIRmPmSupplyAirHumidityTooHigh OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Supply air humidity too high (8511)." ::= { airIRmPmAlarmBits 12 } airIRmPmWaterTemperatureTooHigh OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Water temperature too high (8512)." ::= { airIRmPmAlarmBits 13 } airIRmPmReturnAirTemperatureTooLow OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Return air temperature too low (8513)." ::= { airIRmPmAlarmBits 14 } airIRmPmReturnAirHumidityTooLow OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Return air humidity too low (8514)." ::= { airIRmPmAlarmBits 15 } airIRmPmSupplyAirTemperatureTooLow OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Supply air temperature too low (8515)." ::= { airIRmPmAlarmBits 16 } airIRmPmSupplyAirHumidityTooLow OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Supply air humidity too low (8516)." ::= { airIRmPmAlarmBits 17 } airIRmPmWaterTemperatureTooLow OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Water temperature too low (8517)." ::= { airIRmPmAlarmBits 18 } airIRmPmSensor1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #1 failure (8518)." ::= { airIRmPmAlarmBits 19 } airIRmPmSensor2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #2 failure (8519)." ::= { airIRmPmAlarmBits 20 } airIRmPmSensor3Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #3 failure (8520)." ::= { airIRmPmAlarmBits 21 } airIRmPmSensor4Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #4 failure (8521)." ::= { airIRmPmAlarmBits 22 } airIRmPmSensor5Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #5 failure (8522)." ::= { airIRmPmAlarmBits 23 } airIRmPmSensor6Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #6 failure (8523)." ::= { airIRmPmAlarmBits 24 } airIRmPmSensor7Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #7 failure (8524)." ::= { airIRmPmAlarmBits 25 } airIRmPmSensor8Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #8 failure (8525)." ::= { airIRmPmAlarmBits 26 } airIRmPmSensor9Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #9 failure (8526)." ::= { airIRmPmAlarmBits 27 } airIRmPmSensor10Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #10 failure (8527)." ::= { airIRmPmAlarmBits 28 } airIRmPmSensor11Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #11 failure (8528)." ::= { airIRmPmAlarmBits 29 } airIRmPmSensor12Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #12 failure (8529)." ::= { airIRmPmAlarmBits 30 } airIRmPmSensor13Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #13 failure (8530)." ::= { airIRmPmAlarmBits 31 } airIRmPmSensor14Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #14 failure (8531)." ::= { airIRmPmAlarmBits 32 } airIRmPmSensor15Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #15 failure (8532)." ::= { airIRmPmAlarmBits 33 } airIRmPmSensor16Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #16 failure (8533)." ::= { airIRmPmAlarmBits 34 } airIRmPmSensor17Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #17 failure (8534)." ::= { airIRmPmAlarmBits 35 } airIRmPmSensor18Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #18 failure (8535)." ::= { airIRmPmAlarmBits 36 } airIRmPmSensor19Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #19 failure (8536)." ::= { airIRmPmAlarmBits 37 } airIRmPmSensor20Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #20 failure (8537)." ::= { airIRmPmAlarmBits 38 } airIRmPmSensor21Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #21 failure (8538)." ::= { airIRmPmAlarmBits 39 } airIRmPmSensor1Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #1 defect (8539)." ::= { airIRmPmAlarmBits 40 } airIRmPmSensor2Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #2 defect (8540)." ::= { airIRmPmAlarmBits 41 } airIRmPmSensor3Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #3 defect (8541)." ::= { airIRmPmAlarmBits 42 } airIRmPmSensor4Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #4 defect (8542)." ::= { airIRmPmAlarmBits 43 } airIRmPmSensor5Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #5 defect (8543)." ::= { airIRmPmAlarmBits 44 } airIRmPmSensor6Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #6 defect (8544)." ::= { airIRmPmAlarmBits 45 } airIRmPmSensor7Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #7 defect (8545)." ::= { airIRmPmAlarmBits 46 } airIRmPmSensor8Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #8 defect (8546)." ::= { airIRmPmAlarmBits 47 } airIRmPmSensor9Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #9 defect (8547)." ::= { airIRmPmAlarmBits 48 } airIRmPmSensor10Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #10 defect (8548)." ::= { airIRmPmAlarmBits 49 } airIRmPmSensor11Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #11 defect (8549)." ::= { airIRmPmAlarmBits 50 } airIRmPmSensor12Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #12 defect (8550)." ::= { airIRmPmAlarmBits 51 } airIRmPmSensor13Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #13 defect (8551)." ::= { airIRmPmAlarmBits 52 } airIRmPmSensor14Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #14 defect (8552)." ::= { airIRmPmAlarmBits 53 } airIRmPmSensor15Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #15 defect (8553)." ::= { airIRmPmAlarmBits 54 } airIRmPmSensor16Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #16 defect (8554)." ::= { airIRmPmAlarmBits 55 } airIRmPmSensor17Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #17 defect (8555)." ::= { airIRmPmAlarmBits 56 } airIRmPmSensor18Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #18 defect (8556)" ::= { airIRmPmAlarmBits 57 } airIRmPmSensor19Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #19 defect (8557)." ::= { airIRmPmAlarmBits 58 } airIRmPmSensor20Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #20 defect (8558)." ::= { airIRmPmAlarmBits 59 } airIRmPmSensor21Defect OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Sensor #21 defect (8559)." ::= { airIRmPmAlarmBits 60 } airIRmPmCompressor1Alarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor #1 alarm (8560)." ::= { airIRmPmAlarmBits 61 } airIRmPmCompressor2Alarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor #2 alarm (8561)." ::= { airIRmPmAlarmBits 62 } airIRmPmCompressor1LowPressure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor #1 low pressure (8562)." ::= { airIRmPmAlarmBits 63 } airIRmPmCompressor2LowPressure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Compressor #2 low pressure (8563)." ::= { airIRmPmAlarmBits 64 } airIRmPmReheat1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Reheat #1 failure (8564)." ::= { airIRmPmAlarmBits 65 } airIRmPmReheat2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Reheat #2 failure (8565)." ::= { airIRmPmAlarmBits 66 } airIRmPmReheat3Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Reheat #3 failure (8566)." ::= { airIRmPmAlarmBits 67 } airIRmPmReheat4Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Reheat #4 failure (8567)." ::= { airIRmPmAlarmBits 68 } airIRmPmDrycooler1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler #1 failure (8568)." ::= { airIRmPmAlarmBits 69 } airIRmPmDrycooler2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler #2 failure (8569)." ::= { airIRmPmAlarmBits 70 } airIRmPmDrycooler3Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler #3 failure (8570)." ::= { airIRmPmAlarmBits 71 } airIRmPmDrycooler4Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Drycooler #4 failure (8571)." ::= { airIRmPmAlarmBits 72 } airIRmPmPump1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Pump #1 failure (8572)." ::= { airIRmPmAlarmBits 73 } airIRmPmPump2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Pump #2 failure (8573)." ::= { airIRmPmAlarmBits 74 } airIRmPmPump3Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Pump #3 failure (8574)." ::= { airIRmPmAlarmBits 75 } airIRmPmPump4Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Pump #4 failure (8575)." ::= { airIRmPmAlarmBits 76 } airIRmPmHumidifier1Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 failure (8576)." ::= { airIRmPmAlarmBits 77 } airIRmPmHumidifier2Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 failure (8577)." ::= { airIRmPmAlarmBits 78 } airIRmPmHumidifier3Failure OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #3 failure (8578)." ::= { airIRmPmAlarmBits 79 } airIRmPmHumidifier1Alarm5us OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 5us alarm (8579)." ::= { airIRmPmAlarmBits 80 } airIRmPmHumidifier2Alarm5us OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 5us alarm (8580)." ::= { airIRmPmAlarmBits 81 } airIRmPmHumidifier3Alarm5us OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #3 5us alarm (8581)." ::= { airIRmPmAlarmBits 82 } airIRmPmHumidifier1Alarm20us OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #1 20us alarm (8582)." ::= { airIRmPmAlarmBits 83 } airIRmPmHumidifier2Alarm20us OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #2 20us alarm (8583)." ::= { airIRmPmAlarmBits 84 } airIRmPmHumidifier3Alarm20us OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Humidifier #3 20us alarm (8584)." ::= { airIRmPmAlarmBits 85 } airIRmPmFan1Alarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fan #1 alarm (8585)." ::= { airIRmPmAlarmBits 86 } airIRmPmFan2Alarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fan #2 alarm (8586)." ::= { airIRmPmAlarmBits 87 } airIRmPmFan3Alarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Fan #3 alarm (8587)." ::= { airIRmPmAlarmBits 88 } airIRmPmFilter1Clogged OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Filter #1 clogged (8588)." ::= { airIRmPmAlarmBits 89 } airIRmPmFilter2Clogged OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Filter #2 clogged (8589)." ::= { airIRmPmAlarmBits 90 } airIRmPmFilter3Clogged OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Filter #3 clogged (8590)." ::= { airIRmPmAlarmBits 91 } airIRmPmAuxiliaryAlarm1 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #1 alarm (8591)." ::= { airIRmPmAlarmBits 92 } airIRmPmAuxiliaryAlarm2 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #2 alarm (8592)." ::= { airIRmPmAlarmBits 93 } airIRmPmAuxiliaryAlarm3 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #3 alarm (8593)." ::= { airIRmPmAlarmBits 94 } airIRmPmAuxiliaryAlarm4 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #4 alarm (8594)." ::= { airIRmPmAlarmBits 95 } airIRmPmAuxiliaryAlarm5 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #5 alarm (8595)." ::= { airIRmPmAlarmBits 96 } airIRmPmAuxiliaryAlarm6 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #6 alarm (8596)." ::= { airIRmPmAlarmBits 97 } airIRmPmAuxiliaryAlarm7 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #7 alarm (8597)." ::= { airIRmPmAlarmBits 98 } airIRmPmAuxiliaryAlarm8 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #8 alarm (8598)." ::= { airIRmPmAlarmBits 99 } airIRmPmAuxiliaryAlarm9 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #9 alarm (8599)." ::= { airIRmPmAlarmBits 100 } airIRmPmAuxiliaryAlarm10 OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Auxiliary #10 alarm (8600)." ::= { airIRmPmAlarmBits 101 } airIRmPmHotGasHeatingAlarm OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "Hot gas heating alarm (8601)." ::= { airIRmPmAlarmBits 102 } airIRmPmEEV1PressureSensorError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "EEV1 pressure sensor error (8602)." ::= { airIRmPmAlarmBits 103 } airIRmPmEEV1TemperatureSensorError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "EEV1 temperature sensor error (8603)." ::= { airIRmPmAlarmBits 104 } airIRmPmEEV1StepperMotorError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "EEV1 stepper motor error (8604)." ::= { airIRmPmAlarmBits 105 } airIRmPmEEV2PressureSensorError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "EEV2 pressure sensor error (8605)." ::= { airIRmPmAlarmBits 106 } airIRmPmEEV2TemperatureSensorError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "EEV2 temperature sensor error (8606)." ::= { airIRmPmAlarmBits 107 } airIRmPmEEV2StepperMotorError OBJECT-TYPE SYNTAX AirIRmAlarmState ACCESS read-only STATUS mandatory DESCRIPTION "EEV2 stepper motor error (8607)." ::= { airIRmPmAlarmBits 108 } -- airIRmPmMyZone airIRmPmMyZoneNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone number (11700)." ::= { airIRmPmMyZone 1 } airIRmPmMyZoneRoomTemperature OBJECT IDENTIFIER ::= { airIRmPmMyZone 2 } airIRmPmMyZoneRoomTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone room temperature in tenths of degrees Celsius (11701)." ::= { airIRmPmMyZoneRoomTemperature 1 } airIRmPmMyZoneRoomTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone room temperature in tenths of degrees Fahrenheit (11701)." ::= { airIRmPmMyZoneRoomTemperature 2 } airIRmPmMyZoneRoomHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone room humidity in tenths of %RH (11702)." ::= { airIRmPmMyZone 3 } airIRmPmMyZoneSupplyTemperature OBJECT IDENTIFIER ::= { airIRmPmMyZone 4 } airIRmPmMyZoneSupplyTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone supply temperature in tenths of degrees Celsius (11703)." ::= { airIRmPmMyZoneSupplyTemperature 1 } airIRmPmMyZoneSupplyTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone supply temperature in tenths of degrees Fahrenheit (11703)." ::= { airIRmPmMyZoneSupplyTemperature 2 } airIRmPmMyZoneSupplyHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone supply humidity in tenths of %RH (11704)." ::= { airIRmPmMyZone 5 } airIRmPmMyZoneSequencingTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone sequencing time in minutes (11705)." ::= { airIRmPmMyZone 6 } airIRmPmMyZoneNumberOfErrorUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Number of error units in my zone (11706)." ::= { airIRmPmMyZone 7 } airIRmPmMyZoneEmergencyTemperature OBJECT IDENTIFIER ::= { airIRmPmMyZone 8 } airIRmPmMyZoneEmergencyTemperatureC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone emergency temperature in tenths of degrees Celsius (11707)." ::= { airIRmPmMyZoneEmergencyTemperature 1 } airIRmPmMyZoneEmergencyTemperatureF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "My zone emergency temperature in tenths of degrees Fahrenheit (11707)." ::= { airIRmPmMyZoneEmergencyTemperature 2 } airIRmPmMyZoneCWEnergySaveMode OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "My zone CW energy save mode (11708)." ::= { airIRmPmMyZone 9 } -- airIRmPmGlobalZoneData airIRmPmGlobalZoneDataEmergencyOpMode OBJECT-TYPE SYNTAX AirIRmActivityState ACCESS read-only STATUS mandatory DESCRIPTION "Emergency operation mode (11800)." ::= { airIRmPmGlobalZoneData 1 } -- End of AC InRoom -- Begining of airIRGen3 -- ****************************************************************** --airIRG3 Ident Group -- ****************************************************************** airIRG3IdentTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ident table size." ::= { airIRG3Ident 1 } AirIRG3IdentEntry ::= SEQUENCE { airIRG3IdentIndex INTEGER, airIRG3IdentName DisplayString, airIRG3IdentLocation DisplayString, airIRG3IdentModelNumber DisplayString, airIRG3IdentSerialNumber DisplayString, airIRG3IdentFirmwareRevision DisplayString, airIRG3IdentHardwareRevision DisplayString, airIRG3IdentManufactureDate DisplayString, airIRG3IdentRDUSysOID OBJECT IDENTIFIER, airIRG3IdentCMSysOID OBJECT IDENTIFIER, airIRG3IdentGroupSysOID OBJECT IDENTIFIER } airIRG3IdentTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3IdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to get ident information of current RDU and its assigned CM's." ::= { airIRG3Ident 2 } airIRG3IdentEntry OBJECT-TYPE SYNTAX AirIRG3IdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ident table entry." INDEX { airIRG3IdentIndex} ::= { airIRG3IdentTable 1 } airIRG3IdentIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of ident table." ::= { airIRG3IdentEntry 1 } airIRG3IdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit name." ::= { airIRG3IdentEntry 2 } airIRG3IdentLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A character string identifying the unit location." ::= { airIRG3IdentEntry 3 } airIRG3IdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit model number." ::= { airIRG3IdentEntry 4 } airIRG3IdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit serial number." ::= { airIRG3IdentEntry 5 } airIRG3IdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit firmware version." ::= { airIRG3IdentEntry 6 } airIRG3IdentHardwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit controller hardware revision." ::= { airIRG3IdentEntry 7 } airIRG3IdentManufactureDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the unit manufacture date." ::= { airIRG3IdentEntry 8 } airIRG3IdentRDUSysOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "This OID contains an OID path to the RDU data." ::= { airIRG3IdentEntry 9 } airIRG3IdentCMSysOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "This OID contains an OID path to the cooling module data." ::= { airIRG3IdentEntry 10 } airIRG3IdentGroupSysOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "This OID contains an OID path to the group data." ::= { airIRG3IdentEntry 11 } -- ****************************************************************** -- airIRG3 Group Status -- ****************************************************************** airIRG3GroupTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group table size." ::= { airIRG3Group 1 } AirIRG3GroupStatusEntry ::= SEQUENCE { airIRG3GroupStatusIndex INTEGER, airIRG3GroupStatusCoolOutput INTEGER, airIRG3GroupStatusCoolDemand INTEGER, airIRG3GroupStatusAirFlowUS INTEGER, airIRG3GroupStatusAirFlowMetric INTEGER, airIRG3GroupStatusMaxRackInletTempUS INTEGER, airIRG3GroupStatusMaxRackInletTempMetric INTEGER, airIRG3GroupStatusMinRackInletTempUS INTEGER, airIRG3GroupStatusMinRackInletTempMetric INTEGER, airIRG3GroupStatusMaxReturnAirTempUS INTEGER, airIRG3GroupStatusMaxReturnAirTempMetric INTEGER, airIRG3GroupStatusMinReturnAirTempUS INTEGER, airIRG3GroupStatusMinReturnAirTempMetric INTEGER, airIRG3GroupStatusAvgSupplyTempUS INTEGER, airIRG3GroupStatusAvgSupplyTempMetric INTEGER, airIRG3GroupStatusAvgReturnTempUS INTEGER, airIRG3GroupStatusAvgReturnTempMetric INTEGER, airIRG3GroupStatusAvgFanSpeed INTEGER, airIRG3GroupStatusAvgAirFlowUS INTEGER, airIRG3GroupStatusAvgAirFlowMetric INTEGER, airIRG3GroupStatusTotalAirFlowUS INTEGER, airIRG3GroupStatusTotalAirFlowMetric INTEGER } airIRG3GroupStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3GroupStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to get group status information." ::= { airIRG3Group 2 } airIRG3GroupStatusEntry OBJECT-TYPE SYNTAX AirIRG3GroupStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The group staus table entry." INDEX { airIRG3GroupStatusIndex} ::= { airIRG3GroupStatusTable 1 } airIRG3GroupStatusIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of group status table." ::= { airIRG3GroupStatusEntry 1 } airIRG3GroupStatusCoolOutput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group cooling output in tenths of kilowatts (kW). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 2 } airIRG3GroupStatusCoolDemand OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group cooling demand in tenths of kilowatts (kW). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 3 } airIRG3GroupStatusAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group air flow in cubic feet per minute (CFM). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 4 } airIRG3GroupStatusAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group air flow in liters per second (L/s). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 5 } airIRG3GroupStatusMaxRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum rack inlet temperature in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 6 } airIRG3GroupStatusMaxRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum rack inlet temperature in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 7 } airIRG3GroupStatusMinRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum rack inlet temperature in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 8 } airIRG3GroupStatusMinRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum rack inlet temperature in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 9 } airIRG3GroupStatusMaxReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum return air temperature in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 10 } airIRG3GroupStatusMaxReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group maximum return air temperature in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 11 } airIRG3GroupStatusMinReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum return air temperature in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 12 } airIRG3GroupStatusMinReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group minimum return air temperature in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 13 } airIRG3GroupStatusAvgSupplyTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average supply air temperature in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 14 } airIRG3GroupStatusAvgSupplyTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average supply air temperature in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 15 } airIRG3GroupStatusAvgReturnTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average return air temperature in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 16 } airIRG3GroupStatusAvgReturnTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average return air temperature in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 17 } airIRG3GroupStatusAvgFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average fan speed in revolutions per minute (RPM). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 18 } airIRG3GroupStatusAvgAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average air flow in cubic feet per minute (CFM). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 19 } airIRG3GroupStatusAvgAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group average air flow in liters per second (L/s). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 20 } airIRG3GroupStatusTotalAirFlowUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group total air flow in cubic feet per minute (CFM). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 21 } airIRG3GroupStatusTotalAirFlowMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group total air flow in liters per second (L/s). Returns (-1) if not supported." ::= { airIRG3GroupStatusEntry 22 } -- ****************************************************************** --airIRG3 Group Setpoints -- ****************************************************************** AirIRG3GroupSetpointsEntry ::= SEQUENCE { airIRG3GroupSetpointsIndex INTEGER, airIRG3GroupSetpointsCoolSetpointUS INTEGER, airIRG3GroupSetpointsCoolSetpointMetric INTEGER, airIRG3GroupSetpointsCoolDeadbandUS INTEGER, airIRG3GroupSetpointsCoolDeadbandMetric INTEGER, airIRG3GroupSetpointsFanSpeedPreference INTEGER, airIRG3GroupSetpointsSupplyAirSetpointUS INTEGER, airIRG3GroupSetpointsSupplyAirSetpointMetric INTEGER, airIRG3GroupSetpointsAirFlowControl INTEGER, airIRG3GroupSetpointsLightingOnTime INTEGER } airIRG3GroupSetpointsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3GroupSetpointsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access the group setpoints." ::= { airIRG3Group 3 } airIRG3GroupSetpointsEntry OBJECT-TYPE SYNTAX AirIRG3GroupSetpointsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The group setpoints table entry." INDEX { airIRG3GroupSetpointsIndex} ::= { airIRG3GroupSetpointsTable 1 } airIRG3GroupSetpointsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of group setpoints table." ::= { airIRG3GroupSetpointsEntry 1 } airIRG3GroupSetpointsCoolSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Fahrenheit." ::= { airIRG3GroupSetpointsEntry 2 } airIRG3GroupSetpointsCoolSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling setpoint in tenths of degrees Celsius." ::= { airIRG3GroupSetpointsEntry 3 } airIRG3GroupSetpointsCoolDeadbandUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling deadband in tenths of degrees Fahrenheit. Returns (-1) if not supported." ::= { airIRG3GroupSetpointsEntry 4 } airIRG3GroupSetpointsCoolDeadbandMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group cooling deadband in tenths of degrees Celsius. Returns (-1) if not supported." ::= { airIRG3GroupSetpointsEntry 5 } airIRG3GroupSetpointsFanSpeedPreference OBJECT-TYPE SYNTAX INTEGER { low (1), med-low (2), med (3), med-high (4), high (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The group preferred fan speed setting." ::= { airIRG3GroupSetpointsEntry 6 } airIRG3GroupSetpointsSupplyAirSetpointUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Fahrenheit." ::= { airIRG3GroupSetpointsEntry 7 } airIRG3GroupSetpointsSupplyAirSetpointMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Group supply air setpoint in tenths of degrees Celsius." ::= { airIRG3GroupSetpointsEntry 8 } airIRG3GroupSetpointsAirFlowControl OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The group air flow control." ::= { airIRG3GroupSetpointsEntry 9 } airIRG3GroupSetpointsLightingOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The group lighting on time in minutes." ::= { airIRG3GroupSetpointsEntry 10 } -- ****************************************************************** --airIRG3 Group Config -- ****************************************************************** AirIRG3GroupConfigEntry ::= SEQUENCE { airIRG3GroupConfigIndex INTEGER, airIRG3GroupConfigNumberofCoolingUnits INTEGER, airIRG3GroupConfigConfigurationType INTEGER, airIRG3GroupConfigCapacityControlType INTEGER, airIRG3GroupConfigFanSpeedControl INTEGER, airIRG3GroupConfigCoolGainP INTEGER, airIRG3GroupConfigCoolResetRateI INTEGER, airIRG3GroupConfigCoolDerivativeD INTEGER, airIRG3GroupConfigCoolPIDReset INTEGER, airIRG3GroupConfigNumberofBackupUnits INTEGER, airIRG3GroupConfigRuntimeBalancingEnable INTEGER, airIRG3GroupConfigLoadAssistEnable INTEGER } airIRG3GroupConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3GroupConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access group configuration table." ::= { airIRG3Group 4 } airIRG3GroupConfigEntry OBJECT-TYPE SYNTAX AirIRG3GroupConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The group config table entry." INDEX { airIRG3GroupConfigIndex} ::= { airIRG3GroupConfigTable 1 } airIRG3GroupConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of group config table." ::= { airIRG3GroupConfigEntry 1 } airIRG3GroupConfigNumberofCoolingUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of cooling units." ::= { airIRG3GroupConfigEntry 2 } airIRG3GroupConfigConfigurationType OBJECT-TYPE SYNTAX INTEGER { racs (1), spot (2), in-row (3), hacs (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The group configuration type. The spot configuration type is not supported. Returns (-1) if not supported." ::= { airIRG3GroupConfigEntry 3 } airIRG3GroupConfigCapacityControlType OBJECT-TYPE SYNTAX INTEGER { discrete (1), proportional (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The group capacity control. Returns (-1) if not supported." ::= { airIRG3GroupConfigEntry 4 } airIRG3GroupConfigFanSpeedControl OBJECT-TYPE SYNTAX INTEGER { automatic (1), manual (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The group fan speed control." ::= { airIRG3GroupConfigEntry 5 } airIRG3GroupConfigCoolGainP OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The gain component of the PID in hundredths." ::= { airIRG3GroupConfigEntry 6 } airIRG3GroupConfigCoolResetRateI OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The integral component of the PID in hundredths." ::= { airIRG3GroupConfigEntry 7 } airIRG3GroupConfigCoolDerivativeD OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The derivative component of the PID in hundredths." ::= { airIRG3GroupConfigEntry 8 } airIRG3GroupConfigCoolPIDReset OBJECT-TYPE SYNTAX INTEGER { readBack (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Will reset the PID coefficients back to the factory defaults. Readback is not supported, returns -1." ::= { airIRG3GroupConfigEntry 9 } airIRG3GroupConfigNumberofBackupUnits OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of backup units." ::= { airIRG3GroupConfigEntry 10 } airIRG3GroupConfigRuntimeBalancingEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable runtime balancing feature." ::= { airIRG3GroupConfigEntry 11 } airIRG3GroupConfigLoadAssistEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable load assist feature." ::= { airIRG3GroupConfigEntry 12 } -- *************************************** -- airIRG3 Alarm Status -- *************************************** airIRG3AlarmsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active alarms in the airIRG3AlarmsTable." ::= { airIRG3Alarms 1 } AirIRG3AlarmsEntry ::= SEQUENCE { airIRG3AlarmsIndex INTEGER, airIRG3AlarmsEventCode INTEGER, airIRG3AlarmsDescription DisplayString } airIRG3AlarmsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3AlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of active alarms for the device." ::= { airIRG3Alarms 2 } airIRG3AlarmsEntry OBJECT-TYPE SYNTAX AirIRG3AlarmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Alarms specification" INDEX { airIRG3AlarmsIndex } ::= { airIRG3AlarmsTable 1 } airIRG3AlarmsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Alarm index." ::= { airIRG3AlarmsEntry 1 } airIRG3AlarmsEventCode OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Event Code for the alarm. Returns (-1) if not supported." ::= { airIRG3AlarmsEntry 2 } airIRG3AlarmsDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) ACCESS read-only STATUS mandatory DESCRIPTION "Description of the alarm. Returns (-1) if not supported." ::= { airIRG3AlarmsEntry 3 } -- *************************************** -- airIRG3 RDU Status -- *************************************** airIRG3RDUTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU table size." ::= { airIRG3RDU 1 } AirIRG3RDUStatusEntry ::= SEQUENCE { airIRG3RDUStatusDeviceIndex INTEGER, airIRG3RDUID DisplayString, airIRG3RDUStatusOnReadyStandby INTEGER, airIRG3RDUStatusOperatingMode INTEGER, airIRG3RDUStatusLeadPump INTEGER, airIRG3RDUStatusStartupDelay INTEGER, airIRG3RDUStatusPumpChangeOverInterval INTEGER, airIRG3RDUStatusStopOnLeakDetect INTEGER, airIRG3RDUStatusPowerSource INTEGER, airIRG3RDUStatusTotalRDUOutputPower INTEGER, airIRG3RDUStatusInletWaterTempUS INTEGER, airIRG3RDUStatusInletWaterTempMetric INTEGER, airIRG3RDUStatusOutletWaterTempUS INTEGER, airIRG3RDUStatusOutletWaterTempMetric INTEGER, airIRG3RDUStatusCondenserSaturationTempUS INTEGER, airIRG3RDUStatusCondenserSaturationTempMetric INTEGER, airIRG3RDUStatusDewPointTempUS INTEGER, airIRG3RDUStatusDewPointTempMetric INTEGER, airIRG3RDUStatusPumpOutletTempUS INTEGER, airIRG3RDUStatusPumpOutletTempMetric INTEGER, airIRG3RDUStatusSubcoolerOutletTempUS INTEGER, airIRG3RDUStatusSubcoolerOutletTempMetric INTEGER, airIRG3RDUStatusCondenserOutletTempUS INTEGER, airIRG3RDUStatusCondenserOutletTempMetric INTEGER, airIRG3RDUStatusCondenserInletTempUS INTEGER, airIRG3RDUStatusCondenserInletTempMetric INTEGER, airIRG3RDUStatusCondenserOutletPressureUS INTEGER, airIRG3RDUStatusCondenserOutletPressureMetric INTEGER, airIRG3RDUStatusPump1HeadPressureUS INTEGER, airIRG3RDUStatusPump1HeadPressureMetric INTEGER, airIRG3RDUStatusPump2HeadPressureUS INTEGER, airIRG3RDUStatusPump2HeadPressureMetric INTEGER, airIRG3RDUStatusPump1Speed INTEGER, airIRG3RDUStatusPump2Speed INTEGER, airIRG3RDUStatusCWValvePosition INTEGER, airIRG3RDUStatusReceiverLiquidLevel INTEGER, airIRG3RDUStatusDCPowerSupply1Current INTEGER, airIRG3RDUStatusDCPowerSupply2Current INTEGER, airIRG3RDUStatusTotalDCPowerSupplyCurrent INTEGER, airIRG3RDUStatusInputState INTEGER, airIRG3RDUStatusOutputState INTEGER, airIRG3RDUStatusByPassValvePosition INTEGER, airIRG3RDUStatusRefrigerantLeakDetector INTEGER } airIRG3RDUStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3RDUStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access RDU status table." ::= { airIRG3RDU 2 } airIRG3RDUStatusEntry OBJECT-TYPE SYNTAX AirIRG3RDUStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The RDU status table entry." INDEX { airIRG3RDUStatusDeviceIndex} ::= { airIRG3RDUStatusTable 1 } airIRG3RDUStatusDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of RDU status table." ::= { airIRG3RDUStatusEntry 1 } airIRG3RDUID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The current RDU ID (1 to F). Configured RDU only shall display ID, else return -1. " ::= { airIRG3RDUStatusEntry 2 } airIRG3RDUStatusOnReadyStandby OBJECT-TYPE SYNTAX INTEGER { standby (1), ready (2), on (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU current status." ::= { airIRG3RDUStatusEntry 3 } airIRG3RDUStatusOperatingMode OBJECT-TYPE SYNTAX INTEGER { standby (1), ready (2), on (3), stop (4), maintenancemode (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU actual operating mode." ::= { airIRG3RDUStatusEntry 4 } airIRG3RDUStatusLeadPump OBJECT-TYPE SYNTAX INTEGER { pump1 (1), pump2 (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU lead pump." ::= { airIRG3RDUStatusEntry 5 } airIRG3RDUStatusStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU start up delay in seconds." ::= { airIRG3RDUStatusEntry 6 } airIRG3RDUStatusPumpChangeOverInterval OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU pump change over interval in days." ::= { airIRG3RDUStatusEntry 7 } airIRG3RDUStatusStopOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU status of stop on leak detect." ::= { airIRG3RDUStatusEntry 8 } airIRG3RDUStatusPowerSource OBJECT-TYPE SYNTAX INTEGER { singleFeed (1), dualFeed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU power source status." ::= { airIRG3RDUStatusEntry 9 } airIRG3RDUStatusTotalRDUOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU output power in tenths of kilowatts (kW)." ::= { airIRG3RDUStatusEntry 10 } airIRG3RDUStatusInletWaterTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU inlet water temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 11 } airIRG3RDUStatusInletWaterTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU inlet water temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 12 } airIRG3RDUStatusOutletWaterTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU outlet water temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 13 } airIRG3RDUStatusOutletWaterTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU outlet water temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 14 } airIRG3RDUStatusCondenserSaturationTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser saturation temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 15 } airIRG3RDUStatusCondenserSaturationTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser saturation temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 16 } airIRG3RDUStatusDewPointTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU dew point temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 17 } airIRG3RDUStatusDewPointTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU dew point temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 18 } airIRG3RDUStatusPumpOutletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU pump outlet temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 19 } airIRG3RDUStatusPumpOutletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU pump outlet temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 20 } airIRG3RDUStatusSubcoolerOutletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU sub cooler outlet temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 21 } airIRG3RDUStatusSubcoolerOutletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU sub cooler outlet temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 22 } airIRG3RDUStatusCondenserOutletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser outlet temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 23 } airIRG3RDUStatusCondenserOutletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser outlet temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 24 } airIRG3RDUStatusCondenserInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser inlet temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUStatusEntry 25 } airIRG3RDUStatusCondenserInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser inlet temperature in tenths of degrees Celsius." ::= { airIRG3RDUStatusEntry 26 } airIRG3RDUStatusCondenserOutletPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser outlet pressure in pounds per square inch (PSI)." ::= { airIRG3RDUStatusEntry 27 } airIRG3RDUStatusCondenserOutletPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU condenser outlet pressure in kiloPascals (KPa)." ::= { airIRG3RDUStatusEntry 28 } airIRG3RDUStatusPump1HeadPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Pump 1 head pressure in pounds per square inch (PSI)." ::= { airIRG3RDUStatusEntry 29 } airIRG3RDUStatusPump1HeadPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Pump 1 head pressure in kiloPascals (KPa)." ::= { airIRG3RDUStatusEntry 30 } airIRG3RDUStatusPump2HeadPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Pump 2 head pressure in pounds per square inch (PSI)." ::= { airIRG3RDUStatusEntry 31 } airIRG3RDUStatusPump2HeadPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Pump 2 head pressure in kiloPascals (KPa)." ::= { airIRG3RDUStatusEntry 32 } airIRG3RDUStatusPump1Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Pump 1 speed in revolutions per minute (RPM)." ::= { airIRG3RDUStatusEntry 33 } airIRG3RDUStatusPump2Speed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Pump 2 speed in revolutions per minute (RPM)." ::= { airIRG3RDUStatusEntry 34 } airIRG3RDUStatusCWValvePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU CW Valve position in % open" ::= { airIRG3RDUStatusEntry 35 } airIRG3RDUStatusReceiverLiquidLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU receiver liquid level in % Full" ::= { airIRG3RDUStatusEntry 36 } airIRG3RDUStatusDCPowerSupply1Current OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU DC Power Supply 1 Current in Amps" ::= { airIRG3RDUStatusEntry 37 } airIRG3RDUStatusDCPowerSupply2Current OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU DC Power Supply 2 Current in Amps" ::= { airIRG3RDUStatusEntry 38 } airIRG3RDUStatusTotalDCPowerSupplyCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Total DC Power Supply Current in Amps" ::= { airIRG3RDUStatusEntry 39 } airIRG3RDUStatusInputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Input state." ::= { airIRG3RDUStatusEntry 40 } airIRG3RDUStatusOutputState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU Output state" ::= { airIRG3RDUStatusEntry 41 } airIRG3RDUStatusByPassValvePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU By Pass Valve position in % open" ::= { airIRG3RDUStatusEntry 42 } airIRG3RDUStatusRefrigerantLeakDetector OBJECT-TYPE SYNTAX INTEGER { suspended (1), calibrating (2), operating (3), disabled (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The RDU refrigerant leak detector status." ::= { airIRG3RDUStatusEntry 43 } -- *************************************** -- airIRG3 RDU Run Hours -- *************************************** AirIRG3RDURunHoursEntry ::= SEQUENCE { airIRG3RDURunHoursDeviceIndex INTEGER, airIRG3RDURunHoursRDUID DisplayString, airIRG3RDURunHoursPump1 INTEGER, airIRG3RDURunHoursPump2 INTEGER, airIRG3RDURunHoursPowerSupply1 INTEGER, airIRG3RDURunHoursPowerSupply2 INTEGER } airIRG3RDURunHoursTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3RDURunHoursEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access RDU run hours table." ::= { airIRG3RDU 3 } airIRG3RDURunHoursEntry OBJECT-TYPE SYNTAX AirIRG3RDURunHoursEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The RDU run hours table entry." INDEX { airIRG3RDURunHoursDeviceIndex} ::= { airIRG3RDURunHoursTable 1 } airIRG3RDURunHoursDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of RDU run hours table." ::= { airIRG3RDURunHoursEntry 1 } airIRG3RDURunHoursRDUID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The current RDU ID (1 to F). Configured RDU only shall display ID, else return -1. " ::= { airIRG3RDURunHoursEntry 2 } airIRG3RDURunHoursPump1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU run hours of Pump 1." ::= { airIRG3RDURunHoursEntry 3 } airIRG3RDURunHoursPump2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU run hours of Pump 2." ::= { airIRG3RDURunHoursEntry 4 } airIRG3RDURunHoursPowerSupply1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU run hours of power supply 1." ::= { airIRG3RDURunHoursEntry 5 } airIRG3RDURunHoursPowerSupply2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The RDU run hours of power supply 2." ::= { airIRG3RDURunHoursEntry 6 } -- *************************************** -- airIRG3 RDU Service Intervals -- *************************************** AirIRG3RDUServiceIntervalsEntry ::= SEQUENCE { airIRG3RDUServiceIntervalsDeviceIndex INTEGER, airIRG3RDUServiceIntervalsRDUID DisplayString, airIRG3RDUServiceIntervalsAirFilterInterval INTEGER, airIRG3RDUServiceIntervalsAirFilterAlarm INTEGER } airIRG3RDUServiceIntervalsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3RDUServiceIntervalsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access RDU service intervals table." ::= { airIRG3RDU 4 } airIRG3RDUServiceIntervalsEntry OBJECT-TYPE SYNTAX AirIRG3RDUServiceIntervalsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The service interval table entry." INDEX { airIRG3RDUServiceIntervalsDeviceIndex} ::= { airIRG3RDUServiceIntervalsTable 1 } airIRG3RDUServiceIntervalsDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of service interval table." ::= { airIRG3RDUServiceIntervalsEntry 1 } airIRG3RDUServiceIntervalsRDUID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The current RDU ID (1 to F). Configured RDU only shall display ID, else return -1. " ::= { airIRG3RDUServiceIntervalsEntry 2 } airIRG3RDUServiceIntervalsAirFilterInterval OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The RDU service interval for air filter in hours. Returns -1 if not supported." ::= { airIRG3RDUServiceIntervalsEntry 3 } airIRG3RDUServiceIntervalsAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU service interval air filter alarm status. Returns -1 if not supported." ::= { airIRG3RDUServiceIntervalsEntry 4 } -- ******************************************* -- airIRG3 RDU Thresholds -- Currently there are no thresholds for RDU -- ******************************************* AirIRG3RDUThresholdsEntry ::= SEQUENCE { airIRG3RDUThresholdsDeviceIndex INTEGER, airIRG3RDUThresholdsRDUID DisplayString, airIRG3RDUThresholdsEnteringFluidTempHighUS INTEGER, airIRG3RDUThresholdsEnteringFluidTempHighMetric INTEGER } airIRG3RDUThresholdsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3RDUThresholdsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access RDU thresholds table." ::= { airIRG3RDU 5 } airIRG3RDUThresholdsEntry OBJECT-TYPE SYNTAX AirIRG3RDUThresholdsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The RDU thresholds table entry." INDEX { airIRG3RDUThresholdsDeviceIndex} ::= { airIRG3RDUThresholdsTable 1 } airIRG3RDUThresholdsDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of RDU thresholds table." ::= { airIRG3RDUThresholdsEntry 1 } airIRG3RDUThresholdsRDUID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The current RDU ID (1 to F). Configured RDU only shall display ID, else return -1. " ::= { airIRG3RDUThresholdsEntry 2 } airIRG3RDUThresholdsEnteringFluidTempHighUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The RDU threshold for entering fluid temperature in tenths of degrees Fahrenheit." ::= { airIRG3RDUThresholdsEntry 3 } airIRG3RDUThresholdsEnteringFluidTempHighMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The RDU threshold for entering fluid temperature in tenths of degrees Celsius." ::= { airIRG3RDUThresholdsEntry 4 } -- *************************************** -- airIRG3 RDU Setpoints -- *************************************** AirIRG3RDUSetpointsEntry ::= SEQUENCE { airIRG3RDUSetpointsDeviceIndex INTEGER } airIRG3RDUSetpointsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3RDUSetpointsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access RDU set points table." ::= { airIRG3RDU 6 } airIRG3RDUSetpointsEntry OBJECT-TYPE SYNTAX AirIRG3RDUSetpointsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The RDU set points table entry." INDEX { airIRG3RDUSetpointsDeviceIndex} ::= { airIRG3RDUSetpointsTable 1 } airIRG3RDUSetpointsDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of RDU set points table." ::= { airIRG3RDUSetpointsEntry 1 } -- *************************************** -- airIRG3 RDU Config -- *************************************** AirIRG3RDUConfigEntry ::= SEQUENCE { airIRG3RDUConfigDeviceIndex INTEGER, airIRG3RDUConfigRDUID DisplayString, airIRG3RDUConfigStopOnLeakDetect INTEGER, airIRG3RDUConfigStartupDelay INTEGER, airIRG3RDUConfigPumpChangeOverInterval INTEGER, airIRG3RDUConfigPowerSource INTEGER, airIRG3RDUConfigOutputSource INTEGER, airIRG3RDUConfigInputNormalState INTEGER, airIRG3RDUConfigOutputNormalState INTEGER, airIRG3RDUConfigByPassValveEnabled INTEGER, airIRG3RDUConfigRefrigerantLeakDetectorEnabled INTEGER, airIRG3RDUConfigCalibrateRefrigerantLeakDetector INTEGER, airIRG3RDUConfigOnReadyStandby INTEGER } airIRG3RDUConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3RDUConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access RDU configuration table." ::= { airIRG3RDU 7 } airIRG3RDUConfigEntry OBJECT-TYPE SYNTAX AirIRG3RDUConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The RDU configuration table entry." INDEX { airIRG3RDUConfigDeviceIndex} ::= { airIRG3RDUConfigTable 1 } airIRG3RDUConfigDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of RDU configuration table." ::= { airIRG3RDUConfigEntry 1 } airIRG3RDUConfigRDUID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The current RDU ID (1 to F). Configured RDU only shall display ID, else return -1. " ::= { airIRG3RDUConfigEntry 2 } airIRG3RDUConfigStopOnLeakDetect OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU stop on leak detect set." ::= { airIRG3RDUConfigEntry 3 } airIRG3RDUConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The RDU start up delay in seconds." ::= { airIRG3RDUConfigEntry 4 } airIRG3RDUConfigPumpChangeOverInterval OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The RDU pump change over interval in days." ::= { airIRG3RDUConfigEntry 5 } airIRG3RDUConfigPowerSource OBJECT-TYPE SYNTAX INTEGER { singleFeed (1), dualFeed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU power source." ::= { airIRG3RDUConfigEntry 6 } airIRG3RDUConfigOutputSource OBJECT-TYPE SYNTAX INTEGER { anyalarm (1), onlycriticalalarms (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU output source." ::= { airIRG3RDUConfigEntry 7 } airIRG3RDUConfigInputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU Input Normal State." ::= { airIRG3RDUConfigEntry 8 } airIRG3RDUConfigOutputNormalState OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU Output Normal State." ::= { airIRG3RDUConfigEntry 9 } airIRG3RDUConfigByPassValveEnabled OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU By Pass Valve Enabled State." ::= { airIRG3RDUConfigEntry 10 } airIRG3RDUConfigRefrigerantLeakDetectorEnabled OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The RDU Refrigerant Leak Detector Enabled State." ::= { airIRG3RDUConfigEntry 11 } airIRG3RDUConfigCalibrateRefrigerantLeakDetector OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This parameter allows to calibrate the RDU Refrigerant Leak Detector and is write only. The read returns -1. Only 'yes' is supported." ::= { airIRG3RDUConfigEntry 12 } airIRG3RDUConfigOnReadyStandby OBJECT-TYPE SYNTAX INTEGER { standby (1), ready (2), on (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This parameter allows to configure RDU on/standby parameter. Ready is currently not supported. If unsupported returns -1. " ::= { airIRG3RDUConfigEntry 13 } -- *************************************** -- airIRG3 CMStatus -- *************************************** airIRG3CMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The cooling module table size." ::= { airIRG3CM 1 } AirIRG3CMStatusEntry ::= SEQUENCE { airIRG3CMStatusDeviceIndex INTEGER, airIRG3CMStatusCMID DisplayString, airIRG3CMStatusOperatingMode INTEGER, airIRG3CMStatusUnitType INTEGER, airIRG3CMStatusRackInletTempUS INTEGER, airIRG3CMStatusRackInletTempMetric INTEGER, airIRG3CMStatusReturnAirTempUS INTEGER, airIRG3CMStatusReturnAirTempMetric INTEGER, airIRG3CMStatusLiquidTempUS INTEGER, airIRG3CMStatusLiquidTempMetric INTEGER, airIRG3CMStatusVaporTempUS INTEGER, airIRG3CMStatusVaporTempMetric INTEGER, airIRG3CMStatusEvaporatorTempUS INTEGER, airIRG3CMStatusEvaporatorTempMetric INTEGER, airIRG3CMStatusLiquidInletPressureUS INTEGER, airIRG3CMStatusLiquidInletPressureMetric INTEGER, airIRG3CMStatusVaporOutletPressureUS INTEGER, airIRG3CMStatusVaporOutletPressureMetric INTEGER, airIRG3CMStatusExpansionValvePosition INTEGER, airIRG3CMStatusEPRValvePosition INTEGER, airIRG3CMStatusLocalDisplayOnOffEnabled INTEGER, airIRG3CMStatusAverageFanSpeed INTEGER } airIRG3CMStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3CMStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access CM status table." ::= { airIRG3CM 2 } airIRG3CMStatusEntry OBJECT-TYPE SYNTAX AirIRG3CMStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CM status table entry." INDEX { airIRG3CMStatusDeviceIndex} ::= { airIRG3CMStatusTable 1 } airIRG3CMStatusDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of CM status table." ::= { airIRG3CMStatusEntry 1 } airIRG3CMStatusCMID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The CM ID (RDU Number - Group Number - CM Unit Number)." ::= { airIRG3CMStatusEntry 2 } airIRG3CMStatusOperatingMode OBJECT-TYPE SYNTAX INTEGER { standBy (1), on (2), idle (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current operating mode of the CM." ::= { airIRG3CMStatusEntry 3 } airIRG3CMStatusUnitType OBJECT-TYPE SYNTAX INTEGER{ unconfigured (1), oa (2), ra (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current CM unit type." ::= { airIRG3CMStatusEntry 4 } airIRG3CMStatusRackInletTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMStatusEntry 5 } airIRG3CMStatusRackInletTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM rack inlet temperature in tenths of degrees Celsius." ::= { airIRG3CMStatusEntry 6 } airIRG3CMStatusReturnAirTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM return air temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMStatusEntry 7 } airIRG3CMStatusReturnAirTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM return air temperature in tenths of degrees Celsius." ::= { airIRG3CMStatusEntry 8 } airIRG3CMStatusLiquidTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM liquid temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMStatusEntry 9 } airIRG3CMStatusLiquidTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM liquid temperature in tenths of degrees Celsius." ::= { airIRG3CMStatusEntry 10 } airIRG3CMStatusVaporTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM vapor temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMStatusEntry 11 } airIRG3CMStatusVaporTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM vapor temperature in tenths of degrees Celsius." ::= { airIRG3CMStatusEntry 12 } airIRG3CMStatusEvaporatorTempUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM saturation temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMStatusEntry 13 } airIRG3CMStatusEvaporatorTempMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM saturation temperature in tenths of degrees Celsius." ::= { airIRG3CMStatusEntry 14 } airIRG3CMStatusLiquidInletPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM Liquid Inlet pressure in pounds per square inch (PSI)." ::= { airIRG3CMStatusEntry 15 } airIRG3CMStatusLiquidInletPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM Liquid Inlet pressure in kiloPascals (kPa)." ::= { airIRG3CMStatusEntry 16 } airIRG3CMStatusVaporOutletPressureUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM Vapor Outlet pressure in pounds per square inch (PSI)." ::= { airIRG3CMStatusEntry 17 } airIRG3CMStatusVaporOutletPressureMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM Vapor Outlet pressure in kiloPascals (kPa)." ::= { airIRG3CMStatusEntry 18 } airIRG3CMStatusExpansionValvePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM expansion valve position in % open" ::= { airIRG3CMStatusEntry 19 } airIRG3CMStatusEPRValvePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM Evaporator Pressure Regulator Valve Position in % open" ::= { airIRG3CMStatusEntry 20 } airIRG3CMStatusLocalDisplayOnOffEnabled OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the on/off control on the CM local display." ::= { airIRG3CMStatusEntry 21 } airIRG3CMStatusAverageFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM Average Fan Speed." ::= { airIRG3CMStatusEntry 22 } -- *************************************** -- airIRG3 CM Run Hours -- *************************************** AirIRG3CMRunHoursEntry ::= SEQUENCE { airIRG3CMRunHoursDeviceIndex INTEGER, airIRG3CMRunHoursCMID DisplayString, airIRG3CMRunHoursFan1 INTEGER, airIRG3CMRunHoursFan2 INTEGER, airIRG3CMRunHoursFan3 INTEGER, airIRG3CMRunHoursFan4 INTEGER, airIRG3CMRunHoursFan5 INTEGER, airIRG3CMRunHoursAirFilter INTEGER } airIRG3CMRunHoursTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3CMRunHoursEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access CM run hours table." ::= { airIRG3CM 3 } airIRG3CMRunHoursEntry OBJECT-TYPE SYNTAX AirIRG3CMRunHoursEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CM run hours table entry." INDEX { airIRG3CMRunHoursDeviceIndex} ::= { airIRG3CMRunHoursTable 1 } airIRG3CMRunHoursDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of CM run hours table." ::= { airIRG3CMRunHoursEntry 1 } airIRG3CMRunHoursCMID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The CM ID (RDU Number - Group Number - CM Unit Number)." ::= { airIRG3CMRunHoursEntry 2 } airIRG3CMRunHoursFan1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM run hours for Fan1. Returns (-1) if not appilcable." ::= { airIRG3CMRunHoursEntry 3 } airIRG3CMRunHoursFan2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM run hours for Fan2. Returns (-1) if not appilcable." ::= { airIRG3CMRunHoursEntry 4 } airIRG3CMRunHoursFan3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM run hours for Fan3. Returns (-1) if not appilcable." ::= { airIRG3CMRunHoursEntry 5 } airIRG3CMRunHoursFan4 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM run hours for Fan4. Returns (-1) if not appilcable." ::= { airIRG3CMRunHoursEntry 6 } airIRG3CMRunHoursFan5 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM run hours for Fan5. Returns (-1) if not appilcable." ::= { airIRG3CMRunHoursEntry 7 } airIRG3CMRunHoursAirFilter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The CM run hours for air filter." ::= { airIRG3CMRunHoursEntry 8 } -- *************************************** -- airIRG3 CM Service Intervals -- *************************************** AirIRG3CMServiceIntervalsEntry ::= SEQUENCE { airIRG3CMServiceIntervalsDeviceIndex INTEGER, airIRG3CMServiceIntervalsCMID DisplayString, airIRG3CMServiceIntervalsAirFilterInterval INTEGER, airIRG3CMServiceIntervalsAirFilterAlarm INTEGER } airIRG3CMServiceIntervalsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3CMServiceIntervalsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access CM service intervals table." ::= { airIRG3CM 4 } airIRG3CMServiceIntervalsEntry OBJECT-TYPE SYNTAX AirIRG3CMServiceIntervalsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CM service interval table entry." INDEX { airIRG3CMServiceIntervalsDeviceIndex} ::= { airIRG3CMServiceIntervalsTable 1 } airIRG3CMServiceIntervalsDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of CM service intervals table." ::= { airIRG3CMServiceIntervalsEntry 1 } airIRG3CMServiceIntervalsCMID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The CM ID (RDU Number - Group Number - CM Unit Number)." ::= { airIRG3CMServiceIntervalsEntry 2 } airIRG3CMServiceIntervalsAirFilterInterval OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM service interval for air filter in weeks. Supported only for RA. Returns -1 if not supported." ::= { airIRG3CMServiceIntervalsEntry 3 } airIRG3CMServiceIntervalsAirFilterAlarm OBJECT-TYPE SYNTAX INTEGER{ disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The CM service interval air filter alarm status. Supported only for RA. Returns -1 if not supported." ::= { airIRG3CMServiceIntervalsEntry 4 } -- *************************************** -- airIRG3 CM Thresholds -- *************************************** AirIRG3CMThresholdsEntry ::= SEQUENCE { airIRG3CMThresholdsDeviceIndex INTEGER, airIRG3CMThresholdsCMID DisplayString, airIRG3CMThresholdsRackInletTempHighUS INTEGER, airIRG3CMThresholdsRackInletTempHighMetric INTEGER, airIRG3CMThresholdsSupplyAirTempHighUS INTEGER, airIRG3CMThresholdsSupplyAirTempHighMetric INTEGER, airIRG3CMThresholdsReturnAirTempHighUS INTEGER, airIRG3CMThresholdsReturnAirTempHighMetric INTEGER } airIRG3CMThresholdsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3CMThresholdsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access CM thresholds table." ::= { airIRG3CM 5 } airIRG3CMThresholdsEntry OBJECT-TYPE SYNTAX AirIRG3CMThresholdsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CM thresholds table entry." INDEX { airIRG3CMThresholdsDeviceIndex} ::= { airIRG3CMThresholdsTable 1 } airIRG3CMThresholdsDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index for CM thresholds table." ::= { airIRG3CMThresholdsEntry 1 } airIRG3CMThresholdsCMID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The CM ID (RDU Number - Group Number - CM Unit Number)." ::= { airIRG3CMThresholdsEntry 2 } airIRG3CMThresholdsRackInletTempHighUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM high threshold for rack inlet temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMThresholdsEntry 3 } airIRG3CMThresholdsRackInletTempHighMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM high threshold for rack inlet temperature in tenths of degrees Celsius." ::= { airIRG3CMThresholdsEntry 4 } airIRG3CMThresholdsSupplyAirTempHighUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM high threshold for supply air temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMThresholdsEntry 5 } airIRG3CMThresholdsSupplyAirTempHighMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM high threshold for supply air temperature in tenths of degrees Celsius." ::= { airIRG3CMThresholdsEntry 6 } airIRG3CMThresholdsReturnAirTempHighUS OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM high threshold for return air temperature in tenths of degrees Fahrenheit." ::= { airIRG3CMThresholdsEntry 7 } airIRG3CMThresholdsReturnAirTempHighMetric OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM high threshold for return air temperature in tenths of degrees Celsius." ::= { airIRG3CMThresholdsEntry 8 } -- *************************************** -- airIRG3 CM Setpoints -- *************************************** AirIRG3CMSetpointsEntry ::= SEQUENCE { airIRG3CMSetpointsDeviceIndex INTEGER } airIRG3CMSetpointsTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3CMSetpointsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access CM set points table." ::= { airIRG3CM 6 } airIRG3CMSetpointsEntry OBJECT-TYPE SYNTAX AirIRG3CMSetpointsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CM set points table entry." INDEX { airIRG3CMSetpointsDeviceIndex} ::= { airIRG3CMSetpointsTable 1 } airIRG3CMSetpointsDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of CM set points table." ::= { airIRG3CMSetpointsEntry 1 } -- *************************************** -- airIRG3 CM Config -- *************************************** AirIRG3CMConfigEntry ::= SEQUENCE { airIRG3CMConfigDeviceIndex INTEGER, airIRG3CMConfigCMID DisplayString, airIRG3CMConfigStopOnCoolFail INTEGER, airIRG3CMConfigStartupDelay INTEGER, airIRG3CMConfigRemoteOnStandby INTEGER, airIRG3CMConfigPowerSource INTEGER } airIRG3CMConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF AirIRG3CMConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows to access CM configuration table." ::= { airIRG3CM 7 } airIRG3CMConfigEntry OBJECT-TYPE SYNTAX AirIRG3CMConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CM configuration table entry." INDEX { airIRG3CMConfigDeviceIndex} ::= { airIRG3CMConfigTable 1 } airIRG3CMConfigDeviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Index of CM configuration table." ::= { airIRG3CMConfigEntry 1 } airIRG3CMConfigCMID OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The CM ID (RDU Number - Group Number - CM Unit Number)." ::= { airIRG3CMConfigEntry 2 } airIRG3CMConfigStopOnCoolFail OBJECT-TYPE SYNTAX INTEGER{ no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable/Disable Stop On cool fail. When enabled, stops the unit if it detects that it is blowing warm air into the cold aisle." ::= { airIRG3CMConfigEntry 3 } airIRG3CMConfigStartupDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CM start up delay in seconds." ::= { airIRG3CMConfigEntry 4 } airIRG3CMConfigRemoteOnStandby OBJECT-TYPE SYNTAX INTEGER{ standBy (1), on (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The CM configuration for operating mode." ::= { airIRG3CMConfigEntry 5 } airIRG3CMConfigPowerSource OBJECT-TYPE SYNTAX INTEGER{ singleFeed (1), dualFeed (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The CM power source." ::= { airIRG3CMConfigEntry 6 } -- End of airIRGen3 -- RACK AIR REMOVAL UNIT IDENT rARUIdentTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual devices. The number of entries is contained in the rARUStatusAruDeviceCount OID." ::= { rARUIdent 1 } rARUIdentEntry OBJECT-TYPE SYNTAX RARUIdentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The device to query." INDEX { rARUIdentAruIndex} ::= { rARUIdentTable 1 } RARUIdentEntry ::= SEQUENCE { rARUIdentAruIndex INTEGER, rARUIdentName DisplayString } rARUIdentAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUIdentEntry 1 } rARUIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the device. " ::= { rARUIdentEntry 2 } -- RACK AIR REMOVAL UNIT CONFIGURATION rARUConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of the individual ARU devices accessible from this IP address. The number of entries is contained in the rARUStatusAruDeviceCount OID." ::= { rARUConfig 1 } rARUConfigEntry OBJECT-TYPE SYNTAX RARUConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ARUs to configure." INDEX { rARUConfigAruIndex } ::= { rARUConfigTable 1 } RARUConfigEntry ::= SEQUENCE { rARUConfigAruIndex INTEGER, rARUConfigAruName DisplayString, rARUConfigAruRemoteSetpoint INTEGER, rARUConfigAruTempOvrdEnableDisable INTEGER, rARUConfigAruTempOvrdSetpoint INTEGER, rARUConfigAruMasterControl INTEGER } rARUConfigAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUConfigEntry 1 } rARUConfigAruName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the ARU." ::= { rARUConfigEntry 2 } rARUConfigAruRemoteSetpoint OBJECT-TYPE SYNTAX INTEGER { aruOff (1), aru85F-29C (2), aru90F-32C (3), aru95F-35C (4), aru100F-38C (5), aru7kW-1200cfm (6), aru5kW-800cfm (7), aru3kW-500cfm (8), aru2kW-300cfm (9), aru400cfm (10), aru600cfm (11), aru700cfm (12), aru900cfm (13), aru1000cfm (14), aru1400cfm (15), aru1600cfm (16), aru1800cfm (17), aru2000cfm (18) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID defines the desired base airflow of the ARU, and sets the speed of the ARU fans when the temperature override is inactive. Values specified in cfm (cubic feet per minute) can be converted to metric values using the conversion factor: 1 cfm = 1.70 m^3/hr (cubic meters per hour). Values (1) through (9) are for support of legacy (1st generation) ARUs. Writing these values to a 2nd generation ARU will result in the following: A value greater than (9) will be ignored by a 1st generation ARU. aruOff (1) - Ignored aru85F-29C (2) - 1200 cfm aru90F-32C (3) - 800 cfm aru95F-35C (4) - 500 cfm aru100F-38C (5) - 400 cfm aru7kW (6) - 1200 cfm aru5kW (7) - 800 cfm aru3kW (8) - 500 cfm aru2kW (9) - 400 cfm NOTE: -1 will be returned if the ARU is not communicating." ::= { rARUConfigEntry 3 } rARUConfigAruTempOvrdEnableDisable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID is used to enable/disable the remote temperature override setting of the ARU. If this OID is set to 1, the remote setting for temperature override is disabled. If this OID is set to 2, the remote setting for temperature override is enabled." ::= { rARUConfigEntry 4 } rARUConfigAruTempOvrdSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This OID is the Temperature Override setpoint of the ARU. NOTE: -1 will be returned if the ARU is not communicating. Values are represented in whole number degrees using the units specified in the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { rARUConfigEntry 5 } rARUConfigAruMasterControl OBJECT-TYPE SYNTAX INTEGER { aruOn (1), aruOff (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This is the master on/off control for the ARU." ::= { rARUConfigEntry 6 } -- RACK AIR REMOVAL UNIT STATUS rARUStatusAruDeviceCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ARUs accessible from this IP." ::= { rARUStatus 1 } rARUStatusSysTempUnits OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature scale used to display the temperature in the system, Celsius(1) or Fahrenheit(2). This setting is based on the system preferences configuration in the agent." ::= { rARUStatus 2 } rARUStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual ARUs accessible from this IP address. The number of entries is contained in the rARUStatusAruDeviceCount OID." ::= { rARUStatus 3 } rARUStatusEntry OBJECT-TYPE SYNTAX RARUStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ARUs to access." INDEX { rARUStatusAruIndex } ::= { rARUStatusTable 1 } RARUStatusEntry ::= SEQUENCE { rARUStatusAruIndex INTEGER, rARUStatusAruName DisplayString, rARUStatusAruRemoteSetpoint INTEGER, rARUStatusAruManualSetpoint INTEGER, rARUStatusAruTemp1 INTEGER, rARUStatusAruTemp2 INTEGER, rARUStatusAruTemp3 INTEGER, rARUStatusAruTempOvrdEnableDisable INTEGER, rARUStatusAruTempOvrdSetpoint INTEGER, rARUStatusAruAlarmState DisplayString, rARUStatusAruCommStatus INTEGER, rARUStatusAruTempOvrdStatus INTEGER, rARUStatusAruMasterControl INTEGER, rARUStatusAruTotalAirflow INTEGER } rARUStatusAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUStatusEntry 1 } rARUStatusAruName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the ARU." ::= { rARUStatusEntry 2 } rARUStatusAruRemoteSetpoint OBJECT-TYPE SYNTAX INTEGER { aruOff (1), aru85F-29C (2), aru90F-32C (3), aru95F-35C (4), aru100F-38C (5), aru7kW-1200cfm (6), aru5kW-800cfm (7), aru3kW-500cfm (8), aru2kW-300cfm (9), aru400cfm (10), aru600cfm (11), aru700cfm (12), aru900cfm (13), aru1000cfm (14), aru1400cfm (15), aru1600cfm (16), aru1800cfm (17), aru2000cfm (18) } ACCESS read-only STATUS mandatory DESCRIPTION "This OID defines the desired base airflow of the ARU, or the speed of the ARU fans when the temperature override is inactive. See also the rARUConfigAruRemoteSetpoint OID. NOTE: -1 will be returned if the ARU is not communicating." ::= { rARUStatusEntry 3 } rARUStatusAruManualSetpoint OBJECT-TYPE SYNTAX INTEGER { aruOff (1), aru85F-29C (2), aru90F-32C (3), aru95F-35C (4), aru100F-38C (5), aru7kW (6), aru5kW (7), aru3kW (8), aru2kW (9), aruRem (10) } ACCESS read-only STATUS mandatory DESCRIPTION "Manual operating setpoint of the ARU, which is set on the panel of the ARU. If the ARU doesn't have a manual , the OID will always return a value of aruRem (10). NOTE: -1 will be returned if the ARU is not communicating. Values are represented in whole number degrees or kW. If the manual setpoint is set to Remote, or if the ARU doesn't have a manual switch, this OID will return aruRem." ::= { rARUStatusEntry 4 } rARUStatusAruTemp1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "ARU temperature probe #1 reading. The summary exhaust temperature on 2nd generation ARUs. NOTE: -1 will be returned if the ARU is not communicating. Values are represented in whole number degrees. Units are displayed in the scale shown in the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { rARUStatusEntry 5 } rARUStatusAruTemp2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "ARU temperature probe #2 reading. The exhaust temperature in the upper plenum on 2nd generation ARUs. NOTE: -1 will be returned if the ARU is not communicating. Values are represented in whole number degrees. Units are displayed in the scale shown in the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { rARUStatusEntry 6 } rARUStatusAruTemp3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "ARU temperature probe #3 reading. The exhaust temperature in the lower plenum on 2nd generation ARUs. NOTE: -1 will be returned if the ARU is not communicating. Values are represented in whole number degrees. Units are displayed in the scale shown in the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { rARUStatusEntry 7 } rARUStatusAruTempOvrdEnableDisable OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This OID indicates whether the ARU remote temperature override is enabled or disabled. If this OID is a 1, the remote setting for temperature override is disabled. If this OID is a 2, the remote setting for temperature override is enabled." ::= { rARUStatusEntry 8 } rARUStatusAruTempOvrdSetpoint OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "ARU remote temperature override setpoint setting. NOTE: -1 will be returned if the ARU is not communicating. Values are represented in whole number degrees. Units are displayed in the scale shown in the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)." ::= { rARUStatusEntry 9 } rARUStatusAruAlarmState OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ASCII string containing the 8 flags representing the current alarm state of the ARU. If the state of the ARU is unknown, this variable is set to 'UNKNOWN'. The flags are numbered 1 to 8, read from left to right. The flags are defined as follows: Flag 1: Fan Fail 1 Flag 2: Fan Fail 2 Flag 3: Fan Fail 3 Flag 4: Smoke (if ARU is equipped with smoke detector) Flag 5: High Temp (Out of Thermal Control) Flag 6: Over Temp (Exhaust Temp. Exceeds Override Setpoint) Flag 7: Fan Fail 4 (Gen 2 ARU only) Flag 8: Reserved" ::= { rARUStatusEntry 10 } rARUStatusAruCommStatus OBJECT-TYPE SYNTAX INTEGER { commsNeverDiscovered(1), commsEstablished(2), commsLost(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of communications to the device. commNeverDiscovered(1) indicates there has never been communications with this device. commsEstablished(2) indicates communication is normal and active with this device. commsLost(3) indicates communication had been established, but is no device." ::= { rARUStatusEntry 11 } rARUStatusAruTempOvrdStatus OBJECT-TYPE SYNTAX INTEGER { inactive (1), active (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Specifies whether the ARU is increasing airflow because exhaust air temperature has exceeded the setting specified in the rARUConfigAruTempOvrdSetpoint OID." ::= { rARUStatusEntry 12 } rARUStatusAruMasterControl OBJECT-TYPE SYNTAX INTEGER { aruOn (1), aruOff (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This is the master on/off control for the ARU." ::= { rARUStatusEntry 13 } rARUStatusAruTotalAirflow OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total airflow provided by the aru. Specified in cfm (cubic feet per minute). Can be converted to metric values using the conversion factor: 1 cfm = 1.70 m^3/hr (cubic meters per hour)." ::= { rARUStatusEntry 14 } -- RACK AIR REMOVAL UNIT FAN STATUS rARUFanStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUFanStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual devices. The number of entries is contained in the rARUStatusAruDeviceCount OID." ::= { rARUFanStatus 1 } rARUFanStatusEntry OBJECT-TYPE SYNTAX RARUFanStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The device to query." INDEX { rARUFanStatusAruIndex, rARUFanStatusFanIndex} ::= { rARUFanStatusTable 1 } RARUFanStatusEntry ::= SEQUENCE { rARUFanStatusAruIndex INTEGER, rARUFanStatusNominalFanSpeed INTEGER, rARUFanStatusSelectedFanLevel INTEGER, rARUFanStatusReplacementThreshold INTEGER, rARUFanStatusFanIndex INTEGER, rARUFanStatusFanOperatingStatus INTEGER, rARUFanStatusFanRpmSpeed INTEGER, rARUFanStatusFanFlowRate INTEGER, rARUFanStatusFanInServiceDate DisplayString, rARUFanStatusFanRunhourCounter INTEGER, rARUFanStatusFanRunhourReset INTEGER } rARUFanStatusAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUFanStatusEntry 1 } rARUFanStatusNominalFanSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal rotational speed (RPM) of the fans when they are operating at the 100% level." ::= { rARUFanStatusEntry 2 } rARUFanStatusSelectedFanLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The currently selected ARU speed level, specified in percent of full capacity." ::= { rARUFanStatusEntry 3 } rARUFanStatusReplacementThreshold OBJECT-TYPE SYNTAX INTEGER { disabled (1), khr20 (2), khr25 (3), khr30 (4), khr35 (5), khr40 (6), khr50 (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Threshold above which a run hour alarm will exist, indicating that it might be time to proactively replace a fan." ::= { rARUFanStatusEntry 4 } rARUFanStatusFanIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to an individual fan table entry." ::= { rARUFanStatusEntry 5 } rARUFanStatusFanOperatingStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), off (2), onOk (3), onDegraded (4), offFailed (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The current operating state of the fan." ::= { rARUFanStatusEntry 6 } rARUFanStatusFanRpmSpeed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current rotational speed of the fan, specified in rotations per minute (RPM)." ::= { rARUFanStatusEntry 7 } rARUFanStatusFanFlowRate OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The flow rate provided by the fan, based on its measured rotational speed. Specified in cfm (cubic feet per minute). Can be converted to metric values using the conversion factor: 1 cfm = 1.70 m^3/hr (cubic meters per hour)." ::= { rARUFanStatusEntry 8 } rARUFanStatusFanInServiceDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The installation/replacement date of the fan." ::= { rARUFanStatusEntry 9 } rARUFanStatusFanRunhourCounter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total time for which the fan has been running. Specified in 10ths of hours." ::= { rARUFanStatusEntry 10 } rARUFanStatusFanRunhourReset OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Writing yes to this This OID will reset a fan's total run hour counter, which is shown in the rARUFanStatusFanRunhourCounter OID." ::= { rARUFanStatusEntry 11 } -- RACK AIR REMOVAL UNIT INPUT POWER STATUS rARUPowerStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUPowerStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual ARUs accessible from this IP address. The number of entries is contained in the rARUStatusAruDeviceCount OID." ::= { rARUPower 1 } rARUPowerStatusEntry OBJECT-TYPE SYNTAX RARUPowerStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The device to query." INDEX { rARUPowerStatusAruIndex} ::= { rARUPowerStatusTable 1 } RARUPowerStatusEntry ::= SEQUENCE { rARUPowerStatusAruIndex INTEGER, rARUPowerStatusPrimaryAcPresent INTEGER, rARUPowerStatusAuxiliaryAcPresent INTEGER, rARUPowerStatusRedundantAcConfig INTEGER } rARUPowerStatusAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUPowerStatusEntry 1 } rARUPowerStatusPrimaryAcPresent OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not line voltage is present on AC input 1." ::= { rARUPowerStatusEntry 2 } rARUPowerStatusAuxiliaryAcPresent OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not line voltage is present on AC input 2." ::= { rARUPowerStatusEntry 3 } rARUPowerStatusRedundantAcConfig OBJECT-TYPE SYNTAX INTEGER { singleCord (1), dualCord (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates whether or not a dual cord is in use. When this setting is set to dualCord (2), aruRedundantPowerLostAlarm traps will be generated when either primary or auxiliary input voltage is not present. When this setting is set to singleCord (1), aruRedundantPowerLostAlarm traps will not be generated." ::= { rARUPowerStatusEntry 4 } -- RACK AIR REMOVAL UNIT SENSOR STATUS rARUSensorsStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the rARUSensorsStatusTable." ::= { rARUSensors 1 } rARUSensorsStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUSensorsStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting environmental sensor status information." ::= { rARUSensors 2 } rARUSensorsStatusEntry OBJECT-TYPE SYNTAX RARUSensorsStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { rARUSensorsStatusAruIndex, rARUSensorsStatusSensorNumber } ::= { rARUSensorsStatusTable 1 } RARUSensorsStatusEntry ::= SEQUENCE { rARUSensorsStatusAruIndex INTEGER, rARUSensorsStatusSensorNumber INTEGER, rARUSensorsTemperature INTEGER } rARUSensorsStatusAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUSensorsStatusEntry 1 } rARUSensorsStatusSensorNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the sensor on the device." ::= { rARUSensorsStatusEntry 2 } rARUSensorsTemperature OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The sensor's current temperature reading. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsStatusEntry 3 } -- RACK AIR REMOVAL UNIT CONFIG STATUS rARUSensorsConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the rARUSensorsConfigTable." ::= { rARUSensors 3 } rARUSensorsConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF RARUSensorsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting configuration information from environmental sensors attached to the device." ::= { rARUSensors 4 } rARUSensorsConfigEntry OBJECT-TYPE SYNTAX RARUSensorsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit to get data from." INDEX { rARUSensorsConfigAruIndex, rARUSensorsConfigSensorNumber } ::= { rARUSensorsConfigTable 1 } RARUSensorsConfigEntry ::= SEQUENCE { rARUSensorsConfigAruIndex INTEGER, rARUSensorsConfigSensorNumber INTEGER, rARUSensorsName DisplayString, rARUSensorsLocation DisplayString, rARUSensorsTempMaxThresh INTEGER, rARUSensorsTempHighThresh INTEGER, rARUSensorsTempLowThresh INTEGER, rARUSensorsTempMinThresh INTEGER, rARUSensorsTempThreshHysteresis INTEGER, rARUSensorsTempShortDecRateThreshValue INTEGER, rARUSensorsTempShortDecRateThreshTime INTEGER, rARUSensorsTempShortIncRateThreshValue INTEGER, rARUSensorsTempShortIncRateThreshTime INTEGER, rARUSensorsTempLongDecRateThreshValue INTEGER, rARUSensorsTempLongDecRateThreshTime INTEGER, rARUSensorsTempLongIncRateThreshValue INTEGER, rARUSensorsTempLongIncRateThreshTime INTEGER } rARUSensorsConfigAruIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the ARU entry." ::= { rARUSensorsConfigEntry 1 } rARUSensorsConfigSensorNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the sensor on the device." ::= { rARUSensorsConfigEntry 2 } rARUSensorsName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A descriptive name for the sensor." ::= { rARUSensorsConfigEntry 3 } rARUSensorsLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The location of the sensor." ::= { rARUSensorsConfigEntry 4 } rARUSensorsTempMaxThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which a maximum temperature threshold violation alarm will be generated for this sensor. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 5 } rARUSensorsTempHighThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which a high temperature threshold violation alarm will be generated for this sensor. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 6 } rARUSensorsTempLowThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which a low temperature threshold violation alarm will be generated for this sensor. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 7 } rARUSensorsTempMinThresh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature at which a min temperature threshold violation alarm will be generated for this sensor. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 8 } rARUSensorsTempThreshHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The change in temperature required to cause a temperature alarm to change from an active to an inactive state. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 9 } rARUSensorsTempShortDecRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature short-term decreasing rate time that will cause an alarm to be generated. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 10 } rARUSensorsTempShortDecRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not decrease beyond the value specified by the temperature short-term decreasing rate threshold value." ::= { rARUSensorsConfigEntry 11 } rARUSensorsTempShortIncRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature short-term increasing rate time that will cause an alarm to be generated. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 12 } rARUSensorsTempShortIncRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not increase beyond the value specified by the temperature short-term increasing rate threshold value." ::= { rARUSensorsConfigEntry 13 } rARUSensorsTempLongDecRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature long-term decreasing rate time that will cause an alarm to be generated. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 14 } rARUSensorsTempLongDecRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not decrease beyond the value specified by the temperature long-term decreasing rate threshold value." ::= { rARUSensorsConfigEntry 15 } rARUSensorsTempLongIncRateThreshValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The value of the temperature long-term increasing rate time that will cause an alarm to be generated. The temperature scale is based on the system preferences configuration." ::= { rARUSensorsConfigEntry 16 } rARUSensorsTempLongIncRateThreshTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The time over which the temperature may not increase beyond the value specified by the temperature long-term increasing rate threshold value." ::= { rARUSensorsConfigEntry 17 } -- MODULAR DISTRIBUTION SYSTEM -- Modular Information isxModularDistInfoTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the isxModularDistInfoTable." ::= { isxModularDistInfo 1 } isxModularDistInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistInfoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information about the modular distribution metering equipment." ::= { isxModularDistInfo 2 } isxModularDistInfoEntry OBJECT-TYPE SYNTAX IsxModularDistInfoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about an individual metering segment." INDEX { isxModularDistInfoSegmentIndex } ::= { isxModularDistInfoTable 1 } IsxModularDistInfoEntry ::= SEQUENCE { isxModularDistInfoSegmentIndex INTEGER, isxModularDistInfoMeterModelNumber DisplayString, isxModularDistInfoMeterSerialNumber DisplayString, isxModularDistInfoMeterDateOfManufacture DisplayString, isxModularDistInfoMeterFirmwareRev DisplayString, isxModularDistInfoMeterHardwareRev DisplayString } isxModularDistInfoSegmentIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the metering segment." ::= { isxModularDistInfoEntry 1 } isxModularDistInfoMeterModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The model number of the metering board for this segment." ::= { isxModularDistInfoEntry 2 } isxModularDistInfoMeterSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the metering board for this segment." ::= { isxModularDistInfoEntry 3 } isxModularDistInfoMeterDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date of manufacture for the metering board for this segment, in the format mm/dd/yyyy." ::= { isxModularDistInfoEntry 4 } isxModularDistInfoMeterFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision number of the metering board for this segment." ::= { isxModularDistInfoEntry 5 } isxModularDistInfoMeterHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision number of the metering board for this segment." ::= { isxModularDistInfoEntry 6 } -- Distribution Modules isxModularDistModuleInfoTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the isxModularDistModuleInfoTable." ::= { isxModularDistModules 1 } isxModularDistModuleInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistModuleInfoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting basic information about the distribution modules installed in the system." ::= { isxModularDistModules 2 } isxModularDistModuleInfoEntry OBJECT-TYPE SYNTAX IsxModularDistModuleInfoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about a specific distribution module." INDEX { isxModularDistModuleInfoModIndex } ::= { isxModularDistModuleInfoTable 1 } IsxModularDistModuleInfoEntry ::= SEQUENCE { isxModularDistModuleInfoModIndex INTEGER, isxModularDistModuleInfoAlarmStatus INTEGER, isxModularDistModuleInfoModelNumber DisplayString, isxModularDistModuleInfoSerialNumber DisplayString, isxModularDistModuleInfoDateOfManufacture DisplayString, isxModularDistModuleInfoNumCables INTEGER } isxModularDistModuleInfoModIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the distribution module." ::= { isxModularDistModuleInfoEntry 1 } isxModularDistModuleInfoAlarmStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), warning (2), critical (3), notPresent (4), unknown (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of this module. This reflects the indicator lamp(s) on the front of the module. A value of notPresent indicates that the module is not installed. A value of unknown indicates that there is no communication with the metering segment for this module." ::= { isxModularDistModuleInfoEntry 2 } isxModularDistModuleInfoModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The model number of the distribution module." ::= { isxModularDistModuleInfoEntry 3 } isxModularDistModuleInfoSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the distribution module." ::= { isxModularDistModuleInfoEntry 4 } isxModularDistModuleInfoDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date that the distribution module was manufactured." ::= { isxModularDistModuleInfoEntry 5 } isxModularDistModuleInfoNumCables OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of cables provided by this distribution module." ::= { isxModularDistModuleInfoEntry 6 } isxModularDistModuleBreakerTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the isxModularDistModuleBreakerTable." ::= { isxModularDistModules 3 } isxModularDistModuleBreakerTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistModuleBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting operational information about the distribution modules." ::= { isxModularDistModules 4 } isxModularDistModuleBreakerEntry OBJECT-TYPE SYNTAX IsxModularDistModuleBreakerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about a specific distribution modules and circuit breakers." INDEX { isxModularDistModuleBreakerModIndex, isxModularDistModuleBreakerPhaseIndex} ::= { isxModularDistModuleBreakerTable 1 } IsxModularDistModuleBreakerEntry ::= SEQUENCE { isxModularDistModuleBreakerModIndex INTEGER, isxModularDistModuleBreakerPhaseIndex INTEGER, isxModularDistModuleBreakerAlarmStatus INTEGER, isxModularDistModuleBreakerRating INTEGER, isxModularDistModuleBreakerPhysicalGroup INTEGER, isxModularDistModuleBreakerCableNum INTEGER, isxModularDistModuleBreakerPosition INTEGER, isxModularDistModuleBreakerPositionAlarms INTEGER, isxModularDistModuleBreakerCurrent INTEGER, isxModularDistModuleBreakerPercent INTEGER, isxModularDistModuleBreakerPower INTEGER } isxModularDistModuleBreakerModIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The distribution module number." ::= { isxModularDistModuleBreakerEntry 1 } isxModularDistModuleBreakerPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phaseL1(1), phaseL2(2), phaseL3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The index to an individual breaker in the distribution module. The index also corresponds to the system phase to which the breaker is attached." ::= { isxModularDistModuleBreakerEntry 2 } isxModularDistModuleBreakerAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is a bit map representing the active alarms for this breaker: b0 - Minimum current threshold exceeded (critical) b1 - Low current threshold exceeded (warning) b2 - High current threshold exceeded (warning) b3 - Maximum current threshold exceeded (critical) b4 - Breaker is open (critical) If a bit is set, the corresponding alarm is active." ::= { isxModularDistModuleBreakerEntry 3 } isxModularDistModuleBreakerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current rating of the breaker." ::= { isxModularDistModuleBreakerEntry 4 } isxModularDistModuleBreakerPhysicalGroup OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Numeric value used to indicate that a breaker is a part of a multi-pole breaker. Breakers within a distribution module, with equivalent physical group numbers, may have their handles physically tied together. A value of 1 indicates breakers that are physically tied together as part of a multi-pole breaker. A value of 0 indicates a single-handle breaker that is not physically tied to another breaker." ::= { isxModularDistModuleBreakerEntry 5 } isxModularDistModuleBreakerCableNum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Numeric value used to indicate the distribution cable to which this breaker is connected. These distribution cables are described in the table isxModularDistModuleOutputTable, and indexed by the OID isxModularDistModuleOutputCordIndex." ::= { isxModularDistModuleBreakerEntry 6 } isxModularDistModuleBreakerPosition OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The physical status of this breaker pole, either closed or open (including tripped)." ::= { isxModularDistModuleBreakerEntry 7 } isxModularDistModuleBreakerPositionAlarms OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable breaker position alarms for this circuit breaker." ::= { isxModularDistModuleBreakerEntry 8 } isxModularDistModuleBreakerCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current flowing though this breaker. Measured in tenths of amps." ::= { isxModularDistModuleBreakerEntry 9 } isxModularDistModuleBreakerPercent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The loading on this breaker as a percentage of the breaker's current rating. Expressed in tenths of percent." ::= { isxModularDistModuleBreakerEntry 10 } isxModularDistModuleBreakerPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power being supplied through this breaker. Measured in tenths of kW." ::= { isxModularDistModuleBreakerEntry 11 } isxModularDistModuleOutputsTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the isxModularDistModuleOutputTable." ::= { isxModularDistModules 5 } isxModularDistModuleOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistModuleOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting and setting information related to the load equipment being fed by the distribution modules in the ISX Modular Distribution System." ::= { isxModularDistModules 6 } isxModularDistModuleOutputEntry OBJECT-TYPE SYNTAX IsxModularDistModuleOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about a specific distribution module and its output distribution cables." INDEX { isxModularDistModuleOutputModIndex, isxModularDistModuleOutputCordIndex } ::= { isxModularDistModuleOutputTable 1 } IsxModularDistModuleOutputEntry ::= SEQUENCE { isxModularDistModuleOutputModIndex INTEGER, isxModularDistModuleOutputNumCables INTEGER, isxModularDistModuleOutputCordIndex INTEGER, isxModularDistModuleOutputName DisplayString, isxModularDistModuleOutputLocation DisplayString, isxModularDistModuleOutputStatus INTEGER, isxModularDistModuleOutputAlarmGeneration INTEGER, isxModularDistModuleOutputBreakerMap INTEGER, isxModularDistModuleOutputThresholdMin INTEGER, isxModularDistModuleOutputThresholdLow INTEGER, isxModularDistModuleOutputThresholdHigh INTEGER, isxModularDistModuleOutputThresholdMax INTEGER, isxModularDistModuleOutputAlarmMinEnable INTEGER, isxModularDistModuleOutputAlarmLowEnable INTEGER, isxModularDistModuleOutputAlarmHighEnable INTEGER, isxModularDistModuleOutputAlarmMaxEnable INTEGER, isxModularDistModuleOutputCableLength INTEGER, isxModularDistModuleOutputConnectorType DisplayString, isxModularDistModuleOutputAvailableVoltages INTEGER, isxModularDistModuleOutputTotalPower INTEGER, isxModularDistModuleOutputKwhUsage INTEGER, isxModularDistModuleOutputKwhReset INTEGER, isxModularDistModuleOutputKwhResetDate DisplayString } isxModularDistModuleOutputModIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of the distribution module supplying power to the load equipment." ::= { isxModularDistModuleOutputEntry 1 } isxModularDistModuleOutputNumCables OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of distribution cables provided by this module." ::= { isxModularDistModuleOutputEntry 2 } isxModularDistModuleOutputCordIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an individual distribution cable supplied by this module." ::= { isxModularDistModuleOutputEntry 3 } isxModularDistModuleOutputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A string describing the load equipment being supplied by this distribution cable." ::= { isxModularDistModuleOutputEntry 4 } isxModularDistModuleOutputLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A string describing the location of equipment being supplied by distribution cable." ::= { isxModularDistModuleOutputEntry 5 } isxModularDistModuleOutputStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), warning (2), critical (3), notPresent (4), unknown (6) } ACCESS read-only STATUS mandatory DESCRIPTION "This reflects the worse case severity for alarms associated with this distribution cable. A value of notPresent indicates that the cable does not exist for this module. A value of unknown indicates that the there is no communication with the metering segment for this distribution cable's module." ::= { isxModularDistModuleOutputEntry 6 } isxModularDistModuleOutputAlarmGeneration OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable all alarm generation related to this distribution cable." ::= { isxModularDistModuleOutputEntry 7 } isxModularDistModuleOutputBreakerMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is a bit map representing the breaker poles within the module that are associated with this distribution cable. The following 3 bits are used to indicate the indices of the breakers feeding the cable: b0 - Module breaker L1 b1 - Module breaker L2 b2 - Module breaker L3 If a bit is set, the breaker is used to feed this distribution cable. These breakers are described in the table isxModularDistModuleBreakerTable, and indexed by the OID isxModularDistModuleBreakerPhaseIndex." ::= { isxModularDistModuleOutputEntry 8 } isxModularDistModuleOutputThresholdMin OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current drops below this value a critical alarm will exist." ::= { isxModularDistModuleOutputEntry 9 } isxModularDistModuleOutputThresholdLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current drops below this value a warning alarm will exist." ::= { isxModularDistModuleOutputEntry 10 } isxModularDistModuleOutputThresholdHigh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current exceeds this value a warning alarm will exist." ::= { isxModularDistModuleOutputEntry 11 } isxModularDistModuleOutputThresholdMax OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current exceeds this value a critical alarm will exist." ::= { isxModularDistModuleOutputEntry 12 } isxModularDistModuleOutputAlarmMinEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable minimum current alarm generation for this distribution cable." ::= { isxModularDistModuleOutputEntry 13 } isxModularDistModuleOutputAlarmLowEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable low current alarm generation for this distribution cable." ::= { isxModularDistModuleOutputEntry 14 } isxModularDistModuleOutputAlarmHighEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable high current alarm generation for this distribution cable." ::= { isxModularDistModuleOutputEntry 15 } isxModularDistModuleOutputAlarmMaxEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable maximum current alarm generation for this distribution cable." ::= { isxModularDistModuleOutputEntry 16 } isxModularDistModuleOutputCableLength OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The length of this distribution cable. Specified in tenths of meters." ::= { isxModularDistModuleOutputEntry 17 } isxModularDistModuleOutputConnectorType OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A string describing the connector on the end of this distribution cable." ::= { isxModularDistModuleOutputEntry 18 } isxModularDistModuleOutputAvailableVoltages OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is a bit map representing the voltages that are available at the connector. 6 bits are used to indicate the following: b0 - L1 b1 - L2 b2 - L3 b3 - L1-2 b4 - L2-3 b5 - L3-1" ::= { isxModularDistModuleOutputEntry 19 } isxModularDistModuleOutputTotalPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total power being consumed by the load equipment supplied by this distribution cable. Measured in tenths of kW." ::= { isxModularDistModuleOutputEntry 20 } isxModularDistModuleOutputKwhUsage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total energy consumed by the load equipment fed by this distribution cable. This is the total since the date specified in the isxModularDistModuleOutputKwhResetDate OID, and may be cleared using the isxModularDistModuleOutputKwhReset OID. Measured in tenths of kWh." ::= { isxModularDistModuleOutputEntry 21 } isxModularDistModuleOutputKwhReset OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Writing yes to this OID will reset the total kWh usage shown in the isxModularDistModuleOutputKwhUsage OID." ::= { isxModularDistModuleOutputEntry 22 } isxModularDistModuleOutputKwhResetDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date that the kWh usage was reset, in the format mm/dd/yyyy. Example: 01/01/2000." ::= { isxModularDistModuleOutputEntry 23 } -- Distribution Subfeeds isxModularDistSubFeedInfoTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the isxModularDistSubFeedInfoTable." ::= { isxModularDistSubFeeds 1 } isxModularDistSubFeedInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistSubFeedInfoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting information about distribution subfeed breakers." ::= { isxModularDistSubFeeds 2 } isxModularDistSubFeedInfoEntry OBJECT-TYPE SYNTAX IsxModularDistSubFeedInfoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information about a specific distribution subfeed." INDEX { isxModularDistSubFeedInfoSubIndex } ::= { isxModularDistSubFeedInfoTable 1 } IsxModularDistSubFeedInfoEntry ::= SEQUENCE { isxModularDistSubFeedInfoSubIndex INTEGER, isxModularDistSubFeedInfoName DisplayString, isxModularDistSubFeedInfoLocation DisplayString, isxModularDistSubFeedInfoBreakerRating INTEGER, isxModularDistSubFeedInfoBreakerPosition INTEGER, isxModularDistSubFeedInfoAlarmStatus INTEGER, isxModularDistSubFeedInfoAlarmGeneration INTEGER, isxModularDistSubFeedInfoThresholdMin INTEGER, isxModularDistSubFeedInfoThresholdLow INTEGER, isxModularDistSubFeedInfoThresholdHigh INTEGER, isxModularDistSubFeedInfoThresholdMax INTEGER, isxModularDistSubFeedInfoAlarmMinEnable INTEGER, isxModularDistSubFeedInfoAlarmLowEnable INTEGER, isxModularDistSubFeedInfoAlarmHighEnable INTEGER, isxModularDistSubFeedInfoAlarmMaxEnable INTEGER, isxModularDistSubFeedInfoBreakerAlarmEnable INTEGER, isxModularDistSubFeedInfoTotalPower INTEGER, isxModularDistSubFeedInfoKwhUsage INTEGER, isxModularDistSubFeedInfoKwhReset INTEGER, isxModularDistSubFeedInfoKwhResetDate DisplayString } isxModularDistSubFeedInfoSubIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an individual subfeed." ::= { isxModularDistSubFeedInfoEntry 1 } isxModularDistSubFeedInfoName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A string describing the load equipment being supplied by this subfeed." ::= { isxModularDistSubFeedInfoEntry 2 } isxModularDistSubFeedInfoLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A string describing the location of the equipment being supplied by this subfeed." ::= { isxModularDistSubFeedInfoEntry 3 } isxModularDistSubFeedInfoBreakerRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current rating of this subfeed breaker." ::= { isxModularDistSubFeedInfoEntry 4 } isxModularDistSubFeedInfoBreakerPosition OBJECT-TYPE SYNTAX INTEGER { open (1), closed (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The operational status of this breaker, either closed or open (including tripped)." ::= { isxModularDistSubFeedInfoEntry 5 } isxModularDistSubFeedInfoAlarmStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), warning (2), critical (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The worst case alarm status for this subfeed." ::= { isxModularDistSubFeedInfoEntry 6 } isxModularDistSubFeedInfoAlarmGeneration OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable all alarm generation related to this subfeed." ::= { isxModularDistSubFeedInfoEntry 7 } isxModularDistSubFeedInfoThresholdMin OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current drops below this value a critical alarm will exist." ::= { isxModularDistSubFeedInfoEntry 8 } isxModularDistSubFeedInfoThresholdLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current drops below this value a warning alarm will exist." ::= { isxModularDistSubFeedInfoEntry 9 } isxModularDistSubFeedInfoThresholdHigh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current exceeds this value a warning alarm will exist." ::= { isxModularDistSubFeedInfoEntry 10 } isxModularDistSubFeedInfoThresholdMax OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the current exceeds this value a critical alarm will exist." ::= { isxModularDistSubFeedInfoEntry 11 } isxModularDistSubFeedInfoAlarmMinEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable minimum current alarm generation for this subfeed." ::= { isxModularDistSubFeedInfoEntry 12 } isxModularDistSubFeedInfoAlarmLowEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable low current alarm generation for this subfeed." ::= { isxModularDistSubFeedInfoEntry 13 } isxModularDistSubFeedInfoAlarmHighEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable high current alarm generation for this subfeed." ::= { isxModularDistSubFeedInfoEntry 14 } isxModularDistSubFeedInfoAlarmMaxEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable maximum current alarm generation for this subfeed." ::= { isxModularDistSubFeedInfoEntry 15 } isxModularDistSubFeedInfoBreakerAlarmEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable breaker position alarms for this subfeed." ::= { isxModularDistSubFeedInfoEntry 16 } isxModularDistSubFeedInfoTotalPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total power being supplied by this subfeed. Measured in tenths of kW." ::= { isxModularDistSubFeedInfoEntry 17 } isxModularDistSubFeedInfoKwhUsage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total energy consumed by the load equipment fed by this subfeed. This is the total since the date specified in the isxModularDistSubFeedInfoKwhResetDate OID, and may be cleared using the isxModularDistSubFeedInfoKwhReset OID. Measured in tenths of kWh." ::= { isxModularDistSubFeedInfoEntry 18 } isxModularDistSubFeedInfoKwhReset OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Writing yes to this OID will reset the total kWh usage shown in the isxModularDistSubFeedInfoKwhUsage OID." ::= { isxModularDistSubFeedInfoEntry 19 } isxModularDistSubFeedInfoKwhResetDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date that the kWh usage was reset, in the format mm/dd/yyyy. Example: 01/01/2000." ::= { isxModularDistSubFeedInfoEntry 20 } isxModularDistSubFeedLoadingTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the isxModularDistSubFeedLoadingTable." ::= { isxModularDistSubFeeds 3 } isxModularDistSubFeedLoadingTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistSubFeedLoadingEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting subfeed phase loading information." ::= { isxModularDistSubFeeds 4 } isxModularDistSubFeedLoadingEntry OBJECT-TYPE SYNTAX IsxModularDistSubFeedLoadingEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing data for an individual subfeed." INDEX { isxModularDistSubFeedLoadingSubIndex, isxModularDistSubFeedLoadingPhaseIndex } ::= { isxModularDistSubFeedLoadingTable 1 } IsxModularDistSubFeedLoadingEntry ::= SEQUENCE { isxModularDistSubFeedLoadingSubIndex INTEGER, isxModularDistSubFeedLoadingPhaseIndex INTEGER, isxModularDistSubFeedLoadingAlarmStatus INTEGER, isxModularDistSubFeedLoadingCurrent INTEGER, isxModularDistSubFeedLoadingPercent INTEGER, isxModularDistSubFeedLoadingPower INTEGER } isxModularDistSubFeedLoadingSubIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of an individual subfeed." ::= { isxModularDistSubFeedLoadingEntry 1 } isxModularDistSubFeedLoadingPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each input phase entry in the table." ::= { isxModularDistSubFeedLoadingEntry 2 } isxModularDistSubFeedLoadingAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is a bit map representing the active alarms for this subfeed: b0 - Minimum current threshold exceeded (critical) b1 - Low current threshold exceeded (warning) b2 - High current threshold exceeded (warning) b3 - Maximum current threshold exceeded (critical) b4 - Breaker is open (critical) If a bit is set, the corresponding alarm is active." ::= { isxModularDistSubFeedLoadingEntry 3 } isxModularDistSubFeedLoadingCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current flowing though this subfeed phase. Measured in tenths of amps." ::= { isxModularDistSubFeedLoadingEntry 4 } isxModularDistSubFeedLoadingPercent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The loading on this subfeed phase as a percentage of the subfeed's current rating. Expressed in tenths of percent." ::= { isxModularDistSubFeedLoadingEntry 5 } isxModularDistSubFeedLoadingPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power being supplied by this subfeed phase. Measured in tenths of kW." ::= { isxModularDistSubFeedLoadingEntry 6 } -- Distribution System Output Voltage isxModularDistSysOutputVoltageNominalLineToNeutral OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal line-to-neutral voltage available at the distribution panel." ::= { isxModularDistSysVoltage 1 } isxModularDistSysOutputVoltageNominalLineToLine OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal line-to-line voltage available at the distribution panel." ::= { isxModularDistSysVoltage 2 } isxModularDistSysOutputNominalFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal system output frequency. Measured in tenths of Hertz." ::= { isxModularDistSysVoltage 3 } isxModularDistSysOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The system output frequency in tenths of Hertz. -1 if not available." ::= { isxModularDistSysVoltage 4 } isxModularDistSysOutputVoltageMonitoring OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not output voltage alarm generation is present." ::= { isxModularDistSysVoltage 5 } isxModularDistSysOutputVoltageThresholdMin OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the line-to-neutral voltage of any phase drops below this value a critical alarm will exist. Specified as a percent of the nominal voltage, isxModularDistSysOutputVoltageNominalLineToNeutral. This value is returned as a positive number which represents a negative percentage. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysVoltage 6 } isxModularDistSysOutputVoltageThresholdLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the line-to-neutral voltage of any phase drops below this value a warning alarm will exist. Specified as a percent of the nominal voltage, isxModularDistSysOutputVoltageNominalLineToNeutral. This value is returned as a positive number which represents a negative percentage. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysVoltage 7 } isxModularDistSysOutputVoltageThresholdHigh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the line-to-neutral voltage of any phase exceeds this value a warning alarm will exist. Specified as a percent of the nominal voltage, isxModularDistSysOutputVoltageNominalLineToNeutral. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysVoltage 8 } isxModularDistSysOutputVoltageThresholdMax OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When the line-to-neutral voltage of any phase exceeds this value a critical alarm will exist. Specified as a percent of the nominal voltage, isxModularDistSysOutputVoltageNominalLineToNeutral. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysVoltage 9 } isxModularDistSysOutputVoltageAlarmMinEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable minimum voltage alarm generation for the distribution panel." ::= { isxModularDistSysVoltage 10 } isxModularDistSysOutputVoltageAlarmLowEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable low voltage alarm generation for the distribution panel." ::= { isxModularDistSysVoltage 11 } isxModularDistSysOutputVoltageAlarmHighEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable high voltage alarm generation for the distribution panel." ::= { isxModularDistSysVoltage 12 } isxModularDistSysOutputVoltageAlarmMaxEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable maximum voltage alarm generation for the distribution panel." ::= { isxModularDistSysVoltage 13 } isxModularDistSysOutputVoltageFrequencyTolerance OBJECT-TYPE SYNTAX INTEGER{ freqToleranceOff (1), freqTolerancePointTwo (2), freqTolerancePointFive (3), freqToleranceOne (4), freqToleranceOnePointFive (5), freqToleranceTwo (6), freqToleranceThree (7), freqToleranceFour (8), freqToleranceFive (9), freqToleranceNine (10), freqToleranceNotAvailable (11) } ACCESS read-write STATUS mandatory DESCRIPTION "The circuit panel output frequency tolerance in Hertz. When the system output frequency deviates from the nominal by more than this range, a critical alarm will be generated." ::= { isxModularDistSysVoltage 14 } isxModularDistSysVoltageTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistSysVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting the system output voltage information." ::= { isxModularDistSysVoltage 15 } isxModularDistSysVoltageEntry OBJECT-TYPE SYNTAX IsxModularDistSysVoltageEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing data for an individual system output phase." INDEX { isxModularDistSysVoltagePhaseIndex } ::= { isxModularDistSysVoltageTable 1 } IsxModularDistSysVoltageEntry ::= SEQUENCE { isxModularDistSysVoltagePhaseIndex INTEGER, isxModularDistSysVoltageAlarmStatus INTEGER, isxModularDistSysVoltageLtoN INTEGER, isxModularDistSysVoltageLtoL INTEGER } isxModularDistSysVoltagePhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each phase entry in the table." ::= { isxModularDistSysVoltageEntry 1 } isxModularDistSysVoltageAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is a bit map representing the active alarms for this output phase: b0 - Minimum voltage threshold exceeded (critical) b1 - Low voltage threshold exceeded (warning) b2 - High voltage threshold exceeded (warning) b3 - Maximum voltage threshold exceeded (critical) If a bit is set, the corresponding alarm is active." ::= { isxModularDistSysVoltageEntry 2 } isxModularDistSysVoltageLtoN OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-neutral system output voltage available at the distribution panel. Measured in tenths of Volts." ::= { isxModularDistSysVoltageEntry 3 } isxModularDistSysVoltageLtoL OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Line-to-line system output voltage available at the distribution panel. Measured in tenths of Volts." ::= { isxModularDistSysVoltageEntry 4 } -- Distribution System Total Output Current isxModularDistSysCurrentRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The 100 percent current rating of the distribution panel." ::= { isxModularDistSysCurrent 1 } isxModularDistSysCurrentMonitoring OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not total output current measurements and alarm generation are present." ::= { isxModularDistSysCurrent 2 } isxModularDistSysCurrentThresholdMin OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When total system current in any phase drops below this value a critical alarm will exist. Specified as a percent of the panel rating, isxModularDistSysCurrentRating. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysCurrent 3 } isxModularDistSysCurrentThresholdLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When total system current in any phase drops below this value a warning alarm will exist. Specified as a percent of the panel rating, isxModularDistSysCurrentRating. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysCurrent 4 } isxModularDistSysCurrentThresholdHigh OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When total system current in any phase exceeds this value a warning alarm will exist. Specified as a percent of the panel rating, isxModularDistSysCurrentRating. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysCurrent 5 } isxModularDistSysCurrentThresholdMax OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "When total system current in any phase exceeds this value a critical alarm will exist. Specified as a percent of the panel rating, isxModularDistSysCurrentRating. A value of -1 indicates that the threshold is not available in the device." ::= { isxModularDistSysCurrent 6 } isxModularDistSysCurrentAlarmMinEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable minimum total output current alarm generation." ::= { isxModularDistSysCurrent 7 } isxModularDistSysCurrentAlarmLowEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable low total output current alarm generation." ::= { isxModularDistSysCurrent 8 } isxModularDistSysCurrentAlarmHighEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable high total output current alarm generation." ::= { isxModularDistSysCurrent 9 } isxModularDistSysCurrentAlarmMaxEnable OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable maximum total output current alarm generation." ::= { isxModularDistSysCurrent 10 } isxModularDistSysCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistSysCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting the total system phase current information." ::= { isxModularDistSysCurrent 11 } isxModularDistSysCurrentEntry OBJECT-TYPE SYNTAX IsxModularDistSysCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing data for an individual system output phase." INDEX { isxModularDistSysCurrentPhaseIndex } ::= { isxModularDistSysCurrentTable 1 } IsxModularDistSysCurrentEntry ::= SEQUENCE { isxModularDistSysCurrentPhaseIndex INTEGER, isxModularDistSysCurrentAlarmStatus INTEGER, isxModularDistSysCurrentAmps INTEGER, isxModularDistSysCurrentPercent INTEGER } isxModularDistSysCurrentPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each phase entry in the table." ::= { isxModularDistSysCurrentEntry 1 } isxModularDistSysCurrentAlarmStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is a bit map representing the active alarms for this output phase: b0 - Minimum current threshold exceeded (critical) b1 - Low current threshold exceeded (warning) b2 - High current threshold exceeded (warning) b3 - Maximum current threshold exceeded (critical) If a bit is set, the corresponding alarm is active." ::= { isxModularDistSysCurrentEntry 2 } isxModularDistSysCurrentAmps OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current flowing though this system output phase. Measured in tenths of amps." ::= { isxModularDistSysCurrentEntry 3 } isxModularDistSysCurrentPercent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The loading on this system output phase as a percentage of the panel current rating. Expressed in tenths of percent." ::= { isxModularDistSysCurrentEntry 4 } -- Distribution System Total Output Power isxModularDistSysPowerTotal OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total system power being supplied. Measured in tenths of kW." ::= { isxModularDistSysPower 1 } isxModularDistSysPowerKwhUsage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total system energy consumed by the load equipment. This is the total since the date specified in the isxModularDistSysOutputKwhResetDate OID, and may be cleared using the isxModularDistSysOutputKwhReset OID. Measured in tenths of kWh." ::= { isxModularDistSysPower 2 } isxModularDistSysPowerKwhReset OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Writing yes to this OID will reset the total kWh usage shown in the isxModularDistSysPowerKwhUsage OID." ::= { isxModularDistSysPower 3 } isxModularDistSysPowerKwhResetDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date that the kWh usage was reset, in the format mm/dd/yyyy. Example: 01/01/2000." ::= { isxModularDistSysPower 4 } isxModularDistSysPowerTable OBJECT-TYPE SYNTAX SEQUENCE OF IsxModularDistSysPowerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting the total system phase power loading information." ::= { isxModularDistSysPower 5 } isxModularDistSysPowerEntry OBJECT-TYPE SYNTAX IsxModularDistSysPowerEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing data for an individual system output phase." INDEX { isxModularDistSysPowerPhaseIndex } ::= { isxModularDistSysPowerTable 1 } IsxModularDistSysPowerEntry ::= SEQUENCE { isxModularDistSysPowerPhaseIndex INTEGER, isxModularDistSysPowerKw INTEGER, isxModularDistSysPowerKwhPhaseUsage INTEGER } isxModularDistSysPowerPhaseIndex OBJECT-TYPE SYNTAX INTEGER{ phase1(1), phase2(2), phase3(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Description of each phase entry in the table." ::= { isxModularDistSysPowerEntry 1 } isxModularDistSysPowerKw OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The power being supplied by this system output phase. Measured in tenths of kW." ::= { isxModularDistSysPowerEntry 2 } isxModularDistSysPowerKwhPhaseUsage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The energy consumed by the load equipment on this system output phase. This is the total since the date specified in the isxModularDistSysPowerKwhResetDate OID, and may be cleared using the isxModularDistSysPowerKwhReset OID. Measured in tenths of kWh." ::= { isxModularDistSysPowerEntry 3 } -- the isxModularPduIdent group isxModularPduIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the model number of the PDU. This value is set at the factory." ::= { isxModularPduIdent 1 } isxModularPduIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the PDU. This value is set at the factory." ::= { isxModularPduIdent 2 } isxModularPduIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the PDU was manufactured in mm/dd/yyyy format. This value is set at the factory." ::= { isxModularPduIdent 3 } isxModularPduIdentMonitorCardSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A character string identifying the serial number of the PDU monitor card. This value is set at the factory." ::= { isxModularPduIdent 4 } isxModularPduIdentMonitorCardHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the PDU monitor card. This value is set at the factory." ::= { isxModularPduIdent 5 } isxModularPduIdentMonitorCardFirmwareAppRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application firmware revision of the PDU monitor card." ::= { isxModularPduIdent 6 } isxModularPduIdentMonitorCardFirmwareAppOSRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An ID string identifying the application operating system firmware revision of the PDU monitor card." ::= { isxModularPduIdent 7 } -- the isxModularPduDevice group isxModularPduDeviceTransformerPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), isoXfmrPresent (2), autoXfmrPresent (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the type of transformer present in this PDU." ::= { isxModularPduDevice 1 } isxModularPduDeviceServiceType OBJECT-TYPE SYNTAX INTEGER { threeWire (1), fourWire (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of utility input to the PDU. Either 3 wires (delta), or 4 wires (wye)." ::= { isxModularPduDevice 2 } isxModularPduDeviceFansPresent OBJECT-TYPE SYNTAX INTEGER { notPresent (1), present (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not cooling fans are installed in the PDU." ::= { isxModularPduDevice 3 } isxModularPduDeviceNominalMainInputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The nominal main input voltage to the system. Measured in Volts, line-to-line for a 3-wire (delta) service or line-to-neutral for a 4-wire (wye) service. -1 if main input voltage is not being measured." ::= { isxModularPduDevice 4 } isxModularPduAlarmStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), warning (2), critical (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The overall status (worst case) of this PDU." ::= { isxModularPduStatus 1 } isxModularPduTransformerTempStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), overtemp (2), noTransformerPresent (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the PDU isolation transformer is over temperature." ::= { isxModularPduStatus 2 } isxModularPduFanStatus OBJECT-TYPE SYNTAX INTEGER { normal (1), failed (2), noCoolingFansPresent (3), unknown (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if one or more of the PDU's cooling fans have failed." ::= { isxModularPduStatus 3 } -- Universal Input / Output (uio) -- uio Sensor Status Table uioSensorStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the uioSensorStatusTable." ::= { uioSensor 1 } uioSensorStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF UIOSensorStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting sensor status information." ::= { uioSensor 2 } uioSensorStatusEntry OBJECT-TYPE SYNTAX UIOSensorStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit from which to get data." INDEX { uioSensorStatusPortID, uioSensorStatusSensorID } ::= { uioSensorStatusTable 1 } UIOSensorStatusEntry ::= SEQUENCE { uioSensorStatusPortID INTEGER, uioSensorStatusSensorID INTEGER, uioSensorStatusSensorName DisplayString, uioSensorStatusSensorLocation DisplayString, uioSensorStatusTemperatureDegF INTEGER, uioSensorStatusTemperatureDegC INTEGER, uioSensorStatusHumidity INTEGER, uioSensorStatusViolationStatus INTEGER, uioSensorStatusAlarmStatus INTEGER, uioSensorStatusCommStatus INTEGER } uioSensorStatusPortID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ID of the Universal IO port to which the sensor is attached." ::= { uioSensorStatusEntry 1 } uioSensorStatusSensorID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ID of the sensor." ::= { uioSensorStatusEntry 2 } uioSensorStatusSensorName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The sensor name." ::= { uioSensorStatusEntry 3 } uioSensorStatusSensorLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the sensor." ::= { uioSensorStatusEntry 4 } uioSensorStatusTemperatureDegF OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The sensor's current temperature reading in tenths of degrees Fahrenheit." ::= { uioSensorStatusEntry 5 } uioSensorStatusTemperatureDegC OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The sensor's current temperature reading in tenths of degrees Celsius." ::= { uioSensorStatusEntry 6 } uioSensorStatusHumidity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current humidity reading in tenths of percent from the sensor." ::= { uioSensorStatusEntry 7 } uioSensorStatusViolationStatus OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The violation status of the sensor. This integer should be interpreted as a bit map, with each bit representing the presence or absence of the specific alarm conditions listed below. The bit will be '1' if the condition is present, and '0' if the condition is not present. Bit Hex. Value Description 1 0x0001 Maximum temperature exceeded. 2 0x0002 High temperature exceeded. 3 0x0004 Low temperature exceeded. 4 0x0008 Minimum temperature exceeded. 5 0x0010 Short-term increasing temperature rate exceeded (Not used). 6 0x0020 Short-term decreasing temperature rate exceeded (Not used). 7 0x0040 Long-term increasing temperature rate exceeded (Not used). 8 0x0080 Long-term decreasing temperature rate exceeded (Not used). 9 0x0100 Maximum humidity exceeded. 10 0x0200 High humidity exceeded. 11 0x0400 Low humidity exceeded. 12 0x0800 Minimum humidity exceeded." ::= { uioSensorStatusEntry 8 } uioSensorStatusAlarmStatus OBJECT-TYPE SYNTAX INTEGER { uioNormal (1), uioWarning (2), uioCritical (3), sensorStatusNotApplicable (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The alarm status of the sensor." ::= { uioSensorStatusEntry 9 } uioSensorStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { notInstalled (1), commsOK (2), commsLost (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communications status of the sensor." ::= { uioSensorStatusEntry 10 } -- uio Input Contact Status Table uioInputContactStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the uioInputContactStatusTable." ::= { uioInputContact 1 } uioInputContactStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF UIOInputContactStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting input contact status information." ::= { uioInputContact 2 } uioInputContactStatusEntry OBJECT-TYPE SYNTAX UIOInputContactStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The input contact from which to get data." INDEX { uioInputContactStatusPortID, uioInputContactStatusContactID } ::= { uioInputContactStatusTable 1 } UIOInputContactStatusEntry ::= SEQUENCE { uioInputContactStatusPortID INTEGER, uioInputContactStatusContactID INTEGER, uioInputContactStatusContactName DisplayString, uioInputContactStatusContactLocation DisplayString, uioInputContactStatusCurrentState INTEGER, uioInputContactStatusAlarmStatus INTEGER, uioInputContactStatusCommStatus INTEGER } uioInputContactStatusPortID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ID of the port to which the input contact is attached." ::= { uioInputContactStatusEntry 1 } uioInputContactStatusContactID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ID of the input contact on the module." ::= { uioInputContactStatusEntry 2 } uioInputContactStatusContactName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The input contact name." ::= { uioInputContactStatusEntry 3 } uioInputContactStatusContactLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the input contact." ::= { uioInputContactStatusEntry 4 } uioInputContactStatusCurrentState OBJECT-TYPE SYNTAX INTEGER { uioInputClosed (1), uioInputOpen (2), uioInputDisabled (3), inputStateNotApplicable (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the input contact. " ::= { uioInputContactStatusEntry 5 } uioInputContactStatusAlarmStatus OBJECT-TYPE SYNTAX INTEGER { uioNormal (1), uioWarning (2), uioCritical (3), inputStatusNotApplicable (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The alarm status of the input contact." ::= { uioInputContactStatusEntry 6 } uioInputContactStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { notInstalled (1), commsOK (2), commsLost (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communications status of the input contact." ::= { uioInputContactStatusEntry 7 } -- uio Output Relay Status Table uioOutputRelayStatusTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of entries in the uioOutputRelayStatusTable." ::= { uioOutputRelay 1 } uioOutputRelayStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF UIOOutputRelayStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for getting output relay status information." ::= { uioOutputRelay 2 } uioOutputRelayStatusEntry OBJECT-TYPE SYNTAX UIOOutputRelayStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The unit from which to get data." INDEX { uioOutputRelayStatusPortID, uioOutputRelayStatusRelayID } ::= { uioOutputRelayStatusTable 1 } UIOOutputRelayStatusEntry ::= SEQUENCE { uioOutputRelayStatusPortID INTEGER, uioOutputRelayStatusRelayID INTEGER, uioOutputRelayStatusRelayName DisplayString, uioOutputRelayStatusRelayLocation DisplayString, uioOutputRelayStatusCurrentState INTEGER, uioOutputRelayStatusAlarmStatus INTEGER, uioOutputRelayStatusCommStatus INTEGER } uioOutputRelayStatusPortID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ID of the module to which the output relay is attached." ::= { uioOutputRelayStatusEntry 1 } uioOutputRelayStatusRelayID OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ID of the output relay on the module." ::= { uioOutputRelayStatusEntry 2 } uioOutputRelayStatusRelayName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The output relay name." ::= { uioOutputRelayStatusEntry 3 } uioOutputRelayStatusRelayLocation OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The location of the output relay." ::= { uioOutputRelayStatusEntry 4 } uioOutputRelayStatusCurrentState OBJECT-TYPE SYNTAX INTEGER { uioOutputClosed (1), uioOutputOpen (2), outputStateNotApplicable (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the output relay." ::= { uioOutputRelayStatusEntry 5 } uioOutputRelayStatusAlarmStatus OBJECT-TYPE SYNTAX INTEGER { uioNormal (1), uioWarning (2), uioCritical (3), inputStatusNotApplicable (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The alarm status of the output relay." ::= { uioOutputRelayStatusEntry 6 } uioOutputRelayStatusCommStatus OBJECT-TYPE SYNTAX INTEGER { notInstalled (1), commsOK (2), commsLost (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The communications status of the output relay." ::= { uioOutputRelayStatusEntry 7 } -- Traps -- Annotations are provided for Novell's NMS product -- -- Each trap has at least one variable (mtrapargsString) which always appears -- as the last variable in the list. This variable contains either a static -- or dynamically-constructed string which provides an enhanced description of -- the trap's purpose and any pertinent information about the trap. communicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Communication to the UPS has been lost. Steps to reestablish communication are in progress." --#TYPE "APC UPS: Communication lost" --#SUMMARY "Communication lost between the agent and the UPS." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 1 upsOverload TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: The UPS has sensed a load greater than 100 percent of its rated capacity." --#TYPE "APC UPS: Overload" --#SUMMARY "The UPS has sensed a load greater than 100 percent of its rated capacity." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 2 upsDiagnosticsFailed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: The UPS failed its internal diagnostic self-test." --#TYPE "APC UPS: Failed self-test" --#SUMMARY "The UPS has failed its internal self-test." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 3 upsDischarged TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: The UPS batteries are discharged; if utility power fails an immediate low battery condition will exist. Sufficient runtime for necessary action cannot be guaranteed." --#TYPE "APC UPS: batteries are discharged" --#SUMMARY "The UPS batteries are discharged." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 4 upsOnBattery TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS has switched to battery backup power." --#TYPE "APC UPS: On battery" --#SUMMARY "The UPS has switched to battery backup power." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 5 smartBoostOn TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS has enabled SmartBoost(TM)." --#TYPE "APC UPS: SmartBoost(TM)" --#SUMMARY "The UPS has enabled SmartBoost(TM); low incoming line voltage." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 6 lowBattery TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: The UPS batteries are low and will soon be exhausted. If utility power is not restored the UPS will put itself to 'sleep' and immediately cut power to the load." --#TYPE "APC UPS: Low battery" --#SUMMARY "The UPS system's batteries are low and will soon be exhausted." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 7 communicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Communication with the UPS has been established." --#TYPE "APC UPS: Communication established" --#SUMMARY "UPS communication has been established." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 8 powerRestored TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Utility power has been restored." --#TYPE "APC UPS: Utility power restored" --#SUMMARY "Returned from battery backup power; utility power restored." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 9 upsDiagnosticsPassed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The UPS passed its internal self-test." --#TYPE "APC UPS: Passed self-test" --#SUMMARY "The UPS passed internal self-test." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 10 returnFromLowBattery TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The UPS has returned from a low battery condition." --#TYPE "APC UPS: Returned from Low-Battery condition" --#SUMMARY "The UPS has returned from a Low-Battery condition." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 11 upsTurnedOff TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS has been turned 'off' by the management station." --#TYPE "APC UPS: Turned off" --#SUMMARY "The UPS has been switched off by a management station." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 12 upsSleeping TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS is entering 'sleep' mode. Power to the load will be cut off." --#TYPE "APC UPS: Entered sleep mode" --#SUMMARY "The UPS entered sleep mode. Power to the load will be cut off." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 13 upsWokeUp TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATION: The UPS has returned from 'sleep' mode. Power to the load has been restored." --#TYPE "APC UPS: Wake up" --#SUMMARY "The UPS has returned from sleep mode. Power to the load has been restored." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 14 upsRebootStarted TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS has started its reboot sequence. The UPS will reboot itself at this time." --#TYPE "APC UPS: Starting reboot" --#SUMMARY "The UPS has started its reboot sequence." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 15 upsDipSwitchChanged TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The dip switch settings on the UPS have been changed, possibly altering UPS performance." --#TYPE "APC UPS: DIP switch altered" --#SUMMARY "The DIP switch settings on the UPS have been changed." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 16 upsBatteryNeedsReplacement TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: The batteries of the UPS need immediate replacement." --#TYPE "APC UPS: UPS batteries need replacement" --#SUMMARY "The UPS batteries require immediate replacement." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 17 -- the Environmental Monitor traps contactFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: One of the contacts on the Environmental Monitor has changed from its default position. The first variable is the contact number that is faulted." --#TYPE "APC Environment: Contact fault" --#SUMMARY "An Environment contact closure has faulted." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 18 contactFaultResolved TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A fault on one of the Environmental Monitor contacts has been resolved. The first variable is the contact number that has been resolved." --#TYPE "APC Environment: Contact fault cleared." --#SUMMARY "A Environment contact closure has returned to it's default state." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 19 -- the Matrix-UPS traps hardwareFailureBypass TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: UPS on bypass due to internal fault" --#TYPE "APC UPS: On bypass due to internal fault" --#SUMMARY "The UPS is on bypass due to an internal fault." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 20 softwareBypass TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: UPS on bypass - user set via software or panel" --#TYPE "APC UPS: On bypass by user via software or panel" --#SUMMARY "UPS put on bypass by user via software or front UPS panel." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 21 switchedBypass TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: UPS on bypass - initiated by user" --#TYPE "APC UPS: On bypass initiated by user" --#SUMMARY "UPS put on bypass by user." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 22 returnFromBypass TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: UPS has returned from bypass" --#TYPE "APC UPS: UPS has returned from bypass" --#SUMMARY "The UPS has returned from bypass mode." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 23 bypassPowerSupplyFailure TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Base module bypass power supply needs repair" --#TYPE "APC UPS: Base module bypass power supply needs repair" --#SUMMARY "The base module bypass power supply needs repair." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 24 baseFanFailure TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Base module fan needs repair" --#TYPE "APC UPS: Base module fan needs repair" --#SUMMARY "The base module fan needs repair." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 25 batteryPackCommLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Check installation of external battery packs signal cable" --#TYPE "APC UPS: Communication lost with battery packs" --#SUMMARY "Communication lost with external battery packs, check battery signal cable." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 26 batteryPackCommEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: UPS is communicating with the external battery packs." --#TYPE "APC UPS: Communication established with battery packs" --#SUMMARY "Communication established with external battery packs." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 27 calibrationStart TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A battery calibration test has been initiated on the UPS." --#TYPE "APC UPS: Calibration initiated" --#SUMMARY "A battery run time calibration test has been initiated." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 28 -- Misc. Traps restartAgent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Agent restarting as commanded by manager." --#TYPE "APC SNMP Agent: Agent restarting" --#SUMMARY "Agent restarting as commanded by manager." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 29 upsTurnedOn TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A UPS is turned on." --#TYPE "APC UPS: A UPS is turned on." --#SUMMARY " A UPS is turned on." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 30 smartAvrReducing TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS is reducing the line voltage via SmartTrim(TM)." --#TYPE "APC UPS: SmartTrim(TM) reducing" --#SUMMARY "The UPS has enabled SmartTrim(TM) voltage reduction." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 31 codeAuthenticationDone TRAP-TYPE ENTERPRISE apc VARIABLES { mconfigTFTPServerIP, newCodeAuthentViaTFTP } DESCRIPTION "INFORMATIONAL: Authentication on agent code image is done." --#TYPE "APC CODE: Authentication on agent code image is done." --#SUMMARY "Authentication on agent code image is done." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 32 upsOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The overload condition has been cleared." --#TYPE "APC UPS: Overload cleared." --#SUMMARY "The overload condition has been cleared. ." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 33 smartBoostOff TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The UPS has returned from SmartBoost(TM)." --#TYPE "APC UPS: SmartBoost(TM) off." --#SUMMARY "The UPS has returned from SmartBoost(TM)." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 34 smartAvrReducingOff TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The UPS has returned from SmartTrim(TM)." --#TYPE "APC UPS: SmartTrim(TM) reducing off" --#SUMMARY "The UPS has returned from SmartTrim(TM) voltage reduction." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 35 upsBatteryReplaced TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A bad battery fault has been cleared." --#TYPE "APC UPS: Bad battery replaced" --#SUMMARY "The UPS has returned from a bad battery fault." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 36 calibrationEnd TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The UPS has finished calibrating." --#TYPE "APC UPS: Calibration end" --#SUMMARY "The UPS has finished calibrating" --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 37 dischargeCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A UPS discharge condition has been cleared." --#TYPE "APC UPS: Discharge cleared." --#SUMMARY "The UPS discharge condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 38 gracefulShutdown TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A graceful shutdown has been initiated." --#TYPE "APC UPS: A graceful shutdown has been initiated." --#SUMMARY "A graceful shutdown has been initiated." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 39 outletOn TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUOutletControlIndex } DESCRIPTION "WARNING: The specified PDU outlet has turned on. If sPDUOutletControlIndex equals zero, then all outlets have turned on." --#TYPE "APC PDU: Outlet has been turned on." --#SUMMARY "Outlet has been turned on" --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 41 outletOff TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUOutletControlIndex } DESCRIPTION "WARNING: The specified PDU outlet has turned off. If sPDUOutletControlIndex equals zero, then all outlets have turned off." --#TYPE "APC PDU: Outlet has turned off." --#SUMMARY "Outlet has turned off." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 42 outletReboot TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUOutletControlIndex } DESCRIPTION "WARNING: The specified PDU outlet has rebooted. If sPDUOutletControlIndex equals zero, then all outlets have rebooted." --#TYPE "APC PDU: Outlet has rebooted." --#SUMMARY "Outlet has rebooted." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 43 configChangeSNMP TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The SNMP configuration has been changed." --#TYPE "APC: The SNMP configuration has been changed." --#SUMMARY "The SNMP configuration has been changed." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 44 configChangeOutlet TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUOutletConfigIndex } DESCRIPTION "WARNING: The specified PDU outlet has changed configuration. If sPDUOutletConfigIndex equals zero, then the Master outlet has changed configuration." --#TYPE "APC PDU: Outlet configuration has been changed." --#SUMMARY "Outlet configuration has been changed." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 45 accessViolationConsole TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: Someone has attempted to login via the console with the incorrect password." --#TYPE "APC: Access violation via the console." --#SUMMARY "Three unsuccessful logins have been attempted via the console." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 46 accessViolationHTTP TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: Someone has attempted to login via HTTP with the incorrect password." --#TYPE "APC: Access violation via HTTP." --#SUMMARY "An unsuccessful attempt to login via HTTP." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 47 passwordChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The password for the device has been changed." --#TYPE "APC: Password change for the device." --#SUMMARY "Someone has changed the password on the device." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 48 badVoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The output voltage is not within acceptable range." --#TYPE "APC UPS: Bad output voltage." --#SUMMARY "The output voltage is not within acceptable range." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 49 badVoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The output voltage has returned to an acceptable level." --#TYPE "APC UPS: The bad voltage output condition has been cleared." --#SUMMARY "The output voltage has returned to an acceptable level." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 50 chargerFailure TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The battery charger has failed." --#TYPE "APC UPS: The battery charger has failed." --#SUMMARY "The battery charger has failed." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 51 chargerFailureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The battery charger failure condition has been cleared." --#TYPE "APC UPS: The battery charger failure condition cleared" --#SUMMARY "The battery charger failure condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 52 batteryOverTemperature TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The battery temperature threshold has been violated." --#TYPE "APC UPS: The battery temperature threshold has been violated." --#SUMMARY "The battery temperature threshold has been violated." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 53 batteryOverTemperatureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The battery over temperature has been cleared." --#TYPE "APC UPS: The battery over temperature has been cleared." --#SUMMARY "The battery over temperature has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 54 smartRelayFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: SmartBoost(TM) or SmartTrim(TM) relay fault." --#TYPE "APC UPS: SmartBoost(TM) or SmartTrim(TM) relay fault." --#SUMMARY "SmartBoost(TM) or SmartTrim(TM) relay fault." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 55 smartRelayFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: SmartBoost(TM) or SmartTrim(TM) relay fault has been cleared." --#TYPE "APC UPS: SmartBoost(TM) or SmartTrim(TM) relay fault cleared." --#SUMMARY "SmartBoost(TM) or SmartTrim(TM) relay fault has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 56 humidityThresholdViolation1 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Probe 1 humidity threshold violated. The first variable is the current humidity." --#TYPE "APC Environmental Monitor: Probe 1 humidity threshold violation" --#SUMMARY "A humidity threshold has been violated on probe 1." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 57 humidityThresholdViolationCleared1 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An Environmental Monitor humidity threshold violation has been cleared on probe 1." --#TYPE "APC Environmental Monitor: Probe 1 humidity violation cleared" --#SUMMARY "A humidity threshold violation has been cleared on probe 1." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 58 temperatureThresholdViolation1 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: An Environmental Monitor temperature threshold has been violated on probe 1. The first variable is the current temperature." --#TYPE "APC Environmental Monitor: Probe 1 temperature violation" --#SUMMARY "A temperature threshold has been violated on probe 1." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 59 temperatureThresholdViolationCleared1 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An Environmental Monitor temperature threshold violation has been cleared on probe 1." --#TYPE "APC Environmental Monitor: Probe 1 temperature violation cleared" --#SUMMARY "A temperature threshold violation has been cleared on probe 1." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 60 humidityThresholdViolation2 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: An Environmental Monitor humidity threshold has been violated on probe 2. The first variable is the current humidity." --#TYPE "APC Environmental Monitor: Probe 2 humidity violation" --#SUMMARY "A humidity threshold has been violated on probe 2." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 61 humidityThresholdViolationCleared2 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An Environmental Monitor humidity threshold violation has been cleared on probe 2." --#TYPE "APC Environmental Monitor: Probe 2 humidity violation cleared" --#SUMMARY "A humidity threshold violation has been cleared on probe 2." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 62 temperatureThresholdViolation2 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: An Environmental Monitor temperature threshold has been violated on probe 2. The first variable is the current temperature." --#TYPE "APC Environmental Monitor: Probe 2 temperature violation" --#SUMMARY "A temperature threshold has been violated on probe 2." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 63 temperatureThresholdViolationCleared2 TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An Environmental Monitor temperature threshold violation has been cleared on probe 2." --#TYPE "APC Environmental Monitor: Probe 2 temperature violation cleared" --#SUMMARY "A temperature threshold violation has been cleared on probe 2." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 64 mupsCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Communication with the Environmental Monitor has been established." --#TYPE "APC Environmental Monitor: Communication established" --#SUMMARY "Communication established between the agent and the Environmental Monitor." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 65 mupsCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Communication to the Environmental Monitor has been lost. Steps to reestablish communication are in progress." --#TYPE "APC Environmental Monitor: Communication failure" --#SUMMARY "Communication lost between the agent and the Environmental Monitor." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 66 batteryIncrease TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The number of batteries has increased." --#TYPE "APC UPS: The number of batteries has increased." --#SUMMARY "The number of batteries has increased." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 67 batteryDecrease TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The number of batteries has decreased." --#TYPE "APC UPS: The number of batteries has decreased." --#SUMMARY "The number of batteries has decreased." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 68 powerModuleIncrease TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The number of power modules has increased." --#TYPE "APC UPS: The number of power modules has increased." --#SUMMARY "The number of power modules has increased." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 69 powerModuleDecrease TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The number of power modules has decreased." --#TYPE "APC UPS: The number of power modules has decreased." --#SUMMARY "The number of power modules has decreased." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 70 intelligenceModuleInserted TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An intelligence module has been inserted." --#TYPE "APC UPS: An intelligence module has been inserted." --#SUMMARY "An intelligence module has been inserted." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 71 intelligenceModuleRemoved TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An intelligence module has been removed." --#TYPE "APC UPS: An intelligence module has been removed." --#SUMMARY "An intelligence module has been removed." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 72 rintelligenceModuleInserted TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A redundant intelligence module has been inserted." --#TYPE "APC UPS: A redundant intelligence module has been inserted." --#SUMMARY "A redundant intelligence module has been inserted." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 73 rintelligenceModuleRemoved TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A redundant intelligence module has been removed." --#TYPE "APC UPS: A redundant intelligence module has been removed." --#SUMMARY "A redundant intelligence module has been removed." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 74 extBatteryFrameIncease TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An external battery frame has been added." --#TYPE "APC UPS: An external battery frame has been added." --#SUMMARY "An external battery frame has been added." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 75 extBatteryFrameDecrease TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An external battery frame has been removed." --#TYPE "APC UPS: An external battery frame has been removed." --#SUMMARY "An external battery frame has been removed." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 76 abnormalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: An abnormal condition has been detected. The first variable is the fault condition." --#TYPE "APC: An abnormal condition has been detected." --#SUMMARY "An abnormal condition has been detected." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 77 abnormalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: An abnormal condition has been cleared. The first variable is the fault condition." --#TYPE "APC: An abnormal condition has been cleared." --#SUMMARY "An abnormal condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 78 deviceStatusChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString} DESCRIPTION "INFORMATIONAL: The status of the device being monitored has changed." --#TYPE "APC : The status of the device being monitored has changed." --#SUMMARY "The status of the device being monitored has changed." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 79 noBatteries TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The UPS has no batteries attached." --#TYPE "APC UPS: No batteries attached." --#SUMMARY "The UPS has no batteries attached." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 80 noBatteriesCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The UPS's batteries have been attached." --#TYPE "APC UPS: The no batteries attached condition has been cleared." --#SUMMARY "The UPS's batteries have been attached." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 81 userAdded TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A new user has been added." --#TYPE "APC: A new user has been added." --#SUMMARY "A new user has been added." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 82 userDeleted TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A user has been deleted." --#TYPE "APC: A user has been deleted." --#SUMMARY "A user has been deleted." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 83 userModified TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A user has been modified." --#TYPE "APC: A user has been modified." --#SUMMARY "A user has been modified." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 84 -- MasterSwitch Vm Traps msvmCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Communications with the MasterSwitch VM has been established." --#TYPE "APC: Communications established with the MasterSwitch VM." --#SUMMARY "Communications with the MasterSwitch VM has been established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 85 msvmCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "SEVERE: Communications with the MasterSwitch VM has been lost." --#TYPE "APC: Communications lost with the MasterSwitch VM." --#SUMMARY "Communications with the MasterSwitch VM has been lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 86 msvmOverload TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "SEVERE: The MasterSwitch VM in an overload condition." --#TYPE "APC: The MasterSwitch VM is near or at an overload condition." --#SUMMARY "The MasterSwitch VM is near or at an overload condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 87 msvmOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The overload condition on the MasterSwitch VM has been cleared." --#TYPE "APC: The overload condition cleared on the MasterSwitch VM." --#SUMMARY "The overload condition on the MasterSwitch VM has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 88 msvmOutletOn TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on the MasterSwitch VM has turned on." --#TYPE "APC: An outlet on the MasterSwitch VM has turned on." --#SUMMARY "An outlet on the MasterSwitch VM has turned on." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 89 msvmOutletOff TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on the MasterSwitch VM has turned off." --#TYPE "APC: An outlet on the MasterSwitch VM has turned off." --#SUMMARY "An outlet on the MasterSwitch VM has turned off." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 90 msvmDeviceConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A device configuration change has been made on a MasterSwitch VM." --#TYPE "APC: A device configuration change on a MasterSwitch VM." --#SUMMARY "A device configuration change has been made on a MasterSwitch VM." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 91 msvmOutletConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet configuration change has been made on a MasterSwitch VM." --#TYPE "APC: An outlet configuration change on a MasterSwitch VM." --#SUMMARY "An outlet configuration change has been made on a MasterSwitch VM." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 92 msvmLowLoad TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The MasterSwitch VM has violated the low load threshold." --#TYPE "APC: The MasterSwitch VM has violated the low load threshold." --#SUMMARY "The MasterSwitch VM has violated the low load threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 93 msvmLowLoadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The low load condition on the MasterSwitch VM has been cleared." --#TYPE "APC: The low load condition cleared on the MasterSwitch VM." --#SUMMARY "The low load condition on the MasterSwitch VM has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 94 msvmNearOverload TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "SEVERE: The MasterSwitch VM is approaching an overload condition." --#TYPE "APC: The MasterSwitch VM is near or at an overload condition." --#SUMMARY "The MasterSwitch VM is near or at an overload condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 95 msvmNearOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The near overload condition on the MasterSwitch VM has been cleared." --#TYPE "APC: The overload condition cleared on the MasterSwitch VM." --#SUMMARY "The overload condition on the MasterSwitch VM has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 96 msvmPowerSupplyStatusChange TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: The power supply status of the MasterSwitch VM has changed." --#TYPE "APC: The power supply status changed on MasterSwitch VM" --#SUMMARY "The power supply status of the MasterSwitch VM has changed." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 97 -- MasterSwitch plus (MSP) Traps mspCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Communications with the MasterSwitch plus has been established." --#TYPE "APC: Communications established with the MasterSwitch plus." --#SUMMARY "Communications with the MasterSwitch plus has been established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 98 mspCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString } DESCRIPTION "SEVERE: Communications with the MasterSwitch plus has been lost." --#TYPE "APC: Communications lost with the MasterSwitch plus." --#SUMMARY "Communications with the MasterSwitch plus has been lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 99 mspOutletOn TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on the MasterSwitch plus has turned on." --#TYPE "APC: An outlet on the MasterSwitch plus has turned on." --#SUMMARY "An outlet on the MasterSwitch plus has turned on." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 100 mspOutletOff TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on the MasterSwitch plus has turned off." --#TYPE "APC: An outlet on the MasterSwitch plus has turned off." --#SUMMARY "An outlet on the MasterSwitch plus has turned off." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 101 mspDeviceConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A device configuration change has been made on a MasterSwitch plus." --#TYPE "APC: A device configuration change on a MasterSwitch plus." --#SUMMARY "A device configuration change has been made on a MasterSwitch plus." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 102 mspOutletConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet configuration change has been made on a MasterSwitch plus." --#TYPE "APC: An outlet configuration change on a MasterSwitch plus." --#SUMMARY "An outlet configuration change has been made on a MasterSwitch plus." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 103 rsSourceSwitched TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger02, mtrapargsString03, mtrapargsInteger, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The Redundant Switch has switched source. The first variable is an integer representing the current source: 0=A, 1=B. The second variable is the 32-character name of the current source. The third variable is an integer representing the transfer cause: 0=No Transfers Recorded, 1=Due to user action or preferred switching, 3=Due to line notch or spike, 5=Due to low line voltage, 7=Transfer due to high line voltage, 9=Transfer due to frequency out of range. The fourth variable is a character string listing the transfer cause." --#TYPE "APC Redundant Switch: The Redundant Switch has switched source" --#SUMMARY "The Redundant Switch has switched source." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 104 rsLostRedundancy TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: The Redundant Switch has lost redundancy. The first variable is an integer representing the source which is no longer available: 0=A, 1=B. The second variable is the 32-character name of the source which is no longer available." --#TYPE "APC Redundant Switch: The Redundant Switch has lost redundancy" --#SUMMARY "The Redundant Switch has lost redundancy." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 105 rsRedundancyRestored TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Redundancy has been restored to the Redundant Switch . The first variable is an integer representing the source which has been restored: 0=A, 1=B. The second variable is the 32-character name of the source which has been restored." --#TYPE "APC Redundant Switch: Redundancy has been restored." --#SUMMARY "Redundancy has been restored to the Redundant Switch ." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 106 rsConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A configuration change has been made on a Redundant Switch." --#TYPE "APC: A configuration change on a Redundant Switch." --#SUMMARY "A configuration change has been made on a Redundant Switch." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 107 rsCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Communications with the Redundant Switch has been established." --#TYPE "APC: Communications established with the Redundant Switch." --#SUMMARY "Communications with the Redundant Switch has been established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 108 rsCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Communications with the Redundant Switch has been lost." --#TYPE "APC: Communications lost with the Redundant Switch." --#SUMMARY "Communications with the Redundant Switch has been lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 109 dcCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Communications with the DC power plant has been established." --#TYPE "APC: Communications established with the DC power plant." --#SUMMARY "Communications with the DC power plant has been established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 110 dcCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Communications with the DC power plant has been lost." --#TYPE "APC: Communications lost with the DC power plant." --#SUMMARY "Communications with the DC power plant has been lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 111 dcPINChanged TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The active PIN on the DC controller has been changed." --#TYPE "APC: The active PIN on the DC controller has been changed." --#SUMMARY "The active PIN on the DC controller has been changed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 112 dcMajorAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: A Major alarm is active in the DC power plant." --#TYPE "APC: A Major alarm is active in the DC power plant." --#SUMMARY "A Major alarm is active in the DC power plant." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 113 dcMajorAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Major alarm is no longer active in the DC power plant." --#TYPE "APC: A Major alarm is no longer active in the DC power plant." --#SUMMARY "A Major alarm is no longer active in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 114 dcMinorAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Minor alarm is active in the DC power plant." --#TYPE "APC: A Minor alarm is active in the DC power plant." --#SUMMARY "A Minor alarm is active in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 115 dcMinorAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Minor alarm is no longer active in the DC power plant." --#TYPE "APC: A Minor alarm is no longer active in the DC power plant." --#SUMMARY "A Minor alarm is no longer active in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 116 dcOutputRelayOn TRAP-TYPE ENTERPRISE apc VARIABLES { dm3StatusOutRlyIndex, dm3StatusOutRlyName, mtrapargsString } DESCRIPTION "WARNING: An output relay for the powerplant has been activated (state changed to on). The first variable is an integer representing the output relay number that has gone on. The second variable is the 16-character name of the output relay." --#TYPE "APC: An output relay has gone on." --#SUMMARY "An output relay has gone on in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 117 dcOutputRelayOff TRAP-TYPE ENTERPRISE apc VARIABLES { dm3StatusOutRlyIndex, dm3StatusOutRlyName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An output relay for the powerplant has been deactivated (state changed to off). The first variable is an integer representing the output relay number that has gone off. The second variable is the 16-character name of the output relay." --#TYPE "APC: An output relay has gone off." --#SUMMARY "An output relay has gone off in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 118 dcInputRelayOn TRAP-TYPE ENTERPRISE apc VARIABLES { dm3StatusInRlyIndex, dm3StatusInRlyName, mtrapargsString } DESCRIPTION "WARNING: An input relay for the powerplant has been activated (state changed to on). The first variable is an integer representing the input relay number that has gone on. The second variable is the 16-character name of the input relay." --#TYPE "APC: An input relay has gone on." --#SUMMARY "An input relay has gone on in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 119 dcInputRelayOff TRAP-TYPE ENTERPRISE apc VARIABLES { dm3StatusInRlyIndex, dm3StatusInRlyName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An input relay for the powerplant has been deactivated (state changed to off). The first variable is an integer representing the input relay number that has gone off. The second variable is the 16-character name of the input relay." --#TYPE "APC: An input relay has gone off." --#SUMMARY "An input relay has gone off in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 120 logicPowerSuppliesIncreased TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The number of system power supplies has increased." --#TYPE "APC UPS: The number of system power supplies has increased." --#SUMMARY "The number of system power supplies has increased." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 121 logicPowerSuppliesDecreased TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The number of system power supplies has decreased." --#TYPE "APC UPS: The number of system power supplies has decreased." --#SUMMARY "The number of system power supplies has decreased." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 122 externalSwitchGearClosed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: External Switch Gear closed." --#TYPE "APC UPS: External Switch Gear closed." --#SUMMARY "External Switch Gear closed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 123 externalSwitchGearOpened TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: External Switch Gear opened." --#TYPE "APC UPS: External Switch Gear opened." --#SUMMARY "External Switch Gear opened." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 124 generalDeviceEvent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: APC Device event." --#TYPE "APC Device event" --#SUMMARY "APC Device event." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 125 atsSourceSwitched TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The Automatic Transfer Switch has switched source. The first variable is an integer representing the current source: 0=A, 1=B. The second variable is the 32-character name of the current source." --#TYPE "APC Automatic Transfer Switch: The ATS has switched source" --#SUMMARY "The Automatic Transfer Switch has switched source." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 126 atsLostRedundancy TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: The Automatic Transfer Switch has lost redundancy. The first variable is an integer representing the source which is no longer available: 0=A, 1=B. The second variable is the 32-character name of the source which is no longer available." --#TYPE "APC Automatic Transfer Switch: The ATS has lost redundancy. " --#SUMMARY "The Automatic Transfer Switch has lost redundancy." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 127 atsRedundancyRestored TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Redundancy has been restored to the Automatic Transfer Switch . The first variable is an integer representing the source which has been restored: 0=A, 1=B. The second variable is the 32-character name of the source which has been restored." --#TYPE "APC Automatic Transfer Switch: Redundancy has been restored." --#SUMMARY "Redundancy has been restored to the Automatic Transfer Switch ." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 128 atsConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A configuration change has been made on the Automatic Transfer Switch. The first variable is an integer representing the configuration setting which changed: 0=Transfer Voltage Range, 1=Sensitivity, 2=Preferred Source 3=Front Panel Lockout, 4=Current Limit, 5=Reset XA Processor, 6=Reset to defaults, 7=Product Name, 8=Nominal Voltage, 9=Nominal Line Frequency, 10=Narrow VRMS, 11=Medium VRMS, 12=Wide VRMS,13=Frequency Deviation, 14=ColdStart ATS, 15=Events Count Cleared, 16=Phase or Bank Threshold. " --#TYPE "APC Automatic Transfer Switch: ATS configuration changed." --#SUMMARY "A configuration change has been made on a Automatic Transfer Switch." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 129 atsCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Communications with the Automatic Transfer Switch has been established." --#TYPE "APC Automatic Transfer Switch: Communications established." --#SUMMARY "Communications with the Automatic Transfer Switch has been established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 130 atsCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Communications with the Automatic Transfer Switch has been lost." --#TYPE "APC Automatic Transfer Switch: Communications lost." --#SUMMARY "Communications with the Automatic Transfer Switch has been lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 131 atsOverCurrent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Output Current has exceeded threshold. This is same as atsOverload Trap for phase or total in case banked units" --#TYPE "APC Automatic Transfer Switch: Output Current exceeded threshold" --#SUMMARY "Output Current has exceeded Threshold. " --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 132 atsOverCurrentCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Output Current has returned below threshold.This is same as atsOverloadCleared Trap for phase or total in case banked units" --#TYPE "APC Automatic Transfer Switch: Output Current below threshold." --#SUMMARY "Output Current has returned below threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 133 atsPowerSupplyFailure TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The Automatic Transfer Switch Power Supply has failed. The first variable is an integer representing the Power Supply which has failed: 0 = Source A 24V, 1 = 12V, 2 = 5V, 3 = Source B 24V." --#TYPE "APC Automatic Transfer Switch: The ATS Power Supply has failed." --#SUMMARY "The Automatic Transfer Switch Power Supply has failed." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 134 atsPowerSupplyFailureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The Automatic Transfer Power Supply Failure Cleared. The first variable is an integer representing the Power Supply which has cleared: 0 = Source A 24V, 1 = 12V, 2 = 5V, 3 = Source B 24V." --#TYPE "APC Automatic Transfer Switch: Power Supply Failure Cleared." --#SUMMARY "The Automatic Transfer Switch Power Supply Failure Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 135 dcMainsFailAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Mains Fail alarm is active in the DC power plant." --#TYPE "APC: A Mains Fail alarm is active in the DC power plant." --#SUMMARY "A Mains Fail alarm is active in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 136 dcMainsFailAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Mains Fail alarm is no longer active in the DC power plant." --#TYPE "APC: Mains Fail alarm is no longer active in the DC power plant." --#SUMMARY "Mains Fail alarm is no longer active in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 137 dcFanFailAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Fan Fail alarm is active in the DC power plant." --#TYPE "APC: A Fan Fail alarm is active in the DC power plant." --#SUMMARY "A Fan Fail alarm is active in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 138 dcFanFailAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Fan Fail alarm is no longer active in the DC power plant." --#TYPE "APC: A Fan Fail alarm is no longer active in the DC power plant." --#SUMMARY "A Fan Fail alarm is no longer active in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 139 dcRectifierOvertempAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: Rect. Overtemp alarm is active in the power plant." --#TYPE "APC: Rect. Overtemp alarm is active in the power plant." --#SUMMARY "Rect. Overtemp alarm is active in the power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 140 dcRectifierOvertempAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Rect. Overtemp alarm is no longer active in the power plant." --#TYPE "APC: Rect. Overtmp alarm is no longer active in the power plant." --#SUMMARY "Rect. Overtemp alarm is no longer active in the power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 141 dcCurrentLimitAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Current Limit alarm is active in the power plant." --#TYPE "APC: A Current Limit alarm is active in the power plant." --#SUMMARY "A Current Limit alarm is active in the power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 142 dcCurrentLimitAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Current Limit alarm is no longer active in the power plant." --#TYPE "APC: Current Limit alarm is no longer active in the power plant." --#SUMMARY "Current Limit alarm is no longer active in the power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 143 dcRectifierFailAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Rect. Fail alarm is active in the power plant." --#TYPE "APC: A Rect. Fail alarm is active in the power plant." --#SUMMARY "A Rect. Fail alarm is active in the power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 144 dcRectifierFailAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Rect. Fail alarm is no longer active in the power plant." --#TYPE "APC: Rect. Fail alarm is no longer active in the power plant." --#SUMMARY "Rect. Fail alarm is no longer active in the power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 145 dcMultRectFailAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: Multiple Rect. Fail alarm is active in the powerplant." --#TYPE "APC: Multiple Rect. Fail alarm is active in the powerplant." --#SUMMARY "Multiple Rect. Fail alarm is active in the powerplant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 146 dcMultRectFailAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Multiple Rect Fail alarm is no longer active in the powerplant." --#TYPE "APC: Multiple Rect Fail alarm is no longer active in powerplant." --#SUMMARY "Multiple Rect Fail alarm is no longer active in the powerplant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 147 dcBatteryBreakerAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: Batt. Breaker alarm is active in the power plant." --#TYPE "APC: Batt. Breaker alarm is active in the power plant." --#SUMMARY "Batt. Breaker alarm is active in the power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 148 dcBatteryBreakerAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Batt. Breaker alarm is no longer active in the power plant." --#TYPE "APC: Batt. Breaker alarm is no longer active in the power plant." --#SUMMARY "Batt. Breaker alarm is no longer active in the power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 149 dcRectifierOVPAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Rect. OVP alarm is active in the power plant." --#TYPE "APC: A Rect. OVP alarm is active in the power plant." --#SUMMARY "A Rect. OVP alarm is active in the power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 150 dcRectifierOVPAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Rect. OVP alarm is no longer active in the power plant." --#TYPE "APC: A Rect. OVP alarm is no longer active in the power plant." --#SUMMARY "A Rect. OVP alarm is no longer active in the power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 151 dcLVDImminentAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A LVD Imminent alarm is active in the powerplant." --#TYPE "APC: A LVD Imminent alarm is active in the powerplant." --#SUMMARY "A LVD Imminent alarm is active in the powerplant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 152 dcLVDImminentAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A LVD Imminent alarm is no longer active in the powerplant." --#TYPE "APC: A LVD Imminent alarm is no longer active in the powerplant." --#SUMMARY "A LVD Imminent alarm is no longer active in the powerplant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 153 dcFuseCBAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Fuse/CB alarm is active in the DC power plant." --#TYPE "APC: A Fuse/CB alarm is active in the DC power plant." --#SUMMARY "A Fuse/CB alarm is active in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 154 dcFuseCBAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Fuse/CB alarm is no longer active in the DC power plant." --#TYPE "APC: A Fuse/CB alarm is no longer active in the DC power plant." --#SUMMARY "A Fuse/CB alarm is no longer active in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 155 dcBatteryTestFail TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Battery Test failed in the DC power plant." --#TYPE "APC: A Battery Test failed in the DC power plant." --#SUMMARY "A Battery Test failed in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 156 dcTemperatureAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Temperature is active in the power plant." --#TYPE "APC: A Temperature alarm is active in the power plant." --#SUMMARY "A Temperature alarm is active in the power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 157 dcTemperatureAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Temperature alarm is no longer active in the power plant." --#TYPE "APC: A Temperature alarm is no longer active in the power plant." --#SUMMARY "A Temperature alarm is no longer active in the power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 158 dcHumidityAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A Humidity alarm is active in the DC power plant." --#TYPE "APC: A Humidity alarm is active in the DC power plant." --#SUMMARY "A Humidity alarm is active in the DC power plant." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 159 dcHumidityAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A Humidity alarm is no longer active in the DC power plant." --#TYPE "APC: A Humidity alarm is no longer active in the DC power plant." --#SUMMARY "A Humidity alarm is no longer active in the DC power plant." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 160 dcBBCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Power plant bridging board communications established." --#TYPE "APC: Power plant bridging board communications established." --#SUMMARY "Power plant bridging board communications established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 161 dcBBCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Power plant bridging board communications lost." --#TYPE "APC: Power plant bridging board communications lost." --#SUMMARY "Power plant bridging board communications lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 162 iemHighTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeCurrentTemp, iemStatusProbeTempUnits, iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: High temperature threshold violated on Integrated Environmental Monitor probe. The first variable is the current temperature. The second variable is the temperature scale. The third variable is the probe number. The fourth variable is the probe name." --#TYPE "APC IEM: High temperature threshold violation." --#SUMMARY "High temperature threshold violation." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 163 iemHighTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: High temperature threshold violated on Integrated Environmental Monitor probe has been cleared. The first variable is the probe number. The second variable is the probe name." --#TYPE "APC IEM: High temperature threshold violation cleared." --#SUMMARY "High temperature threshold violation has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 164 iemLowTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeCurrentTemp, iemStatusProbeTempUnits, iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Low temperature threshold violated on integrated probe. The first variable is the current temperature. The second variable is the temperature scale. The third variable is the probe number. The fourth variable is the probe name." --#TYPE "APC IEM: Low temperature threshold violation." --#SUMMARY "Low temperature threshold violation." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 165 iemLowTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low temperature threshold violated on integrated probe has been cleared. The first variable is the probe number. The second variable is the probe name." --#TYPE "APC IEM: Low temperature threshold violation cleared." --#SUMMARY "Low temperature threshold violation has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 166 iemHighHumidThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeCurrentHumid, iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: High humidity threshold violated on integrated probe. The first variable is the current humidity. The second variable is the probe number. The third variable is the probe name." --#TYPE "APC IEM: High humidity threshold violation." --#SUMMARY "High humidity threshold violation." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 167 iemHighHumidThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: High humidity threshold violated on integrated probe cleared. The first variable is the probe number. The second variable is the probe name." --#TYPE "APC IEM: High humidity threshold violation cleared." --#SUMMARY "High humidity threshold violation has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 168 iemLowHumidThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeCurrentHumid, iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Low humidity threshold violated on integrated probe. The first variable is the current humidity. The second variable is the probe number. The third variable is the probe name." --#TYPE "APC IEM: Low humidity threshold violation." --#SUMMARY "Low humidity threshold violation." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 169 iemLowHumidThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low humidity threshold violated on integrated probe cleared. The first variable is the probe number. The second variable is the probe name." --#TYPE "APC IEM: Low humidity threshold violation cleared." --#SUMMARY "Low humidity threshold violation has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 170 iemProbeDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The temperature/humidity probe on the Integrated Environmental Monitor has been disconnected. This trap is generated when a probe that has been in communication with the Environmental Monitor has been disconnected or can no longer communicate." --#TYPE "APC IEM: Probe disconnected." --#SUMMARY "Probe has been disconnected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 171 iemProbeConnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The temperature/humidity probe on the Integrated Environmental Monitor has been connected. This trap is generated when the Environmental Monitor establishes communication with a probe that had previously not been connected." --#TYPE "APC IEM: Probe Connected." --#SUMMARY "Probe has been connected." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 172 iemContactFault TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusContactNumber, iemStatusContactName, mtrapargsString } DESCRIPTION "SEVERE: There is a contact fault on the Integrated Environmental Monitor. The first argument is the number of the contact. The second argument is the name of the contact." --#TYPE "APC IEM: Contact fault." --#SUMMARY "Contact fault." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 173 iemContactFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusContactNumber, iemStatusContactName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The contact fault on the Integrated Environmental Monitor has been cleared. The first argument is the number of the contact. The second argument is the name of the contact." --#TYPE "APC IEM: Contact fault." --#SUMMARY "Contact fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 174 iemRelayFault TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusRelayNumber, iemStatusRelayName, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: The output relay on the Integrated Environmental Monitor has switched to the fault state. The first argument is the number of the output relay. The second argument is the name of the output relay. The third argument is the event that caused the fault." --#TYPE "APC IEM: Output relay fault." --#SUMMARY "Output relay has faulted." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 175 iemRelayFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { iemStatusRelayNumber, iemStatusRelayName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The fault condition on the output relay on the Integrated Environmental Monitor has cleared. The first argument is the number of the output relay. The second argument is the name of the output relay." --#TYPE "APC IEM: Output relay fault condition cleared." --#SUMMARY "Output relay fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 176 bmBatManCommEstab TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Serial Communications Established with Battery Manager." --#TYPE "BatMan : Communications Established." --#SUMMARY "Communications Established." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 177 bmBatManCommLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Serial Communications Lost with Battery Manager." --#TYPE "BatMan : Communications Lost." --#SUMMARY "Communications Lost." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 178 bmBatManKneeAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Battery Voltage Knee Threshold Alarm Detected." --#TYPE "BatMan : Knee Alarm Detected." --#SUMMARY "Knee Alarm Detected." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 179 bmBatManKneeAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Battery Voltage Knee Threshold Alarm Cleared." --#TYPE "BatMan : Knee Alarm Cleared." --#SUMMARY "Knee Alarm Cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 180 bmBatManChargerAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Charger Alarm Detected." --#TYPE "BatMan : Charger Alarm Detected." --#SUMMARY "Charger Alarm Detected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 181 bmBatManChargerAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Charger Alarm Cleared." --#TYPE "BatMan : Charger Alarm Cleared." --#SUMMARY "Charger Alarm Cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 182 bmBatManBatteryAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Battery Alarm Detected." --#TYPE "BatMan : Battery Alarm Detected." --#SUMMARY "Battery Alarm Detected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 183 bmBatManBatteryAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Battery Alarm Cleared." --#TYPE "BatMan : Battery Alarm Cleared." --#SUMMARY "Battery Alarm Cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 184 bmBatManEnvironmentAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Environment Alarm Detected." --#TYPE "BatMan : Environment Alarm Detected." --#SUMMARY "Environment Alarm Detected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 185 bmBatManEnvironmentAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Environment Alarm Cleared." --#TYPE "BatMan : Environment Alarm Cleared." --#SUMMARY "Environment Alarm Cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 186 bmBatManMaintenanceAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Maintenance Alarm Detected." --#TYPE "BatMan : Maintenance Due Alarm Detected." --#SUMMARY "Maintenance Due Alarm Detected." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 187 bmBatManMaintenanceAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Maintenance Alarm Cleared." --#TYPE "BatMan : Maintenance Due Alarm Cleared." --#SUMMARY "Maintenance Due Alarm Cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 188 pduCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Communication Established. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Communication Established." --#SUMMARY "Communication Established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 189 pduCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: Communication Lost. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Communication Lost." --#SUMMARY "Communication Lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 190 pduUtilityLineUndervoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Utility Line Undervoltage. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Utility Line Undervoltage." --#SUMMARY "Utility Line Undervoltage." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 191 pduUtilityLineUndervoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Utility Line Undervoltage Cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Utility Line Undervoltage Cleared." --#SUMMARY "Utility Line Undervoltage Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 192 pduUtilityLineOvervoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Utility Line Overvoltage. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Utility Line Overvoltage." --#SUMMARY "Utility Line Overvoltage." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 193 pduUtilityLineOvervoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Utility Line Overvoltage Cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Utility Line Overvoltage Cleared." --#SUMMARY "Utility Line Overvoltage Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 194 pduGroundOvercurrent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: Ground Overcurrent. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Ground Overcurrent." --#SUMMARY "Ground Overcurrent." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 195 pduGroundOvercurrentCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Ground Overcurrent Cleared. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Ground Overcurrent Cleared." --#SUMMARY "Ground Overcurrent Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 196 pduCircuitPanelInputUndervoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Circuit Panel Input Undervoltage. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Undervoltage." --#SUMMARY "Circuit Panel Input Undervoltage." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 197 pduCircuitPanelInputUndervoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Circuit Panel Input Undervoltage Cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Undervoltage Cleared." --#SUMMARY "Circuit Panel Input Undervoltage Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 198 pduCircuitPanelInputOvervoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Circuit Panel Input Overvoltage. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Overvoltage." --#SUMMARY "Circuit Panel Input Overvoltage." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 199 pduCircuitPanelInputOvervoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Circuit Panel Input Overvoltage Cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Overvoltage Cleared." --#SUMMARY "Circuit Panel Input Overvoltage Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 200 pduCircuitPanelInputUndercurrent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Circuit Panel Input Undercurrent. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Undercurrent." --#SUMMARY "Circuit Panel Input Undercurrent." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 201 pduCircuitPanelInputUndercurrentCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Circuit Panel Input Undercurrent Cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Undercurrent Cleared." --#SUMMARY "Circuit Panel Input Undercurrent Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 202 pduCircuitPanelInputOvercurrent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Circuit Panel Input Overcurrent. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Overcurrent." --#SUMMARY "Circuit Panel Input Overcurrent." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 203 pduCircuitPanelInputOvercurrentCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Circuit Panel Input Overcurrent Cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: Circuit Panel Input Overcurrent Cleared." --#SUMMARY "Circuit Panel Input Overcurrent Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 204 pduCircuitPanelFrequencyOutOfRange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: Circuit Panel Input Frequency Out Of Range. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Circuit Panel Input Frequency Out Of Range." --#SUMMARY "Circuit Panel Input Frequency Out Of Range." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 205 pduCircuitPanelFrequencyOutofRangeCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Circuit Panel Input Frequency No Longer Out Of Range. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Circuit Panel Input Frequency No Longer Out Of Range." --#SUMMARY "Circuit Panel Input Frequency No Longer Out Of Range." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 206 pduCircuitPanelNeutralOvercurrent TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: Circuit Panel Input Neutral Overcurrent. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Circuit Panel Input Neutral Overcurrent." --#SUMMARY "Circuit Panel Input Neutral Overcurrent." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 207 pduCircuitPanelNeutralOvercurrentCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Circuit Panel Input Neutral Overcurrent Cleared. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Circuit Panel Input Neutral Overcurrent Cleared." --#SUMMARY "Circuit Panel Input Neutral Overcurrent Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 208 pduSystemOff TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: PDU System Off. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: System Off." --#SUMMARY "PDU System Off." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 209 pduOnBatteryMode TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: PDU is in On Battery Mode. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: On Battery Mode." --#SUMMARY "PDU is in On Battery Mode." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 210 pduMaintenanceBypassMode TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: PDU is in Maintenance Bypass Mode. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Maintenance Bypass Mode." --#SUMMARY "PDU is in Maintenance Bypass Mode." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 211 pduAtypicalBypassMode TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "WARNING: PDU is in Atypical Bypass Mode. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Atypical Bypass Mode." --#SUMMARY "PDU is in Atypical Bypass Mode." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 212 pduNoPanelFeedMode TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: PDU is in No Panel Feed Mode. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: No Panel Feed Mode." --#SUMMARY "PDU is in No Panel Feed Mode." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 213 pduUpsOperationMode TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: PDU is in Ups Operation Mode. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Ups Operation Mode." --#SUMMARY "PDU is in Ups Operation Mode." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 214 pduForcedBypassMode TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "WARNING: PDU is in Forced Bypass Mode. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Forced Bypass Mode." --#SUMMARY "PDU is in Forced Bypass Mode." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 215 pduInputTransformerOverTemperature TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: Input Transformer Over Temperature. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Input Transformer Over Temperature." --#SUMMARY "Input Transformer Over Temperature." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 216 pduInputTransformerOverTemperatureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Input Transformer Over Temperature Cleared. The first argument is the serial number. The second argument is the device name." --#TYPE "APC PDU: Input Transformer Over Temperature Cleared." --#SUMMARY "Input Transformer Over Temperature Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 217 pduUPSInputVoltageLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: UPS Input Voltage phase-N Lost. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: UPS Input Voltage phase-N Lost." --#SUMMARY "UPS Input Voltage phase-N Lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 218 pduUPSInputVoltageRestored TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: UPS Input Voltage phase-N Restored. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC PDU: UPS Input Voltage phase-N Restored." --#SUMMARY "UPS Input Voltage phase-N Restored." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 219 pduContactFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: A contact closure in the PDU is in an abnormal position. The first argument is the serial number. The second argument is the device name. The third argument is the number of the contact." --#TYPE "APC PDU: Contact Abnormal." --#SUMMARY "Contact Abnormal." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 220 pduContactFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A contact closure in the PDU is in a normal position. The first argument is the serial number. The second argument is the device name. The third argument is the number of the contact." --#TYPE "APC PDU: Contact Normal." --#SUMMARY "Contact Normal." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 221 rPDUBankPhaseLowLoad TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusBankNumber, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "WARNING: A bank or phase on the Rack PDU has violated the low load threshold. The first argument is the serial number. The second argument is the device name. The third argument is the bank number (0 if this is phase data). The fourth argument is the phase number (0 if this is bank data)." --#TYPE "APC Rack PDU: Violation of bank or phase low load threshold." --#SUMMARY "A bank or phase on the Rack PDU has violated the low load threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 222 rPDUBankPhaseLowLoadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusBankNumber, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "INFORMATIONAL: The bank or phase low load condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the bank number (0 if this is phase data). The fourth argument is the phase number (0 if this is bank data)." --#TYPE "APC Rack PDU: Bank or phase low load condition cleared." --#SUMMARY "The bank or phase low load condition on a Rack PDU has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 223 rPDUBankPhaseNearOverload TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusBankNumber, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "WARNING: A bank or phase of the Rack PDU is near an overload condition. The first argument is the serial number. The second argument is the device name. The third argument is the bank number (0 if this is phase data). The fourth argument is the phase number (0 if this is bank data)." --#TYPE "APC Rack PDU: Bank or phase near an overload condition." --#SUMMARY "A bank or phase of the Rack PDU is near an overload condition." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 224 rPDUBankPhaseNearOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusBankNumber, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "INFORMATIONAL: The bank or phase near overload condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the bank number (0 if this is phase data). The fourth argument is the phase number (0 if this is bank data)." --#TYPE "APC Rack PDU: Bank or phase near overload condition has cleared." --#SUMMARY "Rack PDU bank or phase near overload condition has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 225 rPDUBankPhaseOverload TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusBankNumber, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "SEVERE: A bank or phase of the Rack PDU is in an overload condition. The first argument is the serial number. The second argument is the device name. The third argument is the phase number. The third argument is the bank number (0 if this is phase data). The fourth argument is the phase number (0 if this is bank data)." --#TYPE "APC Rack PDU: Bank or phase overload condition." --#SUMMARY "A bank or phase of the Rack PDU is in an overload condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 226 rPDUBankPhaseOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusBankNumber, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "INFORMATIONAL: The bank or phase overload condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the bank number (0 if this is phase data). The fourth argument is the phase number (0 if this is bank data)." --#TYPE "APC Rack PDU: Bank or phase overload condition has cleared." --#SUMMARY "The bank or phase overload condition on a Rack PDU has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 227 aruDeviceConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Remote ARU Device Configuration change. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: ARU Device configuration change." --#SUMMARY "ARU device configuration change." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 228 rmPDUCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString03, mtrapargsString02, mtrapargsString } DESCRIPTION "SEVERE: Communication Lost. The first argument is the serial number. The second argument is the device name." --#TYPE "APC RM PDU: Communication Lost." --#SUMMARY "Communication Lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 229 emsCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Communication Established. The first argument is the serial number. The second argument is the device name." --#TYPE "APC EMS: Communication Established." --#SUMMARY "Communication Established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 230 emsCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "SEVERE: Communication Lost. The first argument is the serial number. The second argument is the device name." --#TYPE "APC EMS: Communication Lost." --#SUMMARY "Communication Lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 231 emsProbeConnected TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A probe has been connected to the EMS. The first argument is the host device serial number. The second argument is the host device name. The third argument is the probe number. The fourth argument is the probe name." --#TYPE "APC EMS: Probe Connected." --#SUMMARY "Probe Connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 232 emsProbeDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: A probe has been disconnected from the EMS. The first argument is the host device serial number. The second argument is the host device name. The third argument is the probe number. The fourth argument is the probe name." --#TYPE "APC EMS: Probe Disconnected." --#SUMMARY "Probe Disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 233 emsSensorConnected TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsSensorStatusSensorIndex, emsSensorStatusSensorName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A sensor has been connected to the EMS. The first argument is the host device serial number. The second argument is the host device name. The third argument is the sensor number. The fourth argument is the sensor name." --#TYPE "APC EMS: Sensor Connected." --#SUMMARY "Sensor Connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 234 emsSensorDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsSensorStatusSensorIndex, emsSensorStatusSensorName, mtrapargsString } DESCRIPTION "SEVERE: A sensor has been disconnected from the EMS. The first argument is the host device serial number. The second argument is the host device name. The third argument is the sensor number. The fourth argument is the sensor name." --#TYPE "APC EMS: Sensor Disconnected." --#SUMMARY "Sensor Disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 235 emsSensorFault TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsSensorStatusSensorIndex, emsSensorStatusSensorName, mtrapargsString } DESCRIPTION "SEVERE: A EMS sensor is in the fault condition. The first argument is the host device serial number. The second argument is the host device name. The third argument is the sensor number. The fourth argument is the sensor name." --#TYPE "APC EMS: Sensor Fault." --#SUMMARY "Sensor Fault." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 236 emsSensorFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsSensorStatusSensorIndex, emsSensorStatusSensorName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A EMS sensor fault condition has cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the sensor number. The fourth argument is the sensor name." --#TYPE "APC EMS: Sensor Fault Cleared." --#SUMMARY "Sensor Fault Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 237 emsBeaconConnected TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A beacon has been connected to the EMS. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC EMS: Beacon Connected." --#SUMMARY "Beacon Connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 238 emsBeaconDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "SEVERE: A beacon has been disconnected from the EMS. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC EMS: Beacon Disconnected." --#SUMMARY "Beacon Disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 239 emsBeaconOn TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A EMS beacon has gone on. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC EMS: Beacon On." --#SUMMARY "Beacon On." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 240 emsBeaconOff TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A EMS beacon has gone off. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC EMS: Beacon Off." --#SUMMARY "Beacon Off." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 241 emsMajorAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "SEVERE: A Major Alarm is present in the EMS. The first argument is the EMS serial number. The second argument is the EMS name." --#TYPE "APC EMS: Major Alarm." --#SUMMARY "Major Alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 242 emsMajorAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Major Alarm condition has been cleared in the EMS. The first argument is the EMS serial number. The second argument is the EMS name." --#TYPE "APC EMS: Major Alarm Cleared." --#SUMMARY "Major Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 243 emsMinorAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "SEVERE: A Minor Alarm is present in the EMS. The first argument is the EMS serial number. The second argument is the EMS name." --#TYPE "APC EMS: Minor Alarm." --#SUMMARY "Minor Alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 244 emsMinorAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Minor Alarm condition has been cleared in the EMS. The first argument is the EMS serial number. The second argument is the EMS name." --#TYPE "APC EMS: Minor Alarm Cleared." --#SUMMARY "Minor Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 245 emsOutletStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsOutletStatusOutletIndex, emsOutletStatusOutletName, emsOutletStatusOutletState, emsOutletStatusOutletNormalState, mtrapargsString } DESCRIPTION "WARNING: An outlet on the EMS has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the outlet number. The fourth argument is the outlet name. The fifth argument is the current outlet state (1=ON, 2=OFF). The sixth argument is the configured normal outlet state (1=ON, 2=OFF)." --#TYPE "APC EMS: Outlet has changed to its abnormal state." --#SUMMARY "Outlet has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 246 emsOutletStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsOutletStatusOutletIndex, emsOutletStatusOutletName, emsOutletStatusOutletState, emsOutletStatusOutletNormalState, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on the EMS has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the outlet number. The fourth argument is the outlet name. The fifth argument is the current outlet state (1=ON, 2=OFF). The sixth argument is the configured normal outlet state (1=ON, 2=OFF)." --#TYPE "APC EMS: Outlet has changed to its normal state." --#SUMMARY "Outlet has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 247 emsInputContactStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsInputContactStatusInputContactIndex, emsInputContactStatusInputContactName, emsInputContactStatusInputContactState, emsInputContactStatusInputContactNormalState, mtrapargsString } DESCRIPTION "WARNING: An input contact on the EMS has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the input contact number. The fourth argument is the input contact name. The fifth argument is the input contact state (1=CLOSED, 2=OPEN). The sixth argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC EMS: Input contact has changed to its abnormal state." --#SUMMARY "Input contact has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 248 emsInputContactStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsInputContactStatusInputContactIndex, emsInputContactStatusInputContactName, emsInputContactStatusInputContactState, emsInputContactStatusInputContactNormalState, mtrapargsString } DESCRIPTION "INFORMATIONAL: An input contact on the EMS has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the input contact number. The fourth argument is the input contact name. The fifth argument is the input contact state (1=CLOSED, 2=OPEN). The sixth argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC EMS: Input contact has changed to its normal state." --#SUMMARY "Input contact has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 249 emsOutputRelayStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsOutputRelayStatusOutputRelayIndex, emsOutputRelayStatusOutputRelayName, emsOutputRelayStatusOutputRelayState, emsOutputRelayStatusOutputRelayNormalState, mtrapargsString } DESCRIPTION "WARNING: An output relay on the EMS has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the output relay number. The fourth argument is the output relay name. The fifth argument is the current output relay state (1=CLOSED, 2=OPEN). The sixth argument is the configured normal output relay state (1=CLOSED, 2=OPEN)." --#TYPE "APC EMS: Output Relay has changed to its abnormal state." --#SUMMARY "Output Relay has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 250 emsOutputRelayStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsOutputRelayStatusOutputRelayIndex, emsOutputRelayStatusOutputRelayName, emsOutputRelayStatusOutputRelayState, emsOutputRelayStatusOutputRelayNormalState, mtrapargsString } DESCRIPTION "INFORMATIONAL: An output relay on the EMS has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the output relay number. The fourth argument is the output relay name. The fifth argument is the current output relay state (1=CLOSED, 2=OPEN). The sixth argument is the configured normal output relay state (1=CLOSED, 2=OPEN)." --#TYPE "APC EMS: Output Relay has changed to its normal state." --#SUMMARY "Output Relay has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 251 emsDeviceConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A device configuration change has been made on the EMS. The first argument is the EMS serial number. The second argument is the EMS name." --#TYPE "APC: A device configuration change on a EMS." --#SUMMARY "A device configuration change has been made on a EMS." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 252 envHighTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: High temperature threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: High temperature threshold violation." --#SUMMARY "High temperature threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 253 envHighTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: High temperature threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: High temperature threshold violation cleared." --#SUMMARY "High temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 254 envLowTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Low temperature threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Low temperature threshold violation." --#SUMMARY "Low temperature threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 255 envLowTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low temperature threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Low temperature threshold violation cleared." --#SUMMARY "Low temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 256 envHighHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: High humidity threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: High humidity threshold violation." --#SUMMARY "High humidity threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 257 envHighHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: High humidity threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity. The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: High humidity threshold violation cleared." --#SUMMARY "High humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 258 envLowHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Low humidity threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: Low humidity threshold violation." --#SUMMARY "Low humidity threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 259 envLowHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low humidity threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity. The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: Low humidity threshold violation cleared." --#SUMMARY "Low humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 260 -- Switched and Metered Rack PDU Traps rPDUCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Communication with a Rack PDU has been established. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Communication established." --#SUMMARY "Communication with a Rack PDU established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 266 rPDUCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "SEVERE: Communication with a Rack PDU has been lost. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Communication lost." --#SUMMARY "Communication with a Rack PDU has been lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 267 rPDUOutletOn TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletControlIndex, rPDUOutletControlOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on a Switched Rack PDU has turned on. The first argument is the serial number. The second argument is the device name. The third argument is the outlet index number. The fourth argument is the outlet name." --#TYPE "APC Switched Rack PDU: An outlet has turned on." --#SUMMARY "An outlet on a Switched Rack PDU has turned on." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 268 rPDUOutletOff TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletControlIndex, rPDUOutletControlOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on a Switched Rack PDU has turned off. The first argument is the serial number. The second argument is the device name. The third argument is the outlet index number. The fourth argument is the outlet name." --#TYPE "APC Switched Rack PDU: An outlet has turned off." --#SUMMARY "An outlet on a Switched Rack PDU has turned off." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 269 rPDUDeviceConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A device configuration change has been made on a Rack PDU. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Device configuration change made." --#SUMMARY "Device configuration change has been made on a Rack PDU." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 270 rPDUOutletConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletControlIndex, rPDUOutletControlOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet configuration change has been made on a Switched Rack PDU. The first argument is the serial number. The second argument is the device name. The third argument is the outlet index number. The fourth argument is the outlet name." --#TYPE "APC Switched Rack PDU: Outlet configuration change made." --#SUMMARY "Outlet configuration change has been made on a Switched Rack PDU." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 271 rPDULowLoad TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "WARNING: A Rack PDU has violated the low load threshold. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC Rack PDU: Violation of low load threshold." --#SUMMARY "A Rack PDU has violated the low load threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 272 rPDULowLoadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "INFORMATIONAL: The low load condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC Rack PDU: Low load condition cleared." --#SUMMARY "The low load condition on a Rack PDU has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 273 rPDUNearOverload TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "WARNING: A Rack PDU is near an overload condition. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC Rack PDU: Near an overload condition." --#SUMMARY "A Rack PDU is near an overload condition." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 274 rPDUNearOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "INFORMATIONAL: The near overload condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC Rack PDU: Near overload condition has cleared." --#SUMMARY "Rack PDU near overload condition has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 275 rPDUOverload TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "SEVERE: A Rack PDU is in an overload condition. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC Rack PDU: Overload condition." --#SUMMARY "A Rack PDU is in an overload condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 276 rPDUOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadStatusPhaseNumber, mtrapargsString } DESCRIPTION "INFORMATIONAL: The overload condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the phase number." --#TYPE "APC Rack PDU: Overload condition has cleared." --#SUMMARY "The overload condition on a Rack PDU has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 277 rPDUPowerSupply1Fail TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "SEVERE: Power Supply 1 on Rack PDU is in FAIL state. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Power Supply 1 is in FAIL state." --#SUMMARY "Power Supply 1 on Rack PDU is in FAIL state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 278 rPDUPowerSupply1Ok TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Power Supply 1 on Rack PDU is operating normally. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Power Supply 1 is operating normally." --#SUMMARY "Power Supply 1 on Rack PDU is operating normally." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 279 rPDUPowerSupply2Fail TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "SEVERE: Power Supply 2 on Rack PDU is in FAIL state. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Power Supply 2 is in FAIL state." --#SUMMARY "Power Supply 2 on Rack PDU is in FAIL state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 280 rPDUPowerSupply2Ok TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Power Supply 2 on Rack PDU is operating normally. The first argument is the serial number. The second argument is the device name." --#TYPE "APC Rack PDU: Power Supply 2 is operating normally." --#SUMMARY "Power Supply 2 on Rack PDU is operating normally." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 281 rPDUPhaseConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDULoadPhaseConfigIndex, mtrapargsString } DESCRIPTION "INFORMATIONAL: A phase configuration change has been made on a Rack PDU. The first argument is the serial number. The second argument is the device name. The third argument is the phase index number." --#TYPE "APC Rack PDU: Phase configuration change made." --#SUMMARY "Phase configuration change has been made on a Rack PDU." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 282 rPDUCancelPendingCommand TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletControlIndex, rPDUOutletControlOutletName, mtrapargsString } DESCRIPTION "INFORMATIONAL: A cancel pending command has been made on a Switched Rack PDU. The first argument is the serial number. The second argument is the device name. The third argument is the outlet index number (0 indicates all outlets). The fourth argument is the outlet name (or device name if all outlets)." --#TYPE "APC Switched Rack PDU: Cancel Pending Command made." --#SUMMARY "A Cancel Pending Command has been made on a Switched Rack PDU." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 283 aruAlinkCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Remote ARU Communication Established. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Communication Established." --#SUMMARY "Communication Established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 284 aruAlinkCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "SEVERE: Remote ARU Communication Lost. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Communication Lost." --#SUMMARY "Communication Lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 285 aruFanFail TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "SEVERE: Remote ARU Fan Fail. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Fan Failure." --#SUMMARY "Fan Fail." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 286 aruFanFailCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Remote ARU Fan Fail Cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Fan Fail Cleared." --#SUMMARY "Fan Fail Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 287 aruSmokeAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "SEVERE: Remote ARU Smoke Alarm. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Smoke Alarm." --#SUMMARY "Smoke Alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 288 aruSmokeAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Remote ARU Smoke Alarm Cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Smoke Alarm Cleared." --#SUMMARY "Smoke Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 289 aruHighTemperatureAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "WARNING: ARU Exhaust temperature has exceeded the override threshold and the ARU has increased fan speed to maintain a safe environment in the rack. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: High Temperature Alarm." --#SUMMARY "High Temperature Alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 290 aruHighTemperatureAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: ARU temperature override state has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: High Temperature Alarm Cleared." --#SUMMARY "High Temperature Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 291 aruExhaustTemperatureAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "SEVERE: ARU Extreme Exhaust Temperature Alarm. The ARU is unable to control the temperature within the rack The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Exhaust Temperature Alarm." --#SUMMARY "Exhaust Temperature Alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 292 aruExhaustTemperatureAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Remote ARU Exhaust Temperature Alarm Cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Exhaust Temperature Alarm Cleared." --#SUMMARY "Exhaust Temperature Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 293 envAlinkCommunicationEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Remote Probe Communication Established. The first argument is the host device serial number. The second argument is the host device name. The third argument is the probe number. The fourth argument is the probe name." --#TYPE "APC ENV: Communication Established." --#SUMMARY "Communication Established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 294 envAlinkCommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Remote Probe Communication Lost. The first argument is the host device serial number. The second argument is the host device name. The third argument is the probe number. The fourth argument is the probe name." --#TYPE "APC ENV: Communication Lost." --#SUMMARY "Communication Lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 295 emsAlinkPowerOverload TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "SEVERE: Alink Power Overload. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC EMS: Alink Power Overload." --#SUMMARY "Alink Power Overload." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 296 emsAlinkPowerOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Alink Power Overload Cleared. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC EMS: Alink Power Overload Cleared." --#SUMMARY "Alink Power Overload Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 297 upsOutletGroupTurnedOn TRAP-TYPE ENTERPRISE apc VARIABLES { upsOutletGroupControlIndex, mtrapargsString } DESCRIPTION "INFORMATIONAL: The specified Outlet Group turned on." --#TYPE "APC UPS: Outlet Group turned on." --#SUMMARY "Outlet Group turned on" --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 298 upsOutletGroupTurnedOff TRAP-TYPE ENTERPRISE apc VARIABLES { upsOutletGroupControlIndex, mtrapargsString } DESCRIPTION "WARNING: The specified Outlet Group turned off." --#TYPE "APC UPS: Outlet Group turned off." --#SUMMARY "Outlet Group turned off." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 299 smwCriticalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsGauge, mtrapargsString } DESCRIPTION "SEVERE: A Symmetra MW UPS critical condition has been detected. The first variable is the fault condition." --#TYPE "APC Symmetra MW UPS: A critical condition has been detected." --#SUMMARY "A critical condition has been detected." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 300 smwCriticalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsGauge, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Symmetra MW UPS critical condition has been cleared. The first variable is the fault condition." --#TYPE "APC Symmetra MW UPS: A critical condition has been cleared." --#SUMMARY "A critical condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 301 smwWarningCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsGauge, mtrapargsString } DESCRIPTION "WARNING: A Symmetra MW UPS warning condition has been detected. The first variable is the fault condition." --#TYPE "APC Symmetra MW UPS: A warning condition has been detected." --#SUMMARY "A warning condition has been detected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 302 smwWarningConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsGauge, mtrapargsString } DESCRIPTION "WARNING: A Symmetra MW UPS warning condition has been cleared. The first variable is the fault condition." --#TYPE "APC Symmetra MW UPS: A warning condition has been cleared." --#SUMMARY "A warning condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 303 smwInformationalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsGauge, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Symmetra MW UPS informational condition has been detected. The first variable is the fault condition." --#TYPE "APC Symmetra MW UPS: Informational condition detected." --#SUMMARY "An informational condition has been detected." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 304 smwInformationalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsGauge, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Symmetra MW UPS informational condition has been cleared. The first variable is the fault condition." --#TYPE "APC Symmetra MW UPS: Informational condition cleared." --#SUMMARY "An informational condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 305 airCriticalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: An Air critical condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC Air: A critical condition was detected. " --#SUMMARY "A critical condition was detected. " --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 306 airCriticalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: An Air critical condition was cleared. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC Air: A critical condition was cleared. " --#SUMMARY "A critical condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 307 airWarningCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: An Air warning condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC Air: A warning condition was detected. " --#SUMMARY "A warning condition was detected. " --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 308 airWarningConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: An Air warning condition was cleared. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC Air: A warning condition was cleared. " --#SUMMARY "A warning condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 309 airInformationalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: An Air informational condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC Air: Informational condition detected. " --#SUMMARY "An informational condition was detected. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 310 airInformationalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: An Air informational condition was cleared. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC Air: Informational condition was cleared. " --#SUMMARY "An informational condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 311 -- xPDU Traps (part 1) xPDUInputVoltageLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: Three-phase input voltage to the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC XPDU: Main input low voltage alarm." --#SUMMARY "Input voltage is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 312 xPDUInputVoltageLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Three-phase input voltage to the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XPDU: Main input low voltage alarm cleared." --#SUMMARY "Main input low voltage cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 313 xPDUInputVoltageHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: Three-phase input voltage to the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, above which the alarm was generated." --#TYPE "APC XPDU: Main input high voltage alarm." --#SUMMARY "Main input voltage is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 314 xPDUInputVoltageHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Three-phase input voltage to the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XPDU: Main input high voltage alarm cleared." --#SUMMARY "Main input high voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 315 xPDUBypassVoltageLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: Three-phase bypass input voltage to the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC XPDU: Bypass input low voltage alarm." --#SUMMARY "Bypass input voltage is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 316 xPDUBypassVoltageLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Three-phase bypass input voltage to the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XPDU: Bypass input low voltage alarm cleared." --#SUMMARY "Bypass input low voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 317 xPDUBypassVoltageHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: Three-phase bypass input voltage to the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, above which the alarm was generated." --#TYPE "APC XPDU: Bypass input high voltage alarm." --#SUMMARY "Bypass input voltage is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 318 xPDUBypassVoltageHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Three-phase bypass input voltage to the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XPDU: Bypass input high voltage alarm cleared." --#SUMMARY "Bypass input voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 319 xPDUOutputVoltageLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The three-phase output voltage of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC XPDU: Output low voltage alarm." --#SUMMARY "Output voltage is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 320 xPDUOutputVoltageLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The three-phase output voltage of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XPDU: Output low voltage alarm cleared." --#SUMMARY "Output low voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 321 xPDUOutputVoltageHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The three-phase output voltage of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, above which the alarm was generated." --#TYPE "APC XPDU: Output high voltage alarm." --#SUMMARY "Output voltage is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 322 xPDUOutputVoltageHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The three-phase output voltage of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XPDU: Output high voltage alarm cleared." --#SUMMARY "Output high voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 323 xPDUOutputCurrentLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The three-phase output load current of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC XPDU: Output low current alarm." --#SUMMARY "Output current is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 324 xPDUOutputCurrentLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The three-phase output load current of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Output low current alarm cleared." --#SUMMARY "Output low current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 325 xPDUOutputCurrentHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The three-phase load current of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, above which the alarm was generated." --#TYPE "APC XPDU: Output high current alarm." --#SUMMARY "Output current is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 326 xPDUOutputCurrentHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The three-phase output current of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Output high current alarm cleared." --#SUMMARY "Output high current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 327 xPDUOutputFrequencyAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The devices output frequency is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the frequency deviation from the nominal in tenths of Hertz." --#TYPE "APC XPDU: Output frequency out-of-range alarm." --#SUMMARY "Output frequency is out-of-range." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 328 xPDUOutputFrequencyAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The devices output frequency is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Output frequency back in range." --#SUMMARY "Output frequency in range." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 329 xPDUSystemGroundCurrentAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "SEVERE: The earth ground current of the device is over the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the measured current in tenths of Amps. The fourth argument is the threshold, in tenths of Amps, above which the alarm was generated." --#TYPE "APC XPDU: Earth ground high current alarm." --#SUMMARY "Earth ground current is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 330 xPDUSystemGroundCurrentAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The earth ground current of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Earth ground high current alarm cleared." --#SUMMARY "Earth ground high current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 331 xPDUInputContactStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString02, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: A user input contact on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the input contact number. The fourth argument is the input contact name. The fifth argument is the input contact state (1=OPEN, 2=CLOSED). The sixth argument is the configured normal input contact state (1=OPEN, 2=CLOSED)." --#TYPE "APC XPDU: Input contact has changed to its abnormal state." --#SUMMARY "Input contact has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 332 xPDUInputContactStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString02, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A user input contact on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the input contact number. The fourth argument is the input contact name. The fifth argument is the input contact state (1=CLOSED, 2=OPEN). The sixth argument is the configured normal input contact state (1=OPEN, 2=CLOSED)." --#TYPE "APC XPDU: Input contact has changed to its normal state." --#SUMMARY "Input contact has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 333 xPDUOutputNeutralCurrentHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "WARNING: The three-phase neutral current of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the measured current in tenths of Amps. The fourth argument is the threshold, in tenths of Amps, above which the alarm was generated." --#TYPE "APC XPDU: Output high neutral current alarm." --#SUMMARY "Output neutral current is above threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 334 xPDUOutputNeutralCurrentHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The output neutral current of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Output neutral high current alarm cleared." --#SUMMARY "Output neutral high current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 335 xPDUCoolingFanAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: The device's internal cooling fans have failed. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Cooling fan failure alarm." --#SUMMARY "Cooling fan failure." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 336 xPDUCoolingFanAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's cooling fans are now functioning properly. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Cooling fan alarm cleared." --#SUMMARY "Cooling fan alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 337 xPDUTransformerTempAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: The device's isolation transformer is over temperature. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Isolation transformer over temperature alarm." --#SUMMARY "Transformer temp alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 338 xPDUTransformerTempAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's isolation transformer is no longer over temperature. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Isolation transformer over temperature alarm cleared." --#SUMMARY "Transformer temp alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 339 xPDUBranchCurrentLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: The current in a branch circuit is outside the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC XPDU: Branch circuit low current alarm." --#SUMMARY "Branch circuit current is below threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 340 xPDUBranchCurrentLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a branch circuit is back within the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Branch circuit low current alarm cleared." --#SUMMARY "Branch circuit low current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 341 xPDUBranchCurrentHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: The current in a branch circuit is outside the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, above which the alarm was generated." --#TYPE "APC XPDU: Branch circuit high current alarm." --#SUMMARY "Branch circuit current is above threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 342 xPDUBranchCurrentHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a branch circuit is back within the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Branch circuit high current alarm cleared." --#SUMMARY "Branch circuit high current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 343 xPDUInternalCommError TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: There is an internal communication error in the device. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Internal communication error." --#SUMMARY "Internal communication error." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 344 emsHardwareStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "SEVERE: The device's hardware is improperly configured and operating outside normal bounds for the hardware. This can be caused by improper devices being connected to the EMS ports or Alink Current limit detection." --#TYPE "APC EMS: Hardware is in an abnormal state." --#SUMMARY "Hardware is in an abnormal state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 345 emsHardwareStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's hardware is in its normal operational state. The first argument is the host device serial number." --#TYPE "APC EMS: Hardware is in a normal state." --#SUMMARY "Hardware is in its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 346 ceSevereCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: A Custom Event severe condition was detected. The first variable is the custom event text message. The second variable is the custom event number." --#TYPE "APC Custom Event: A severe condition was detected. " --#SUMMARY "A severe condition was detected. " --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 347 ceSevereConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Custom Event severe condition was cleared. The first variable is the custom event text message. The second variable is the custom event number." --#TYPE "APC Custom Event: A severe condition was cleared. " --#SUMMARY "A severe condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 348 ceWarningCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: A Custom Event warning condition was detected. The first variable is the custom event text message. The second variable is the custom event number." --#TYPE "APC Custom Event: A warning condition was detected. " --#SUMMARY "A warning condition was detected. " --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 349 ceWarningConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Custom Event warning condition was cleared. The first variable is the custom event text message. The second variable is the custom event number." --#TYPE "APC Custom Event: A warning condition was cleared. " --#SUMMARY "A warning condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 350 ceInformationalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Custom Event informational condition was detected. The first variable is the custom event text message. The second variable is the custom event number." --#TYPE "APC Custom Event: Informational condition detected. " --#SUMMARY "An informational condition was detected. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 351 ceInformationalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Custom Event informational condition was cleared. The first variable is the custom event text message. The second variable is the custom event number." --#TYPE "APC Custom Event: Informational condition was cleared. " --#SUMMARY "An informational condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 352 upsInternalOverTemperature TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The internal over temperature condition exists." --#TYPE "APC UPS: The internal over temperature condition exists." --#SUMMARY "The internal over temperature condition exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 353 upsInternalOverTemperatureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The internal over temperature condition cleared." --#TYPE "APC UPS: The internal over temperature condition cleared." --#SUMMARY "The internal over temperature condition cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 354 upsMpuReset TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The MPU has been reset." --#TYPE "APC UPS: The MPU has been reset." --#SUMMARY "The MPU has been reset." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 355 upsOutputSwitchClosed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The Output Switch is closed." --#TYPE "APC UPS: The Output Switch is closed." --#SUMMARY "The Output Switch is closed." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 356 upsOutputSwitchOpened TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The Output Switch is open." --#TYPE "APC UPS: The Output Switch is open." --#SUMMARY "The Output Switch is open." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 357 upsCalibrationStackChanged TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A calibration value in the stack was changed." --#TYPE "APC UPS: A calibration value in the stack was changed." --#SUMMARY "A calibration value in the stack was changed." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 358 -- Upgraded EMS now has more env traps envMaxTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Max temperature threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Max temperature threshold violation." --#SUMMARY "Max temperature threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 359 envMaxTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Max temperature threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Max temperature threshold violation cleared." --#SUMMARY "Max temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 360 envMinTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Min temperature threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Min temperature threshold violation." --#SUMMARY "Min temperature threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 361 envMinTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Min temperature threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Min temperature threshold violation cleared." --#SUMMARY "Min temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 362 envMaxHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Max humidity threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: Max humidity threshold violation." --#SUMMARY "Max humidity threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 363 envMaxHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Max humidity threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity. The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: Max humidity threshold violation cleared." --#SUMMARY "Max humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 364 envMinHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Min humidity threshold violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: Min humidity threshold violation." --#SUMMARY "Min humidity threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 365 envMinHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeHumidity, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Min humidity threshold violation cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current humidity. The fourth argument is the probe number. The fifth argument is the probe name." --#TYPE "APC ENV: Min humidity threshold violation cleared." --#SUMMARY "Min humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 366 envSTIncTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Short-term increasing temperature rate violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Short-term inc. temp rate violation." --#SUMMARY "Short-term inc. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 367 envSTIncTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Short-term increasing temperature rate cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Short-term inc. temp rate violation cleared." --#SUMMARY "Short-term inc. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 368 envSTDecTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Short-term decreasing temperature rate violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Short-term dec. temp rate violation." --#SUMMARY "Short-term dec. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 369 envSTDecTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Short-term decreasing temperature rate cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Short-term dec. temp rate violation cleared." --#SUMMARY "Short-term dec. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 370 envLTIncTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Long-term increasing temperature rate violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Long-term inc. temp rate violation." --#SUMMARY "Long-term inc. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 371 envLTIncTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Long-term increasing temperature rate cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Long-term inc. temp rate violation cleared." --#SUMMARY "Long-term inc. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 372 envLTDecTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "SEVERE: Long-term decreasing temperature rate violated on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Long-term dec. temp rate violation." --#SUMMARY "Long-term dec. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 373 envLTDecTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, emsProbeStatusProbeTemperature, emsStatusSysTempUnits, emsProbeStatusProbeIndex, emsProbeStatusProbeName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Long-term decreasing temperature rate cleared on the probe. The first argument is the host device serial number. The second argument is the host device name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name." --#TYPE "APC ENV: Long-term dec. temp rate violation cleared." --#SUMMARY "Long-term dec. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 374 -- Battery Management System Traps bmsCriticalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: A Battery Management System critical condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC BMS: A critical condition was detected. " --#SUMMARY "A critical condition was detected. " --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 375 bmsCriticalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Battery Management System critical condition was cleared. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC BMS: A critical condition was cleared. " --#SUMMARY "A critical condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 376 bmsWarningCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: A Battery Management System warning condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC BMS: A warning condition was detected. " --#SUMMARY "A warning condition was detected. " --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 377 bmsWarningConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: A Battery Management System warning condition was cleared. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC BMS: A warning condition was cleared. " --#SUMMARY "A warning condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 378 bmsInformationalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Battery Management System informational condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC BMS: Informational condition detected. " --#SUMMARY "An informational condition was detected. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 379 bmsInformationalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A Battery Management System informational condition was cleared. The first variable is the error condition text message. The second variable is the error number." --#TYPE "APC BMS: Informational condition was cleared. " --#SUMMARY "An informational condition was cleared. " --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 380 -- xATS Traps xATSOutputVoltageLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The device three-phase output voltage of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC XATS: Output low voltage alarm." --#SUMMARY "Output voltage is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 381 xATSOutputVoltageLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The devices three-phase output voltage is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XATS: Output low voltage alarm cleared." --#SUMMARY "Output low voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 382 xATSOutputVoltageHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The device three-phase output voltage of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts. The fifth argument is the threshold, in tenths of Volts, above which the alarm is generated." --#TYPE "APC XATS: Output high voltage alarm." --#SUMMARY "Output voltage is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 383 xATSOutputVoltageHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The devices three-phase output voltage is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1-N, 2=L2-N, 3=L3-N, 4=unused, 5=L1-L2, 6=L2-L3, 7=L3-L1). The fourth argument is the measured voltage in tenths of Volts." --#TYPE "APC XATS: Output high voltage alarm cleared." --#SUMMARY "Output high voltage alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 384 xATSOutputCurrentLowAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The three-phase load current of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in Amps. The fifth argument is the threshold, in Amps, from which the alarm was generated." --#TYPE "APC XATS: Output low current alarm." --#SUMMARY "Output current is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 385 xATSOutputCurrentLowAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The three-phase load current of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in Amps." --#TYPE "APC XATS: Output low current alarm cleared." --#SUMMARY "Output low current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 386 xATSOutputCurrentHighAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The three-phase output load current of the device is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in Amps. The fifth argument is the threshold, in Amps, from which the alarm was generated." --#TYPE "APC XATS: Output high current alarm." --#SUMMARY "Output current is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 387 xATSOutputCurrentHighAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The three-phase output load current of the device is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3). The fourth argument is the measured current in Amps." --#TYPE "APC XATS: Output high current alarm cleared." --#SUMMARY "Output high current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 388 xATSOutputFrequencyAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "SEVERE: The devices output frequency is outside the specified limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the frequency deviation from the nominal in tenths of Hertz. The fourth argument is the frequency deviation threshold in tenths of Hertz, from which the alarm was generated." --#TYPE "APC XATS: Output frequency out-of-range alarm." --#SUMMARY "Output frequency is out-of-range." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 389 xATSOutputFrequencyAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The devices output frequency is back within the specified limits. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Output frequency back in range." --#SUMMARY "Output frequency in range." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 390 xATSInternalCommError TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: There is an internal communication error in the device. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Internal communication error." --#SUMMARY "Internal communication error." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 391 xATSInternalCommErrorCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Internal communication has been restored. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Internal Communication error cleared." --#SUMMARY "ATS Communication error cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 392 xATSDataCommMismatchError TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: A data incompatibility exists within the device. This is typically the result of mismatches between firmware revisions of the transfer switch controller and the Network Management interface. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Data mismatch error." --#SUMMARY "ATS data mismatch error." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 393 xATSDataCommMismatchErrorCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The internal data incompatibility has been resolved. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: data mismatch error cleared." --#SUMMARY "ATS data mismatch error cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 394 xATSGenCommLost TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The XATS cannot communicate with the generator. This will make unavailable all the xATSGenerator OIDs. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: No communication with generator." --#SUMMARY "ATS/Generator communication lost." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 395 xATSGenCommEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The XATS has established communication with the generator. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Communication with generator established." --#SUMMARY "ATS/generator communication established." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 396 xATSNeutralPosition TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: XATS has transferred to neutral position. In this position neither Source 1 nor Source 2 is selected, and the XATS will have no output voltage. The first argument is the host device serial number. The second argument is the host device name. The third argument is the mode in which the switch is operating (1=Auto, 2=Not-in-Auto, Abnormal Condition 3=Not-in-Auto, manual)." --#TYPE "APC XATS: Transferred to the neutral (no output power) position." --#SUMMARY "Transferred to neutral." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 397 xATSSwitchTransferEvent TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: XATS has transferred from one source to the other. The first argument is the host device serial number. The second argument is the host device name. The third argument is the mode in which the switch is operating. (1=Auto, 2=Not-in-Auto, Abnormal Condition 3=Not-in-Auto, manual). The fourth argument is the input source selected (1=Source 1, 2=Source 2). The fifth argument is type of transfer that took place. (1=Closed, 2=Open, 3=Unknown)" --#TYPE "APC XATS: Transferred from Source-X to Source-Y." --#SUMMARY "Source-to-Source transfer." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 398 xATSInternalATSFault TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: An internal XATS fault has been detected. The XATS may have forced itself to not-in-auto mode (abnormal condition), as indicated by the xATSSwitchStatusAutoSwitchOperationalMode OID. The first argument is the host device serial number. The second argument is the host device name. The third argument indicates the detected fault. 1=Cannot Close S1 2=Cannot Close S2 3=Cannot Open S1 4=Cannot Open S2 5=Cannot Trip Open S1 6=Cannot Trip Open S2 7=Start Contact Failure 8=Voltage Sensing Failure" --#TYPE "APC XATS: Internal fault detected." --#SUMMARY "ATS internal fault detected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 399 xATSInternalATSFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected internal XATS fault has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument indicates the detected fault. 1=Cannot Close S1 2=Cannot Close S2 3=Cannot Open S1 4=Cannot Open S2 5=Cannot Trip Open S1 6=Cannot Trip Open S2 7=Start Contact Failure 8=Voltage Sensing Failure" --#TYPE "APC XATS: Internal fault cleared." --#SUMMARY "ATS internal fault cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 400 xATSEngineStartAsserted TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The XATS has asserted the Engine Start contact. This should result in the generator producing output voltage. The first argument is the host device serial number. The second argument is the host device name. The third argument indicates the reason that the start signal was asserted 1=Unknown, 2=S1 Low Voltage, 3=S1 High Voltage, 4=S1 Line Imbalance, 5=S1 Freq Range, 6=S1 Bad Rotation." --#TYPE "APC XATS: Engine Start signal asserted." --#SUMMARY "Engine Start asserted." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 401 xATSEngineStopAsserted TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The XATS has de-asserted the Engine Start contact. This should result in the generator shutting down, and producing no output voltage. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Engine Stop signal asserted." --#SUMMARY "Engine Stop asserted." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 402 xATSStartFailure TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator failed to start. After assertion of the Engine Start signal, the quality of Source 2 was not seen as good. This alarm can be cleared using the xATSSwitchStatusClearLatchedAlarms OID. The first argument is the host device serial number. The second argument is the host device name. The third argument indicates the line quality at S2 1=Unknown, 2=S2 Low Voltage, 3=S2 High Voltage, 4=S2 Line Imbalance, 4=S2 Freq Range, 5=S2 Bad Rotation." --#TYPE "APC XATS: Generator failed to start alarm." --#SUMMARY "Generator failed to start." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 403 xATSStopFailure TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The generator failed to stop. After de-assertion of the Engine Start signal, the quality of Source 2 continued to be seen as good. This alarm can be cleared using the xATSSwitchStatusClearLatchedAlarms OID. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Generator failed to stop alarm." --#SUMMARY "Generator failed to stop." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 404 xATSNotInAutomaticMode TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: Automatic Transfer Switch is not in automatic mode. The first argument is the host device serial number. The second argument is the host device name. The xATSSwitchStatusAutoSwitchStatus OID and the xATSSwitchStatusAutoSwitchOperationalMode OID can provide more information about the state of the XATS." --#TYPE "APC XATS: XATS is not-in-automatic mode." --#SUMMARY "ATS not in auto." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 405 xATSNotInAutomaticModeCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Automatic Transfer Switch is in automatic mode. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: XATS in auto mode." --#SUMMARY "ATS in auto mode." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 406 xATSEpoTripped TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: The device's Emergency Power Off (EPO) circuit is tripped. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Emergency Power Off (EPO) tripped." --#SUMMARY "EPO tripped." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 407 xATSEpoReset TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's Emergency Power Off (EPO) circuit has been reset to the armed position. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Emergency Power Off (EPO) reset." --#SUMMARY "EPO armed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 408 xATSEpoTestMode TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The device's Emergency Power Off (EPO) circuit has been switched back to the test position. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Emergency Power Off (EPO) in test mode." --#SUMMARY "EPO disabled." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 409 xATSEpoArmed TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's Emergency Power Off (EPO) circuit has been switched back to the armed position. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Emergency Power Off (EPO) enabled." --#SUMMARY "EPO armed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 410 xATSTestInitiated TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A scheduled test has been initiated. The first argument is the host device serial number. The second argument is the host device name. The third argument is the type of test initiated (1=scheduled, 2=manual)." --#TYPE "APC XATS: Test initiated." --#SUMMARY "Test initiated." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 411 xATSTestCanceled TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The scheduled test has been canceled The first argument is the host device serial number. The second argument is the host device name. The third argument is the type of test initiated (1=scheduled, 2=manual)." --#TYPE "APC XATS: Test canceled." --#SUMMARY "Test canceled." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 412 xATSTestFailed TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: The initiated test has failed. This alarm can be cleared using the xATSSwitchStatusClearLatchedAlarms OID. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Initiated test failed." --#SUMMARY "Initiated test failed." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 413 xATSTestPassed TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The initiated test has passed switched back to the armed position. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Initiated test passed." --#SUMMARY "Initiated test passed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 414 xATSInputContactStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString02, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: A user input contact on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the input contact number. The fourth argument is the input contact name. The fifth argument is the input contact state (1=OPEN, 2=CLOSED). The sixth argument is the configured normal input contact state (1=OPEN, 2=CLOSED)." --#TYPE "APC XATS: Input contact has changed to its abnormal state." --#SUMMARY "Input contact has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 415 xATSInputContactStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString02, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A user input contact on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the input contact number. The fourth argument is the input contact name. The fifth argument is the input contact state (1=OPEN, 2=CLOSED). The sixth argument is the configured normal input contact state (1=OPEN, 2=CLOSED)." --#TYPE "APC XATS: Input contact has changed to its normal state." --#SUMMARY "Input contact has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 416 xATSRemoteStartContactMismatch TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: The state of the generator's Remote Start input and the ATS's Engine Start output do not match. This indicates something wrong in the Engine Start wiring, which must be corrected. This condition will prevent the generator from being started when needed. (See also: xATSGeneratorStatusRemoteStart and xATSSwitchStatusEngineStartSignal OIDs) The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Generator/ATS start contact mismatch." --#SUMMARY "Generator/ATS start contact mismatch." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 417 xATSRemoteStartContactMismatchCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Mismatch in the state of the generator's Remote Start input and the ATS's Engine Start output as been resolved. This indicates something wrong in the Engine Start wiring, which must be corrected. This condition will prevent the generator from being started when needed. (See also: xATSGeneratorStatusRemoteStart and xATSSwitchStatusEngineStartSignal OIDs) The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Generator/ATS start contact mismatch cleared." --#SUMMARY "Generator/ATS start contact mismatch cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 418 xATSDoorOpenAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The XATS exterior panel door is open. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Panel door is open alarm." --#SUMMARY "Panel door open alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 419 xATSDoorOpenAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The external door to the device is closed. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Panel door open alarm cleared." --#SUMMARY "Panel door open alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 420 xATSDCBackupAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The XATS's DC backup has been lost. The XATS will lose power on Source 1 failure, causing the Engine Start signal to be asserted. The XATS will then restart from Source 2. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: DC backup failure." --#SUMMARY "ATS DC backup failure." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 421 xATSDCBackupAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: DC backup alarm has been cleared in the device. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: DC backup alarm cleared." --#SUMMARY "DC backup alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 422 -- xATS Generator Traps xATSGeneratorLowCoolantLevelAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Low coolant level has been detected in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low coolant level alarm." --#SUMMARY "Generator low coolant level alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 423 xATSGeneratorLowCoolantLevelAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected low coolant level has been cleared in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low coolant level alarm cleared." --#SUMMARY "Generator low coolant level alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 424 xATSGeneratorVeryLowCoolantLevelAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Very low coolant level has been detected in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator very low coolant level alarm." --#SUMMARY "Generator very low coolant level alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 425 xATSGeneratorVeryLowCoolantLevelAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected Very low coolant level has been cleared in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator very low coolant level alarm cleared." --#SUMMARY "Generator very low coolant level alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 426 xATSGeneratorHighCoolantTempAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: High coolant temperature has been detected in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator high coolant temperature alarm." --#SUMMARY "Generator high coolant temperature alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 427 xATSGeneratorHighCoolantTempAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected high coolant temperature has been cleared in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator high coolant temperature alarm cleared." --#SUMMARY "Generator high coolant temperature alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 428 xATSGeneratorVeryHighCoolantTempAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Very high coolant temperature has been detected in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator very high coolant temperature alarm." --#SUMMARY "Generator very high coolant temperature alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 429 xATSGeneratorVeryHighCoolantTempAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The Very high coolant temperature condition has been cleared in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator very high coolant temperature alarm cleared." --#SUMMARY "Generator very high coolant temperature alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 430 xATSGeneratorLowCoolantTempAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Low coolant temperature has been detected in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low coolant temperature alarm." --#SUMMARY "Generator low coolant temperature alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 431 xATSGeneratorLowCoolantTempAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The low coolant temperature condition has been cleared in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low coolant temperature alarm cleared." --#SUMMARY "Generator low coolant temperature alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 432 xATSGeneratorLowOilLevelAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Low oil level has been detected in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low oil level alarm." --#SUMMARY "Generator low oil level alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 433 xATSGeneratorLowOilLevelAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low oil level alarm has been cleared in the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low oil level alarm cleared." --#SUMMARY "Generator low oil level alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 434 xATSGeneratorLowBatteryVoltDuringCrankAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator's battery voltage has been detected as low while cranking the engine. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Low batt. voltage while cranking alarm." --#SUMMARY "Generator low battery volts while cranking alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 435 xATSGeneratorLowBatteryVoltDuringCrankAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator's low battery voltage while cranking condition has been cleared. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "XGEN: Generator low batt. voltage while cranking alarm cleared." --#SUMMARY "Generator low battery volts while cranking alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 436 xATSGeneratorVeryLowBatteryVoltDuringCrankAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator's battery voltage has been detected as very low while cranking the engine. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "XGEN: Generator v.low battery voltage while cranking alarm." --#SUMMARY "Generator v.low battery volts while cranking alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 437 xATSGeneratorVeryLowBatteryVoltDuringCrankAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator's high battery voltage while cranking condition has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "XGEN: Generator v.low batt volt, while cranking alarm cleared." --#SUMMARY "Generator v.low battery volts while cranking alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 438 xATSGeneratorEStop TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "SEVERE: The generator's emergency stop input has been activated. After the emergency stop signal has been removed, the E-Stop condition must be cleared before the generator can be started again. E-Stop conditions can only be cleared via the generator front panel. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code. The fourth argument is the type of E-Stop (1=LOCAL, 2=REMOTE)." --#TYPE "APC XGEN: Generator emergency stop engaged." --#SUMMARY "Generator emergency stop engaged." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 439 xATSGeneratorEStopCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator's emergency stop condition has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code. The fourth argument is the type of E-Stop (1=LOCAL, 2=REMOTE)." --#TYPE "APC XGEN: Generator emergency stop condition cleared." --#SUMMARY "Generator emergency stop condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 440 xATSGeneratorHighBatteryVolt TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: The generator's battery voltage has been detected as high. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator high battery voltage." --#SUMMARY "Generator high battery volts." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 441 xATSGeneratorHighBatteryVoltCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected high battery voltage has been cleared, on the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator high battery voltage condition cleared." --#SUMMARY "Generator high battery volts condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 442 xATSGeneratorLowBatteryVolt TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator's battery voltage has been detected as low. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low battery voltage." --#SUMMARY "Generator low battery volts." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 443 xATSGeneratorLowBatteryVoltCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected low battery voltage has been cleared, on the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low battery voltage condition cleared." --#SUMMARY "Generator low battery volts condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 444 xATSGeneratorControlSwitchNotAuto TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The control switch on the generator is not in auto position. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator not-in-automatic mode." --#SUMMARY "Generator not-in-auto." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 445 xATSGeneratorControlSwitchNotAutoCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The control switch on the generator is in auto position. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator automatic mode restored." --#SUMMARY "Generator not-in-auto cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 446 xATSGeneratorLowOilPressure TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator's oil pressure has been detected as low. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low oil pressure." --#SUMMARY "Generator low oil pressure." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 447 xATSGeneratorLowOilPressureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected low oil pressure has been cleared, on the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator low oil pressure condition cleared." --#SUMMARY "Generator low oil pressure condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 448 xATSGeneratorVeryLowOilPressure TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator's oil pressure has been detected as very low. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator v.low oil pressure." --#SUMMARY "Generator v.low oil pressure." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 449 xATSGeneratorVeryLowOilPressureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected v.low oil pressure has been cleared, on the generator. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator v.low oil pressure condition cleared." --#SUMMARY "Generator v.low oil pressure condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 450 xATSGeneratorOverload TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator is overloaded. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator is in overload event." --#SUMMARY "Generator on overload event." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 451 xATSGeneratorOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator is running within loading limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator is in overload event cleared." --#SUMMARY "Generator on overload event cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 452 xATSGeneratorLowACVEvent TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator AC voltage is outside the acceptable bounds. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: State of the Generator AC voltage." --#SUMMARY " State of the Generator AC voltage." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 453 xATSGeneratorLowACVEventCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator AC voltage is within normal bounds. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: State of the Generator AC voltage cleared." --#SUMMARY "State of the Generator AC voltage cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 454 xATSGeneratorHighACVEvent TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator AC voltage is outside the acceptable bounds. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: State of the Generator AC voltage." --#SUMMARY " State of the Generator AC voltage." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 455 xATSGeneratorHighACVEventCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator AC voltage is within normal bounds. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: State of the Generator AC voltage cleared." --#SUMMARY "State of the Generator AC voltage cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 456 xATSGeneratorOverspeed TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator is running over the acceptable RPM. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator overspeed condition." --#SUMMARY "Generator overspeed condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 457 xATSGeneratorOverspeedCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator overspeed shutdown has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator overspeed condition cleared." --#SUMMARY "Generator overspeed condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 458 xATSGeneratorEngineCold TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator engine is cold, may not start. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator engine is cold, may not start." --#SUMMARY "Generator engine is cold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 459 xATSGeneratorEngineColdCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The engine is not cold to start. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Engine is cold to start condition cleared." --#SUMMARY "Engine is cold to start condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 460 xATSGeneratorOutputBreakerOpen TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generators output breaker has been detected as open. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator output breaker open alarm." --#SUMMARY "Generator output breaker open." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 461 xATSGeneratorOutputBreakerOpenCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The engine is not cold to start. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator output breaker open alarm cleared." --#SUMMARY "Generator output breaker open cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 462 xATSGeneratorLowFuelLevelAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: The tank fuel level is below the limits specified in the xATSGeneratorFuelSystemLowFuelLevelThreshold OID. The first argument is the host device serial number. The second argument is the host device name. The third argument is the measured fuel level in percent of full." --#TYPE "APC XGEN: Low fuel level alarm." --#SUMMARY "Generator low fuel level alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 463 xATSGeneratorLowFuelLevelAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The tank fuel level is back above the specified limit. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XGEN: Low fuel level alarm cleared." --#SUMMARY "Generator low fuel level alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 464 xATSGeneratorVeryLowFuelLevelAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The tank fuel level is below the low threshold limits. The first argument is the host device serial number. The second argument is the host device name. The third argument is the measured tank fuel level in percent of full." --#TYPE "APC XGEN: Very Low fuel level alarm." --#SUMMARY "Generator very low fuel level alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 465 xATSGeneratorVeryLowFuelLevelAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected low tank level has been cleared in the device. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XGEN: Very low fuel level alarm cleared." --#SUMMARY "Generator very low fuel level alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 466 xATSGeneratorLowRunTimeAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: The estimated runtime is below the limits specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the estimated runtime in hours." --#TYPE "APC XGEN: Low run time alarm." --#SUMMARY "Generator low run time alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 467 xATSGeneratorLowRunTimeAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected low runtime has been cleared in the device. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XGEN: Low run time alarm cleared." --#SUMMARY "Generator low run time alarm." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 468 xATSGeneratorVeryLowRunTimeAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The estimated runtime is below the limits specified in the xATSGeneratorFuelSystemVeryLowRunTimeThreshold OID. The first argument is the host device serial number. The second argument is the host device name. The third argument is the estimated runtime in hours." --#TYPE "APC XGEN: Very low run time alarm." --#SUMMARY "Generator very low run time alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 469 xATSGeneratorVeryLowRunTimeAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The detected low runtime has been cleared in the device. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XGEN: Very low run time alarm cleared." --#SUMMARY "Generator very low run time alarm." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 470 xATSGeneratorServiceDueAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The generator is due for scheduled service. Generation of this alarm is based on calendar days since and/or actual generator run-hours since last service. This alarm is cleared using the xATSGeneratorServiceResetRecord OID. (See also: xATSGeneratorServiceCalendarIntervalThreshold and xATSGeneratorServiceRunHoursThreshold OIDs) The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Generator scheduled maintenance is due." --#SUMMARY "Generator maintenance due." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 471 xATSGeneratorServiceDueAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator's service registers have been reset. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: Generator service due alarm is cleared." --#SUMMARY "Generator service alarm is cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 472 xATSGeneratorShutdown TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator is shutdown. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator shutdown." --#SUMMARY "Generator shutdown" --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 473 xATSGeneratorShutdownCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The generator shutdown alarm is cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator shutdown is cleared." --#SUMMARY "Generator shutdown is cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 474 xATSGeneratorBatteryCharger TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The generator battery charger is nonfunctional. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator batt. charger is nonfunctional." --#SUMMARY "Generator battery charger is nonfunctional" --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 475 xATSGeneratorBatteryChargerCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Fault in the generator battery charger is cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Fault in the generator battery charger is cleared." --#SUMMARY "Fault in the generator battery charger is cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 476 xATSGeneratorGenericEvent TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Any generic generator event. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator generic event." --#SUMMARY "Generator generic event." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 477 xATSGeneratorGenericEventCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Generated generic generator event is cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generic generator event is cleared." --#SUMMARY "Generic generator event is cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 478 -- xPDU Traps (part 2) xPDUInternalCommErrorCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Internal communication has been restored. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Internal Communication error cleared." --#SUMMARY "Communication error cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 479 xPDUSystemStateAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The PDU's breakers (Q1, Q2 & Q3) are in a configuration that might lead to system unavailability. it may signify a temporary condition, when the breakers are placed in an atypical manner as the user transitions to (UPS OPERATION or MAINTENANCE BYPASS) The first argument is the host device serial number. The second argument is the host device name. The third argument is the type of state change (1=NO UPS INPUT, 2=NO PANEL FEED, 3=ATYPICAL BYPASS MODE). note: The NO_PANEL_FEED alarm is applicable only for PDUs with system bypass." --#TYPE "APC XPDU: System state change alarm." --#SUMMARY "PDU state change alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 480 xPDUSystemStateAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The PDU's breakers (Q1, Q2 & Q3) are set in a configuration that is a non-alarm state. The first argument is the host device serial number. The second argument is the host device name. The third argument is the type of state change (1=NO UPS INPUT, 2=NO PANEL FEED, 3=ATYPICAL BYPASS MODE). note: The NO_PANEL_FEED alarm is applicable only for PDUs with system bypass." --#TYPE "APC XPDU: Normal system state change." --#SUMMARY "PDU normal state change." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 481 xPDUEpoTestMode TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The device's Emergency Power Off (EPO) circuit has been switched back to the test position. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Emergency Power Off (EPO) in test mode." --#SUMMARY "EPO disabled." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 482 xPDUEpoArmed TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's Emergency Power Off (EPO) circuit has been switched back to the armed position. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Emergency Power Off (EPO) enabled." --#SUMMARY "EPO armed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 483 xPDUFuseBlownAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: One or more fuses in this PDU have been detected as open. These fuses are in the feed to the UPS associated with this PDU. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3)." --#TYPE "APC XPDU: Check fuse alarm." --#SUMMARY "Fuse detected opened." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 484 xPDUFuseBlownAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A previous check fuse alarm in this PDU has cleared. These fuses are in the feed to the UPS associated with this PDU. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase (1=L1, 2=L2, 3=L3)." --#TYPE "APC XPDU: Check fuse alarm cleared." --#SUMMARY "Fuse alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 485 xPDUBreakerPositionAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "SEVERE: A PDU breaker is in a state that compromises system availability. The first argument is the host device serial number. The second argument is the host device name. The third argument is the breaker (1=MAIN INPUT, 2=BYPASS INPUT, 3=CROSS TIE, 4=OUTPUT). note: The OUTPUT breaker position alarm is applicable only for PDUs with no system bypass. The fourth argument is the breaker position (1=OPEN, 2=CLOSED)." --#TYPE "APC XPDU: Breaker position alarm." --#SUMMARY "Breaker position alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 486 xPDUBreakerPositionAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A PDU breaker is no longer in a state that compromises system availability. The first argument is the host device serial number. The second argument is the host device name. The third argument is the breaker (1=MAIN INPUT, 2=BYPASS INPUT, 3=CROSS TIE, 4=OUTPUT). note: The OUTPUT breaker position alarm cleared is applicable only for PDUs with no system bypass." --#TYPE "APC XPDU: Breaker position alarm cleared." --#SUMMARY "Breaker alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 487 xPDUBreakerChangeEvent TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A system breaker or switch within the device has changed state. They are generated when any of the Q1, Q2 or Q3 breakers have changed states. The first argument is the host device serial number. The second argument is the host device name. The third argument is the breaker that has changed (1=UPS FEED (Q1), 2=UPS OUTPUT(Q2), 3=MAINTENANCE BYPASS (Q3). The fourth argument is the state of the breaker that has changed (1=OPEN, 2=CLOSED). The fifth argument is a 8-bit field representing the state of all breakers in the system, when any of one of the Q1, Q2 or Q3 breakers have changed state. The bit map is represented in the following manner (b7, b6 ... b0) b0 - UPS FEED (Q1) b1 - MAINTENANCE BYPASS (Q3) b2 - UPS OUTPUT (Q2) b3 - MAIN INPUT b4 - BYPASS INPUT b5 - CROSS-TIE OUTPUT Example: value of 60 (0x3C) indicates that the CROSS_TIE, BYPASS and MAIN INPUT, and Q2 breakers are CLOSED and Q3, Q1 breakers are OPEN." --#TYPE "APC XPDU: Breaker/switch change event." --#SUMMARY "Breaker/switch change event." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 488 xPDUDataCommMismatchError TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: A data incompatibility exists within the device. This is typically the result of mismatches between firmware revisions of the transfer switch controller and the Network Management interface. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: Data mismatch error." --#SUMMARY "XPDU data mismatch error." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 489 xPDUDataCommMismatchErrorCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The internal data incompatibility has been resolved. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: data mismatch error cleared." --#SUMMARY "XPDU data mismatch error cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 490 xPDUSystemInMaintenanceBypassMode TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "WARNING: The PDU state has changed to maintenance bypass mode. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: System state changed to maintenance bypass." --#SUMMARY "PDU state changed to maintenance bypass." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 491 xPDUSystemInUPSOperationalMode TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The PDU state has changed to UPS operational mode. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XPDU: System state changed to UPS operational." --#SUMMARY "PDU state changed to UPS operational." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 492 xATSGeneratorFuelTankRuptureAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Detected a rupture in the inner wall of the generator fuel tank. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator inner wall rupture alarm." --#SUMMARY "Generator inner wall rupture alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 493 xATSGeneratorFuelTankRuptureAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The rupture in the inner wall of the generator is not detected. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator inner wall rupture alarm cleared." --#SUMMARY "Generator inner wall rupture alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 494 xATSGeneratorGroundFaultAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Generator ground fault alarm. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator ground fault alarm." --#SUMMARY "Generator ground fault alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 495 xATSGeneratorGroundFaultAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Generator ground fault alarm cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the OEM's fault/event code." --#TYPE "APC XGEN: Generator ground fault alarm cleared." --#SUMMARY "Generator ground fault alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 496 xATSOutputLoadPoweredByGeneratorAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: The system load on the output of the ATS is being powered by source 2 (generator). The first argument is the host device serial number. The second argument is the host device name. The third argument indicates if the load is powered by the generator, when 'load testing' the generator (1 = LIVE, 2 = TEST)." --#TYPE "APC XATS: System load powered by generator alarm." --#SUMMARY "System load powered by generator." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 497 xATSOutputLoadPoweredByGeneratorAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "INFORMATIONAL: The system load on the output of the ATS is no longer being powered by source 2 (generator). The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: System load powered by generator alarm cleared." --#SUMMARY "System load powered by generator alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 498 xAPCControllerFirmwareUpdateTransferStart TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString05, mtrapargsString04, mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Start controller firmware transfer in the device. The first argument is the host device serial number. The second argument is the host model name that initiated the transfer. The third argument is the name of the file that is transferred. The fourth argument is the updated revision of the file, if available The fifth argument is the reason for the update, if available (1=User request, 2=Automatic upgrade by NMC, 3=Unknown)." --#TYPE "APC: Start update transfer." --#SUMMARY "Start update transfer." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 499 xAPCControllerFirmwareUpdateTransferComplete TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString05, mtrapargsString04, mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "INFORMATIONAL: Transfer of controller firmware was completed in the device. The first argument is the host device serial number. The second argument is the host device model name that completed the transfer. The third argument is the name of the file that was transferred. The fourth argument is the revision of the file that was transferred, if available." --#TYPE "APC : Update transfer complete." --#SUMMARY "Update transfer complete." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 500 xAPCControllerFirmwareUpdateTransferFailed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString05, mtrapargsString04, mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "SEVERE: Transfer of controller firmware failed. The first argument is the host device serial number. The second argument is the host device model name that failed to transfer. The third argument is the name of the file that failed the transfer, if available. The fourth argument is the reason for failure." --#TYPE "APC: Update transfer failed." --#SUMMARY "Update transfer failed." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 501 upsPfcInputRelayFailure TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The PFC (Power Factor Correction) input relay failure exists." --#TYPE "APC UPS: The PFC input relay failure exists." --#SUMMARY "The PFC (Power Factor Correction) input relay failure exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 502 upsPfcInputRelayFailureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The PFC (Power Factor Correction) input relay failure cleared." --#TYPE "APC UPS: The PFC input relay failure cleared." --#SUMMARY "The PFC (Power Factor Correction) input relay failure cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 503 upsInverterOverTemperature TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The inverter over temperature condition exists." --#TYPE "APC UPS: The inverter over temperature condition exists." --#SUMMARY "The inverter over temperature condition exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 504 upsInverterOverTemperatureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The inverter over temperature condition cleared." --#TYPE "APC UPS: The inverter over temperature condition cleared." --#SUMMARY "The inverter over temperature condition cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 505 upsBatteryOverVoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The battery over voltage condition exists." --#TYPE "APC UPS: The battery over voltage condition exists." --#SUMMARY "The battery over voltage condition exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 506 upsBatteryOverVoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The battery over voltage condition cleared." --#TYPE "APC UPS: The battery over voltage condition cleared." --#SUMMARY "The battery over voltage condition cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 507 upsEepromFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The EEPROM fault exists." --#TYPE "APC UPS: The EEPROM fault exists." --#SUMMARY "The EEPROM fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 508 upsEepromFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The EEPROM fault cleared." --#TYPE "APC UPS: The EEPROM fault cleared." --#SUMMARY "The EEPROM fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 509 -- rARU Traps (part 2) aruFanRuntimeAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: The total running hours for a fan has exceeded the run hour threshold. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name. The fifth argument indicates which fan in the ARU." --#TYPE "APC ARU: Fan Runhour Warning." --#SUMMARY "Fan Runhour Alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 510 aruFanRuntimeAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The total running hours for a fan is no longer above the fan runhour threshold. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name. The fifth argument indicates which fan in the ARU." --#TYPE "APC ARU: Fan Runhour Alarm Cleared." --#SUMMARY "Fan Runhour Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 511 aruFanPoorPerformanceAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: Poor fan performance has been detected in the ARU, indicating that the fan may be close to failing. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name. The fifth argument indicates which fan in the ARU." --#TYPE "APC ARU: Poor Fan Performance Warning." --#SUMMARY "Fan Health Alarm." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 512 aruFanPoorPerformanceAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Fan performance is no longer degraded. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name. The fifth argument indicates which fan in the ARU." --#TYPE "APC ARU: Poor Fan Performance Warning Cleared." --#SUMMARY "Fan Health Alarm Cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 513 aruRedundantPowerLostAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "WARNING: One of the redundant line cords on the ARU is no longer receiving AC power. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Redundant AC Input is not Present." --#SUMMARY "AC Redundancy Lost." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 514 aruRedundantPowerLostAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { emsIdentSerialNumber, emsIdentEMSName, rARUStatusAruIndex, rARUStatusAruName, mtrapargsString } DESCRIPTION "INFORMATIONAL: Line-cord redundancy has been restored to the ARU. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number. The fourth argument is the ARU name." --#TYPE "APC ARU: Redundant AC Input is Present." --#SUMMARY "AC Redundancy Restored." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 515 apcDeviceConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: A device configuration change has been made on the device. The first argument is the device serial number. The second argument is the device name. The third argument is a secondary device id number." --#TYPE "APC: A device configuration change on a device." --#SUMMARY "A device configuration change has been made on a device." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 516 apcEnvSensorConnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: A sensor has been connected to the host device. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Sensor Connected." --#SUMMARY "Sensor Connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 517 apcEnvSensorDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: A sensor has been disconnected from the device. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Sensor Disconnected." --#SUMMARY "Sensor Disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 518 apcEnvMaxTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Max temperature threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Max temperature threshold violation." --#SUMMARY "Max temperature threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 519 apcEnvMaxTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Max temperature threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Max temperature threshold violation cleared." --#SUMMARY "Max temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 520 apcEnvHighTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: High temperature threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: High temperature threshold violation." --#SUMMARY "High temperature threshold violation." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 521 apcEnvHighTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: High temperature threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: High temperature threshold violation cleared." --#SUMMARY "High temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 522 apcEnvLowTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: Low temperature threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Low temperature threshold violation." --#SUMMARY "Low temperature threshold violation." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 523 apcEnvLowTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low temperature threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Low temperature threshold violation cleared." --#SUMMARY "Low temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 524 apcEnvMinTempThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Min temperature threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Min temperature threshold violation." --#SUMMARY "Min temperature threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 525 apcEnvMinTempThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Min temperature threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The sixth argument is the sensor number. The seventh argument is the sensor name." --#TYPE "APC ENV: Min temperature threshold violation cleared." --#SUMMARY "Min temperature threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 526 apcEnvSTIncTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Short-term increasing temperature rate violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Short-term inc. temp rate violation." --#SUMMARY "Short-term inc. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 527 apcEnvSTIncTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Short-term increasing temperature rate cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Short-term inc. temp rate violation cleared." --#SUMMARY "Short-term inc. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 528 apcEnvSTDecTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Short-term decreasing temperature rate violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Short-term dec. temp rate violation." --#SUMMARY "Short-term dec. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 529 apcEnvSTDecTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Short-term decreasing temperature rate cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Short-term dec. temp rate violation cleared." --#SUMMARY "Short-term dec. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 530 apcEnvLTIncTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Long-term increasing temperature rate violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Long-term inc. temp rate violation." --#SUMMARY "Long-term inc. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 531 apcEnvLTIncTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Long-term increasing temperature rate cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Long-term inc. temp rate violation cleared." --#SUMMARY "Long-term inc. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 532 apcEnvLTDecTempRateViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Long-term decreasing temperature rate violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Long-term dec. temp rate violation." --#SUMMARY "Long-term dec. temp rate violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 533 apcEnvLTDecTempRateViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Long-term decreasing temperature rate cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Long-term dec. temp rate violation cleared." --#SUMMARY "Long-term dec. temp rate violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 534 apcEnvMaxHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Max humidity threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Max humidity threshold violation." --#SUMMARY "Max humidity threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 535 apcEnvMaxHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Max humidity threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Max humidity threshold violation cleared." --#SUMMARY "Max humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 536 apcEnvHighHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: High humidity threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: High humidity threshold violation." --#SUMMARY "High humidity threshold violation." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 537 apcEnvHighHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: High humidity threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: High humidity threshold violation cleared." --#SUMMARY "High humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 538 apcEnvLowHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: Low humidity threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Low humidity threshold violation." --#SUMMARY "Low humidity threshold violation." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 539 apcEnvLowHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low humidity threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Low humidity threshold violation cleared." --#SUMMARY "Low humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 540 apcEnvMinHumidityThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Min humidity threshold violated on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Min humidity threshold violation." --#SUMMARY "Min humidity threshold violation." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 541 apcEnvMinHumidityThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Min humidity threshold violation cleared on the sensor. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the sensor number. The fifth argument is the sensor name." --#TYPE "APC ENV: Min humidity threshold violation cleared." --#SUMMARY "Min humidity threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 542 apcBeaconConnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: A beacon has been connected to the device. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number." --#TYPE "APC: Beacon Connected." --#SUMMARY "Beacon Connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 543 apcBeaconDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "SEVERE: A beacon has been disconnected from the device. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. " --#TYPE "APC: Beacon Disconnected." --#SUMMARY "Beacon Disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 544 apcBeaconOn TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: A beacon has gone on (activated). The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. " --#TYPE "APC: Beacon On." --#SUMMARY "Beacon On." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 545 apcBeaconOff TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: A beacon has gone off (deactivated). The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. " --#TYPE "APC: Beacon Off." --#SUMMARY "Beacon Off." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 546 apcOutletStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: An outlet on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the outlet number. The fifth argument is the outlet name. The sixth argument is the current outlet state (1=ON, 2=OFF). The seventh argument is the configured normal outlet state (1=ON, 2=OFF)." --#TYPE "APC: Outlet has changed to its abnormal state." --#SUMMARY "Outlet has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 547 apcOutletStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: An outlet on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the outlet number. The fifth argument is the outlet name. The sixth argument is the current outlet state (1=ON, 2=OFF). The seventh argument is the configured normal outlet state (1=ON, 2=OFF)." --#TYPE "APC: Outlet has changed to its normal state." --#SUMMARY "Outlet has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 548 apcOutputRelayStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: An output relay on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the output relay number. The fifth argument is the output relay name. The sixth argument is the current output relay state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal output relay state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Output Relay has changed to its abnormal state." --#SUMMARY "Output Relay has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 549 apcOutputRelayStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: An output relay on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the output relay number. The fifth argument is the output relay name. The sixth argument is the current output relay state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal output relay state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Output Relay has changed to its normal state." --#SUMMARY "Output Relay has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 550 apcHardwareStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The device's hardware is improperly configured and operating outside normal bounds for the hardware. This can be caused by improper devices being connected to device ports or Alink Current limit detection. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is a hardware specific state code." --#TYPE "APC: Hardware is in an abnormal state." --#SUMMARY "Hardware is in an abnormal state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 551 apcHardwareStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's hardware is in its normal operational state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number." --#TYPE "APC EMS: Hardware is in a normal state." --#SUMMARY "Hardware is in its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 552 apcCriticalDiscreteInputContactStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: A discrete input contact on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input contact number. The fifth argument is the input contact name. The sixth argument is the input contact state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Discrete input contact has changed to its abnormal state." --#SUMMARY "Discrete input contact has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 553 apcCriticalDiscreteInputContactStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A discrete input contact on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input contact number. The fifth argument is the input contact name. The sixth argument is the input contact state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Discrete input contact has changed to its normal state." --#SUMMARY "Discrete input contact has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 554 apcWarningDiscreteInputContactStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: A discrete input contact on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input contact number. The fifth argument is the input contact name. The sixth argument is the input contact state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Discrete input contact has changed to its abnormal state." --#SUMMARY "Discrete input contact has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 555 apcWarningDiscreteInputContactStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A discrete input contact on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input contact number. The fifth argument is the input contact name. The sixth argument is the input contact state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Discrete input contact has changed to its normal state." --#SUMMARY "Discrete input contact has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 556 apcInformationalDiscreteInputContactStateAbnormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A discrete input contact on the device has changed to its abnormal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input contact number. The fifth argument is the input contact name. The sixth argument is the input contact state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Discrete input contact has changed to its abnormal state." --#SUMMARY "Discrete input contact has changed to its abnormal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 557 apcInformationalDiscreteInputContactStateNormal TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A discrete input contact on the device has changed to its normal state. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input contact number. The fifth argument is the input contact name. The sixth argument is the input contact state (1=CLOSED, 2=OPEN). The seventh argument is the configured normal input contact state (1=CLOSED, 2=OPEN)." --#TYPE "APC: Discrete input contact has changed to its normal state." --#SUMMARY "Discrete input contact has changed to its normal state." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 558 apcAnalogInputMaxThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Maximum threshold violated on an analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: Maximum threshold violation on analog input." --#SUMMARY "Max threshold violation on input." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 559 apcAnalogInputMaxThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Maximum threshold violation cleared on the analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: Max threshold violation cleared." --#SUMMARY "Max threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 560 apcAnalogInputHighThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: High threshold violated on an analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: High threshold violation on analog input." --#SUMMARY "High threshold violation on input." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 561 apcAnalogInputHighThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: High threshold violation cleared on the analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: High threshold violation cleared." --#SUMMARY "High threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 562 apcAnalogInputLowThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: Low threshold violated on an analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: Low threshold violation on analog input." --#SUMMARY "Low threshold violation on input." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 563 apcAnalogInputLowThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Low threshold violation cleared on the analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: Low threshold violation cleared." --#SUMMARY "Low threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 564 apcAnalogInputMinThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Minimum threshold violated on an analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: Min threshold violation on analog input." --#SUMMARY "Min threshold violation on input." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 565 apcAnalogInputMinThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Minimum threshold violation cleared on the analog input. The first argument is the host device serial number. The second argument is the host device name. The third argument is a secondary device id number. The fourth argument is the input number. The fifth argument is the input name." --#TYPE "APC: Min threshold violation cleared." --#SUMMARY "Min threshold violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 566 apcDeviceClearLostComms TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Lost communications reset command has been issued. The first argument is the device serial number. The second argument is the device name. The third argument is a secondary device id number." --#TYPE "APC: Lost communications reset command has been issued." --#SUMMARY "Lost communications reset command has been issued." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 567 apcDeviceConnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: A device has been connected to the host. The first argument is the host serial number. The second argument is the host name. The third argument is the device number. The fourth argument is the device name." --#TYPE "APC: Device Connected." --#SUMMARY "Device Connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 568 apcDeviceDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: A device has been disconnected from the host. The first argument is the host serial number. The second argument is the host name. The third argument is the device number. The fourth argument is the device name." --#TYPE "APC: Device Disconnected." --#SUMMARY "Device Disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 569 apcUnregisteredUserAccessDenied TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString05, mtrapargsString} DESCRIPTION "INFORMATIONAL: An unregistered user has tried to access the device. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argumant is the door identifier. The fifth argument is the unregistered user's RFID." --#TYPE "APC: Unregistered user." --#SUMMARY "Unregistered user." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 570 apcRegisteredUserAccessDenied TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString05, mtrapargsString} DESCRIPTION "INFORMATIONAL: A registered user has been denied access to the device. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argumant is the door identifier. The fifth argument is the user name." --#TYPE "APC: Access denied." --#SUMMARY "Access denied." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 571 apcRegisteredUserConfigChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsString05, mtrapargsString} DESCRIPTION "INFORMATIONAL: Registered user configuration change. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the user name." --#TYPE "APC: Registered user configuration change." --#SUMMARY "Registered user configuration change." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 572 apcDoorUnlocked TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString05, mtrapargsInteger02, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door has been unlocked. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier. The fifth argument is the door access user. The sixth argument is the door access type." --#TYPE "APC: Door unlocked." --#SUMMARY "Door unlocked." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 573 apcDoorLocked TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString05, mtrapargsInteger02, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door has been locked. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier. The fifth argument is the door access user. The sixth argument is the door access type." --#TYPE "APC: Door locked." --#SUMMARY "Door locked." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 574 apcHandleOpened TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door handle has been opened. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Door handle opened." --#SUMMARY "Door handle opened." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 575 apcHandleClosed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door handle has been closed. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Door handle closed." --#SUMMARY "Door handle closed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 576 apcDoorOpened TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door has been opened. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Door opened." --#SUMMARY "Door opened." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 577 apcDoorClosed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door has been closed. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Door closed." --#SUMMARY "Door closed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 578 -- trap number 579 available apcKeyOverrideUnlocked TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: Key override unlock has occurred. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Key override unlock has occurred." --#SUMMARY "Key override unlock has occurred." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 580 apcKeyOverrideLocked TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: Key override lock has occurred. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Key override lock has occurred." --#SUMMARY "Key override lock has occurred." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 581 apcForcedEntry TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: A forced entry condition has occurred. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: A forced entry condition has occurred." --#SUMMARY "A forced entry has occurred." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 582 apcForcedEntryCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A forced entry condition has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: A forced entry condition has been cleared." --#SUMMARY "A forced entry has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 583 apcRelockTimeout TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: A relock timout has occurred. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Relock timout." --#SUMMARY "Relock timeout." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 584 apcRelockTimeoutCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A relock timout has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: relock timout has been cleared." --#SUMMARY "Relock timout has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 585 apcDoorSenseDisconnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: A door sensor was disconnected. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: A door sensor was disconnected." --#SUMMARY "A door sensor was disconnected." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 586 apcDoorSenseConnected TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A forced entry condition has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: A door sensor was connected." --#SUMMARY "A door sensor was connected." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 587 apcDoorLostComms TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: Communications have been lost with the door. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: A door has lost communications." --#SUMMARY "A door has lost communications." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 588 apcDoorEstablishedComms TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: Communications have been established with the door. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: A door has established communications." --#SUMMARY "A door has established communications." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 589 apcRegisteredUserAccessChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsString05, mtrapargsString} DESCRIPTION "INFORMATIONAL: Registered user access changed. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the user name." --#TYPE "APC: Registered user access change." --#SUMMARY "Registered user access change." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 590 apcUnregisteredUserStatusChange TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsString05, mtrapargsString} DESCRIPTION "INFORMATIONAL: Unregistered user status changed. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the user name." --#TYPE "APC: Unregistered user status change." --#SUMMARY "Unregistered user status change." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 591 apcDeviceClearUserConfigs TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger04, mtrapargsString } DESCRIPTION "INFORMATIONAL: User configurations reset command has been issued. The first argument is the device serial number. The second argument is the device name. The third argument is a secondary device id number." --#TYPE "APC: User configurations reset command has been issued." --#SUMMARY "User configurations reset command has been issued." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 592 -- Add more events starting at 600 for UPS Devices upsBatteryTempSensorFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The battery temperature sensor fault exists." --#TYPE "APC UPS: The battery temperature sensor fault exists." --#SUMMARY "The battery temperature sensor fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 600 upsBatteryTempSensorFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The battery temperature sensor fault cleared." --#TYPE "APC UPS: The battery temperature sensor fault cleared." --#SUMMARY "The battery temperature sensor fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 601 upsBatterySoftBusStartFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A battery bus soft start fault exists." --#TYPE "APC UPS: A battery bus soft start fault exists." --#SUMMARY "A battery bus soft start fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 602 upsBatterySoftBusStartFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A battery bus soft start fault exists cleared." --#TYPE "APC UPS: A battery bus soft start fault exists cleared." --#SUMMARY "A battery bus soft start fault exists cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 603 apcOutputShortCircuit TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: An output short circuit condition exists." --#TYPE "APC Device: An output short circuit condition exists." --#SUMMARY "An output short circuit condition exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 604 apcOutputShortCircuitCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An output short circuit condition cleared." --#TYPE "APC Device: An output short circuit condition cleared." --#SUMMARY "An output short circuit condition cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 605 apcOutputRelayFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: An output relay (or its driver) fault exists." --#TYPE "APC Device: An output relay (or its driver) fault exists." --#SUMMARY "An output relay (or its driver) fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 606 apcOutputRelayFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An output relay (or its driver) fault cleared." --#TYPE "APC Device: An output relay (or its driver) fault cleared." --#SUMMARY "An output relay (or its driver) fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 607 upsPfcFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A PFC fault exists." --#TYPE "APC UPS: A PFC fault exists." --#SUMMARY "A PFC fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 608 upsPfcFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The PFC fault cleared." --#TYPE "APC UPS: The PFC fault cleared." --#SUMMARY "The PFC fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 609 apcDcBusOverVoltage TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The DC bus voltage is too high." --#TYPE "APC Devcie: DC bus voltage is too high." --#SUMMARY "The DC bus voltage is too high." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 610 apcDcBusOverVoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The DC bus voltage is too high cleared." --#TYPE "APC Device: The DC bus voltage is too high cleared." --#SUMMARY "The DC bus voltage is too high cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 611 upsInverterFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The inverter fault exists." --#TYPE "APC UPS: The inverter fault exists." --#SUMMARY "The inverter fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 612 upsInverterFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The inverter fault cleared." --#TYPE "APC UPS: The inverter fault cleared." --#SUMMARY "The inverter fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 613 apcAdConverterFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The A/D converter fault exists." --#TYPE "APC Device: The A/D converter fault exists." --#SUMMARY "The A/D converter fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 614 apcAdConverterFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: The A/D converter fault cleared." --#TYPE "APC Device: The A/D converter fault cleared." --#SUMMARY "The A/D converter fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 615 apcLogicPowerSupplyFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A logic power supply fault exists." --#TYPE "APC Device: A logic power supply fault exists." --#SUMMARY "A logic power supply fault exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 616 apcLogicPowerSupplyFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: A logic power supply fault cleared." --#TYPE "APC Device: A logic power supply fault cleared." --#SUMMARY "A logic power supply fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 617 apcTransformerDCImbalanceFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The DC component of the transformer's current is too high." --#TYPE "APC Device: The DC component of the tformer's curr is too high." --#SUMMARY "The DC component of the transformer's current is too high." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 618 apcTransformerDCImbalanceFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The DC component of the transformer's current is normal." --#TYPE "APC Device: The DC component of the tformer's curr is normal." --#SUMMARY "The DC component of the transformer's current is normal." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 619 upsBackfeedRelayFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The backfeed relay (or its driver) has a fault." --#TYPE "UPS Device: The backfeed relay (or its driver) has a fault." --#SUMMARY "The backfeed relay (or its driver) has a fault." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 620 upsBackfeedRelayFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: The backfeed relay (or its driver) has a fault cleared." --#TYPE "UPS Device: The bfeed rly (or its drver) has a flt cleared." --#SUMMARY "The backfeed relay (or its driver) has a fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 621 upsBypassRelayFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A bypass relay (or its driver) has a fault." --#TYPE "APC Device: A bypass relay (or its driver) has a fault." --#SUMMARY "A bypass relay (or its driver) has a fault." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 622 upsBypassRelayFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: A bypass relay (or its driver) has a fault cleared." --#TYPE "APC Device: A bypass relay (or its driver) has a fault cleared." --#SUMMARY "A bypass relay (or its driver) has a fault cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 623 xPDUBranchCurrentMinAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The current in a branch circuit is outside the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC XPDU: Branch circuit minimum current alarm." --#SUMMARY "Branch circuit current is below threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 626 xPDUBranchCurrentMinAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a branch circuit is back within the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Branch circuit minimum current alarm cleared." --#SUMMARY "Branch circuit low current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 627 xPDUBranchCurrentMaxAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The current in a branch circuit is outside the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, above which the alarm was generated." --#TYPE "APC XPDU: Branch circuit maximum current alarm." --#SUMMARY "Branch circuit current is above threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 628 xPDUBranchCurrentMaxAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xPDUIdentSerialNumber, xPDUIdentProductName, mtrapargsInteger, mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a branch circuit is back within the limits specified for that branch circuit. The first argument is the host device serial number. The second argument is the host device name. The third argument is the panel position of the branch circuit (1-based index). The fourth argument is the measured current in tenths of Amps." --#TYPE "APC XPDU: Branch circuit maximum current alarm cleared." --#SUMMARY "Branch circuit high current alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 629 rPDUOutletLowLoad TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletStatusIndex, mtrapargsString } DESCRIPTION "WARNING: A Rack PDU has violated the outlet low load threshold. The first argument is the serial number. The second argument is the device name. The third argument is the outlet number." --#TYPE "APC Rack PDU: Violation of outlet low load threshold." --#SUMMARY "A Rack PDU has violated the outlet low load threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 630 rPDUOutletLowLoadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletStatusIndex, mtrapargsString } DESCRIPTION "INFORMATIONAL: The outlet low load condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the outlet number." --#TYPE "APC Rack PDU: Low load condition cleared." --#SUMMARY "The low load condition on a Rack PDU has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 631 rPDUOutletNearOverload TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletStatusIndex, mtrapargsString } DESCRIPTION "WARNING: A Rack PDU is near an outlet overload condition. The first argument is the serial number. The second argument is the device name. The third argument is the outlet number." --#TYPE "APC Rack PDU: Near an overload condition." --#SUMMARY "A Rack PDU is near an outlet overload condition." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 632 rPDUOutletNearOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletStatusIndex, mtrapargsString } DESCRIPTION "INFORMATIONAL: The outlet near overload condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the outlet number." --#TYPE "APC Rack PDU: Outlet Near overload condition has cleared." --#SUMMARY "Rack PDU outlet near overload condition has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 633 rPDUOutletOverload TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletStatusIndex, mtrapargsString } DESCRIPTION "SEVERE: A Rack PDU is in an overload condition. The first argument is the serial number. The second argument is the device name. The third argument is the outlet number." --#TYPE "APC Rack PDU: Outlet Overload condition." --#SUMMARY "A Rack PDU is in an outlet overload condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 634 rPDUOutletOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { rPDUIdentSerialNumber, rPDUIdentName, rPDUOutletStatusIndex, mtrapargsString } DESCRIPTION "INFORMATIONAL: The outlet overload condition on a Rack PDU has been cleared. The first argument is the serial number. The second argument is the device name. The third argument is the outlet number." --#TYPE "APC Rack PDU: Overload condition has cleared." --#SUMMARY "The outlet overload condition on a Rack PDU has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 635 apcTestTrap TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsInteger02, mtrapargsString } DESCRIPTION "INFORMATIONAL: Trap used to test SNMP trap functionality. The first argument is a place holder for test variables." --#TYPE "APC: Test trap." --#SUMMARY "Test Trap." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 636 baseFanFailureCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Base module fan has been repaired" --#TYPE "APC UPS: Base module fan has been repaired" --#SUMMARY "The base module fan has been repaired." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 637 atsLowLoad TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, atsOutputPhaseIndex, atsOutputBank, mtrapargsString } DESCRIPTION "WARNING: ATS has violated the bank or phase low load threshold. The first argument is the serial number. The second argument is the product name. The third argument is the phase number The fourth argument is the bank number. -1 is returned if bank does not exist." --#TYPE "APC ATS: Violation of bank or phase low load threshold." --#SUMMARY "ATS has violated the bank or phase low load threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 638 atsLowLoadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, atsOutputPhaseIndex, atsOutputBank, mtrapargsString } DESCRIPTION "INFORMATIONAL: The bank or phase low load condition on an ATS has been cleared. The first argument is the serial number. The second argument is the product name. The third argument is the phase number The fourth argument is the bank number. -1 is returned if bank does not exist." --#TYPE "APC ATS: Low load condition cleared." --#SUMMARY "The low load condition on an ATS has been cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 639 atsNearOverload TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, atsOutputPhaseIndex, atsOutputBank, mtrapargsString } DESCRIPTION "WARNING: ATS has violated the bank or phase near overload threshold. The first argument is the serial number. The second argument is the product name. The third argument is the phase number The fourth argument is the bank number. -1 is returned if bank does not exist." --#TYPE "APC ATS: Near an overload condition." --#SUMMARY "ATS is near a bank or phase overload condition." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 640 atsNearOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, atsOutputPhaseIndex, atsOutputBank, mtrapargsString } DESCRIPTION "INFORMATIONAL: The bank or phase near overload condition on an ATS has been cleared. The first argument is the serial number. The second argument is the product name. The third argument is the phase number The fourth argument is the bank number. -1 is returned if bank does not exist." --#TYPE "APC ATS: Bank or phase near overload condition has cleared." --#SUMMARY "ATS bank or phase near overload condition has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 641 atsOverload TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, atsOutputPhaseIndex, atsOutputBank, mtrapargsString } DESCRIPTION "SEVERE: ATS is in an overload condition. The first argument is the serial number. The second argument is the product name. The third argument is the phase number. The fourth argument is the bank number. -1 is returned if bank does not exist." --#TYPE "APC ATS: Bank or Phase Overload condition." --#SUMMARY "ATS is in overload condition." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 642 atsOverloadCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, atsOutputPhaseIndex, atsOutputBank, mtrapargsString } DESCRIPTION "INFORMATIONAL: The bank or phase overload condition on an ATS has been cleared. The first argument is the serial number. The second argument is the product name. The third argument is the phase number. The fourth argument is the bank number. -1 is returned if bank does not exist." --#TYPE "APC ATS: Overload condition has cleared." --#SUMMARY "The bank or phase overload condition on an ATS has cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 643 atsRMSOverVoltage TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Overvoltage condition violated. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: Overvoltage condition violated." --#SUMMARY "Overvoltage condition violated." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 644 atsRMSOverVoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Overvoltage condition cleared. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: Overvoltage condition cleared." --#SUMMARY "Overvoltage condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 645 atsRMSUnderVoltage TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: Undervoltage condition violated. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: Undervoltage condition violated." --#SUMMARY "Undervoltage condition violated." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 646 atsRMSUnderVoltageCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: Undervoltage condition cleared. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: Undervoltage condition cleared." --#SUMMARY "Undervoltage condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 647 atsRMSOverFrequency TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: OverFrequency condition violated. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: OverFrequency condition violated." --#SUMMARY "OverFrequency condition violated." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 648 atsRMSOverFrequencyCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: OverFrequency condition cleared. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: OverFrequency condition cleared." --#SUMMARY "OverFrequency condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 649 atsRMSUnderFrequency TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: UnderFrequency condition violated. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: UnderFrequency condition violated." --#SUMMARY "UnderFrequency condition violated." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 650 atsRMSUnderFrequencyCleared TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: UnderFrequency condition cleared. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: UnderFrequency condition cleared." --#SUMMARY "UnderFrequency condition cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 651 -- MODULAR POWER DISTRIBUTION SYSTEM isxModularDistributionCommLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: Communication with a metering segment of the modular distribution system has been lost. The first argument is the host device serial number. The second argument is the host device name. The third argument is the segment number. The fourth argument describes the modules served by this metering segment." --#TYPE "APC MDS: Com lost in modular distribution system." --#SUMMARY "Modular distribution communication lost." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 652 isxModularDistributionCommEstablished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: Communication with a metering segment of the modular distribution system has been restored. The first argument is the host device serial number. The second argument is the host device name. The third argument is the segment number. The fourth argument describes the modules served by this metering segment." --#TYPE "APC MDS: Com restored in modular distribution system." --#SUMMARY "Modular distribution communication restored." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 653 isxModularDistributionModuleInserted TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A distribution module has been inserted into the system. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module location number." --#TYPE "APC MDS: Distribution module inserted." --#SUMMARY "Distribution module inserted." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 654 isxModularDistributionModuleRemoved TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A distribution module has been removed from the system. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module location number." --#TYPE "APC MDS: Distribution module removed." --#SUMMARY "Distribution module removed." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 655 isxModularBreakerOpenAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: A distribution module breaker is open and in an alarm condition. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the module breaker(s) (1=L1, 2=L2, 3=L3, 4=L12, 5=L23, 6=L123). The fifth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution breaker open alarm." --#SUMMARY "Distribution breaker open alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 656 isxModularBreakerOpenAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: An alarm caused by a distribution breaker being open has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker(s) (1=L1, 2=L2, 3=L3, 4=L12, 5=L23, 6=L123). The fifth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution breaker open alarm cleared." --#SUMMARY "Distribution breaker open alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 657 isxModularMinCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: The current in a distribution module is below the minimum/critical limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution minimum current alarm." --#SUMMARY "Distribution current is below the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 658 isxModularMinCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution module is no longer below the minimum/critical limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution minimum current alarm cleared." --#SUMMARY "Distribution current no longer below the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 659 isxModularLowCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: The current in a distribution module is below the low/warning limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution low current alarm." --#SUMMARY "Distribution current is below the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 660 isxModularLowCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution module is no longer below the low/warning limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution low current alarm cleared." --#SUMMARY "Distribution current no longer below the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 661 isxModularHighCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: The current in a distribution module is above the high/warning limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution high current alarm." --#SUMMARY "Distribution current is above the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 662 isxModularHighCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution module is no longer above the high/warning limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution high current alarm cleared." --#SUMMARY "Distribution current no longer above the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 663 isxModularMaxCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: The current in a distribution module is above the maximum/critical limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution maximum current alarm." --#SUMMARY "Distribution current is above the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 664 isxModularMaxCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution module is no longer above the maximum/critical limit specified for the circuit/cable. The first argument is the host device serial number. The second argument is the host device name. The third argument is the module number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the circuit/cable fed by this breaker." --#TYPE "APC MDS: Distribution maximum current alarm cleared." --#SUMMARY "Distribution current no longer above the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 665 isxModularSubfeedBreakerOpenAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: A distribution subfeed breaker is open and in an alarm condition. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed breaker open alarm." --#SUMMARY "Distribution subfeed breaker open alarm." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 666 isxModularSubfeedBreakerOpenAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: An alarm caused by a distribution subfeed breaker being open has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed breaker open alarm cleared." --#SUMMARY "Distribution subfeed breaker open alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 667 isxModularSubfeedMinCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: The current in a distribution subfeed is below the minimum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed minimum current alarm." --#SUMMARY "Distribution subfeed current is below the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 668 isxModularSubfeedMinCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution subfeed is no longer below the minimum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed minimum current alarm cleared." --#SUMMARY "Distribution subfeed current no longer below the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 669 isxModularSubfeedLowCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: The current in a distribution subfeed is below the low/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed low current alarm." --#SUMMARY "Distribution subfeed current is below the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 670 isxModularSubfeedLowCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution subfeed is no longer below the low/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed low current alarm cleared." --#SUMMARY "Distribution subfeed current is no longer below the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 671 isxModularSubfeedHighCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "WARNING: The current in a distribution subfeed is above the high/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed high current alarm." --#SUMMARY "Distribution subfeed current is above the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 672 isxModularSubfeedHighCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution subfeed is no longer above the high/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed high current alarm cleared." --#SUMMARY "Distribution subfeed current no longer above the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 673 isxModularSubfeedMaxCurrentThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsInteger02, mtrapargsString04, mtrapargsString } DESCRIPTION "SEVERE: The current in a distribution subfeed is above the maximum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The sixth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed maximum current alarm." --#SUMMARY "Distribution subfeed current is above the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 674 isxModularSubfeedMaxCurrentThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString04, mtrapargsString } DESCRIPTION "INFORMATIONAL: The current in a distribution subfeed is no longer above the maximum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the subfeed number. The fourth argument is the breaker/phase index (1=L1, 2=L2, 3=L3). The fifth argument is the load name associated with the subfeed." --#TYPE "APC MDS: Distribution subfeed maximum current alarm cleared." --#SUMMARY "Distribution subfeed current no longer above the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 675 isxModularTotalOutputCurrentMinThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The total output current of the distribution is below the minimum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC MDS: Total distribution output minimum current alarm." --#SUMMARY "Distribution total current is below the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 676 isxModularTotalOutputCurrentMinThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The total output current of the distribution is no longer below the minimum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Total output minimum current alarm cleared." --#SUMMARY "Distribution total current no longer below the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 677 isxModularTotalOutputCurrentLowThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: The total output current of the distribution is below the low/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC MDS: Total output low current alarm." --#SUMMARY "Distribution total current is below the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 678 isxModularTotalOutputCurrentLowThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The total output current of the distribution is no longer below the low/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Total output low current alarm cleared." --#SUMMARY "Distribution total current no longer below the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 679 isxModularTotalOutputCurrentHighThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: The total output current of the distribution is above the high/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC MDS: Total output high current alarm." --#SUMMARY "Distribution total current is above the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 680 isxModularTotalOutputCurrentHighThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The total output current of the distribution is no longer above the high/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Total output high current alarm cleared." --#SUMMARY "Distribution total current no longer above the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 681 isxModularTotalOutputCurrentMaxThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The total output current of the distribution is above the maximum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Amps, from which the alarm was generated." --#TYPE "APC MDS: Total output maximum current alarm." --#SUMMARY "Distribution total current is above the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 682 isxModularTotalOutputCurrentMaxThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The total output current of the distribution is no longer above the maximum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Total output maximum current alarm cleared." --#SUMMARY "Distribution total current no longer above the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 683 isxModularOutputVoltageMinThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The distribution output voltage is below the minimum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC MDS: Distribution minimum output voltage alarm." --#SUMMARY "Distribution output voltage is below the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 684 isxModularOutputVoltageMinThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The distribution output voltage is no longer below the minimum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Distribution minimum output voltage alarm cleared." --#SUMMARY "Distribution output voltage no longer below the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 685 isxModularOutputVoltageLowThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: The distribution output voltage is below the low/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC MDS: Distribution low output voltage alarm." --#SUMMARY "Distribution output voltage is below the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 686 isxModularOutputVoltageLowThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The distribution output voltage is no longer below the low/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Distribution low output voltage alarm cleared." --#SUMMARY "Distribution output voltage no longer below the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 687 isxModularOutputVoltageHighThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: The distribution output voltage is above the high/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC MDS: Distribution high output voltage alarm." --#SUMMARY "Distribution output voltage is above the warning threshold." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 688 isxModularOutputVoltageHighThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The distribution output voltage is no longer above the high/warning limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Distribution high output voltage alarm cleared." --#SUMMARY "Distribution output voltage no longer above the warning threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 689 isxModularOutputVoltageMaxThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: The distribution output voltage is above the maximum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3). The fourth argument is the threshold, in tenths of Volts, from which the alarm was generated." --#TYPE "APC MDS: Distribution maximum output voltage alarm." --#SUMMARY "Distribution output voltage is above the critical threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 690 isxModularOutputVoltageMaxThresholdViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: The distribution output voltage is no longer above the maximum/critical limit specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the phase index (1=L1, 2=L2, 3=L3)." --#TYPE "APC MDS: Distribution maximum output voltage alarm cleared." --#SUMMARY "Distribution output voltage no longer above the critical threshold." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 691 apcDoorClosedImproperly TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: A door has been closed improperly. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Door closed improperly." --#SUMMARY "Door closed improperly." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 692 apcDoorClosedImproperlyCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: A door is no longer closed improperly. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: Door no longer closed improperly." --#SUMMARY "Door no longer closed improperly." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 693 apcUserScheduleViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: A user has had a door opened past the scheduled access period. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: User schedule violated." --#SUMMARY "User schedule violated." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 694 apcUserScheduleViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString04, mtrapargsInteger, mtrapargsString} DESCRIPTION "INFORMATIONAL: User schedule violation has been cleared. The first argument is the host device serial number. The second argument is the host device name. The third argument is the host device location. The fourth argument is the door identifier, (1=front, 2=rear)." --#TYPE "APC: User schedule violation cleared." --#SUMMARY "User schedule violation cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 695 isxModularOutputFrequencyThresholdViolation TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: The distribution output frequency is outside of the operating range specified. The first argument is the host device serial number. The second argument is the host device name. The third argument is the threshold, in tenths of Hertz, from which the alarm was generated." --#TYPE "APC MDS: Distribution output frequency out of range." --#SUMMARY "Distribution output frequency out of range." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 696 isxModularOutputFrequencyViolationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "INFORMATIONAL: The distribution output frequency is no longer out of range. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC MDS: Distribution output frequency no longer out of range." --#SUMMARY "Distribution output frequency no longer out of range." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 697 atsSourceStatusFail TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: ATS Source failed. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: ATS Source failed." --#SUMMARY "ATS Source failed." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 698 atsSourceStatusOk TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: ATS Source OK. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the source: 0=A, 1=B." --#TYPE "APC ATS: ATS Source OK." --#SUMMARY "ATS Source OK." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 699 atsHardwareStatusFail TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: ATS display board hardware failed. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the failed hardware: 0= Phase LEDs/Push-button hardware failure 1= Seven-segment display hardware failure." --#TYPE "APC ATS: ATS display board hardware failed." --#SUMMARY "ATS display board hardware failed." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 700 atsHardwareStatusOk TRAP-TYPE ENTERPRISE apc VARIABLES { atsIdentSerialNumber, atsConfigProductName, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: ATS display board hardware ok. The first argument is the serial number. The second argument is the product name. The third argument is an integer representing the hardware: 0= Phase LEDs/Push-button hardware failure 1= Seven-segment display hardware failure." --#TYPE "APC ATS: ATS display board hardware ok." --#SUMMARY "ATS display board hardware ok." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 701 atsControllerRestart TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: ATS Controller restarted." --#TYPE "APC ATS: ATS Controller restarted." --#SUMMARY "ATS Controller restarted." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 702 xATSS1BadPhaseRotation TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString } DESCRIPTION "SEVERE: The device's source 1 phase rotation is bad. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: S1 bad phase rotation alarm." --#SUMMARY "Phase rotation on source 1 is bad." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 724 xATSS1BadPhaseRotationCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString} DESCRIPTION "INFORMATIONAL: The device's source 1 phase rotation is back to normal. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: S1 phase rotation back to normal." --#SUMMARY "S1 phase rotation back to normal." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 725 xATSS1BadPhaseBalance TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsInteger, mtrapargsString} DESCRIPTION "SEVERE: The device's source 1 phase balance is out of bounds. The first argument is the host device serial number. The second argument is the host device name. The third argument is the minimum phase balance as a percentage." --#TYPE "APC XATS: S1 phase imbalance exceeds threshold alarm." --#SUMMARY "Phase imbalance on source 1 exceeds threshold." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 726 xATSS1BadPhaseBalanceCleared TRAP-TYPE ENTERPRISE apc VARIABLES { xATSIdentSerialNumber, xATSIdentProductName, mtrapargsString} DESCRIPTION "INFORMATIONAL: The device's source 1 phase balance is back to normal. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC XATS: S1 phase balance back to normal." --#SUMMARY "S1 phase balance back to normal." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 727 isxModularTransformerOverheating TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "SEVERE: The distribution transformer temperature is too hot. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC MDS: Transformer overheating." --#SUMMARY "Distribution transformer temperature is too hot." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 728 isxModularTransformerOverheatingCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "INFORMATIONAL: The distribution transformer temperature has returned to normal. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC MDS: Transformer temperature has returned to normal." --#SUMMARY "Distribution transformer temperature has returned to normal." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 729 apcInternalCommunicationFault TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: An internal UPS communication fault exists." --#TYPE "APC Device: An internal UPS communication fault exists." --#SUMMARY "An internal UPS communication fault exists." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 730 apcInternalCommunicationFaultCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: An internal UPS communication fault no longer exists." --#TYPE "APC Device:An internal UPS communication fault no longer exists." --#SUMMARY "An internal UPS communication fault no longer exists." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 731 upsOutletGroupCommand TRAP-TYPE ENTERPRISE apc VARIABLES { upsOutletGroupControlIndex, mtrapargsString } DESCRIPTION "WARNING: The specified Outlet Group command has been issued." --#TYPE "APC UPS: Outlet Group command issued." --#SUMMARY "Outlet Group command issued." --#ARGUMENTS { } --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 732 onbatterycommunicationLost TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: Communication to the UPS when the UPS is on Battery. Steps to reestablish communication are in progress." --#TYPE "APC UPS: Communication lost" --#SUMMARY "Communication lost between the agent and the UPS when UPS is on Battery." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 733 upsCriticalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "SEVERE: A UPS critical condition was detected. The first variable is the error condition text message. The second variable is the error number." --#TYPE "UPS: A critical condition has been detected." --#SUMMARY "A critical condition has been detected." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 734 upsCriticalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A UPS critical condition has been cleared. The first variable is the fault condition." --#TYPE "UPS: A critical condition has been cleared." --#SUMMARY "A critical condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 735 upsWarningCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: A UPS warning condition has been detected. The first variable is the fault condition." --#TYPE "UPS: A warning condition has been detected." --#SUMMARY "A warning condition has been detected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 736 upsWarningConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "WARNING: A UPS warning condition has been cleared. The first variable is the fault condition." --#TYPE "UPS: A warning condition has been cleared." --#SUMMARY "A warning condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 737 upsInformationalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A UPS informational condition has been detected. The first variable is the fault condition." --#TYPE "UPS: Informational condition detected." --#SUMMARY "An informational condition has been detected." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 738 upsInformationalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsInteger, mtrapargsString } DESCRIPTION "INFORMATIONAL: A UPS informational condition has been cleared. The first variable is the fault condition." --#TYPE "UPS: Informational condition cleared." --#SUMMARY "An informational condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 739 isxcInformationalAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "INFORMATIONAL: An ISXC Alarm exists. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Informational Alarm exists." --#SUMMARY "An ISXC Informational Alarm exists." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 740 isxcInformationalAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "INFORMATIONAL: An ISXC Alarm has been cleared. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Informational Alarm has been cleared." --#SUMMARY "An ISXC Informational Alarm has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 741 isxcWarningAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "WARNING: An ISXC Alarm exists. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Warning Alarm exists." --#SUMMARY "An ISXC Warning Alarm exists." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 742 isxcWarningAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "WARNING: An ISXC Alarm has been cleared. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Warning Alarm has been cleared." --#SUMMARY "An ISXC Warning Alarm has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 743 isxcErrorAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "ERROR: An ISXC Alarm exists. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Error Alarm exists." --#SUMMARY "An ISXC Error Alarm exists." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 744 isxcErrorAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "ERROR: An ISXC Alarm has been cleared. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Error Alarm has been cleared." --#SUMMARY "An ISXC Error Alarm has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 745 isxcCriticalAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "CRITICAL: An ISXC Alarm exists. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Critical Alarm exists." --#SUMMARY "An ISXC Critical Alarm exists." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 746 isxcCriticalAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "CRITICAL: An ISXC Alarm has been cleared. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Critical Alarm has been cleared." --#SUMMARY "An ISXC Critical Alarm has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 747 isxcFailureAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "FAILURE: An ISXC Alarm exists. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Failure Alarm exists." --#SUMMARY "An ISXC Failure Alarm exists." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 748 isxcFailureAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsOctetString, mtrapargsInteger, mtrapargsString03, mtrapargsOctetString02, mtrapargsString04, mtrapargsOctetString03, mtrapargsString05, mtrapargsString06, mtrapargsString07, mtrapargsOctetString04, mtrapargsOctetString05, mtrapargsString08, mtrapargsOctetString06, mtrapargsOctetString07, mtrapargsInteger02, mtrapargsInteger03, mtrapargsOctetString08, mtrapargsString } DESCRIPTION "FAILURE: An ISXC Alarm has been cleared. The first argument is the unique ISXC alarm ID. The second argument is the ISXC alarm label as a UTF8 string. The third argument is the ISXC alarm code. The fourth argument is the unique ISXC device ID. The fifth argument is the ISXC device label as a UTF8 string. The sixth argument is the ISXC parent host. The seventh argument is the ISXC device type as a UTF8 string. The eighth argument is the device serial number. The ninth argument is the device model number. The tenth argument is the device host. The eleventh argument is the device location as a UTF8 string. The twelfth argument is the device contact as a UTF8 string. The thirteenth argument is the unique ISXC sensor ID. The fourteenth argument is the ISXC sensor label as a UTF8 string. The fifteenth argument is the sensor value as a UTF8 string. The sixteenth argument is the ISXC alarm start time. The seventeenth argument is the ISXC alarm resolution time. The eighteenth argument is the description as a UTF8 string." --#TYPE "APC ISXC: An ISXC Failure Alarm has been cleared." --#SUMMARY "An ISXC Failure Alarm has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 749 -- rPDU2g Trap Section rpduCriticalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "SEVERE: A RPDU critical condition has been detected. The first variable is the serial number. The second variable is the device name. The third variable is the error number. The fourth variable is the device number. The fifth variable is the instance number. The sixth variable is the trap text message." --#TYPE "RPDU: A critical condition has been detected." --#SUMMARY "A critical condition has been detected." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 750 rpduCriticalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A RPDU critical condition has been cleared. The first variable is the serial number. The second variable is the device name. The third variable is the error number. The fourth variable is the device number. The fifth variable is the instance number. The sixth variable is the trap text message." --#TYPE "RPDU: A critical condition has been cleared." --#SUMMARY "A critical condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 751 rpduWarningCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: A RPDU warning condition has been detected. The first variable is the serial number. The second variable is the device name. The third variable is the error number. The fourth variable is the device number. The fifth variable is the instance number. The sixth variable is the trap text message." --#TYPE "RPDU: A warning condition has been detected." --#SUMMARY "A warning condition has been detected." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 752 rpduWarningConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "WARNING: A RPDU warning condition has been cleared. The first variable is the serial number. The second variable is the device name. The third variable is the error number. The fourth variable is the device number. The fifth variable is the instance number. The sixth variable is the trap text message." --#TYPE "RPDU: A warning condition has been cleared." --#SUMMARY "A warning condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 753 rpduInformationalCondition TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A RPDU informational condition has been detected. The first variable is the serial number. The second variable is the device name. The third variable is the error number. The fourth variable is the device number. The fifth variable is the instance number. The sixth variable is the trap text message." --#TYPE "RPDU: Informational condition detected." --#SUMMARY "An informational condition has been detected." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 754 rpduInformationalConditionCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsInteger, mtrapargsInteger02, mtrapargsInteger03, mtrapargsString } DESCRIPTION "INFORMATIONAL: A RPDU informational condition has been cleared. The first variable is the serial number. The second variable is the device name. The third variable is the error number. The fourth variable is the device number. The fifth variable is the instance number. The sixth variable is the trap text message." --#TYPE "RPDU: Informational condition cleared." --#SUMMARY "An informational condition has been cleared." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 755 isxModularCoolingFanAlarm TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "SEVERE: The device's internal cooling fans have failed. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC MDS: Cooling fan failure." --#SUMMARY "Cooling fan failure." --#ARGUMENTS { } --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 756 isxModularCoolingFanAlarmCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString02, mtrapargsString03, mtrapargsString } DESCRIPTION "INFORMATIONAL: The device's internal cooling fans are now functioning properly. The first argument is the host device serial number. The second argument is the host device name." --#TYPE "APC MDS: Cooling fan alarm cleared." --#SUMMARY "Cooling fan alarm cleared." --#ARGUMENTS { } --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 757 upsFirmwareUpdateStarted TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: Updating UPS firmware." --#TYPE "APC UPS: Updating firmware" --#SUMMARY "The UPS has started a firmware update." --#SEVERITY WARNING --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE DEGRADED ::= 758 upsFirmwareUpdateFinished TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: Finished updating UPS firmware." --#TYPE "APC UPS: Finished firmware update" --#SUMMARY "The UPS has finished the firmware update." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 759 upsFirmwareUpdateSucceeded TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: UPS firmware update succeeded." --#TYPE "APC UPS: Firmware update succeeded" --#SUMMARY "The UPS has successfully completed a firmware update." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 760 upsFirmwareUpdateFailed TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "WARNING: UPS firmware update failed." --#TYPE "APC UPS: Firmware update failed" --#SUMMARY "The UPS failed to complete a firmware update." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 761 upsHasNoValidFirmware TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "SEVERE: UPS has no valid firmware." --#TYPE "APC UPS: No firmware" --#SUMMARY "The UPS does not have a valid firmware." --#SEVERITY SEVERE --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE NONOPERATIONAL ::= 762 upsHasNoValidFirmwareCleared TRAP-TYPE ENTERPRISE apc VARIABLES { mtrapargsString } DESCRIPTION "INFORMATIONAL: UPS now has a valid firmware." --#TYPE "APC UPS: Now has valid firmware" --#SUMMARY "The UPS now has a valid firmware." --#SEVERITY INFORMATIONAL --#TIMEINDEX 1 --#HELP "" --#HELPTAG 0 --#STATE OPERATIONAL ::= 763 END
