PDU2-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE FROM SNMPv2-SMI enterprises, Integer32, Unsigned32, IpAddress FROM SNMPv2-SMI MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF TEXTUAL-CONVENTION, DisplayString, MacAddress, TruthValue, RowPointer FROM SNMPv2-TC InetAddressType, InetAddress, InetPortNumber FROM INET-ADDRESS-MIB sysContact, sysName, sysLocation FROM RFC1213-MIB; raritan MODULE-IDENTITY LAST-UPDATED "201602090000Z" -- February 9, 2016 ORGANIZATION "Raritan" CONTACT-INFO " Author: Raritan Americas, Inc. postal: Raritan Americas, Inc. 400 Cottontail Lane Somerset, NJ 08873 email: tech@raritan.com phone: +1 732 764 8886 " DESCRIPTION "This MIB describes the SNMP functions of the Dominion PX G2 Power Distribution Unit by Raritan Computer." REVISION "201602090000Z" -- February 9, 2016 DESCRIPTION "PX2 release 3.2.20: 1) Added the following: NetworkInterfaceTypeEnumeration, networkInterfaceType to unitConfigurationTable 2) Added AddressSourceEnumeration 3) Added activeDNS ServerCount to unitConfigurationTable 4) Added activeDNSServerTable " REVISION "201510260000Z" -- October 26, 2015 DESCRIPTION "PX2 release 3.2.10: 1) Added to trapInformation: phoneNumber Added the following traps: smsMessageTransmissionFailure trap " REVISION "201509300000Z" -- September 30, 2015 DESCRIPTION "PX2 release 3.2.1: - Support for PMC/BCM2 - Line and node information for component poles 1) SensorTypeEnumeration: Added reactivePower(29) displacementPowerFactor(35) 2) SensorUnitsEnumeration: Added var(23) 3) ProductTypeEnumeration: Added powerMeter(3) 4) Added the following enumerations: PanelLayoutEnumeration PanelNumberingEnumeration CircuitTypeEnumeration PhaseEnumeration LineEnumeration PowerMeterTypeEnumeration 5) Added the following tables: inletPoleConfigurationTable overCurrentProtectorPoleConfigurationTable outletPoleConfigurationTable transferSwitchPoleConfigurationTable powerMeterConfigurationTable circuitConfigurationTable circuitPoleConfigurationTable circuitSensorConfigurationTable circuitPoleSensorConfigurationTable circuitSensorLogTable circuitPoleSensorLogTable circuitSensorMeasurementsTable circuitPoleSensorMeasurementsTable circuitSensorControlTable 6) unitConfigurationTable: Added circuitCount 7) inletDeviceCapabilities: Added reactivePower(28) 8) inletPoleCapabilities: Added phaseAngle(23) reactivePower(28) displacementPowerFactor(34) 9) overCurrentProtectorConfigurationTable: Added overCurrentProtectorPoleCount 10) transferSwitchConfigurationTable: Added transferSwitchPoleCount 11) Added the following to trapInformation: circuitNumber circuitPoleNumber 12) Added the following traps: circuitSensorStateChange circuitPoleSensorStateChange circuitAdded circuitDeleted circuitModified circuitSensorReset powerMeterAdded powerMeterDeleted powerMeterModified 13) Revised the DESCRIPTION clauses of: pduCount pduId inletPoleCount " REVISION "201502180000Z" -- February 18, 2015 DESCRIPTION "PX2 release 3.1.0: - Support absolute humidity sensors 1) SensorStateEnumeration: Added nonRedundant(30) 2) SensorTypeEnumeration: Added absoluteHumidity(28) 3) SensorUnitsEnumeration: Added grampercubicmeter(22) 4) Corrected the possible states for the rcmState, operatingState and activeInlet sensors 5) Documented that the unitSensorResetValue object in unitSensorControlTable applies only to multi-inlet PDUs 6) Deprecated inletRatedVA, inletRatedFrequency 7) inletDeviceCapabilities: Corrected bit values for residualCurrent(25) and rcmState(26) " REVISION "201406040000Z" -- June 04, 2014 DESCRIPTION "PX2 release 3.0.0: - Support for signed sensor readings - Support for unit-level power and energy sensors - Send trap on peripheral device firmware update - Allow peripheral device auto management to be disabled - Allow front panel outlet switching to be enabled or disabled - Support DX-PIR occupancy sensor 1) Changed the SYNTAX from Integer32 to Unsigned32: measurementsUnitSensorValue 2) Added signed value, range and threshold columns to: unitSensorConfigurationTable unitSensorMeasurementsTable pduSensorStateChange inletSensorConfigurationTable inletSensorMeasurementsTable inletSensorLogTable inletSensorStateChange inletPoleSensorConfigurationTable inletPoleSensorMeasurementsTable inletPoleSensorLogTable inletPoleSensorStateChange overCurrentProtectorSensorConfigurationTable overCurrentProtectorSensorMeasurementsTable overCurrentProtectorSensorLogTable overCurrentProtectorSensorStateChange outletSensorConfigurationTable outletSensorMeasurementsTable outletSensorLogTable outletSensorStateChange outletPoleSensorConfigurationTable outletPoleSensorMeasurementsTable outletPoleSensorLogTable outletPoleSensorStateChange 3) Added unsigned value, range and threshold columns to: unitSensorLogTable transferSwitchSensorConfigurationTable transferSwitchSensorMeasurementsTable transferSwitchSensorLogTable transferSwitchSensorStateChange 4) Added UnitSensorControlTable 5) Added unitSensorReset and unitSensorStateChange traps 6) Deprecated pduSensorStateChange trap 7) Added to unitConfigurationTable: peripheralDevicesAutoManagement frontPanelOutletSwitching frontPanelRCMSelfTest frontPanelActuatorControl 8) Added to externalSensorConfigurationTable: externalSensorAlarmedToNormalDelay 9) Deprecated: wireCount in unitConfiguraionTable tables for wireSensors traps for wireSensors 10) SensorStateEnumeration: Added fail(14) 11) ProductTypeEnumeration: Renamed rackSts(2) to transferSwitch 12) Added: PeripheralDeviceFirmwareUpdateStateEnumeration peripheralDeviceFirmwareUpdateState peripheralDeviceFirmwareUpdate trap 13) Added userName to the following traps: bulkConfigurationSaved bulkConfigurationCopied lhxSupportChanged deviceSettingsSaved deviceSettingsRestored " REVISION "201401090000Z" -- January 9, 2014 DESCRIPTION "PX2 release 2.6.0: - Support for PX3TS transfer switches 1) SensorTypeEnumeration: Removed: scrOpenStatus scrShortStatus Added: i1SmpsStatus(46) i2SmpsStatus(47) switchStatus(48) 2) SensorStateEnumeration: Removed: marginal fail Added: i1OpenFault(22) i1ShortFault(23) i2OpenFault(24) i2ShortFault(25) fault(26) warning(27) critical(28) 3) unitDeviceCapabilities: Added i1SmpsStatus(45) i2SmpsStatus(46) 4) transferSwitchCapabilities: Added switchStatus(47) 5) Added transferSwitchConfiguration table 6) unitSensorLogTable: Removed: logUnitSensorAvgValue logUnitSensorMaxValue logUnitSensorMinValue Added: logUnitSensorSignedAvgValue logUnitSensorSignedMaxValue logUnitSensorSignedMinValue " REVISION "201401070000Z" -- January 7, 2014 DESCRIPTION "PX2 release 2.5.30: - Accumulating sensors (energy counters) can be reset - Sensor accuray and tolerance variables are deprecated 1) Added peripheralDevicePackagePosition and peripheralDevicePackageState 2) Added radiusError trap 3) Added serverReachabilityError trap 4) Deprecated the following: unitSensorConfigurationTable/unitSensorAccuracy unitSensorConfigurationTable/unitSensorTolerance inletSensorConfigurationTable/inletSensorAccuracy inletSensorConfigurationTable/inletSensorTolerance inletPoleSensorConfigurationTable/inletPoleSensorAccuracy inletPoleSensorConfigurationTable/inletPoleSensorTolerance outletSensorConfigurationTable/outetSensorAccuracy outletSensorConfigurationTable/outletSensorTolerance outletPoleSensorConfigurationTable/outetPoleSensorAccuracy outletPoleSensorConfigurationTable/outletPoleSensorTolerance overCurrentProtectorSensorConfigurationTable/overCurrentProtectorSensorAccuracy overCurrentProtectorSensorConfigurationTable/overCurrentProtectorSensorTolerance externalSensorConfigurationTable/externalSensorAccuracy externalSensorConfigurationTable/externalSensorTolerance wireSensorConfigurationTable/wireSensorAccuracy wireSensorConfigurationTable/wireSensorTolerance transferSwitchSensorConfigurationTable/transferSwitchSensorAccuracy transferSwitchSensorConfigurationTable/transferSwitchSensorTolerance 5) Added inletSensorReset and outletSensorReset traps 6) Added inletSensorControl and inletSensorControlTable 7) Added outletSensorControl and outletSensorControlTable 8) Added unknownPeripheralDeviceAttached trap " REVISION "201311210000Z" -- November 21, 2013 DESCRIPTION "PX2 release 2.5.20: - Support for residual current monitors - Support for USB cascading with one IP address - Support for line-neutral voltage sensors 1) SensorTypeEnumeration: Added rmsVoltageLN(25) residualCurrent(26) rcmState(27) 2) SensorStateEnumeration: Added warning(27) critical(28) selfTest(29) 3) inletDeviceCapabilities: Added residualCurrent(26) rcmState(27) 4) Added rmsVoltageLN(24) to inletPoleCapabilities 5) Added inletRCMResidualOperatingCurrent to inletConfigurationTable 6) Added rcmControl under control 7) Added rcmSelfTestTable under rcmControl 8) Added DeviceCascadeTypeEnumeration 9) Added deviceCascadeType, deviceCascadePosition to unitConfigurationTable 10) Added agentInetPortNumber under trapInformation 11) Added agentInetPortNumber as a varbind to all traps 12) Added peripheralDevicePackageTable containing information on peripheral device packages " REVISION "201309180000Z" -- September 18, 2013 DESCRIPTION " 1) Added serverConnectivityUnrecoverable trap " REVISION "201308010000Z" -- August 1, 2013 DESCRIPTION " 1) Add RCBO OCP types " REVISION "201307100000Z" -- July 10, 2013 DESCRIPTION " 1) Added externalSensorTypeDefaultThresholdsTable " REVISION "201307020000Z" -- July 2, 2013 DESCRIPTION " 1) Added relayBehaviorOnPowerLoss to unitConfigurationTable " REVISION "201305210000Z" -- May 21, 2013 DESCRIPTION " 1) Added inletEnableState to inletConfigurationTable 2) Added traps: inletEnabled and inletDisabled " REVISION "201304260000Z" -- April 26, 2013 DESCRIPTION " 1) Added traps: webcamInserted and webcamRemoved 2) Added trapInformation parameters: webcamModel,webcamConnectionPort " REVISION "201303270000Z" -- March 27, 2013 DESCRIPTION " 1) Changed outletSource to outletPowerSource in outletConfigurationTable 2) Changed transferSwitchSource1 and transferSwitchSource2 to transferSwitchPowerSource1 and transferSwitchPowerSource2 in transferSwitchConfigurationTable 3) Changed overCurrentProtectorSource to overCurrentProtectorPowerSource in overCurrentProtectorConfigurationTable 4) Changed wireSource to wirePowerSource in wireConfigurationTable " REVISION "201303251000Z" -- March 25, 2013 DESCRIPTION " 1) Added comments showing the possible states for each sensor type. " REVISION "201303250000Z" -- March 25, 2013 DESCRIPTION " 1) Added outletSource to outletConfigurationTable 2) Added transferSwitchSource1 and transferSwitchSource2 to transferSwitchConfigurationTable 3) Added overCurrentProtectorSource to overCurrentProtectorConfigurationTable 4) Added wireSource to wireConfigurationTable " REVISION "201303180000Z" -- March 18, 2013 DESCRIPTION " 1) Added meteringControllerCount to the unitConfigurationTable 2) Added meteringController to BoardTypeEnumeration " REVISION "201302250000Z" -- February 25, 2013 DESCRIPTION " 1) Added ProductTypeEnumeration 2) Added productType to unitConfigurationTable " REVISION "201302040000Z" -- February 04, 2013 DESCRIPTION " 1) Added TransferSwitchTransferReasonEnumeration 2) Added transferSwitchLastTransferReason to transferSwitchControlTable 3) Added transferSwitchLastTransferReason to transferSwitchSensorStateChange trap " REVISION "201301240000Z" -- January 24, 2013 DESCRIPTION "Added required sensor types and units " REVISION "201211200000Z" -- November 20, 2012 DESCRIPTION "1) Added externalSensorIsActuator and externalSensorPosition to the externalSensorConfigurationTable 2) Added actuatorControlTable " REVISION "201211150000Z" -- November 15, 2012 DESCRIPTION "1) Removed transferSwitchOutputCapabilities from transferSwitchConfigurationTable 2) Removed the following tables: transferSwitchOutputSensorConfigurationTable transferSwitchOutputSensorLogTable transferSwitchOutputSensorMeasurementsTable 3) Removed transferSwitchOutputSensorStateChange trap 4) Added transferSwitchControlTable 5) Removed the following entries from SensorTypeEnumeration: overTemperatureFault fans internalFault inletPhaseDeviationFault overloadFault 6) Added the following entries to SensorTypeEnumeration: overloadStatus overheatStatus scrOpenStatus scrShortStatus fanStatus inletPhaseSyncAngle inletPhaseSync 7) Added the following entries to SensorStateEnumeration: inSync, outOfSync 8) Renamed transferSwitchNoTransferIfPhaseDeviationFault to transferSwitchAutoReTransferRequiresPhaseSync " REVISION "201210050000Z" -- October 5, 2012 DESCRIPTION "1) Modified the DESCRIPTION of the following. outletSwitchControlTable transferSwitchOutputSensorMeasurementsEntry overCurrentProtectorSensorMeasurementsEntry outletPoleSensorMeasurementsEntry transferSwitchOutputSensorLogEntry transferSwitchOutputSensorLogTable wireSensorLogEntry externalSensorNumber controllerConfigurationEntry SensorUnitsEnumeration measurementsGroup logGroup " REVISION "201210040000Z" -- October 4, 2012 DESCRIPTION "1) In the transferSwitchConfigurationTable, replaced transferSwitchFrequencyDeviation with transferSwitchLowerMarginalFrequency and transferSwitchUpperMarginalFrequency " REVISION "201209280000Z" -- September 28, 2012 DESCRIPTION "1) Modified the DESCRIPTION of the following. bulkConfigurationCopied, userModified, userSessionTimeout " REVISION "201209210000Z" -- September 21, 2012 DESCRIPTION "1) Added the following traps: deviceSettingsSaved, deviceSettingsRestored " REVISION "201209200000Z" -- September 20, 2012 DESCRIPTION "1) Added the following objects to the transferSwitchConfigurationTable: transferSwitchInternalFaultType 2) Added transferSwitchInternalFaultType to transferSwitchSensorStateChange trap 3) Added marginal to SensorStateEnumeration " REVISION "201209170000Z" -- September 17, 2012 DESCRIPTION "Deprecated the following objects from the unitConfigurationTable pxInetAddressType, pxInetIPAddress, pxInetNetmask, pxInetGateway " REVISION "201209040000Z" -- September 4, 2012 DESCRIPTION "Support for transfer Switch objects and sensors. 1. Added transferSwitchCount to unitConfigurationTable 2. Added the following tables: transferSwitchConfigurationTable, transferSwitchSensorConfigurationTable, transferSwitchSensorLogTable, transferSwitchSensorMeasurementsTable transferSwitchOutputSensorConfigurationTable, transferSwitchOutputSensorLogTable, transferSwitchOutputSensorMeasurementsTable 3. Added transferSwitchSensorStateChange trap transferSwitchOutputSensorStateChange trap " REVISION "201206220000Z" -- June 22, 2012 DESCRIPTION " 1. Added surgeProtectorStatus to SensorTypeEnumeration 2. Added surgeProtectorStatus to inletDeviceCapabilities " REVISION "201206180000Z" -- June 18, 2012 DESCRIPTION "Added a comment before the section listing the traps. The comment notes that the pxInetIPAddressType and pxInetIPAddress fields are not used for IPv6 traps " REVISION "201206060000Z" -- June 6, 2012 DESCRIPTION "Support for wire objects and sensors. 1. Added wireCount to unitConfigurationTable 2. Added the following tables: wireConfigurationTable, wireSensorConfigurationTable, wireSensorLogTable, wireSensorMeasurementsTable 3. Added wireSensorStateChange trap " REVISION "201205250000Z" -- May 25, 2012 DESCRIPTION "added userAccepted/DeclinedRestrictedServiceAgreement traps" REVISION "201205150000Z" -- May 15, 2012 DESCRIPTION " 1. Added support for NTP servers. Added the following objects under info synchronizeWithNTPServer, useDHCPProvidedNTPServer, firstNTPServerAddressType, firstNTPServerAddress, secondNTPServerAddressType, secondNTPServerAddress " REVISION "201203260000Z" -- March 26, 2012 DESCRIPTION "added lhxSupportChanged trap." REVISION "201112130000Z" -- December 13, 2011 DESCRIPTION " 1. Added usbSlaveConnected, usbSlaveDisonnected traps " REVISION "201111290000Z" -- November 29, 2011 DESCRIPTION " 1. Added cascadedDeviceConnected to UnitConfigurationEntryStruct " REVISION "201110250000Z" -- October 25, 2011 DESCRIPTION " 1. Added DeviceIdentificationParameterEnumeration 2. Added deviceIdentificationChanged Trap 3. Added sysContact, sysName, sysLocation to all traps " REVISION "201106160000Z" -- June 16, 2011 DESCRIPTION " 1. Changed DESCRIPTION of outletSequencingDelay " REVISION "201103220000Z" -- March 22, 2011 DESCRIPTION " 1. Added rfCodeTagConnected, rfCodeTagDisconnected traps 2. Changed MAX-ACCESS for externalOnOffSensorSubtype to read-write " REVISION "201102210000Z" -- February 21, 2011 DESCRIPTION " 1. Added rpm(19) to SensorUnitsEnumeration " REVISION "201102140000Z" -- February 14, 2011 DESCRIPTION " 1. Changed 5WIRE IEC60309 enumerations from 250V to 208V " REVISION "201102080000Z" -- February 8, 2011 DESCRIPTION " 1. Removed OnOffSensorSubtypeEnumeration 2. Changed SYNTAX of externalOnOffSensorSubtype to SensorTypeEnumeration 3. Added binary, contact, fanspeed, none to SensorTypeEnumeration 4. Changed outletPoleCapabilities to be the same as inletPoleCapabilities " REVISION "201102030000Z" -- February 3, 2011 DESCRIPTION " 1. Added externalSensorSerialNumber,externalOnOffSensorSubtype, externalSensorChannelNumber to the externalSensorStateChange trap." REVISION "201101310000Z" -- January 31, 2011 DESCRIPTION " 1. Modifed the DESCRIPTION of the powerControl trap " REVISION "201012150000Z" -- December 15, 2010 DESCRIPTION " 1. Added dataLoggingEnableForAllSensors to logConfigurationTable " REVISION "201012131131Z" -- December 13, 2010 DESCRIPTION " 1. Added inrushGuardDelay to unitConfigurationTable 2. Added outletSequenceDelay to outletConfigurationTable 3. Deprecated outletSequencingDelay " REVISION "201012130000Z" -- December 13, 2010 DESCRIPTION "1. Added externalOnOffSensorSubtype to ExternalSensorConfigurationEntryStruct 2. Added OnOffSensorSubtypeEnumeration 3. Added alarmed to SensorStateEnumeration 4. Removed firmwareFileDiscarded trap 5. Removed securityViolation trap " REVISION "201012070000Z" -- December 7, 2010 DESCRIPTION "1. changed DESCRIPTION of measurementPeriod to say that the value is fixed at 1 second. " REVISION "201010070000Z" -- October 7, 2010 DESCRIPTION "1. added ocpFUSEPAIR(5) to OverCurrentProtectorTypeEnumeration 2. changed ocpFUSE1POLE(4) to ocpFUSE(4) in OverCurrentProtectorTypeEnumeration " REVISION "201010040000Z" -- October 4, 2010 DESCRIPTION "1. added ocpFUSE2POLE(5) to OverCurrentProtectorTypeEnumeration 2. changed ocpFUSE(4) to ocpFUSE1POLE(4) in OverCurrentProtectorTypeEnumeration " REVISION "201009010000Z" -- September 1, 2010 DESCRIPTION "1. Removed userName from serverNotReachable and serverReachable traps " REVISION "201008050000Z" -- August 5, 2010 DESCRIPTION "1. Added reliabilityDataTableSequenceNumber 2. Changed SYNTAX of reliabilityErrorLogIndex to Integer32(1..2147483647)" REVISION "201007230000Z" -- July 23, 2010 DESCRIPTION "1. Moved serverCount to unitConfigurationTable " REVISION "201007220000Z" -- July 22, 2010 DESCRIPTION "1. Added support for the Reliability Tables 2. Added new group reliabilityGroup 3. Defined nodes reliability,reliabilityData,reliabilityErrorLog 4. Added reliabilityDataTable & reliabilityErrorLogTable" REVISION "201007210000Z" -- July 21, 2010 DESCRIPTION "1. Added plug56PA320 to PlugTypeEnumeration 2. Added plug56P320F to PlugTypeEnumeration" REVISION "201007140000Z" -- July 14, 2010 DESCRIPTION "1. Added the following traps: pingServerEnabled, pingServerDisabled, serverNotReachable, serverReachable 2. Added the serverReachabilityTable " REVISION "201007060000Z" -- July 6, 2010 DESCRIPTION "1. Added externalSensorChannelNumber to externalSensorConfigurationTable " REVISION "201007010000Z" -- July 1, 2010 DESCRIPTION "1. added outletSwitchingState to outletSwitchControlTable 2. added outletSwitchingTimeStamp to outletSwitchControlTable" REVISION "201006300000Z" -- June 30, 2010 DESCRIPTION "1. added switchingOperation to the powerControl trap " REVISION "201006210000Z" -- June 21, 2010 DESCRIPTION "1. added support for Load shedding 2. added loadShedding to the unitConfigurationTable. 3. added nonCritical to the outletConfigurationTable 4. added loadSheddingModeEntered & loadSheddingModeExited traps 5. modified description of inletPlug in inletConfigurationTable" REVISION "201006030000Z" -- June 3, 2010 DESCRIPTION "1. added plugOTHER to PlugTypeEnumeration 2. added receptacleOTHER to ReceptacleTypeEnumeration 3. added inletPlugDescriptor to inletConfigurationTable 4. added outletReceptacleDescriptor to outletConfigurationTable " REVISION "201005270000Z" -- May 27, 2010 DESCRIPTION "1. added INetAddressType and INetAddress to represent IP addresses 2. unitConfigurationTable: deprecated pxIpAddress 3. unitConfigurationTable: added pxInetAddressType,pxInetIPAddress,pxInetNetmask,pxInetGateway 2: added pxInetAddressType,pxInetIPAddress to all traps 3: defined new trap deviceUpdateFailed" REVISION "201005240000Z" -- May 24, 2010 DESCRIPTION "Added typeOfSensor to externalSensorStateChange trap" REVISION "201004190000Z" -- April 19, 2010 DESCRIPTION "modified the DESCRIPTION of the deviceUpdateCompleted trap" REVISION "201004150000Z" -- April 15, 2010 DESCRIPTION "modified the DESCRIPTION of all SensorStateChangeDelay parameters" REVISION "201004080000Z" -- April 8, 2010 DESCRIPTION "modified the DESCRIPTION of sensor parameters that do not apply to discrete sensors" REVISION "201003290000Z" -- March 29, 2010 DESCRIPTION "added trap ldapError" REVISION "201003250000Z" -- March 25, 2010 DESCRIPTION "changed the SYNTAX of the following objects from Integer32 to Unsigned32: logInletSensorMaxValue, logInletSensorMinValue, logInletSensorAvgValue, logInletPoleSensorMaxValue, logInletPoleSensorMinValue, logInletPoleSensorAvgValue, logOutletSensorMaxValue, logOutletSensorMinValue, logOutletSensorAvgValue, logOutletPoleSensorMaxValue, logOutlePoletSensorMinValue, logOutletPoleSensorAvgValue, logOverCurrentProtectorSensorMaxValue, logOverCurrentProtectorSensorMinValue, logOverCurrentProtectorSensorAvgValue, measurementsInletSensorValue, measurementsInletPoleSensorValue, measurementsOutletSensorValue, measurementsOutletPoleSensorValue, measurementsOverCurrentProtectorSensorValue" REVISION "201003160000Z" -- March 16, 2010 DESCRIPTION "added trap smtpMessageTransmissionFailure" REVISION "201003010000Z" -- March 1, 2010 DESCRIPTION "changed externalSensorsZCoordinateUnits to an Enumeration" REVISION "201001290000Z" -- January 29, 2010 DESCRIPTION "The first version of the MIB." ::= { enterprises 13742 } pdu2 OBJECT IDENTIFIER ::= { raritan 6 } traps OBJECT IDENTIFIER ::= { pdu2 0 } trapInformation OBJECT IDENTIFIER ::= { traps 0 } board OBJECT IDENTIFIER ::= { pdu2 1 } environmental OBJECT IDENTIFIER ::= { pdu2 2 } configuration OBJECT IDENTIFIER ::= { pdu2 3 } control OBJECT IDENTIFIER ::= { pdu2 4 } measurements OBJECT IDENTIFIER ::= { pdu2 5 } log OBJECT IDENTIFIER ::= { pdu2 6 } conformance OBJECT IDENTIFIER ::= { pdu2 9 } reliability OBJECT IDENTIFIER ::= { pdu2 10 } unit OBJECT IDENTIFIER ::= { configuration 2 } inlets OBJECT IDENTIFIER ::= { configuration 3 } overCurrentProtector OBJECT IDENTIFIER ::= { configuration 4 } outlets OBJECT IDENTIFIER ::= { configuration 5 } externalSensors OBJECT IDENTIFIER ::= { configuration 6 } serverReachability OBJECT IDENTIFIER ::= { configuration 7 } wires OBJECT IDENTIFIER ::= { configuration 8 } transferSwitch OBJECT IDENTIFIER ::= { configuration 9 } powerMeter OBJECT IDENTIFIER ::= { configuration 10 } circuit OBJECT IDENTIFIER ::= { configuration 11 } outletControl OBJECT IDENTIFIER ::= { control 1 } externalSensorControl OBJECT IDENTIFIER ::= { control 2 } transferSwitchControl OBJECT IDENTIFIER ::= { control 3 } actuatorControl OBJECT IDENTIFIER ::= { control 4 } rcmControl OBJECT IDENTIFIER ::= { control 5 } inletSensorControl OBJECT IDENTIFIER ::= { control 6 } outletSensorControl OBJECT IDENTIFIER ::= { control 7 } unitSensorControl OBJECT IDENTIFIER ::= { control 8 } circuitSensorControl OBJECT IDENTIFIER ::= { control 9 } measurementsUnit OBJECT IDENTIFIER ::= { measurements 1 } measurementsInlet OBJECT IDENTIFIER ::= { measurements 2 } measurementsOverCurrentProtector OBJECT IDENTIFIER ::= { measurements 3 } measurementsOutlet OBJECT IDENTIFIER ::= { measurements 4 } measurementsExternalSensor OBJECT IDENTIFIER ::= { measurements 5 } measurementsWire OBJECT IDENTIFIER ::= { measurements 6 } measurementsTransferSwitch OBJECT IDENTIFIER ::= { measurements 7 } measurementsCircuit OBJECT IDENTIFIER ::= { measurements 8 } logUnit OBJECT IDENTIFIER ::= { log 1 } logInlet OBJECT IDENTIFIER ::= { log 2 } logOverCurrentProtector OBJECT IDENTIFIER ::= { log 3 } logOutlet OBJECT IDENTIFIER ::= { log 4 } logExternalSensor OBJECT IDENTIFIER ::= { log 5 } logWire OBJECT IDENTIFIER ::= { log 6 } logTransferSwitch OBJECT IDENTIFIER ::= { log 7 } logCircuit OBJECT IDENTIFIER ::= { log 8 } reliabilityData OBJECT IDENTIFIER ::= { reliability 1 } reliabilityErrorLog OBJECT IDENTIFIER ::= { reliability 2 } compliances OBJECT IDENTIFIER ::= { conformance 1 } groups OBJECT IDENTIFIER ::= { conformance 2 } -- Conformance Information -- compliance statements complianceRev2 MODULE-COMPLIANCE STATUS current DESCRIPTION "The requirements for conformance to the PDU2-MIB." MODULE -- this module GROUP configGroup DESCRIPTION "The configuration group." OBJECT powerMeterPhaseCTRating MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT powerMeterNeutralCTRating MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT powerMeterEarthCTRating MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT circuitName MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT circuitRatedCurrent MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT circuitPoleCTNumber MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT circuitPolePhase MIN-ACCESS read-only DESCRIPTION "configuration is not required" OBJECT circuitCTRating MIN-ACCESS read-only DESCRIPTION "configuration is not required" GROUP logGroup DESCRIPTION "The log group." GROUP measurementsGroup DESCRIPTION "The measurements group." GROUP controlGroup DESCRIPTION "The control group." GROUP trapInformationGroup DESCRIPTION "The information group." GROUP trapsGroup DESCRIPTION "The information group." GROUP reliabilityGroup DESCRIPTION "The reliability group." ::= { compliances 2 } complianceRev1 MODULE-COMPLIANCE STATUS deprecated DESCRIPTION "The requirements for conformance to the PDU2-MIB." MODULE -- this module GROUP ipAddressGroup DESCRIPTION "The ipAddress group." GROUP oldConfigGroup DESCRIPTION "old (deprecated) configuration data" GROUP oldLogGroup DESCRIPTION "old (deprecated) logging data" GROUP oldMeasurementsGroup DESCRIPTION "old (deprecated) measurement data" GROUP oldTrapsGroup DESCRIPTION "old (deprecated) traps" ::= { compliances 1 } -- units of conformance configGroup OBJECT-GROUP OBJECTS { pduCount, pduManufacturer, pduModel, pduSerialNumber, pduRatedVoltage, pduRatedCurrent, pduRatedFrequency, pduRatedVA, pduImage, inletCount, transferSwitchCount, productType, overCurrentProtectorCount, outletCount, inletControllerCount, outletControllerCount, meteringControllerCount, externalSensorCount, circuitCount, pxMACAddress, utcOffset, pduName, boardVersion, boardFirmwareVersion, boardFirmwareTimeStamp, unitSensorLogAvailable, unitSensorUnits, unitSensorDecimalDigits, unitSensorResolution, unitSensorMaximum, unitSensorMinimum, unitSensorHysteresis, unitSensorStateChangeDelay, unitSensorLowerCriticalThreshold, unitSensorLowerWarningThreshold, unitSensorUpperCriticalThreshold, unitSensorUpperWarningThreshold, unitSensorEnabledThresholds, unitSensorSignedMaximum, unitSensorSignedMinimum, unitSensorSignedLowerCriticalThreshold, unitSensorSignedLowerWarningThreshold, unitSensorSignedUpperCriticalThreshold, unitSensorSignedUpperWarningThreshold, inletLabel, inletName, inletPlug, inletPoleCount, inletRatedVoltage, inletRatedCurrent, inletDeviceCapabilities, inletPoleCapabilities, inletPlugDescriptor, inletEnableState, inletPoleLine, inletPoleNode, inletSensorLogAvailable, inletSensorUnits, inletSensorDecimalDigits, inletSensorResolution, inletSensorMaximum, inletSensorMinimum, inletSensorHysteresis, inletSensorStateChangeDelay, inletSensorLowerCriticalThreshold, inletSensorLowerWarningThreshold, inletSensorUpperCriticalThreshold, inletSensorUpperWarningThreshold, inletSensorEnabledThresholds, inletSensorSignedMaximum, inletSensorSignedMinimum, inletSensorSignedLowerCriticalThreshold, inletSensorSignedLowerWarningThreshold, inletSensorSignedUpperCriticalThreshold, inletSensorSignedUpperWarningThreshold, inletPoleSensorLogAvailable, inletPoleSensorUnits, inletPoleSensorDecimalDigits, inletPoleSensorResolution, inletPoleSensorMaximum, inletPoleSensorMinimum, inletPoleSensorHysteresis, inletPoleSensorStateChangeDelay, inletPoleSensorLowerCriticalThreshold, inletPoleSensorLowerWarningThreshold, inletPoleSensorUpperCriticalThreshold, inletPoleSensorUpperWarningThreshold, inletPoleSensorEnabledThresholds, inletPoleSensorSignedMaximum, inletPoleSensorSignedMinimum, inletPoleSensorSignedLowerCriticalThreshold, inletPoleSensorSignedLowerWarningThreshold, inletPoleSensorSignedUpperCriticalThreshold, inletPoleSensorSignedUpperWarningThreshold, inletRCMResidualOperatingCurrent, overCurrentProtectorLabel, overCurrentProtectorName, overCurrentProtectorType, overCurrentProtectorRatedCurrent, overCurrentProtectorCapabilities, overCurrentProtectorPoleCount, overCurrentProtectorPoleLine, overCurrentProtectorPoleInNode, overCurrentProtectorPoleOutNode, overCurrentProtectorSensorLogAvailable, overCurrentProtectorSensorUnits, overCurrentProtectorSensorDecimalDigits, overCurrentProtectorSensorResolution, overCurrentProtectorSensorMaximum, overCurrentProtectorSensorMinimum, overCurrentProtectorSensorHysteresis, overCurrentProtectorSensorStateChangeDelay, overCurrentProtectorSensorLowerCriticalThreshold, overCurrentProtectorSensorLowerWarningThreshold, overCurrentProtectorSensorUpperCriticalThreshold, overCurrentProtectorSensorUpperWarningThreshold, overCurrentProtectorSensorEnabledThresholds, overCurrentProtectorSensorSignedMaximum, overCurrentProtectorSensorSignedMinimum, overCurrentProtectorSensorSignedLowerCriticalThreshold, overCurrentProtectorSensorSignedLowerWarningThreshold, overCurrentProtectorSensorSignedUpperCriticalThreshold, overCurrentProtectorSensorSignedUpperWarningThreshold, overCurrentProtectorPowerSource, outletLabel, outletName, outletReceptacle, outletPoleCount, outletRatedVoltage, outletRatedCurrent, outletRatedVA, outletDeviceCapabilities, outletPoleCapabilities, outletPowerCyclingPowerOffPeriod, outletStateOnStartup, outletUseGlobalPowerCyclingPowerOffPeriod, outletSwitchable, outletReceptacleDescriptor, outletNonCritical, outletSequenceDelay, outletPoleLine, outletPoleNode, outletSensorLogAvailable, outletSensorUnits, outletSensorDecimalDigits, outletSensorResolution, outletSensorMaximum, outletSensorMinimum, outletSensorHysteresis, outletSensorStateChangeDelay, outletSensorLowerCriticalThreshold, outletSensorLowerWarningThreshold, outletSensorUpperCriticalThreshold, outletSensorUpperWarningThreshold, outletSensorEnabledThresholds, outletSensorSignedMaximum, outletSensorSignedMinimum, outletSensorSignedLowerCriticalThreshold, outletSensorSignedLowerWarningThreshold, outletSensorSignedUpperCriticalThreshold, outletSensorSignedUpperWarningThreshold, outletPoleSensorLogAvailable, outletPoleSensorUnits, outletPoleSensorDecimalDigits, outletPoleSensorResolution, outletPoleSensorMaximum, outletPoleSensorMinimum, outletPoleSensorHysteresis, outletPoleSensorStateChangeDelay, outletPoleSensorLowerCriticalThreshold, outletPoleSensorLowerWarningThreshold, outletPoleSensorUpperCriticalThreshold, outletPoleSensorUpperWarningThreshold, outletPoleSensorEnabledThresholds, outletPoleSensorSignedMaximum, outletPoleSensorSignedMinimum, outletPoleSensorSignedLowerCriticalThreshold, outletPoleSensorSignedLowerWarningThreshold, outletPoleSensorSignedUpperCriticalThreshold, outletPoleSensorSignedUpperWarningThreshold, outletPowerSource, externalSensorType, externalSensorSerialNumber, externalSensorName, externalSensorDescription, externalSensorXCoordinate, externalSensorYCoordinate, externalSensorZCoordinate, externalSensorChannelNumber, externalOnOffSensorSubtype, externalSensorLogAvailable, externalSensorUnits, externalSensorDecimalDigits, externalSensorResolution, externalSensorMaximum, externalSensorMinimum, externalSensorHysteresis, externalSensorStateChangeDelay, externalSensorLowerCriticalThreshold, externalSensorLowerWarningThreshold, externalSensorUpperCriticalThreshold, externalSensorUpperWarningThreshold, externalSensorEnabledThresholds, externalSensorsZCoordinateUnits, externalSensorIsActuator, externalSensorPosition, externalSensorUseDefaultThresholds, externalSensorTypeDefaultHysteresis, externalSensorTypeDefaultStateChangeDelay, externalSensorTypeDefaultLowerCriticalThreshold, externalSensorTypeDefaultLowerWarningThreshold, externalSensorTypeDefaultUpperCriticalThreshold, externalSensorTypeDefaultUpperWarningThreshold, externalSensorTypeDefaultEnabledThresholds, measurementPeriod, measurementsPerLogEntry, logSize, unitDeviceCapabilities, globalOutletPowerCyclingPowerOffPeriod, globalOutletStateOnStartup, relayBehaviorOnPowerLoss, pduPowerCyclingPowerOffPeriod, pduDaisychainMemberType, managedExternalSensorCount, outletPowerupSequence, loadShedding, serverCount, serverIPAddress, serverPingEnabled, inrushGuardDelay, cascadedDeviceConnected, synchronizeWithNTPServer, useDHCPProvidedNTPServer, firstNTPServerAddressType, firstNTPServerAddress, secondNTPServerAddressType, secondNTPServerAddress, transferSwitchLabel, transferSwitchName, transferSwitchPreferredInlet, transferSwitchPoleCount, transferSwitchAutoReTransferEnabled, transferSwitchAutoReTransferWaitTime, transferSwitchAutoReTransferRequiresPhaseSync, transferSwitchFrontPanelManualTransferButtonEnabled, transferSwitchCapabilities, transferSwitchPoleLine, transferSwitchPoleIn1Node, transferSwitchPoleIn2Node, transferSwitchPoleOutNode, transferSwitchSensorLogAvailable, transferSwitchSensorUnits, transferSwitchSensorDecimalDigits, transferSwitchSensorResolution, transferSwitchSensorMaximum, transferSwitchSensorMinimum, transferSwitchSensorHysteresis, transferSwitchSensorStateChangeDelay, transferSwitchSensorLowerCriticalThreshold, transferSwitchSensorLowerWarningThreshold, transferSwitchSensorUpperCriticalThreshold, transferSwitchSensorUpperWarningThreshold, transferSwitchSensorEnabledThresholds, transferSwitchSensorSignedMaximum, transferSwitchSensorSignedMinimum, transferSwitchSensorSignedLowerCriticalThreshold, transferSwitchSensorSignedLowerWarningThreshold, transferSwitchSensorSignedUpperCriticalThreshold, transferSwitchSensorSignedUpperWarningThreshold, transferSwitchPowerSource1, transferSwitchPowerSource2, peripheralDevicePackageSerialNumber, peripheralDevicePackageModel, peripheralDevicePackageFirmwareVersion, peripheralDevicePackageMinFirmwareVersion, peripheralDevicePackageFirmwareTimeStamp, peripheralDevicePackagePosition, peripheralDevicePackageState, deviceCascadeType, deviceCascadePosition, peripheralDevicesAutoManagement, externalSensorAlarmedToNormalDelay, frontPanelOutletSwitching, frontPanelRCMSelfTest, frontPanelActuatorControl, powerMeterPanelPositions, powerMeterPanelLayout, powerMeterPanelNumbering, powerMeterPhaseCTRating, powerMeterNeutralCTRating, powerMeterEarthCTRating, powerMeterBranchCount, powerMeterType, circuitPoleCount, circuitName, circuitType, circuitRatedCurrent, circuitCTRating, circuitCapabilities, circuitPoleCapabilities, circuitPowerSource, circuitPolePanelPosition, circuitPoleCTNumber, circuitPolePhase, circuitSensorLogAvailable, circuitSensorUnits, circuitSensorDecimalDigits, circuitSensorResolution, circuitSensorMaximum, circuitSensorMinimum, circuitSensorHysteresis, circuitSensorStateChangeDelay, circuitSensorLowerCriticalThreshold, circuitSensorLowerWarningThreshold, circuitSensorUpperCriticalThreshold, circuitSensorUpperWarningThreshold, circuitSensorEnabledThresholds, circuitSensorSignedMaximum, circuitSensorSignedMinimum, circuitSensorSignedLowerCriticalThreshold, circuitSensorSignedLowerWarningThreshold, circuitSensorSignedUpperCriticalThreshold, circuitSensorSignedUpperWarningThreshold, circuitPoleSensorLogAvailable, circuitPoleSensorUnits, circuitPoleSensorDecimalDigits, circuitPoleSensorResolution, circuitPoleSensorMaximum, circuitPoleSensorMinimum, circuitPoleSensorHysteresis, circuitPoleSensorStateChangeDelay, circuitPoleSensorLowerCriticalThreshold, circuitPoleSensorLowerWarningThreshold, circuitPoleSensorUpperCriticalThreshold, circuitPoleSensorUpperWarningThreshold, circuitPoleSensorEnabledThresholds, circuitPoleSensorSignedMaximum, circuitPoleSensorSignedMinimum, circuitPoleSensorSignedLowerCriticalThreshold, circuitPoleSensorSignedLowerWarningThreshold, circuitPoleSensorSignedUpperCriticalThreshold, circuitPoleSensorSignedUpperWarningThreshold, networkInterfaceType, activeDNSServerAddressType, activeDNSServerAddress, activeDNSServerAddressSource, activeDNSServerCount } STATUS current DESCRIPTION "A collection of objects representing configuration data." ::= { groups 1 } ipAddressGroup OBJECT-GROUP OBJECTS { pxIPAddress, netmask, gateway, pxInetAddressType, pxInetIPAddress, pxInetNetmask, pxInetGateway } STATUS deprecated DESCRIPTION "A collection of objects representing configuration data." ::= { groups 12 } oldConfigGroup OBJECT-GROUP OBJECTS { outletSequencingDelay, unitSensorAccuracy, unitSensorTolerance, inletSensorAccuracy, inletSensorTolerance, inletPoleSensorAccuracy, inletPoleSensorTolerance, outletSensorAccuracy, outletSensorTolerance, outletPoleSensorAccuracy, outletPoleSensorTolerance, overCurrentProtectorSensorAccuracy, overCurrentProtectorSensorTolerance, externalSensorAccuracy, externalSensorTolerance, wireSensorAccuracy, wireSensorTolerance, transferSwitchSensorAccuracy, transferSwitchSensorTolerance, wireCount, wireLabel, wireCapabilities, wireSensorLogAvailable, wireSensorUnits, wireSensorDecimalDigits, wireSensorResolution, wireSensorMaximum, wireSensorMinimum, wireSensorHysteresis, wireSensorStateChangeDelay, wireSensorLowerCriticalThreshold, wireSensorLowerWarningThreshold, wireSensorUpperCriticalThreshold, wireSensorUpperWarningThreshold, wireSensorEnabledThresholds, wirePowerSource, inletRatedFrequency, inletRatedVA } STATUS deprecated DESCRIPTION "A collection of objects representing old (deprecated) configuration data." ::= { groups 13 } logGroup OBJECT-GROUP OBJECTS { dataLogging, oldestLogID, newestLogID, logTimeStamp, dataLoggingEnableForAllSensors, logUnitSensorDataAvailable, logUnitSensorState, logUnitSensorAvgValue, logUnitSensorMaxValue, logUnitSensorMinValue, logUnitSensorSignedAvgValue, logUnitSensorSignedMaxValue, logUnitSensorSignedMinValue, logInletSensorDataAvailable, logInletSensorState, logInletSensorAvgValue, logInletSensorMaxValue, logInletSensorMinValue, logInletSensorSignedAvgValue, logInletSensorSignedMaxValue, logInletSensorSignedMinValue, logInletPoleSensorDataAvailable, logInletPoleSensorState, logInletPoleSensorAvgValue, logInletPoleSensorMaxValue, logInletPoleSensorMinValue, logInletPoleSensorSignedAvgValue, logInletPoleSensorSignedMaxValue, logInletPoleSensorSignedMinValue, logOutletSensorDataAvailable, logOutletSensorState, logOutletSensorAvgValue, logOutletSensorMaxValue, logOutletSensorMinValue, logOutletSensorSignedAvgValue, logOutletSensorSignedMaxValue, logOutletSensorSignedMinValue, logOutletPoleSensorDataAvailable, logOutletPoleSensorState, logOutletPoleSensorAvgValue, logOutletPoleSensorMaxValue, logOutletPoleSensorMinValue, logOutletPoleSensorSignedAvgValue, logOutletPoleSensorSignedMaxValue, logOutletPoleSensorSignedMinValue, logOverCurrentProtectorSensorDataAvailable, logOverCurrentProtectorSensorState, logOverCurrentProtectorSensorAvgValue, logOverCurrentProtectorSensorMaxValue, logOverCurrentProtectorSensorMinValue, logOverCurrentProtectorSensorSignedAvgValue, logOverCurrentProtectorSensorSignedMaxValue, logOverCurrentProtectorSensorSignedMinValue, logExternalSensorDataAvailable, logExternalSensorState, logExternalSensorAvgValue, logExternalSensorMaxValue, logExternalSensorMinValue, logTransferSwitchSensorDataAvailable, logTransferSwitchSensorState, logTransferSwitchSensorAvgValue, logTransferSwitchSensorMaxValue, logTransferSwitchSensorMinValue, logTransferSwitchSensorSignedAvgValue, logTransferSwitchSensorSignedMaxValue, logTransferSwitchSensorSignedMinValue, logCircuitSensorDataAvailable, logCircuitSensorState, logCircuitSensorAvgValue, logCircuitSensorMaxValue, logCircuitSensorMinValue, logCircuitSensorSignedAvgValue, logCircuitSensorSignedMaxValue, logCircuitSensorSignedMinValue, logCircuitPoleSensorDataAvailable, logCircuitPoleSensorState, logCircuitPoleSensorAvgValue, logCircuitPoleSensorMaxValue, logCircuitPoleSensorMinValue, logCircuitPoleSensorSignedAvgValue, logCircuitPoleSensorSignedMaxValue, logCircuitPoleSensorSignedMinValue } STATUS current DESCRIPTION "A collection of objects providing logging (history of readings) capabilities about the PDU." ::= { groups 2 } oldLogGroup OBJECT-GROUP OBJECTS { logWireSensorDataAvailable, logWireSensorState, logWireSensorAvgValue, logWireSensorMaxValue, logWireSensorMinValue } STATUS deprecated DESCRIPTION "A collection of objects representing old (deprecated) logging data." ::= { groups 14 } measurementsGroup OBJECT-GROUP OBJECTS { measurementsUnitSensorIsAvailable, measurementsUnitSensorState, measurementsUnitSensorValue, measurementsUnitSensorTimeStamp, measurementsUnitSensorSignedValue, measurementsInletSensorIsAvailable, measurementsInletSensorState, measurementsInletSensorValue, measurementsInletSensorTimeStamp, measurementsInletSensorSignedValue, measurementsInletPoleSensorIsAvailable, measurementsInletPoleSensorState, measurementsInletPoleSensorValue, measurementsInletPoleSensorTimeStamp, measurementsInletPoleSensorSignedValue, measurementsOutletSensorIsAvailable, measurementsOutletSensorState, measurementsOutletSensorValue, measurementsOutletSensorTimeStamp, measurementsOutletSensorSignedValue, measurementsOutletPoleSensorIsAvailable, measurementsOutletPoleSensorState, measurementsOutletPoleSensorValue, measurementsOutletPoleSensorTimeStamp, measurementsOutletPoleSensorSignedValue, measurementsOverCurrentProtectorSensorIsAvailable, measurementsOverCurrentProtectorSensorState, measurementsOverCurrentProtectorSensorValue, measurementsOverCurrentProtectorSensorTimeStamp, measurementsOverCurrentProtectorSensorSignedValue, measurementsExternalSensorIsAvailable, measurementsExternalSensorState, measurementsExternalSensorValue, measurementsExternalSensorTimeStamp, measurementsTransferSwitchSensorIsAvailable, measurementsTransferSwitchSensorState, measurementsTransferSwitchSensorValue, measurementsTransferSwitchSensorTimeStamp, measurementsTransferSwitchSensorSignedValue, measurementsCircuitSensorIsAvailable, measurementsCircuitSensorState, measurementsCircuitSensorValue, measurementsCircuitSensorTimeStamp, measurementsCircuitSensorSignedValue, measurementsCircuitPoleSensorIsAvailable, measurementsCircuitPoleSensorState, measurementsCircuitPoleSensorValue, measurementsCircuitPoleSensorTimeStamp, measurementsCircuitPoleSensorSignedValue } STATUS current DESCRIPTION "A collection of objects providing measurements (most recent data) capabilities. about the PDU." ::= { groups 3 } oldMeasurementsGroup OBJECT-GROUP OBJECTS { measurementsWireSensorIsAvailable, measurementsWireSensorState, measurementsWireSensorValue, measurementsWireSensorTimeStamp } STATUS deprecated DESCRIPTION "A collection of objects representing old (deprecated) measurement data." ::= { groups 15 } controlGroup OBJECT-GROUP OBJECTS { switchingOperation, outletSwitchingState, outletSwitchingTimeStamp, transferSwitchActiveInlet, transferSwitchTransferToInlet, transferSwitchAlarmOverride, transferSwitchLastTransferReason, actuatorState, rcmState, inletSensorResetValue, outletSensorResetValue, unitSensorResetValue, circuitSensorResetValue } STATUS current DESCRIPTION "A collection of objects providing the ability to control various components of a PDU." ::= { groups 4 } trapInformationGroup OBJECT-GROUP OBJECTS { userName, targetUser, imageVersion, roleName, oldSensorState, pduNumber, inletPoleNumber, outletPoleNumber, externalSensorNumber, typeOfSensor, smtpMessageRecipients, smtpServer, errorDescription, deviceChangedParameter, changedParameterNewValue, lhxSupportEnabled, webcamModel, webcamConnectionPort, agentInetPortNumber, peripheralDeviceRomcode, peripheralDeviceFirmwareUpdateState, circuitNumber, circuitPoleNumber, phoneNumber } STATUS current DESCRIPTION "A collection of objects providing information in the traps." ::= { groups 5 } trapsGroup NOTIFICATION-GROUP NOTIFICATIONS { systemStarted, systemReset, userLogin, userLogout, userAuthenticationFailure, userSessionTimeout, userAdded, userModified, userDeleted, roleAdded, roleModified, roleDeleted, deviceUpdateStarted, deviceUpdateCompleted, userBlocked, powerControl, userPasswordChanged, passwordSettingsChanged, firmwareValidationFailed, logFileCleared, bulkConfigurationSaved, bulkConfigurationCopied, inletSensorStateChange, inletPoleSensorStateChange, outletSensorStateChange, outletPoleSensorStateChange, overCurrentProtectorSensorStateChange, externalSensorStateChange, smtpMessageTransmissionFailure, ldapError, deviceUpdateFailed, loadSheddingModeEntered, loadSheddingModeExited, pingServerEnabled, pingServerDisabled, serverNotReachable, serverReachable, rfCodeTagConnected, rfCodeTagDisconnected, deviceIdentificationChanged, usbSlaveConnected, usbSlaveDisconnected, lhxSupportChanged, userAcceptedRestrictedServiceAgreement, userDeclinedRestrictedServiceAgreement, transferSwitchSensorStateChange, deviceSettingsSaved, deviceSettingsRestored, webcamInserted, webcamRemoved, inletEnabled, inletDisabled, serverConnectivityUnrecoverable, radiusError, serverReachabilityError, inletSensorReset, outletSensorReset, unitSensorReset, circuitSensorReset, unknownPeripheralDeviceAttached, peripheralDeviceFirmwareUpdate, unitSensorStateChange, circuitSensorStateChange, circuitPoleSensorStateChange, circuitAdded, circuitDeleted, circuitModified, powerMeterAdded, powerMeterDeleted, powerMeterModified, smsMessageTransmissionFailure } STATUS current DESCRIPTION "A collection of traps." ::= { groups 9 } oldTrapsGroup NOTIFICATION-GROUP NOTIFICATIONS { wireSensorStateChange, pduSensorStateChange } STATUS deprecated DESCRIPTION "A collection of objects representing old (deprecated) traps." ::= { groups 16 } reliabilityGroup OBJECT-GROUP OBJECTS { reliabilityId, reliabilityDataValue, reliabilityDataMaxPossible, reliabilityDataWorstValue, reliabilityDataThreshold, reliabilityDataRawUpperBytes, reliabilityDataRawLowerBytes, reliabilityDataFlags, reliabilityErrorLogId, reliabilityErrorLogValue, reliabilityErrorLogThreshold, reliabilityErrorLogRawUpperBytes, reliabilityErrorLogRawLowerBytes, reliabilityErrorLogPOH, reliabilityErrorLogTime, reliabilityDataTableSequenceNumber } STATUS current DESCRIPTION "A collection of objects providing reliability data." ::= { groups 10 } -- Textual Conventions SensorTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The types a sensor can be." SYNTAX INTEGER { rmsCurrent(1), peakCurrent(2), unbalancedCurrent(3), rmsVoltage(4), activePower(5), apparentPower(6), powerFactor(7), activeEnergy(8), apparentEnergy(9), temperature(10), humidity(11), airFlow(12), airPressure(13), onOff(14), trip(15), vibration(16), waterDetection(17), smokeDetection(18), binary(19), contact(20), fanSpeed(21), surgeProtectorStatus(22), frequency(23), phaseAngle(24), rmsVoltageLN(25), residualCurrent(26), rcmState(27), absoluteHumidity(28), reactivePower(29), other(30), none(31), powerQuality(32), overloadStatus(33), overheatStatus(34), displacementPowerFactor(35), fanStatus(37), inletPhaseSyncAngle(38), inletPhaseSync(39), operatingState(40), activeInlet(41), illuminance(42), doorContact(43), tamperDetection(44), motionDetection(45), i1smpsStatus(46), i2smpsStatus(47), switchStatus(48) } SensorStateEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The states a sensor can be in." SYNTAX INTEGER { unavailable(-1), open(0), closed(1), belowLowerCritical(2), belowLowerWarning(3), normal(4), aboveUpperWarning(5), aboveUpperCritical(6), on(7), off(8), detected(9), notDetected(10), alarmed(11), ok(12), fail(14), yes(15), no(16), standby(17), one(18), two(19), inSync(20), outOfSync(21), i1OpenFault(22), i1ShortFault(23), i2OpenFault(24), i2ShortFault(25), fault(26), warning(27), critical(28), selfTest(29), nonRedundant(30) } -- Possible Sensor States for each Sensor Type -- This comment must be updated whenever a new sensor type is added. -- Sensor Type Sensor States -- rmsCurrent unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- peakCurrent unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- unbalancedCurrent unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- rmsVoltage unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- activePower unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- apparentPower unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- powerFactor unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- activeEnergy unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- apparentEnergy unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- temperature unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- humidity unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- airFlow unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- airPressure unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- onOff unavailable,on,off -- trip unavailable,open,closed -- vibration unavailable,normal,alarmed -- waterDetection unavailable,normal,alarmed -- smokeDetection unavailable,normal,alarmed -- binary unavailable,normal,alarmed -- contact unavailable,normal,alarmed -- fanSpeed unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- surgeProtectorStatus unavailable,ok,fault -- frequency unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- phaseAngle unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- powerQuality unavailable,normal,warning,critical -- overloadStatus unavailable,ok,fault -- overheatStatus unavailable,ok,fault -- fanStatus unavailable,ok,fault -- residualCurrent unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- rcmState unavailable,normal,warning,critical,selfTest,fail -- reactivePower unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- inletPhaseSyncAngle unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- inletPhaseSync unavailable,inSync,outOfSync -- operatingState unavailable,normal,standby,nonRedundant,off -- activeInlet unavailable,one,two,off -- illuminance unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical -- doorContact unavailable,open,closed -- tamperDetection unavailable,normal,alarmed -- motionDetection unavailable,?? -- i1smpsStatus unavailable,ok,fault -- i2smpsStatus unavailable,ok,fault -- switchStatus unavailable,ok,i1OpenFault,i1ShortFault,i2OpenFault,i2ShortFault -- displacementPowerFactor unavailable,belowLowerCritical,belowLowerWarning,normal,aboveUpperWarning,aboveUpperCritical PlugTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The types of inlet plug." SYNTAX INTEGER { plugOTHER(-1), plugNONE(0), plug56P320(1), plug56P520(2), plug56P532(3), plugCS8365C(4), plugIEC320C14(5), plugIEC320C20(6), plugIEC603093WIRE250V16A(7), plugIEC603093WIRE250V20A(8), plugIEC603093WIRE250V30A(9), plugIEC603093WIRE250V32A(10), plugIEC603093WIRE250V60A(11), plugIEC603093WIRE250V63A(12), plugIEC603093WIRE250V100A(13), plugIEC603093WIRE250V125A(14), plugIEC603094WIRE250V20A(15), plugIEC603094WIRE250V30A(16), plugIEC603094WIRE250V60A(17), plugIEC603094WIRE250V100A(18), plugIEC603095WIRE208V20A(23), plugIEC603095WIRE208V30A(24), plugIEC603095WIRE208V60A(25), plugIEC603095WIRE208V100A(26), plugIEC603095WIRE415V16A(27), plugIEC603095WIRE415V32A(28), plugIEC603095WIRE415V63A(29), plugIEC603095WIRE415V125A(30), plugIEC603095WIRE480V20A(31), plugIEC603095WIRE480V30A(32), plugIEC603095WIRE480V60A(33), plugIEC603095WIRE480V100A(34), plugNEMA515P(35), plugNEMAL515P(36), plugNEMA520P(37), plugNEMAL520P(38), plugNEMAL530P(39), plugNEMAL615P(40), plugNEMAL620P(41), plugNEMAL630P(42), plugNEMAL1520P(43), plugNEMAL1530P(44), plugNEMAL2120P(45), plugNEMAL2130P(46), plugNEMAL2230P(47), plug56P320F(48), plug56PA320(49) } ReceptacleTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The types of outlet receptacle." SYNTAX INTEGER { receptacleOTHER(-1), receptacleNONE(0), receptacleBS1363(1), receptacle56P532(3), receptacleCS8364C(4), receptacleIEC320C13(5), receptacleIEC320C19(6), receptacleIEC603093WIRE250V16A(7), receptacleIEC603093WIRE250V20A(8), receptacleIEC603093WIRE250V30A(9), receptacleIEC603093WIRE250V32A(10), receptacleIEC603093WIRE250V60A(11), receptacleIEC603093WIRE250V63A(12), receptacleIEC603093WIRE250V100A(13), receptacleIEC603093WIRE250V125A(14), receptacleIEC603094WIRE250V20A(15), receptacleIEC603094WIRE250V30A(16), receptacleIEC603094WIRE250V60A(17), receptacleIEC603094WIRE250V100A(18), receptacleIEC603095WIRE208V20A(23), receptacleIEC603095WIRE208V30A(24), receptacleIEC603095WIRE208V60A(25), receptacleIEC603095WIRE208V100A(26), receptacleIEC603095WIRE415V16A(27), receptacleIEC603095WIRE415V32A(28), receptacleIEC603095WIRE415V63A(29), receptacleIEC603095WIRE415V125A(30), receptacleIEC603095WIRE480V20A(31), receptacleIEC603095WIRE480V30A(32), receptacleIEC603095WIRE480V60A(33), receptacleIEC603095WIRE480V100A(34), receptacleNEMA515R(35), receptacleNEMAL515R(36), receptacleNEMA520R(37), receptacleNEMAL520R(38), receptacleNEMAL530R(39), receptacleNEMAL615R(40), receptacleNEMAL620R(41), receptacleNEMAL630R(42), receptacleNEMAL1520R(43), receptacleNEMAL1530R(44), receptacleNEMAL2120RP(45), receptacleNEMAL2130R(46), receptacleSCHUKOTYPEE(47), receptacleSCHUKOTYPEF(48) } OverCurrentProtectorTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The types of overcurrent protectors." SYNTAX INTEGER { ocpBREAKER1POLE(1), ocpBREAKER2POLE(2), ocpBREAKER3POLE(3), ocpFUSE(4), ocpFUSEPAIR(5), ocpRCBO2POLE(6), ocpRCBO3POLE(7), ocpRCBO4POLE(8) } BoardTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The types of boards." SYNTAX INTEGER { mainController(1), inletController(2), outletController(3), meteringController(4) } OutletSwitchingOperationsEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The switching operations on an outlet." SYNTAX INTEGER { off(0), on(1), cycle(2) } SensorUnitsEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The sensor units." SYNTAX INTEGER { none(-1), other(0), volt(1), amp(2), watt(3), voltamp(4), wattHour(5), voltampHour(6), degreeC(7), hertz(8), percent(9), meterpersec(10), pascal(11), psi(12), g(13), degreeF(14), feet(15), inches(16), cm(17), meters(18), rpm(19), degrees(20), lux(21), grampercubicmeter(22), var(23) } DaisychainMemberTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The daisy chain member type." SYNTAX INTEGER { standalone(0), master(1), slave(2) } URL ::= TEXTUAL-CONVENTION DISPLAY-HINT "255a" STATUS current DESCRIPTION "A Uniform Resource Locator (URL), as defined in RFC1738." SYNTAX OCTET STRING (SIZE (0..255)) GlobalOutletStateOnStartupEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The global outlet state on device start up; can be overridden per outlet." SYNTAX INTEGER { off(0), on(1), lastKnownState(2) } OutletStateOnStartupEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The outlet state on device start up; this overrides the global value." SYNTAX INTEGER { off(0), on(1), lastKnownState(2), globalOutletStateOnStartup(3) } ExternalSensorsZCoordinateUnitsEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The units of the external Sensor Z Coordinate. rackUnits implies that the Z Coordinate for all external sensors is in rack Units (U) text implies that the Z Coordinate for all external sensors is a text string (label) " SYNTAX INTEGER { rackUnits(0), text(1) } HundredthsOfAPercentage ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "Data type for reporting values in hundredths of percentage, i.e. 0.01 %." SYNTAX Unsigned32 (0..10000) DeviceIdentificationParameterEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The configurable parameters." SYNTAX INTEGER { pduName(0), sysContact(1), sysName(2), sysLocation(3) } TransferSwitchTransferReasonEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Transfer Switch Transfer Reason" SYNTAX INTEGER { unknown(0), startup(1), manualTransfer(2), automaticReTransfer(3), powerFailure(4), powerQuality(5), overloadAlarm(6), overheatAlarm(7), internalFailure(8) } ProductTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The product types." SYNTAX INTEGER { rackPdu(0), bcm(1), transferSwitch(2), powerMeter(3) } RelayPowerLossBehaviorEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The type of relay behavior on power loss." SYNTAX INTEGER { nonLatching(0), latching(1) } DeviceCascadeTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The type of configured cascading on this device." SYNTAX INTEGER { bridging(0), portForwarding(1) } PeripheralDeviceFirmwareUpdateStateEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The state of an peripheral device firmware update." SYNTAX INTEGER { started(1), successful(2), failed(3) } PanelLayoutEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The panel circuit position layout." SYNTAX INTEGER { invalid(-1), oneColumn(1), twoColumns(2) } PanelNumberingEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The panel circuit position numbering scheme." SYNTAX INTEGER { invalid(-1), oddEven(1), sequential(2) } CircuitTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The panel circuit types." SYNTAX INTEGER { onePhaseLL(1), onePhaseLN(2), onePhaseLLN(3), threePhase(4) } PhaseEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The power phase." SYNTAX INTEGER { phaseA(1), phaseB(2), phaseC(3), neutral(4), earth(5) } LineEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The Lines: L1, L2, L3, N." SYNTAX INTEGER { lineL1(1), lineL2(2), lineL3(3), lineNeutral(4) } PowerMeterTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The power meter types" SYNTAX INTEGER { singlePhase(1), splitPhase(2), threePhase(3) } NetworkInterfaceTypeEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The type of network interface." SYNTAX INTEGER { wired(0), wireless(1) } AddressSourceEnumeration ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "How was the address obtained?" SYNTAX INTEGER { static(1), dhcp(2), dhcpv6(3) } -- the Unit group -- Implementation for managing the PDUs pduCount OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "For a PX2/3 and transfer switch, pduCount = 1 For a BCM2, pduCount = number of power meters + 1 (for the main controller) " ::= { configuration 1 } -- the Nameplate table -- The Nameplate table contains information on the PDU's nameplate. nameplateTable OBJECT-TYPE SYNTAX SEQUENCE OF NameplateEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PDU nameplate entries. The number of entries is given by the value of pduCount." ::= { unit 1 } nameplateEntry OBJECT-TYPE SYNTAX NameplateEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry providing PDU nameplate information." INDEX { pduId } ::= { nameplateTable 1 } NameplateEntryStruct ::= SEQUENCE { pduId Integer32, pduManufacturer DisplayString, pduModel DisplayString, pduSerialNumber DisplayString, pduRatedVoltage DisplayString, pduRatedCurrent DisplayString, pduRatedFrequency DisplayString, pduRatedVA DisplayString, pduImage URL } pduId OBJECT-TYPE SYNTAX Integer32(0..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each PDU/Power meter. PX2/3 and transfer switch: pduiId = 1 BCM2: main controller: pduId = 0 power meter: pduId = rotary switch setting for the power meter It is the same as the MeterID in the GUI Example: a power meter, rotary switch setting = 5, pduId = 5 a panel (power meter + branch metering), rotary switch setting = 23, pduId = 23 " ::= { nameplateEntry 1 } pduManufacturer OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU manaufacturer." ::= { nameplateEntry 2 } pduModel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU model." ::= { nameplateEntry 3 } pduSerialNumber OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU serial Number." ::= { nameplateEntry 4 } pduRatedVoltage OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU voltage rating." ::= { nameplateEntry 5 } pduRatedCurrent OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU current rating." ::= { nameplateEntry 6 } pduRatedFrequency OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU frequency rating." ::= { nameplateEntry 7 } pduRatedVA OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The PDU VA (VoltAmps) rating." ::= { nameplateEntry 8 } pduImage OBJECT-TYPE SYNTAX URL MAX-ACCESS read-only STATUS current DESCRIPTION "The URL of the wiring diagram for this PDU." ::= { nameplateEntry 9} -- the UnitConfiguration table -- The UnitConfiguration table contains information on the PDU's configuration. unitConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF UnitConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PDU configuration entries. The number of entries is given by the value of pduCount." ::= { unit 2 } unitConfigurationEntry OBJECT-TYPE SYNTAX UnitConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing configuration objects for a particular PDU." INDEX { pduId } ::= { unitConfigurationTable 1 } UnitConfigurationEntryStruct ::= SEQUENCE { inletCount Integer32, overCurrentProtectorCount Integer32, outletCount Integer32, inletControllerCount Integer32, outletControllerCount Integer32, externalSensorCount Integer32, pxIPAddress IpAddress, netmask IpAddress, gateway IpAddress, pxMACAddress MacAddress, utcOffset DisplayString, pduName DisplayString, networkInterfaceType NetworkInterfaceTypeEnumeration, externalSensorsZCoordinateUnits ExternalSensorsZCoordinateUnitsEnumeration, unitDeviceCapabilities BITS, outletSequencingDelay Unsigned32, globalOutletPowerCyclingPowerOffPeriod Unsigned32, globalOutletStateOnStartup GlobalOutletStateOnStartupEnumeration, outletPowerupSequence DisplayString, pduPowerCyclingPowerOffPeriod Unsigned32, pduDaisychainMemberType DaisychainMemberTypeEnumeration, managedExternalSensorCount Integer32, pxInetAddressType InetAddressType, pxInetIPAddress InetAddress, pxInetNetmask InetAddress, pxInetGateway InetAddress, loadShedding TruthValue, serverCount Integer32, inrushGuardDelay Unsigned32, cascadedDeviceConnected TruthValue, synchronizeWithNTPServer TruthValue, useDHCPProvidedNTPServer TruthValue, firstNTPServerAddressType InetAddressType, firstNTPServerAddress InetAddress, secondNTPServerAddressType InetAddressType, secondNTPServerAddress InetAddress, wireCount Integer32, transferSwitchCount Integer32, productType ProductTypeEnumeration, meteringControllerCount Integer32, relayBehaviorOnPowerLoss RelayPowerLossBehaviorEnumeration, deviceCascadeType DeviceCascadeTypeEnumeration, deviceCascadePosition Integer32, peripheralDevicesAutoManagement TruthValue, frontPanelOutletSwitching TruthValue, frontPanelRCMSelfTest TruthValue, frontPanelActuatorControl TruthValue, circuitCount Integer32, activeDNSServerCount Integer32 } inletCount OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of inlets." ::= { unitConfigurationEntry 2 } overCurrentProtectorCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of overcurrent protectors." ::= { unitConfigurationEntry 3 } outletCount OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of outlets." ::= { unitConfigurationEntry 4 } inletControllerCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of inlet controllers." ::= { unitConfigurationEntry 5 } outletControllerCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of outlet controllers." ::= { unitConfigurationEntry 6 } externalSensorCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of external sensors." ::= { unitConfigurationEntry 7 } pxIPAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The current IP address. A value of 0.0.0.0 indicates an error or an unset option." ::= { unitConfigurationEntry 8 } netmask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The current netmask. A value of 0.0.0.0 indicates an error or an unset option." ::= { unitConfigurationEntry 9 } gateway OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The current gateway. A value of 0.0.0.0 indicates an error or an unset option." ::= { unitConfigurationEntry 10 } pxMACAddress OBJECT-TYPE SYNTAX MacAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The current MAC address." ::= { unitConfigurationEntry 11 } utcOffset OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The current UTC offset." ::= { unitConfigurationEntry 12 } pduName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name for the PDU." ::= { unitConfigurationEntry 13 } networkInterfaceType OBJECT-TYPE SYNTAX NetworkInterfaceTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The network interface type: wired or wireless." ::= { unitConfigurationEntry 14 } externalSensorsZCoordinateUnits OBJECT-TYPE SYNTAX ExternalSensorsZCoordinateUnitsEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "External Sensor Z Coordinate units: Freeform Text or Rack Units (U) Default is U." ::= { unitConfigurationEntry 34 } unitDeviceCapabilities OBJECT-TYPE SYNTAX BITS{ i1smpsStatus(45), i2smpsStatus(46) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which unit sensors are available." ::= { unitConfigurationEntry 35 } outletSequencingDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "It is deprecated. This is an alias for inrushGuardDelay " ::= { unitConfigurationEntry 36 } globalOutletPowerCyclingPowerOffPeriod OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The power-off period when an outlet is cycled; applies to all outlets unless overridden at the outlet level; specified in seconds; 0 <= value <= 3600 seconds." ::= { unitConfigurationEntry 37 } globalOutletStateOnStartup OBJECT-TYPE SYNTAX GlobalOutletStateOnStartupEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The outlet state on device startup; applies to all outlets unless overridden at the outlet level. Note that this value is ignored if relayBehaviorOnPowerLoss is set to latching." ::= { unitConfigurationEntry 38 } outletPowerupSequence OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The sequence in which will the outlets will be switched on under the following conditions. 1) Switch all outlets on operation is executed 2) Power to the PDU is cycled String must consist of a comma separated sequence of the outlet numbers and all outlet numbers must be included. The numbers entered must be a permutation of the numbers 1,2,3,-outletnumber. Example for a 12 outlet PDU: 1,12,3,5,6,7,10,2,4,11,9,8. The per outlet sequence delays are defined as outletSequenceDelay in the outletConfigurationTable " ::= { unitConfigurationEntry 39 } pduPowerCyclingPowerOffPeriod OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "When power to the PX is cycled (either manually or because of a temporary power loss), this number determines how many seconds the PX will wait before it provides power to the outlets. specified in seconds: 0 <= value <= 3600 seconds. Note that this value is ignored if relayBehaviorOnPowerLoss is set to latching." ::= { unitConfigurationEntry 40 } pduDaisychainMemberType OBJECT-TYPE SYNTAX DaisychainMemberTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The daisy chain member type." ::= { unitConfigurationEntry 41 } managedExternalSensorCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of managed external sensors " ::= { unitConfigurationEntry 42 } pxInetAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The type of address format This object is deprecated in favor of ipAddressTable from the IP-MIB (rfc4293)." ::= { unitConfigurationEntry 50 } pxInetIPAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The current IP address. A value of 0.0.0.0 indicates an error or an unset option. This object is deprecated in favor of ipAddressTable from the IP-MIB (rfc4293). For IPv6, its value is 0.0.0.0 " ::= { unitConfigurationEntry 51 } pxInetNetmask OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The current netmask. A value of 0.0.0.0 indicates an error or an unset option. This object is deprecated in favor of ipAddressTable from the IP-MIB (rfc4293). For IPv6, its value is 0.0.0.0 " ::= { unitConfigurationEntry 52 } pxInetGateway OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The current gateway. A value of 0.0.0.0 indicates an error or an unset option. This object is deprecated in favor of ipAddressTable from the IP-MIB (rfc4293). For IPv6, its value is 0.0.0.0 " ::= { unitConfigurationEntry 53 } loadShedding OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Enter/Exit Load Shedding Mode" ::= { unitConfigurationEntry 55 } serverCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of servers" ::= { unitConfigurationEntry 56 } inrushGuardDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The time interval between switching on two outlets; specified in milliseconds; 100 <= value <= 100000 milliseconds." ::= { unitConfigurationEntry 57 } cascadedDeviceConnected OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether another PX2 is connected using an USB cable to the USB-A port of this PX2 in a cascaded configuration. true: Connected false: Not Connected" ::= { unitConfigurationEntry 58 } synchronizeWithNTPServer OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Will time be obtained using NTP? true: time will be obtained using NTP servers false: time will not be obtained using NTP servers Deafault is false." ::= { unitConfigurationEntry 59 } useDHCPProvidedNTPServer OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Will the NTP server addresses be provided by DHCP/BOOTP? This is used only if synchronizeWithNTPServer is enabled Default is enabled, i.e. DHCP provided NTP servers will be used " ::= { unitConfigurationEntry 60 } firstNTPServerAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-write STATUS current DESCRIPTION "Represents the type of the corresponding instance of firstNTPServerAddress object." DEFVAL { ipv4 } ::= { unitConfigurationEntry 61 } firstNTPServerAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The address of the primary ntp server." ::= { unitConfigurationEntry 62 } secondNTPServerAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-write STATUS current DESCRIPTION "Represents the type of the corresponding instance of secondNTPServerAddress object. Default is ipv4" ::= { unitConfigurationEntry 63 } secondNTPServerAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The address of the second ntp server." ::= { unitConfigurationEntry 64 } wireCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The number of wires." ::= { unitConfigurationEntry 65 } transferSwitchCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of transfer switches." ::= { unitConfigurationEntry 66 } productType OBJECT-TYPE SYNTAX ProductTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The product type. Is this product a PDU, STS, BCM,...? " ::= { unitConfigurationEntry 67} meteringControllerCount OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of metering controllers." ::= { unitConfigurationEntry 68 } relayBehaviorOnPowerLoss OBJECT-TYPE SYNTAX RelayPowerLossBehaviorEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The relay behavior on power loss." ::= { unitConfigurationEntry 69} deviceCascadeType OBJECT-TYPE SYNTAX DeviceCascadeTypeEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The configured type of cascading: default is bridging. This can be set only if the unit is the master." ::= { unitConfigurationEntry 70} deviceCascadePosition OBJECT-TYPE SYNTAX Integer32(0..99) MAX-ACCESS read-only STATUS current DESCRIPTION "The position of the device in the cascaded chain. 0: master >= 1: slaves " ::= { unitConfigurationEntry 71 } peripheralDevicesAutoManagement OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Auto-management enabled state for peripheral devices." ::= { unitConfigurationEntry 72} frontPanelOutletSwitching OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Enables/disables switching of outlets using the PDU front panel." ::= { unitConfigurationEntry 73} frontPanelRCMSelfTest OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Enables/disables front panel RCM self-test." ::= { unitConfigurationEntry 74} frontPanelActuatorControl OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Enables/disables front panel peripheral actuator control." ::= { unitConfigurationEntry 75} circuitCount OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of user configured circuits in the panel." ::= { unitConfigurationEntry 76 } activeDNSServerCount OBJECT-TYPE SYNTAX Integer32(0..16) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of active DNS Servers " ::= { unitConfigurationEntry 77 } -- the active DNS Server table -- activeDNSServerTable contains information on the active DNS servers. activeDNSServerTable OBJECT-TYPE SYNTAX SEQUENCE OF ActiveDNSServerEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of active DNS server entries. The number of rows in the table is given by the value of activeDNSServerCount (from unitConfigurationTable). If activeDNSServerCount = 0, then the table is empty. " ::= { unit 6} activeDNSServerEntry OBJECT-TYPE SYNTAX ActiveDNSServerEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing the active DNS servers for a particular PDU." INDEX { pduId, activeDNSServerIndex } ::= { activeDNSServerTable 1 } ActiveDNSServerEntryStruct ::= SEQUENCE { activeDNSServerIndex Integer32, activeDNSServerAddressType InetAddressType, activeDNSServerAddress InetAddress, activeDNSServerAddressSource AddressSourceEnumeration } activeDNSServerIndex OBJECT-TYPE SYNTAX Integer32(1..16) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for a dns Server. Its value ranges between 1 and activeDNSServerCount." ::= { activeDNSServerEntry 2 } activeDNSServerAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS current DESCRIPTION "Represents the type of the corresponding instance of activeDNSServerAddress object. " ::= { activeDNSServerEntry 3 } activeDNSServerAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The address of the dns server. " ::= { activeDNSServerEntry 4 } activeDNSServerAddressSource OBJECT-TYPE SYNTAX AddressSourceEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "How was the address obtained: static, dhcp, dhcpv6? " ::= { activeDNSServerEntry 5 } -- The ControllerConfiguration table contains information on the controllers in the PDU controllerConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF ControllerConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of entries for the boards in each PDU. The number of entries is given by the value of inletControllerCount + outletControllerCount + 1 (for main controller board)." ::= { unit 3} controllerConfigurationEntry OBJECT-TYPE SYNTAX ControllerConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for a controller." INDEX { pduId, boardType, boardIndex } ::= { controllerConfigurationTable 1 } ControllerConfigurationEntryStruct ::= SEQUENCE { boardType BoardTypeEnumeration, boardIndex Integer32, boardVersion DisplayString, boardFirmwareVersion DisplayString, boardFirmwareTimeStamp Unsigned32 } boardType OBJECT-TYPE SYNTAX BoardTypeEnumeration MAX-ACCESS not-accessible STATUS current DESCRIPTION "The type of board." ::= { controllerConfigurationEntry 1 } boardIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each controller. Its value ranges between 1 and the value of inletControllerCount + outletControllerCount + 1." ::= { controllerConfigurationEntry 2 } boardVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The board hardware version." ::= { controllerConfigurationEntry 4 } boardFirmwareVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The firmware version." ::= { controllerConfigurationEntry 6 } boardFirmwareTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The time when the board firmware was updated in UNIX(epoch)time. It is measured in seconds relative to January 1, 1970 (midnight UTC/GMT), i.e a value of 0 indicates January 1, 1970 (midnight UTC/GMT)." ::= { controllerConfigurationEntry 8 } -- The LogConfiguration table contains information on the logs in the PDU. logConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF LogConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of parameters for the data logging feature. The number of entries is given by the value of pduCount." ::= { unit 4} logConfigurationEntry OBJECT-TYPE SYNTAX LogConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing data logging parameters for a particular PDU." INDEX { pduId } ::= { logConfigurationTable 1 } LogConfigurationEntryStruct ::= SEQUENCE { dataLogging TruthValue, measurementPeriod Integer32, measurementsPerLogEntry Integer32, logSize Integer32, dataLoggingEnableForAllSensors TruthValue } dataLogging OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Data Retrieval: enabled/disabled." ::= { logConfigurationEntry 1 } measurementPeriod OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Data Collection periodicity. This is the periodicity of the data collected by the PX. This value is fixed at 1 second." ::= { logConfigurationEntry 2 } measurementsPerLogEntry OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The number of measurements used for each entry in the log." ::= { logConfigurationEntry 3 } logSize OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of entries in the log." ::= { logConfigurationEntry 4 } dataLoggingEnableForAllSensors OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Operation to control data logging for all sensors. If this OID is set to true, then all xxxSensorLogAvailable are set to true If this OID is set to false, then all xxxSensorLogAvailable are set to false " ::= { logConfigurationEntry 5 } -- the TrapInformation -- The TrapInformation table defines information sent in the traps. trapInformationTable OBJECT-TYPE SYNTAX SEQUENCE OF TrapInformationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of Trap Information entries. The number of entries is given by the value of pduCount." ::= { trapInformation 1 } trapInformationEntry OBJECT-TYPE SYNTAX TrapInformationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects used in traps." INDEX { pduId } ::= { trapInformationTable 1 } TrapInformationEntryStruct ::= SEQUENCE { userName DisplayString, targetUser DisplayString, imageVersion DisplayString, roleName DisplayString, smtpMessageRecipients DisplayString, smtpServer DisplayString } userName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The user currently logged in." ::= { trapInformationEntry 2 } targetUser OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The user added, deleted, or modified." ::= { trapInformationEntry 3 } imageVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The version of the upgrade image." ::= { trapInformationEntry 5 } roleName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The role added, deleted, or modified." ::= { trapInformationEntry 6 } smtpMessageRecipients OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "Comma separated list of SMTP Message recipients" ::= { trapInformationEntry 7 } smtpServer OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The IP address/host name of the SMTP server" ::= { trapInformationEntry 8 } -- Additional Information needed for traps. oldSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The old sensor state used in Sensor State Transition traps." ::= { trapInformation 2} pduNumber OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A unique value for each PDU. Its value ranges between 1 and the value of pduCount." ::= { trapInformation 3 } inletPoleNumber OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A unique value for each inlet Pole. Its value ranges between 1 and the value of inletPoleCount." ::= { trapInformation 5 } outletPoleNumber OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A unique value for each outlet Pole. Its value ranges between 1 and the value of outletPoleCount." ::= { trapInformation 7 } externalSensorNumber OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A unique value for each external sensor. Its value ranges between 1 and the value of externalSensorCount." ::= { trapInformation 8 } typeOfSensor OBJECT-TYPE SYNTAX SensorTypeEnumeration MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The type of sensor." ::= { trapInformation 10 } errorDescription OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "Description of the Error" ::= { trapInformation 11 } deviceChangedParameter OBJECT-TYPE SYNTAX DeviceIdentificationParameterEnumeration MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "Description of the parameter(s) that changed. " ::= { trapInformation 12 } changedParameterNewValue OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The new value of the changed parameter " ::= { trapInformation 13 } lhxSupportEnabled OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The new enabled state for Schroff LHX Support." ::= { trapInformation 14 } webcamModel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The model of the Webcam " ::= { trapInformation 15 } webcamConnectionPort OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The port to which the Webcam is connected " ::= { trapInformation 16 } agentInetPortNumber OBJECT-TYPE SYNTAX InetPortNumber MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The UDP port number used for accessing the SNMP agent on the device. Examples: If deviceCascadeType is portForwarding, then master: 50500 slave 1:50501 slave 2: 50502 ...... If cascading mode is not portForwarding and default (Standard) ports are being used, then port: 161 " ::= { trapInformation 18 } peripheralDeviceRomcode OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The Romcode of an peripheral device" ::= { trapInformation 19 } peripheralDeviceFirmwareUpdateState OBJECT-TYPE SYNTAX PeripheralDeviceFirmwareUpdateStateEnumeration MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The firmware update state of an peripheral device" ::= { trapInformation 20 } circuitNumber OBJECT-TYPE SYNTAX Integer32(1..33000) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A unique value for each circuit. circuitId is defined as follows. circuitID = 1000*(panelId) + circuitPosition Examples: 1045 is the the circuit on panel 1 with lowest circuit position equal to 45 4067 is the the circuit on panel 4 with lowest circuit position equal to 67. " ::= { trapInformation 21 } circuitPoleNumber OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A unique value for each circuit Pole. " ::= { trapInformation 22 } phoneNumber OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The phone number of e.g. an SMS receiver." ::= { trapInformation 23 } -- the unitSensorConfiguration table -- The unitSensorConfiguration table contains information on the PDU's unit Sensors. unitSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF UnitSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of unit level sensors for a PDU." ::= { unit 5 } unitSensorConfigurationEntry OBJECT-TYPE SYNTAX UnitSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing unit sensor parameters." INDEX { pduId, sensorType } ::= { unitSensorConfigurationTable 1 } UnitSensorConfigurationEntryStruct ::= SEQUENCE {sensorType SensorTypeEnumeration, unitSensorLogAvailable TruthValue, unitSensorUnits SensorUnitsEnumeration, unitSensorDecimalDigits Unsigned32, unitSensorAccuracy HundredthsOfAPercentage, unitSensorResolution Unsigned32, unitSensorTolerance Unsigned32, unitSensorMaximum Unsigned32, unitSensorMinimum Unsigned32, unitSensorHysteresis Unsigned32, unitSensorStateChangeDelay Unsigned32, unitSensorLowerCriticalThreshold Unsigned32, unitSensorLowerWarningThreshold Unsigned32, unitSensorUpperCriticalThreshold Unsigned32, unitSensorUpperWarningThreshold Unsigned32, unitSensorEnabledThresholds BITS, unitSensorSignedMaximum Integer32, unitSensorSignedMinimum Integer32, unitSensorSignedLowerCriticalThreshold Integer32, unitSensorSignedLowerWarningThreshold Integer32, unitSensorSignedUpperCriticalThreshold Integer32, unitSensorSignedUpperWarningThreshold Integer32 } sensorType OBJECT-TYPE SYNTAX SensorTypeEnumeration MAX-ACCESS not-accessible STATUS current DESCRIPTION "The type of sensor." ::= { unitSensorConfigurationEntry 1 } unitSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging enabled for the sensor?" ::= { unitSensorConfigurationEntry 4 } unitSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The units in which the sensor data is reported. " ::= { unitSensorConfigurationEntry 6 } unitSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point." ::= { unitSensorConfigurationEntry 7 } unitSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value." ::= { unitSensorConfigurationEntry 8 } unitSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01." ::= { unitSensorConfigurationEntry 9 } unitSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (unitSensorDecimalDigits + 1). For example, if the value is 50 and unitSensorDecimalDigits is 2, then actual value is 0.05." ::= { unitSensorConfigurationEntry 10 } unitSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 11 } unitSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 12 } unitSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 13 } unitSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 14 } unitSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 21 } unitSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 22 } unitSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 23 } unitSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 24 } unitSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS { lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 25 } unitSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 26 } unitSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 27 } unitSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 28 } unitSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 29 } unitSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 30 } unitSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { unitSensorConfigurationEntry 31 } -- the inletConfiguration table -- The inletConfiguration table contains information on the PDU's inlets. inletConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF InletConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of inlet configuration entries. The number of entries is given by the value of inletCount for the PDU." ::= { inlets 3 } inletConfigurationEntry OBJECT-TYPE SYNTAX InletConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parametersfor a particular inlet." INDEX { pduId, inletId } ::= { inletConfigurationTable 1 } InletConfigurationEntryStruct ::= SEQUENCE {inletId Integer32, inletLabel DisplayString, inletName DisplayString, inletPlug PlugTypeEnumeration, inletPoleCount Integer32, inletRatedVoltage DisplayString, inletRatedCurrent DisplayString, inletRatedFrequency DisplayString, inletRatedVA DisplayString, inletDeviceCapabilities BITS, inletPoleCapabilities BITS, inletPlugDescriptor DisplayString, inletEnableState TruthValue, inletRCMResidualOperatingCurrent Unsigned32 } inletId OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each inlet. Its value ranges between 1 and the value of inletCount." ::= { inletConfigurationEntry 1 } inletLabel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The label on the PDU identifying the inlet." ::= { inletConfigurationEntry 2 } inletName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name." ::= { inletConfigurationEntry 3 } inletPlug OBJECT-TYPE SYNTAX PlugTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The type of plug/receptacle wired to the inlet." ::= { inletConfigurationEntry 4 } inletPoleCount OBJECT-TYPE SYNTAX Integer32(2..5) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of poles. PDU: 2 for 1-phase circuits 3 for 3-phase DELTA wired models; 4 for 3-phase WYE wired models; Pole 4 is neutral; Note that sensors are not supported for neutral poles; Power Meter: 5: Pole 1 is Phase A Pole 2 is Phase B Pole 3 is Phase C Pole 4 is Neutral Pole 5 is Earth " ::= { inletConfigurationEntry 5 } inletRatedVoltage OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The inlet voltage rating." ::= { inletConfigurationEntry 6 } inletRatedCurrent OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The inlet current rating." ::= { inletConfigurationEntry 7 } inletRatedFrequency OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The inlet frequency rating. Deprecated: use pduRatedFrequency for unit nameplate information." ::= { inletConfigurationEntry 8 } inletRatedVA OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The inlet VA (VoltAmps) rating. Deprecated: use pduRatedVA for unit nameplate information." ::= { inletConfigurationEntry 9 } inletDeviceCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), unbalancedCurrent(2), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8), surgeProtectorStatus(21), frequency(22), phaseAngle(23), residualCurrent(25), rcmState(26), reactivePower(28), powerQuality(31) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which inlet sensors are available." ::= { inletConfigurationEntry 10 } inletPoleCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8), phaseAngle(23), rmsVoltageLN(24), reactivePower(28), displacementPowerFactor(34) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which inletpole sensors are available." ::= { inletConfigurationEntry 11 } inletPlugDescriptor OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "Description of the Plug" ::= { inletConfigurationEntry 12 } inletEnableState OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is this PDU operation is enabled for this inlet? When PDU operation is disabled the sensors for this inlet and all children will no longer be updated, and outlet switching is no longer allowed. This is only meaningful for multi-inlet units if one inlet is temporarily expected to be powered down. Disabling the inlet of a single-inlet unit is forbidden and any attempt to do so will result in an error." ::= { inletConfigurationEntry 13 } inletRCMResidualOperatingCurrent OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The Residual Operating Current (Threshold) for the RCM State sensor. For inlets without an RCM, any attempt to access this OID will return NoSuchInstance error. The value of this OID is in milliamps. " ::= { inletConfigurationEntry 14 } -- the inletPoleConfiguration table -- The inletPoleConfiguration table contains information on the PDU's inlet poles. inletPoleConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF InletPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of inlet pole configuration entries. The number of entries is given by the value of inletPoleCount for the PDU." ::= { inlets 5 } inletPoleConfigurationEntry OBJECT-TYPE SYNTAX InletPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parametersfor a particular inlet pole." INDEX { pduId, inletId, inletPoleIndex } ::= { inletPoleConfigurationTable 1 } InletPoleConfigurationEntryStruct ::= SEQUENCE {inletPoleLine LineEnumeration, inletPoleNode Integer32 } inletPoleLine OBJECT-TYPE SYNTAX LineEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The Phase for this inlet Pole. " ::= { inletPoleConfigurationEntry 1 } inletPoleNode OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this inlet pole is connected" ::= { inletPoleConfigurationEntry 2 } -- The inletSensorConfiguration table contains information on the PDU's inlet Sensors. inletSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF InletSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of configuration entries for an inlet sensor." ::= { inlets 4 } inletSensorConfigurationEntry OBJECT-TYPE SYNTAX InletSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for configuring an inlet sensor." INDEX { pduId, inletId, sensorType } ::= { inletSensorConfigurationTable 1 } InletSensorConfigurationEntryStruct ::= SEQUENCE { inletSensorLogAvailable TruthValue, inletSensorUnits SensorUnitsEnumeration, inletSensorDecimalDigits Unsigned32, inletSensorAccuracy HundredthsOfAPercentage, inletSensorResolution Unsigned32, inletSensorTolerance Unsigned32, inletSensorMaximum Unsigned32, inletSensorMinimum Unsigned32, inletSensorHysteresis Unsigned32, inletSensorStateChangeDelay Unsigned32, inletSensorLowerCriticalThreshold Unsigned32, inletSensorLowerWarningThreshold Unsigned32, inletSensorUpperCriticalThreshold Unsigned32, inletSensorUpperWarningThreshold Unsigned32, inletSensorEnabledThresholds BITS, inletSensorSignedMaximum Integer32, inletSensorSignedMinimum Integer32, inletSensorSignedLowerCriticalThreshold Integer32, inletSensorSignedLowerWarningThreshold Integer32, inletSensorSignedUpperCriticalThreshold Integer32, inletSensorSignedUpperWarningThreshold Integer32 } inletSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging enabled for the sensor?" ::= { inletSensorConfigurationEntry 4 } inletSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 6 } inletSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 7 } inletSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 8 } inletSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 9 } inletSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (inletSensorDecimalDigits + 1). For example, if the value is 50 and inletSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 10 } inletSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 11 } inletSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 12 } inletSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 13 } inletSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 14 } inletSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 21 } inletSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 22 } inletSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 23 } inletSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 24 } inletSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 25 } inletSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 26 } inletSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 27 } inletSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 28 } inletSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 29 } inletSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 30 } inletSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorConfigurationEntry 31 } -- The inletPoleSensorConfiguration table contains information on the PDU's inlet pole Sensors. inletPoleSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF InletPoleSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of configuration entries for an inlet pole sensor." ::= { inlets 6 } inletPoleSensorConfigurationEntry OBJECT-TYPE SYNTAX InletPoleSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for configuring an inlet pole sensor." INDEX { pduId, inletId,inletPoleIndex,sensorType } ::= { inletPoleSensorConfigurationTable 1 } InletPoleSensorConfigurationEntryStruct ::= SEQUENCE { inletPoleIndex Integer32, inletPoleSensorLogAvailable TruthValue, inletPoleSensorUnits SensorUnitsEnumeration, inletPoleSensorDecimalDigits Unsigned32, inletPoleSensorAccuracy HundredthsOfAPercentage, inletPoleSensorResolution Unsigned32, inletPoleSensorTolerance Unsigned32, inletPoleSensorMaximum Unsigned32, inletPoleSensorMinimum Unsigned32, inletPoleSensorHysteresis Unsigned32, inletPoleSensorStateChangeDelay Unsigned32, inletPoleSensorLowerCriticalThreshold Unsigned32, inletPoleSensorLowerWarningThreshold Unsigned32, inletPoleSensorUpperCriticalThreshold Unsigned32, inletPoleSensorUpperWarningThreshold Unsigned32, inletPoleSensorEnabledThresholds BITS, inletPoleSensorSignedMaximum Integer32, inletPoleSensorSignedMinimum Integer32, inletPoleSensorSignedLowerCriticalThreshold Integer32, inletPoleSensorSignedLowerWarningThreshold Integer32, inletPoleSensorSignedUpperCriticalThreshold Integer32, inletPoleSensorSignedUpperWarningThreshold Integer32 } inletPoleIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each inlet Pole. Its value ranges between 1 and the value of inletPoleCount." ::= { inletPoleSensorConfigurationEntry 1 } inletPoleSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging enabled for the sensor?" ::= { inletPoleSensorConfigurationEntry 4 } inletPoleSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 6 } inletPoleSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 7 } inletPoleSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 8 } inletPoleSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 9 } inletPoleSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (inletPoleSensorDecimalDigits + 1). For example, if the value is 50 and inletPoleSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 10 } inletPoleSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 11 } inletPoleSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 12 } inletPoleSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 13 } inletPoleSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 14 } inletPoleSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 21 } inletPoleSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 22 } inletPoleSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 23 } inletPoleSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 24 } inletPoleSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 25 } inletPoleSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 26 } inletPoleSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 27 } inletPoleSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 28 } inletPoleSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 29 } inletPoleSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 30 } inletPoleSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorConfigurationEntry 31 } -- the overCurrentProtectorConfiguration table -- The overCurrentProtectorConfiguration table contains information on the PDU's overcurrent protectors. overCurrentProtectorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OverCurrentProtectorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of overCurrentProtector configuration entries. The number of entries is given by the value of overCurrentProtectorCount for the PDU." ::= { overCurrentProtector 3 } overCurrentProtectorConfigurationEntry OBJECT-TYPE SYNTAX OverCurrentProtectorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for a particular overCurrentProtector." INDEX { pduId, overCurrentProtectorIndex } ::= { overCurrentProtectorConfigurationTable 1 } OverCurrentProtectorConfigurationEntryStruct ::= SEQUENCE { overCurrentProtectorIndex Integer32, overCurrentProtectorLabel DisplayString, overCurrentProtectorName DisplayString, overCurrentProtectorType OverCurrentProtectorTypeEnumeration, overCurrentProtectorRatedCurrent DisplayString, overCurrentProtectorPoleCount Integer32, overCurrentProtectorCapabilities BITS, overCurrentProtectorPowerSource RowPointer } overCurrentProtectorIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each overcurrent protector. Its value ranges between 1 and the value of overCurrentProtectorCount." ::= { overCurrentProtectorConfigurationEntry 1 } overCurrentProtectorLabel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The label on the PDU identifying the overcurrent protector." ::= { overCurrentProtectorConfigurationEntry 2 } overCurrentProtectorName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name." ::= { overCurrentProtectorConfigurationEntry 3 } overCurrentProtectorType OBJECT-TYPE SYNTAX OverCurrentProtectorTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The type of overcurrent protector." ::= { overCurrentProtectorConfigurationEntry 4 } overCurrentProtectorRatedCurrent OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The current rating." ::= { overCurrentProtectorConfigurationEntry 5 } overCurrentProtectorPoleCount OBJECT-TYPE SYNTAX Integer32(1..3) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of overCurrentProtector poles. " ::= { overCurrentProtectorConfigurationEntry 6 } overCurrentProtectorCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), trip(14) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which overcurrent protector sensors are available." ::= { overCurrentProtectorConfigurationEntry 9 } overCurrentProtectorPowerSource OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-only STATUS current DESCRIPTION "This object allows discovery of how the PDU is wired. It indicates the overCurrentProtector's power source which can one of the following: overCurrentProtector transfer switch inlet If the power source is an OverCurrentProtector, it contains the OID of an overCurrentProtectorLabel in the overCurrentProtectorConfiguration Table. The index of the OID can then be used to reference other objects in the overCurrentProtectorConfigurationTable. If the power source is an inlet, it contains the OID of an inletLabel in the inletConfigurationTable. The index of the OID can then be used to reference other objects in the inletConfigurationTable. If the power source is a transferSwitch, it contains the OID of a transferSwitchLabel in the transferSwitchConfiguration Table. The index of the OID can then be used to reference other objects in the transferSwitchConfigurationTable. " ::= { overCurrentProtectorConfigurationEntry 10 } -- the overCurrentProtectorPoleConfiguration table -- The overCurrentProtectorPoleConfiguration table contains information on the PDU's overCurrentProtector poles. overCurrentProtectorPoleConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OverCurrentProtectorPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of overCurrentProtector pole configuration entries. The number of entries is given by the value of overCurrentProtectorPoleCount for the PDU." ::= { overCurrentProtector 5 } overCurrentProtectorPoleConfigurationEntry OBJECT-TYPE SYNTAX OverCurrentProtectorPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parametersfor a particular overCurrentProtector pole." INDEX { pduId, overCurrentProtectorIndex, overCurrentProtectorPoleIndex } ::= { overCurrentProtectorPoleConfigurationTable 1 } OverCurrentProtectorPoleConfigurationEntryStruct ::= SEQUENCE {overCurrentProtectorPoleIndex Integer32, overCurrentProtectorPoleLine LineEnumeration, overCurrentProtectorPoleInNode Integer32, overCurrentProtectorPoleOutNode Integer32 } overCurrentProtectorPoleIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each overCurrentProtector Pole. Its value ranges between 1 and the value of overCurrentProtectorPoleCount." ::= { overCurrentProtectorPoleConfigurationEntry 1 } overCurrentProtectorPoleLine OBJECT-TYPE SYNTAX LineEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The Phase for this overCurrentProtector Pole. " ::= { overCurrentProtectorPoleConfigurationEntry 2 } overCurrentProtectorPoleInNode OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this overCurrentProtector pole input is connected" ::= { overCurrentProtectorPoleConfigurationEntry 3 } overCurrentProtectorPoleOutNode OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this overCurrentProtector pole output is connected" ::= { overCurrentProtectorPoleConfigurationEntry 4 } -- The overCurrentProtectorSensorConfiguration table contains information on the PDU's overcurrent protector Sensors. overCurrentProtectorSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OverCurrentProtectorSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of overCurrentProtectorSensor configuration entries." ::= { overCurrentProtector 4 } overCurrentProtectorSensorConfigurationEntry OBJECT-TYPE SYNTAX OverCurrentProtectorSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An overCurrentProtectorSensor entry containing objects for a particular overCurrentProtector Sensor." INDEX { pduId, overCurrentProtectorIndex, sensorType } ::= { overCurrentProtectorSensorConfigurationTable 1 } OverCurrentProtectorSensorConfigurationEntryStruct ::= SEQUENCE { overCurrentProtectorSensorLogAvailable TruthValue, overCurrentProtectorSensorUnits SensorUnitsEnumeration, overCurrentProtectorSensorDecimalDigits Unsigned32, overCurrentProtectorSensorAccuracy HundredthsOfAPercentage, overCurrentProtectorSensorResolution Unsigned32, overCurrentProtectorSensorTolerance Unsigned32, overCurrentProtectorSensorMaximum Unsigned32, overCurrentProtectorSensorMinimum Unsigned32, overCurrentProtectorSensorHysteresis Unsigned32, overCurrentProtectorSensorStateChangeDelay Unsigned32, overCurrentProtectorSensorLowerCriticalThreshold Unsigned32, overCurrentProtectorSensorLowerWarningThreshold Unsigned32, overCurrentProtectorSensorUpperCriticalThreshold Unsigned32, overCurrentProtectorSensorUpperWarningThreshold Unsigned32, overCurrentProtectorSensorEnabledThresholds BITS, overCurrentProtectorSensorSignedMaximum Integer32, overCurrentProtectorSensorSignedMinimum Integer32, overCurrentProtectorSensorSignedLowerCriticalThreshold Integer32, overCurrentProtectorSensorSignedLowerWarningThreshold Integer32, overCurrentProtectorSensorSignedUpperCriticalThreshold Integer32, overCurrentProtectorSensorSignedUpperWarningThreshold Integer32 } overCurrentProtectorSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging available for this sensor?" ::= { overCurrentProtectorSensorConfigurationEntry 4 } overCurrentProtectorSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 6 } overCurrentProtectorSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 7 } overCurrentProtectorSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 8 } overCurrentProtectorSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 9 } overCurrentProtectorSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (overCurrentProtectorSensorDecimalDigits + 1). For example, if the value is 50 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 10 } overCurrentProtectorSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 11 } overCurrentProtectorSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 12 } overCurrentProtectorSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 13 } overCurrentProtectorSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 14 } overCurrentProtectorSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 21 } overCurrentProtectorSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 22 } overCurrentProtectorSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 23 } overCurrentProtectorSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 24 } overCurrentProtectorSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 25} overCurrentProtectorSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 26 } overCurrentProtectorSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 27 } overCurrentProtectorSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 28 } overCurrentProtectorSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 29 } overCurrentProtectorSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 30 } overCurrentProtectorSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorConfigurationEntry 31 } -- the outletConfiguration table -- The outletConfiguration table contains information on the PDU's outlets. outletConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlet configuration entries. The number of entries is given by the value of outletCount for the PDU." ::= { outlets 3 } outletConfigurationEntry OBJECT-TYPE SYNTAX OutletConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An outlet entry containing parameters for a particular outlet." INDEX { pduId, outletId } ::= { outletConfigurationTable 1 } OutletConfigurationEntryStruct ::= SEQUENCE { outletId Integer32, outletLabel DisplayString, outletName DisplayString, outletReceptacle ReceptacleTypeEnumeration, outletPoleCount Integer32, outletRatedVoltage DisplayString, outletRatedCurrent DisplayString, outletRatedVA DisplayString, outletDeviceCapabilities BITS, outletPoleCapabilities BITS, outletPowerCyclingPowerOffPeriod Unsigned32, outletStateOnStartup OutletStateOnStartupEnumeration, outletUseGlobalPowerCyclingPowerOffPeriod TruthValue, outletSwitchable TruthValue, outletReceptacleDescriptor DisplayString, outletNonCritical TruthValue, outletSequenceDelay Unsigned32, outletPowerSource RowPointer } outletId OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each outlet. Its value ranges between 1 and the value of outletCount." ::= { outletConfigurationEntry 1 } outletLabel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The label on the PDU identifying the outlet." ::= { outletConfigurationEntry 2 } outletName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name." ::= { outletConfigurationEntry 3 } outletReceptacle OBJECT-TYPE SYNTAX ReceptacleTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The plug." ::= { outletConfigurationEntry 4 } outletPoleCount OBJECT-TYPE SYNTAX Integer32(2..4) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of poles." ::= { outletConfigurationEntry 5 } outletRatedVoltage OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The outlet voltage rating." ::= { outletConfigurationEntry 6 } outletRatedCurrent OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The outlet current rating." ::= { outletConfigurationEntry 7 } outletRatedVA OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The outlet VA (VoltAmps) rating." ::= { outletConfigurationEntry 8 } outletDeviceCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), unbalancedCurrent(2), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8), onOff(13), frequency(22), phaseAngle(23) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which outlet sensors are available." ::= { outletConfigurationEntry 10 } outletPoleCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8), rmsVoltageLN(24) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which outlet pole sensors are available." ::= { outletConfigurationEntry 11 } outletPowerCyclingPowerOffPeriod OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The power-off period when an outlet is cycled; overrides the global value; specified in seconds; 0 <= value <= 3600 seconds." ::= { outletConfigurationEntry 12 } outletStateOnStartup OBJECT-TYPE SYNTAX OutletStateOnStartupEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The outlet state on device startup; overrides the global value. Note that this value is ignored if relayBehaviorOnPowerLoss is set to latching." ::= { outletConfigurationEntry 13} outletUseGlobalPowerCyclingPowerOffPeriod OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "If this true, then use globalOutletPowerCyclingPowerOffPeriod." ::= { outletConfigurationEntry 14 } outletSwitchable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is this outlet switchable?" ::= { outletConfigurationEntry 28 } outletReceptacleDescriptor OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "Description of the Receptacle" ::= { outletConfigurationEntry 29 } outletNonCritical OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is this outlet non-critical?" ::= { outletConfigurationEntry 30 } outletSequenceDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The time interval between switching on this outlet and the next outlet in the outlet sequence. This applies to the following operations. 1) Switch all outlets on operation is executed 2) Power to the PDU is cycledThis applies only when all outlets are being switched on or cycled. It is specified in seconds; 1 <= value <= 3600 seconds. The actual time interval used can never be less than the inrushGuardDelay defined in the unitConfigurationTable. Examples: 1) inrush Guard Delay is 2 seconds and outletSequenceDelay is 5 seconds. The time interval will be 5 seconds 2) inrush Guard Delay is 5 seconds and outletSequenceDelay is 2 seconds. The time interval will be 5 seconds " ::= { outletConfigurationEntry 32 } outletPowerSource OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-only STATUS current DESCRIPTION "This object allows discovery of how the PDU is wired. It indicates the outlet's power source which can one of the following: overCurrentProtector transfer switch inlet If the power source is an OverCurrentProtector, it contains the OID of an overCurrentProtectorLabel in the overCurrentProtectorConfiguration Table. The index of the OID can then be used to reference other objects in the overCurrentProtectorConfigurationTable. If the power source is an inlet, it contains the OID of an inletLabel in the inletConfigurationTable. The index of the OID can then be used to reference other objects in the inletConfigurationTable. If the power source is a transferSwitch, it contains the OID of a transferSwitchLabel in the transferSwitchConfiguration Table. The index of the OID can then be used to reference other objects in the transferSwitchConfigurationTable. " ::= { outletConfigurationEntry 33} -- the outetPoleConfiguration table -- The outletPoleConfiguration table contains information on the PDU's outlet poles. outletPoleConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlet pole configuration entries. The number of entries is given by the value of outletPoleCount for the PDU." ::= { outlets 5 } outletPoleConfigurationEntry OBJECT-TYPE SYNTAX OutletPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parametersfor a particular outlet pole." INDEX { pduId, outletId, outletPoleIndex } ::= { outletPoleConfigurationTable 1 } OutletPoleConfigurationEntryStruct ::= SEQUENCE {outletPoleLine LineEnumeration, outletPoleNode Integer32 } outletPoleLine OBJECT-TYPE SYNTAX LineEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The Phase for this inlet Pole. " ::= { outletPoleConfigurationEntry 1 } outletPoleNode OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this outlet pole is connected" ::= { outletPoleConfigurationEntry 2 } -- The outletSensorConfiguration table contains information on the PDU's inlet Sensors. outletSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlet configuration entries. The number of entries is given by the value of outletCount for the PDU." ::= { outlets 4 } outletSensorConfigurationEntry OBJECT-TYPE SYNTAX OutletSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parameters for an outlet sensor." INDEX { pduId, outletId,sensorType } ::= { outletSensorConfigurationTable 1 } OutletSensorConfigurationEntryStruct ::= SEQUENCE { outletSensorLogAvailable TruthValue, outletSensorUnits SensorUnitsEnumeration, outletSensorDecimalDigits Unsigned32, outletSensorAccuracy HundredthsOfAPercentage, outletSensorResolution Unsigned32, outletSensorTolerance Unsigned32, outletSensorMaximum Unsigned32, outletSensorMinimum Unsigned32, outletSensorHysteresis Unsigned32, outletSensorStateChangeDelay Unsigned32, outletSensorLowerCriticalThreshold Unsigned32, outletSensorLowerWarningThreshold Unsigned32, outletSensorUpperCriticalThreshold Unsigned32, outletSensorUpperWarningThreshold Unsigned32, outletSensorEnabledThresholds BITS, outletSensorSignedMaximum Integer32, outletSensorSignedMinimum Integer32, outletSensorSignedLowerCriticalThreshold Integer32, outletSensorSignedLowerWarningThreshold Integer32, outletSensorSignedUpperCriticalThreshold Integer32, outletSensorSignedUpperWarningThreshold Integer32 } outletSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging available for this sensor?" ::= { outletSensorConfigurationEntry 4 } outletSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 6 } outletSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 7 } outletSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 8 } outletSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 9 } outletSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (outletSensorDecimalDigits + 1). For example, if the value is 50 and outletSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 10 } outletSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 11 } outletSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 12 } outletSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 13 } outletSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 14 } outletSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 21 } outletSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 22 } outletSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 23 } outletSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 24 } outletSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 25 } outletSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 26 } outletSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 27 } outletSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 28 } outletSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 29 } outletSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 30 } outletSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorConfigurationEntry 31 } -- The outletPoleSensorConfiguration table contains information on the PDU's outlet pole Sensors. outletPoleSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletPoleSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlet pole sensor configuration entries. The number of entries is given by the value of outletPoleCount." ::= { outlets 6 } outletPoleSensorConfigurationEntry OBJECT-TYPE SYNTAX OutletPoleSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for configuring an outlet pole sensor." INDEX { pduId, outletId,outletPoleIndex,sensorType } ::= { outletPoleSensorConfigurationTable 1 } OutletPoleSensorConfigurationEntryStruct ::= SEQUENCE { outletPoleIndex Integer32, outletPoleSensorLogAvailable TruthValue, outletPoleSensorUnits SensorUnitsEnumeration, outletPoleSensorDecimalDigits Unsigned32, outletPoleSensorAccuracy HundredthsOfAPercentage, outletPoleSensorResolution Unsigned32, outletPoleSensorTolerance Unsigned32, outletPoleSensorMaximum Unsigned32, outletPoleSensorMinimum Unsigned32, outletPoleSensorHysteresis Unsigned32, outletPoleSensorStateChangeDelay Unsigned32, outletPoleSensorLowerCriticalThreshold Unsigned32, outletPoleSensorLowerWarningThreshold Unsigned32, outletPoleSensorUpperCriticalThreshold Unsigned32, outletPoleSensorUpperWarningThreshold Unsigned32, outletPoleSensorEnabledThresholds BITS, outletPoleSensorSignedMaximum Integer32, outletPoleSensorSignedMinimum Integer32, outletPoleSensorSignedLowerCriticalThreshold Integer32, outletPoleSensorSignedLowerWarningThreshold Integer32, outletPoleSensorSignedUpperCriticalThreshold Integer32, outletPoleSensorSignedUpperWarningThreshold Integer32 } outletPoleIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each outlet Pole. Its value ranges between 1 and the value of outletPoleCount." ::= { outletPoleSensorConfigurationEntry 1 } outletPoleSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging enabled for the sensor?" ::= { outletPoleSensorConfigurationEntry 4 } outletPoleSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 6 } outletPoleSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 7 } outletPoleSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 8 } outletPoleSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 50 and outletPoleSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 9 } outletPoleSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (outletPoleSensorDecimalDigits + 1). For example, if the value is 50 and outletPoleSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 10 } outletPoleSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 11 } outletPoleSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 12 } outletPoleSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 13 } outletPoleSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 14 } outletPoleSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 21 } outletPoleSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 22 } outletPoleSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 23 } outletPoleSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 24 } outletPoleSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 25 } outletPoleSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 26 } outletPoleSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 27 } outletPoleSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 28 } outletPoleSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 29 } outletPoleSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 30 } outletPoleSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorConfigurationEntry 31 } -- the externalSensorConfiguration table -- The externalSensorConfiguration table contains information on the PDU's external Sensors. externalSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF ExternalSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of externalSensor configuration entries. The number of entries is given by the value of externalSensorCount for the PDU." ::= { externalSensors 3 } externalSensorConfigurationEntry OBJECT-TYPE SYNTAX ExternalSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parameters for an external sensor." INDEX { pduId, sensorID } ::= { externalSensorConfigurationTable 1 } ExternalSensorConfigurationEntryStruct ::= SEQUENCE {sensorID Integer32, externalSensorType SensorTypeEnumeration, externalSensorSerialNumber DisplayString, externalSensorName DisplayString, externalSensorDescription DisplayString, externalSensorXCoordinate DisplayString, externalSensorYCoordinate DisplayString, externalSensorZCoordinate DisplayString, externalSensorChannelNumber Integer32, externalOnOffSensorSubtype SensorTypeEnumeration, externalSensorLogAvailable TruthValue, externalSensorUnits SensorUnitsEnumeration, externalSensorDecimalDigits Unsigned32, externalSensorAccuracy HundredthsOfAPercentage, externalSensorResolution Unsigned32, externalSensorTolerance Unsigned32, externalSensorMaximum Integer32, externalSensorMinimum Integer32, externalSensorHysteresis Unsigned32, externalSensorStateChangeDelay Unsigned32, externalSensorLowerCriticalThreshold Integer32, externalSensorLowerWarningThreshold Integer32, externalSensorUpperCriticalThreshold Integer32, externalSensorUpperWarningThreshold Integer32, externalSensorEnabledThresholds BITS, externalSensorIsActuator TruthValue, externalSensorPosition DisplayString, externalSensorUseDefaultThresholds TruthValue, externalSensorAlarmedToNormalDelay Integer32 } sensorID OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each sensor. Its value ranges between 1 and the value of externalSensorCount." ::= { externalSensorConfigurationEntry 1 } externalSensorType OBJECT-TYPE SYNTAX SensorTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The type of sensor." ::= { externalSensorConfigurationEntry 2 } externalSensorSerialNumber OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor serial number." ::= { externalSensorConfigurationEntry 3 } externalSensorName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name." ::= { externalSensorConfigurationEntry 4 } externalSensorDescription OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined description." ::= { externalSensorConfigurationEntry 5 } externalSensorXCoordinate OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The X coordinate." ::= { externalSensorConfigurationEntry 6 } externalSensorYCoordinate OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The Y coordinate." ::= { externalSensorConfigurationEntry 7 } externalSensorZCoordinate OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The Z coordinate." ::= { externalSensorConfigurationEntry 8 } externalSensorChannelNumber OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The channel number, applies only to contact sensors; -1 for other sensors" ::= { externalSensorConfigurationEntry 9 } externalOnOffSensorSubtype OBJECT-TYPE SYNTAX SensorTypeEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The subtype of the binary sensor" ::= { externalSensorConfigurationEntry 10 } externalSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging available for this sensor?" ::= { externalSensorConfigurationEntry 14 } externalSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors. " ::= { externalSensorConfigurationEntry 16 } externalSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 17 } externalSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 18 } externalSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 19 } externalSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (externalSensorDecimalDigits + 1). For example, if the value is 50 and externalSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 20 } externalSensorMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible value The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 21 } externalSensorMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible value The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 22 } externalSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 23 } externalSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. At present, this value cannot be written (set)" ::= { externalSensorConfigurationEntry 24 } externalSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 31 } externalSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower non-critical (warning) threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 32 } externalSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 33 } externalSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper non-critical (warning) threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorConfigurationEntry 34 } externalSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors " ::= { externalSensorConfigurationEntry 35} externalSensorIsActuator OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is this an actuator? True: It is an actuator False: It is not an actuator" ::= { externalSensorConfigurationEntry 36 } externalSensorPosition OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The position of the sensor. The format is a semicolon separated list of Keyword:value pairs - Keyword1:Value1;Keyword2:value2;... Keyword can be one of the following: ONBOARD, DEVICE-1WIREPORT, HUBPORT, CHAIN-POSITION Examples 1) Onboard Sensor ONBOARD:CC1 2) Old sensor connected to device 1-wire port DEVICE-1WIREPORT:2 3) New style sensor connected to device 1-wire port DEVICE-1WIREPORT:2;CHAIN-POSITION:3 4) New style sensor connected to hub port 3 DEVICE-1WIREPORT:2;CHAIN-POSITION:1;HUBPORT:3;CHAIN-POSITION:1 5) Old style sensor connected to end of new style sensor chain DEVICE-1WIREPORT:2; " ::= { externalSensorConfigurationEntry 37 } externalSensorUseDefaultThresholds OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Use default thresholds for this sensor? True: Use Default thresholds for this sensor False: Do not Use Default thresholds for this sensor" ::= { externalSensorConfigurationEntry 38 } externalSensorAlarmedToNormalDelay OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay in seconds for transitions from the alarmed state to the normal state. If the sensor type is motionDetection, then it can set to a value greater >= 0 For all other sensor types, the value is 0 and cannot be set to any other value. " ::= { externalSensorConfigurationEntry 39 } -- This table applies only to G1 External sensors. -- This table is used for bulk configuration of G1 External sensors. externalSensorTypeDefaultThresholdsTable OBJECT-TYPE SYNTAX SEQUENCE OF ExternalSensorTypeDefaultThresholdsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of entries listing the default thresholds for each sensor type. " ::= { externalSensors 4 } externalSensorTypeDefaultThresholdsEntry OBJECT-TYPE SYNTAX ExternalSensorTypeDefaultThresholdsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing default thresholds for a sensor type." INDEX { pduId, sensorType } ::= { externalSensorTypeDefaultThresholdsTable 1 } ExternalSensorTypeDefaultThresholdsEntryStruct ::= SEQUENCE { externalSensorTypeDefaultHysteresis Unsigned32, externalSensorTypeDefaultStateChangeDelay Unsigned32, externalSensorTypeDefaultLowerCriticalThreshold Integer32, externalSensorTypeDefaultLowerWarningThreshold Integer32, externalSensorTypeDefaultUpperCriticalThreshold Integer32, externalSensorTypeDefaultUpperWarningThreshold Integer32, externalSensorTypeDefaultEnabledThresholds BITS } externalSensorTypeDefaultHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorTypeDefaultThresholdsEntry 3 } externalSensorTypeDefaultStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. At present, this value cannot be written (set)" ::= { externalSensorTypeDefaultThresholdsEntry 4 } externalSensorTypeDefaultLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorTypeDefaultThresholdsEntry 5 } externalSensorTypeDefaultLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower non-critical (warning) threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorTypeDefaultThresholdsEntry 6 } externalSensorTypeDefaultUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorTypeDefaultThresholdsEntry 7 } externalSensorTypeDefaultUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper non-critical (warning) threshold The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors." ::= { externalSensorTypeDefaultThresholdsEntry 8 } externalSensorTypeDefaultEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to onOff, trip, vibration, waterDetection, smokeDetection sensors " ::= { externalSensorTypeDefaultThresholdsEntry 9} -- the server reachability table -- The server Reachability table contains information on the ping feature. serverReachabilityTable OBJECT-TYPE SYNTAX SEQUENCE OF ServerReachabilityEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of server entries. The number of entries is given by the value of serverCount for the PDU." ::= { serverReachability 3 } serverReachabilityEntry OBJECT-TYPE SYNTAX ServerReachabilityEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parameters for a server." INDEX { pduId, serverID } ::= { serverReachabilityTable 1 } ServerReachabilityEntryStruct ::= SEQUENCE {serverID Integer32, serverIPAddress DisplayString, serverPingEnabled TruthValue } serverID OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each server. Its value ranges between 1 and the value of serverCount for that PDU" ::= { serverReachabilityEntry 1 } serverIPAddress OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The IP Address/host name of the server" ::= { serverReachabilityEntry 3 } serverPingEnabled OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is ping enabled for this server?" ::= { serverReachabilityEntry 4 } -- the wireConfiguration table -- The wireConfiguration table contains information on the PDU's wires. wireConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF WireConfigurationEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "A list of wire configuration entries. The number of entries is given by the value of wireCount for the PDU." ::= { wires 3 } wireConfigurationEntry OBJECT-TYPE SYNTAX WireConfigurationEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "An entry containing objects for a particular wire." INDEX { pduId, wireId } ::= { wireConfigurationTable 1 } WireConfigurationEntryStruct ::= SEQUENCE { wireId Integer32, wireLabel DisplayString, wireCapabilities BITS, wirePowerSource RowPointer } wireId OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "A unique value for each wire. Its value ranges between 1 and the value of wireCount." ::= { wireConfigurationEntry 1 } wireLabel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The label on the PDU identifying the wire." ::= { wireConfigurationEntry 2 } wireCapabilities OBJECT-TYPE SYNTAX BITS { rmsCurrent(0), peakCurrent(1), unbalancedCurrent(2), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8) } MAX-ACCESS read-only STATUS deprecated DESCRIPTION "A bit string which indicates which wire sensors are available." ::= { wireConfigurationEntry 3 } wirePowerSource OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-only STATUS deprecated DESCRIPTION "This object allows discovery of how the PDU is wired. It indicates the wire's power source which can one of the following: overCurrentProtector transfer switch inlet If the power source is an OverCurrentProtector, it contains the OID of an overCurrentProtectorLabel in the overCurrentProtectorConfiguration Table. The index of the OID can then be used to reference other objects in the overCurrentProtectorConfigurationTable. If the power source is an inlet, it contains the OID of an inletLabel in the inletConfigurationTable. The index of the OID can then be used to reference other objects in the inletConfigurationTable. If the power source is a transferSwitch, it contains the OID of a transferSwitchLabel in the transferSwitchConfiguration Table. The index of the OID can then be used to reference other objects in the transferSwitchConfigurationTable. " ::= { wireConfigurationEntry 4} -- The wireSensorConfiguration table contains information on the PDU's wire Sensors. wireSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF WireSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "A list of wireSensor configuration entries." ::= { wires 4 } wireSensorConfigurationEntry OBJECT-TYPE SYNTAX WireSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "An wireSensor entry containing objects for a particular wire Sensor." INDEX { pduId, wireId, sensorType } ::= { wireSensorConfigurationTable 1 } WireSensorConfigurationEntryStruct ::= SEQUENCE { wireSensorLogAvailable TruthValue, wireSensorUnits SensorUnitsEnumeration, wireSensorDecimalDigits Unsigned32, wireSensorAccuracy HundredthsOfAPercentage, wireSensorResolution Unsigned32, wireSensorTolerance Unsigned32, wireSensorMaximum Unsigned32, wireSensorMinimum Unsigned32, wireSensorHysteresis Unsigned32, wireSensorStateChangeDelay Unsigned32, wireSensorLowerCriticalThreshold Unsigned32, wireSensorLowerWarningThreshold Unsigned32, wireSensorUpperCriticalThreshold Unsigned32, wireSensorUpperWarningThreshold Unsigned32, wireSensorEnabledThresholds BITS } wireSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS deprecated DESCRIPTION "Is logging available for this sensor?" ::= { wireSensorConfigurationEntry 4 } wireSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The base units" ::= { wireSensorConfigurationEntry 6 } wireSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The number of digits displayed to the right of the decimal point." ::= { wireSensorConfigurationEntry 7 } wireSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value" ::= { wireSensorConfigurationEntry 8 } wireSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 9 } wireSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (wireSensorDecimalDigits + 1). For example, if the value is 50 and wireSensorDecimalDigits is 2, then actual value is 0.05." ::= { wireSensorConfigurationEntry 10 } wireSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The largest possible value The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 11 } wireSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The smallest possible value The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 12 } wireSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 13 } wireSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. At present, this value cannot be written (set)" ::= { wireSensorConfigurationEntry 14 } wireSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The lower critical threshold The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 21 } wireSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The lower non-critical (warning) threshold The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 22 } wireSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The upper critical threshold The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 23 } wireSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The upper non-critical (warning) threshold The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01." ::= { wireSensorConfigurationEntry 24 } wireSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS { lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS deprecated DESCRIPTION "A bit string which indicates which thresholds are enabled." ::= { wireSensorConfigurationEntry 25 } -- the transferSwitchConfiguration table -- The tsConfiguration table contains information on the TS ( Transfer Switch). transferSwitchConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF TransferSwitchConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of transfer switch configuration entries. The number of entries is given by the value of transferSwitchCount." ::= { transferSwitch 3 } transferSwitchConfigurationEntry OBJECT-TYPE SYNTAX TransferSwitchConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for a particular transferSwitch." INDEX { pduId, transferSwitchId } ::= { transferSwitchConfigurationTable 1 } TransferSwitchConfigurationEntryStruct ::= SEQUENCE { transferSwitchId Integer32, transferSwitchLabel DisplayString, transferSwitchName DisplayString, transferSwitchPreferredInlet Integer32, transferSwitchPoleCount Integer32, transferSwitchAutoReTransferEnabled TruthValue, transferSwitchAutoReTransferWaitTime Unsigned32, transferSwitchAutoReTransferRequiresPhaseSync TruthValue, transferSwitchFrontPanelManualTransferButtonEnabled TruthValue, transferSwitchCapabilities BITS, transferSwitchPowerSource1 RowPointer, transferSwitchPowerSource2 RowPointer } transferSwitchId OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each transfer switch. Its value ranges between 1 and the value of transferSwitchCount." ::= { transferSwitchConfigurationEntry 1 } transferSwitchLabel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The label on the PDU identifying the TS." ::= { transferSwitchConfigurationEntry 2 } transferSwitchName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name of the transferSwitch." ::= { transferSwitchConfigurationEntry 3 } transferSwitchPreferredInlet OBJECT-TYPE SYNTAX Integer32(1..64) MAX-ACCESS read-only STATUS current DESCRIPTION "The preferred Inlet. The TS powers the outlet from the preferred inlet when acceptable power is available from the preferred inlet. " ::= { transferSwitchConfigurationEntry 4 } transferSwitchPoleCount OBJECT-TYPE SYNTAX Integer32(2..4) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of poles." ::= { transferSwitchConfigurationEntry 5 } transferSwitchAutoReTransferEnabled OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "The TS can be configured to automatically retransfer back to the preferred inlet when power is restored. Re-transfer only occurs if this variable is true." ::= { transferSwitchConfigurationEntry 20 } transferSwitchAutoReTransferWaitTime OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The Auto Re-Transfer Wait Time. Re-transfer occurs this many seconds after the condition causing the original transfer has been corrected." ::= { transferSwitchConfigurationEntry 21 } transferSwitchAutoReTransferRequiresPhaseSync OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "If this parameter is False, then do not retransfer if there is a PHASE_SYNC_FAULT in effect. A PHASE_SYNC_FAULT occurs when the phase difference between the inlets is too high." ::= { transferSwitchConfigurationEntry 22 } transferSwitchFrontPanelManualTransferButtonEnabled OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "If this parameter is false, then manual transfers caused by pressing the front panel switch are disabled. " ::= { transferSwitchConfigurationEntry 23 } transferSwitchCapabilities OBJECT-TYPE SYNTAX BITS { overloadStatus(32), inletPhaseSyncAngle(37), inletPhaseSync(38), operatingState(39), activeInlet(40), switchStatus(47) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which sensors are available for the transfer switch." ::= { transferSwitchConfigurationEntry 24 } transferSwitchPowerSource1 OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-only STATUS current DESCRIPTION "This object allows discovery of how the PDU is wired. It indicates the transferSwitch's first power source which can one of the following: overCurrentProtector transfer switch inlet If the power source is an OverCurrentProtector, it contains the OID of an overCurrentProtectorLabel in the overCurrentProtectorConfiguration Table. The index of the OID can then be used to reference other objects in the overCurrentProtectorConfigurationTable. If the power source is an inlet, it contains the OID of an inletLabel in the inletConfigurationTable. The index of the OID can then be used to reference other objects in the inletConfigurationTable. If the power source is a transferSwitch, it contains the OID of a transferSwitchLabel in the transferSwitchConfiguration Table. The index of the OID can then be used to reference other objects in the transferSwitchConfigurationTable. " ::= { transferSwitchConfigurationEntry 31 } transferSwitchPowerSource2 OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-only STATUS current DESCRIPTION "This object allows discovery of how the PDU is wired. It indicates the transferSwitch's second power source which can one of the following: overCurrentProtector transfer switch inlet If the power source is an OverCurrentProtector, it contains the OID of an overCurrentProtectorLabel in the overCurrentProtectorConfiguration Table. The index of the OID can then be used to reference other objects in the overCurrentProtectorConfigurationTable. If the power source is an inlet, it contains the OID of an inletLabel in the inletConfigurationTable. The index of the OID can then be used to reference other objects in the inletConfigurationTable. If the power source is a transferSwitch, it contains the OID of a transferSwitchLabel in the transferSwitchConfiguration Table. The index of the OID can then be used to reference other objects in the transferSwitchConfigurationTable " ::= { transferSwitchConfigurationEntry 32 } -- the transferSwitchPoleConfiguration table -- The transferSwitchPoleConfiguration table contains information on the transferSwitch poles. transferSwitchPoleConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF TransferSwitchPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of transferSwitch pole configuration entries. The number of entries is given by the value of transferSwitchPoleCount." ::= { transferSwitch 5 } transferSwitchPoleConfigurationEntry OBJECT-TYPE SYNTAX TransferSwitchPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parametersfor a particular outlet pole." INDEX { pduId, transferSwitchId, transferSwitchPoleIndex } ::= { transferSwitchPoleConfigurationTable 1 } TransferSwitchPoleConfigurationEntryStruct ::= SEQUENCE {transferSwitchPoleIndex Integer32, transferSwitchPoleLine LineEnumeration, transferSwitchPoleIn1Node Integer32, transferSwitchPoleIn2Node Integer32, transferSwitchPoleOutNode Integer32 } transferSwitchPoleIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each transferSwitch Pole. Its value ranges between 1 and the value of transferSwitchPoleCount." ::= { transferSwitchPoleConfigurationEntry 1 } transferSwitchPoleLine OBJECT-TYPE SYNTAX LineEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The Phase for this transferSwitch Pole. " ::= { transferSwitchPoleConfigurationEntry 2 } transferSwitchPoleIn1Node OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this transferSwitch pole Input 1 is connected" ::= { transferSwitchPoleConfigurationEntry 3 } transferSwitchPoleIn2Node OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this transferSwitch pole Input 2 is connected" ::= { transferSwitchPoleConfigurationEntry 4 } transferSwitchPoleOutNode OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The node to which this transferSwitch pole Output is connected" ::= { transferSwitchPoleConfigurationEntry 5 } -- The transfer switch sensor configuration table contains information on the transfer switch's sensors. transferSwitchSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF TransferSwitchSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of transfer switch sensor configuration entries. " ::= { transferSwitch 4 } transferSwitchSensorConfigurationEntry OBJECT-TYPE SYNTAX TransferSwitchSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing parameters for a transfer switch sensor." INDEX { pduId, transferSwitchId, sensorType } ::= { transferSwitchSensorConfigurationTable 1 } TransferSwitchSensorConfigurationEntryStruct ::= SEQUENCE { transferSwitchSensorLogAvailable TruthValue, transferSwitchSensorUnits SensorUnitsEnumeration, transferSwitchSensorDecimalDigits Unsigned32, transferSwitchSensorAccuracy HundredthsOfAPercentage, transferSwitchSensorResolution Unsigned32, transferSwitchSensorTolerance Unsigned32, transferSwitchSensorMaximum Unsigned32, transferSwitchSensorMinimum Unsigned32, transferSwitchSensorHysteresis Unsigned32, transferSwitchSensorStateChangeDelay Unsigned32, transferSwitchSensorLowerCriticalThreshold Unsigned32, transferSwitchSensorLowerWarningThreshold Unsigned32, transferSwitchSensorUpperCriticalThreshold Unsigned32, transferSwitchSensorUpperWarningThreshold Unsigned32, transferSwitchSensorEnabledThresholds BITS, transferSwitchSensorSignedMaximum Integer32, transferSwitchSensorSignedMinimum Integer32, transferSwitchSensorSignedLowerCriticalThreshold Integer32, transferSwitchSensorSignedLowerWarningThreshold Integer32, transferSwitchSensorSignedUpperCriticalThreshold Integer32, transferSwitchSensorSignedUpperWarningThreshold Integer32 } transferSwitchSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging available for this sensor?" ::= { transferSwitchSensorConfigurationEntry 4 } transferSwitchSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 6 } transferSwitchSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 7 } transferSwitchSensorAccuracy OBJECT-TYPE SYNTAX HundredthsOfAPercentage MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The accuracy: how close (in percent) the measurement is to the actual value This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 8 } transferSwitchSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 9 } transferSwitchSensorTolerance OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The resolution: the difference between a sensor value and the actual value The value of this OID variable should be scaled by (transferSwitchSensorDecimalDigits + 1). For example, if the value is 50 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.05. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 10 } transferSwitchSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 11 } transferSwitchSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 12 } transferSwitchSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 13 } transferSwitchSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 14 } transferSwitchSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 21 } transferSwitchSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 22 } transferSwitchSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 23 } transferSwitchSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 24 } transferSwitchSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS { lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 25 } transferSwitchSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 26 } transferSwitchSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 27 } transferSwitchSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 28 } transferSwitchSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 29 } transferSwitchSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 30 } transferSwitchSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorConfigurationEntry 31 } -- the PowerMeterConfiguration table -- The PowerMeterConfiguration table contains information on power meters. -- This table contains information on power meters and panels. powerMeterConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF PowerMeterConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of power meter and panel configuration entries." ::= { powerMeter 2 } powerMeterConfigurationEntry OBJECT-TYPE SYNTAX PowerMeterConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing configuration objects for power meters and panels." INDEX { pduId } ::= { powerMeterConfigurationTable 1 } PowerMeterConfigurationEntryStruct ::= SEQUENCE { powerMeterPhaseCTRating Unsigned32, powerMeterNeutralCTRating Unsigned32, powerMeterEarthCTRating Unsigned32, powerMeterBranchCount Unsigned32, powerMeterPanelPositions Integer32, powerMeterPanelLayout PanelLayoutEnumeration, powerMeterPanelNumbering PanelNumberingEnumeration, powerMeterType PowerMeterTypeEnumeration } powerMeterPhaseCTRating OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The rating of the Phase CT in A, or 0 if the CT is disabled. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { powerMeterConfigurationEntry 2 } powerMeterNeutralCTRating OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The rating of the Neutral CT in A, or 0 if the CT is disabled. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { powerMeterConfigurationEntry 3 } powerMeterEarthCTRating OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The rating of the Earth CT in A, or 0 if the CT is disabled. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { powerMeterConfigurationEntry 4 } powerMeterBranchCount OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION " The maximum number of circuits supported by the panel. (The number of user configured circuits is in unitConfigurationTable(pduId).circuitCount.) It can be used to distinguish between power meters and panels. If value > 0, then panel (BCM) else power meter " ::= { powerMeterConfigurationEntry 5 } powerMeterPanelPositions OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of circuit positions in the panel. Its value is specified by the user when configuring a panel " ::= { powerMeterConfigurationEntry 6 } powerMeterPanelLayout OBJECT-TYPE SYNTAX PanelLayoutEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION " valid only for panels (powerMeterCircuitPositionCount > 0); invalid for power meters (powerMeterCircuitPositionCount = 0): value returned is invalid(-1). The panel circuit position layout: single column, two columns." ::= { powerMeterConfigurationEntry 7 } powerMeterPanelNumbering OBJECT-TYPE SYNTAX PanelNumberingEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION " valid only for panels (powerMeterCircuitPositionCount > 0); invalid for power meters (powerMeterCircuitPositionCount = 0): value returned is invalid(-1). The panel circuit position numbering scheme: odd/even, sequential. " ::= { powerMeterConfigurationEntry 8 } powerMeterType OBJECT-TYPE SYNTAX PowerMeterTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The power meter type: 3-phase, single-phase, split-phase. " ::= { powerMeterConfigurationEntry 9 } -- the CircuitConfiguration table -- The CircuitConfiguration table contains information on the circuits in the panel. circuitConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of circuit configuration entries. The number of entries is given by the value of panelCircuitPositionCount." ::= { circuit 2 } circuitConfigurationEntry OBJECT-TYPE SYNTAX CircuitConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing configuration objects for the circuit." INDEX { pduId, circuitId } ::= { circuitConfigurationTable 1 } CircuitConfigurationEntryStruct ::= SEQUENCE { circuitId Integer32, circuitPoleCount Integer32, circuitName DisplayString, circuitType CircuitTypeEnumeration, circuitRatedCurrent Unsigned32, circuitCTRating Unsigned32, circuitCapabilities BITS, circuitPoleCapabilities BITS, circuitPowerSource RowPointer } circuitId OBJECT-TYPE SYNTAX Integer32(1..1024) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each circuit. circuitId is defined as follows. It is the circuit position in the panel " ::= { circuitConfigurationEntry 1 } circuitPoleCount OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of circuit positions (poles) in the circuit." ::= { circuitConfigurationEntry 2 } circuitName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The user-defined name for the circuit. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { circuitConfigurationEntry 3 } circuitType OBJECT-TYPE SYNTAX CircuitTypeEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The type of circuit: singlePhaseL_L, singlePhaseL_N, twoPhase,threePhase" ::= { circuitConfigurationEntry 4 } circuitRatedCurrent OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The rating of the breaker for the circuit in A. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { circuitConfigurationEntry 5 } circuitCTRating OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The rating of the CTs metering this circuit in A. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { circuitConfigurationEntry 6 } circuitCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), unbalancedCurrent(2), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8), surgeProtectorStatus(21), frequency(22), phaseAngle(23), residualCurrent(25), rcmState(26), reactivePower(28), powerQuality(31), displacementPowerFactor(34) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which sensors are available for the circuit." ::= { circuitConfigurationEntry 7 } circuitPoleCapabilities OBJECT-TYPE SYNTAX BITS{ rmsCurrent(0), peakCurrent(1), rmsVoltage(3), activePower(4), apparentPower(5), powerFactor(6), activeEnergy(7), apparentEnergy(8), phaseAngle(23), rmsVoltageLN(24), reactivePower(28), displacementPowerFactor(34) } MAX-ACCESS read-only STATUS current DESCRIPTION "A bit string which indicates which sensors are available for the circuit pole." ::= { circuitConfigurationEntry 8 } circuitPowerSource OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-only STATUS current DESCRIPTION "This object allows discovery of how the circuit is wired. It indicates the circuit's power source which can one of the following: Inlet It contains the OID of an inletLabel in the inletConfigurationTable. The index of the OID can then be used to reference other objects in the inletConfigurationTable. " ::= { circuitConfigurationEntry 9 } -- the CircuitPoleConfiguration table -- The CircuitPoleConfiguration table contains information on the circuit poles in the circuit. circuitPoleConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of Panel Circuit Pole configuration entries. The number of entries is given by the value of circuitPoleCount for the circuit." ::= { circuit 3 } circuitPoleConfigurationEntry OBJECT-TYPE SYNTAX CircuitPoleConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing configuration objects for the circuit poles." INDEX { pduId, circuitId, circuitPoleId } ::= { circuitPoleConfigurationTable 1 } CircuitPoleConfigurationEntryStruct ::= SEQUENCE { circuitPoleId Integer32, circuitPolePanelPosition Integer32, circuitPoleCTNumber Integer32, circuitPolePhase PhaseEnumeration } circuitPoleId OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each circuit Pole. Its value ranges between 1 and the value of circuitPoleCount." ::= { circuitPoleConfigurationEntry 1 } circuitPolePanelPosition OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS read-only STATUS current DESCRIPTION "The circuit position for this pole." ::= { circuitPoleConfigurationEntry 2 } circuitPoleCTNumber OBJECT-TYPE SYNTAX Integer32(0..256) MAX-ACCESS read-write STATUS current DESCRIPTION "The CT Number for this circuit Pole, or 0 if no CT is present. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { circuitPoleConfigurationEntry 3 } circuitPolePhase OBJECT-TYPE SYNTAX PhaseEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The Phase for this circuit Pole. At present, read-only access; see MIN-ACCESS in MODULE-COMPLIANCE ModulecomplianceRev2" ::= { circuitPoleConfigurationEntry 4 } -- The circuitSensorConfiguration table contains information on the circuit's sensors. circuitSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of configuration entries for an inlet sensor." ::= { circuit 4 } circuitSensorConfigurationEntry OBJECT-TYPE SYNTAX CircuitSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for configuring an inlet sensor." INDEX { pduId, circuitId, sensorType } ::= { circuitSensorConfigurationTable 1 } CircuitSensorConfigurationEntryStruct ::= SEQUENCE { circuitSensorLogAvailable TruthValue, circuitSensorUnits SensorUnitsEnumeration, circuitSensorDecimalDigits Unsigned32, circuitSensorResolution Unsigned32, circuitSensorMaximum Unsigned32, circuitSensorMinimum Unsigned32, circuitSensorHysteresis Unsigned32, circuitSensorStateChangeDelay Unsigned32, circuitSensorLowerCriticalThreshold Unsigned32, circuitSensorLowerWarningThreshold Unsigned32, circuitSensorUpperCriticalThreshold Unsigned32, circuitSensorUpperWarningThreshold Unsigned32, circuitSensorEnabledThresholds BITS, circuitSensorSignedMaximum Integer32, circuitSensorSignedMinimum Integer32, circuitSensorSignedLowerCriticalThreshold Integer32, circuitSensorSignedLowerWarningThreshold Integer32, circuitSensorSignedUpperCriticalThreshold Integer32, circuitSensorSignedUpperWarningThreshold Integer32 } circuitSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging enabled for the sensor?" ::= { circuitSensorConfigurationEntry 4 } circuitSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 6 } circuitSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 7 } circuitSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 9 } circuitSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 11 } circuitSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 12 } circuitSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 13 } circuitSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 14 } circuitSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 21 } circuitSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 22 } circuitSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 23 } circuitSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 24 } circuitSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 25 } circuitSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 26 } circuitSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 27 } circuitSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 28 } circuitSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 29 } circuitSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 30 } circuitSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorConfigurationEntry 31 } -- The circuitPoleSensorConfiguration table contains information on the circuit Pole's sensors. circuitPoleSensorConfigurationTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitPoleSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of configuration entries for a circuit's pole sensors." ::= { circuit 6 } circuitPoleSensorConfigurationEntry OBJECT-TYPE SYNTAX CircuitPoleSensorConfigurationEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for configuring an inlet pole sensor." INDEX { pduId, circuitId,circuitPoleId,sensorType } ::= { circuitPoleSensorConfigurationTable 1 } CircuitPoleSensorConfigurationEntryStruct ::= SEQUENCE { circuitPoleSensorLogAvailable TruthValue, circuitPoleSensorUnits SensorUnitsEnumeration, circuitPoleSensorDecimalDigits Unsigned32, circuitPoleSensorResolution Unsigned32, circuitPoleSensorMaximum Unsigned32, circuitPoleSensorMinimum Unsigned32, circuitPoleSensorHysteresis Unsigned32, circuitPoleSensorStateChangeDelay Unsigned32, circuitPoleSensorLowerCriticalThreshold Unsigned32, circuitPoleSensorLowerWarningThreshold Unsigned32, circuitPoleSensorUpperCriticalThreshold Unsigned32, circuitPoleSensorUpperWarningThreshold Unsigned32, circuitPoleSensorEnabledThresholds BITS, circuitPoleSensorSignedMaximum Integer32, circuitPoleSensorSignedMinimum Integer32, circuitPoleSensorSignedLowerCriticalThreshold Integer32, circuitPoleSensorSignedLowerWarningThreshold Integer32, circuitPoleSensorSignedUpperCriticalThreshold Integer32, circuitPoleSensorSignedUpperWarningThreshold Integer32 } circuitPoleSensorLogAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Is logging enabled for the sensor?" ::= { circuitPoleSensorConfigurationEntry 4 } circuitPoleSensorUnits OBJECT-TYPE SYNTAX SensorUnitsEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The base units. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 6 } circuitPoleSensorDecimalDigits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of digits displayed to the right of the decimal point. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 7 } circuitPoleSensorResolution OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The resolution: the minimum difference between any two measured values The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 9 } circuitPoleSensorMaximum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled maximum exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 11 } circuitPoleSensorMinimum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 12 } circuitPoleSensorHysteresis OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hysteresis used for deassertions The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 13 } circuitPoleSensorStateChangeDelay OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The delay measured in samples before a state is asserted. If the value is zero, then the state is asserted as soon as it is detected; if it is non-zero, say n, then the assertion condition must exist for n+1 consecutive samples before the corresponding assertion event is reported. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 14 } circuitPoleSensorLowerCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 21 } circuitPoleSensorLowerWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 22 } circuitPoleSensorUpperCriticalThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 23 } circuitPoleSensorUpperWarningThreshold OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is clamped if the scaled threshold exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 24 } circuitPoleSensorEnabledThresholds OBJECT-TYPE SYNTAX BITS{ lowerCritical(0), lowerWarning(1), upperWarning(2), upperCritical(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "A bit string which indicates which thresholds are enabled. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 25 } circuitPoleSensorSignedMaximum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The largest possible reading as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 26 } circuitPoleSensorSignedMinimum OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The smallest possible reading as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value determines whether to use the signed or unsigned threshold and value columns: If the minimum is below zero the sensor can have negative readings and the signed columns should be used. This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 27 } circuitPoleSensorSignedLowerCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower critical threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 28 } circuitPoleSensorSignedLowerWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The lower warning threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 29 } circuitPoleSensorSignedUpperCriticalThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper critical threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 30 } circuitPoleSensorSignedUpperWarningThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The upper warning threshold as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. The value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { circuitPoleSensorConfigurationEntry 31 } -- The PeripheralDevicePackageTable table contains information on the peripheral Device Packages connected to the PDU peripheralDevicePackageTable OBJECT-TYPE SYNTAX SEQUENCE OF PeripheralDevicePackageEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of entries for the peripheral Device Packages connected to each PDU. The number of entries is given by the value of peripheralDevicePackagesCount." ::= { externalSensors 5} peripheralDevicePackageEntry OBJECT-TYPE SYNTAX PeripheralDevicePackageEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects for a controller." INDEX { pduId, peripheralDevicePackageId } ::= { peripheralDevicePackageTable 1 } PeripheralDevicePackageEntryStruct ::= SEQUENCE { peripheralDevicePackageId Integer32, peripheralDevicePackageSerialNumber DisplayString, peripheralDevicePackageModel DisplayString, peripheralDevicePackageFirmwareVersion DisplayString, peripheralDevicePackageMinFirmwareVersion DisplayString, peripheralDevicePackageFirmwareTimeStamp Unsigned32, peripheralDevicePackagePosition DisplayString, peripheralDevicePackageState DisplayString } peripheralDevicePackageId OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each peripheral device package." ::= { peripheralDevicePackageEntry 1 } peripheralDevicePackageSerialNumber OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The peripheral device package serial number." ::= { peripheralDevicePackageEntry 3 } peripheralDevicePackageModel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The peripheral device package model. Examples are DX-D2C6, DPX2-T1, DPX2-T1H1, DPX2-T2H1, DPX2-T3H1" ::= { peripheralDevicePackageEntry 4 } peripheralDevicePackageFirmwareVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The peripheral device package firmware version." ::= { peripheralDevicePackageEntry 5 } peripheralDevicePackageMinFirmwareVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The peripheral device package minimum firmware version. This field may be empty. If it is not empty, then it shall not be possible to downgrade the peripheral device firmware to a version < minimum firmware version number." ::= { peripheralDevicePackageEntry 6 } peripheralDevicePackageFirmwareTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The time when the peripheralDevicePackage firmware was updated in UNIX(epoch)time. It is measured in seconds relative to January 1, 1970 (midnight UTC/GMT), i.e a value of 0 indicates January 1, 1970 (midnight UTC/GMT)." ::= { peripheralDevicePackageEntry 7 } peripheralDevicePackagePosition OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The position of the package. The format is a semicolon separated list of Keyword:value pairs - Keyword1:Value1;Keyword2:value2;... Keyword can be one of the following: ONBOARD, DEVICE-1WIREPORT, HUBPORT, CHAIN-POSITION Examples 1) Onboard Sensor ONBOARD:CC1 2) Old sensor connected to device 1-wire port DEVICE-1WIREPORT:2 3) New style sensor connected to device 1-wire port DEVICE-1WIREPORT:2;CHAIN-POSITION:3 4) New style sensor connected to hub port 3 DEVICE-1WIREPORT:2;CHAIN-POSITION:1;HUBPORT:3;CHAIN-POSITION:1 5) Old style sensor connected to end of new style sensor chain DEVICE-1WIREPORT:2; " ::= { peripheralDevicePackageEntry 8 } peripheralDevicePackageState OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The state of the package." ::= { peripheralDevicePackageEntry 9 } -- the log table -- The logIndexTable logIndexTable OBJECT-TYPE SYNTAX SEQUENCE OF LogIndexEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of log entries." ::= { logUnit 1 } logIndexEntry OBJECT-TYPE SYNTAX LogIndexEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the log containing sensor data." INDEX { pduId } ::= { logIndexTable 1 } LogIndexEntryStruct ::= SEQUENCE { oldestLogID Integer32, newestLogID Integer32 } oldestLogID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The index of the oldest data in the buffer for this PDU." ::= { logIndexEntry 2 } newestLogID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The index of the newest data in the buffer for this PDU." ::= { logIndexEntry 3 } -- The logTimeStampTable logTimeStampTable OBJECT-TYPE SYNTAX SEQUENCE OF LogTimeStampEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of entries containing the timestamps of the entries in the log." ::= { logUnit 2 } logTimeStampEntry OBJECT-TYPE SYNTAX LogTimeStampEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing the timestamp for log entries." INDEX { pduId, logIndex } ::= { logTimeStampTable 1 } LogTimeStampEntryStruct ::= SEQUENCE {logIndex Integer32, logTimeStamp Unsigned32 } logIndex OBJECT-TYPE SYNTAX Integer32(1..256) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value for each entry in the log. Its value ranges between 1 and the value of logSize." ::= { logTimeStampEntry 1 } logTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The time when the data was collected. It is measured in seconds relative to January 1, 1970 (midnight UTC/GMT), i.e a value of 0 indicates January 1, 1970 (midnight UTC/GMT)." ::= { logTimeStampEntry 2 } -- The unitSensorLogTable unitSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF UnitSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of unit sensor entries in the log." ::= { logUnit 3 } unitSensorLogEntry OBJECT-TYPE SYNTAX UnitSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an unit sensor." INDEX { pduId, sensorType, logIndex } ::= { unitSensorLogTable 1 } UnitSensorLogEntryStruct ::= SEQUENCE { logUnitSensorDataAvailable TruthValue, logUnitSensorState SensorStateEnumeration, logUnitSensorAvgValue Unsigned32, logUnitSensorMaxValue Unsigned32, logUnitSensorMinValue Unsigned32, logUnitSensorSignedAvgValue Integer32, logUnitSensorSignedMaxValue Integer32, logUnitSensorSignedMinValue Integer32 } logUnitSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { unitSensorLogEntry 2 } logUnitSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { unitSensorLogEntry 3 } logUnitSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { unitSensorLogEntry 4 } logUnitSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { unitSensorLogEntry 5 } logUnitSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { unitSensorLogEntry 6 } logUnitSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { unitSensorLogEntry 7 } logUnitSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { unitSensorLogEntry 8 } logUnitSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { unitSensorLogEntry 9 } -- The inletSensorLogTable inletSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF InletSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of inlet sensor entries. The number of entries is given by the value of inletCount for the PDU." ::= { logInlet 3 } inletSensorLogEntry OBJECT-TYPE SYNTAX InletSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an inlet sensor." INDEX { pduId, inletId, sensorType, logIndex } ::= { inletSensorLogTable 1 } InletSensorLogEntryStruct ::= SEQUENCE { logInletSensorDataAvailable TruthValue, logInletSensorState SensorStateEnumeration, logInletSensorAvgValue Unsigned32, logInletSensorMaxValue Unsigned32, logInletSensorMinValue Unsigned32, logInletSensorSignedAvgValue Integer32, logInletSensorSignedMaxValue Integer32, logInletSensorSignedMinValue Integer32 } logInletSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { inletSensorLogEntry 2 } logInletSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { inletSensorLogEntry 3 } logInletSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { inletSensorLogEntry 4 } logInletSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { inletSensorLogEntry 5 } logInletSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { inletSensorLogEntry 6 } logInletSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { inletSensorLogEntry 7 } logInletSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { inletSensorLogEntry 8 } logInletSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { inletSensorLogEntry 9 } -- The inletPoleSensorLogTable inletPoleSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF InletPoleSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of inletPole sensor entries. The number of entries is given by the value of inletPoleCount for the inlet." ::= { logInlet 4 } inletPoleSensorLogEntry OBJECT-TYPE SYNTAX InletPoleSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an inletPole sensor." INDEX { pduId,inletId, inletPoleIndex,sensorType,logIndex } ::= { inletPoleSensorLogTable 1 } InletPoleSensorLogEntryStruct ::= SEQUENCE { logInletPoleSensorDataAvailable TruthValue, logInletPoleSensorState SensorStateEnumeration, logInletPoleSensorAvgValue Unsigned32, logInletPoleSensorMaxValue Unsigned32, logInletPoleSensorMinValue Unsigned32, logInletPoleSensorSignedAvgValue Integer32, logInletPoleSensorSignedMaxValue Integer32, logInletPoleSensorSignedMinValue Integer32 } logInletPoleSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { inletPoleSensorLogEntry 2 } logInletPoleSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { inletPoleSensorLogEntry 3 } logInletPoleSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { inletPoleSensorLogEntry 4 } logInletPoleSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { inletPoleSensorLogEntry 5 } logInletPoleSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { inletPoleSensorLogEntry 6 } logInletPoleSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { inletPoleSensorLogEntry 7 } logInletPoleSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { inletPoleSensorLogEntry 8 } logInletPoleSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { inletPoleSensorLogEntry 9 } -- The outletSensorLogTable outletSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlet sensor entries. The number of entries is given by the value of outletCount for the PDU." ::= { logOutlet 3 } outletSensorLogEntry OBJECT-TYPE SYNTAX OutletSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an outlet sensor." INDEX { pduId, outletId, sensorType,logIndex } ::= { outletSensorLogTable 1 } OutletSensorLogEntryStruct ::= SEQUENCE { logOutletSensorDataAvailable TruthValue, logOutletSensorState SensorStateEnumeration, logOutletSensorAvgValue Unsigned32, logOutletSensorMaxValue Unsigned32, logOutletSensorMinValue Unsigned32, logOutletSensorSignedAvgValue Integer32, logOutletSensorSignedMaxValue Integer32, logOutletSensorSignedMinValue Integer32 } logOutletSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { outletSensorLogEntry 2 } logOutletSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { outletSensorLogEntry 3 } logOutletSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { outletSensorLogEntry 4 } logOutletSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { outletSensorLogEntry 5 } logOutletSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { outletSensorLogEntry 6 } logOutletSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { outletSensorLogEntry 7 } logOutletSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { outletSensorLogEntry 8 } logOutletSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { outletSensorLogEntry 9 } -- The outletPoleSensorLogTable outletPoleSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletPoleSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outletPole sensor entries. The number of entries is given by the value of outletPoleCount for the outlet." ::= { logOutlet 4 } outletPoleSensorLogEntry OBJECT-TYPE SYNTAX OutletPoleSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an outletPole sensor." INDEX { pduId, outletId, outletPoleIndex,sensorType,logIndex } ::= { outletPoleSensorLogTable 1 } OutletPoleSensorLogEntryStruct ::= SEQUENCE { logOutletPoleSensorDataAvailable TruthValue, logOutletPoleSensorState SensorStateEnumeration, logOutletPoleSensorAvgValue Unsigned32, logOutletPoleSensorMaxValue Unsigned32, logOutletPoleSensorMinValue Unsigned32, logOutletPoleSensorSignedAvgValue Integer32, logOutletPoleSensorSignedMaxValue Integer32, logOutletPoleSensorSignedMinValue Integer32 } logOutletPoleSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { outletPoleSensorLogEntry 2 } logOutletPoleSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { outletPoleSensorLogEntry 3 } logOutletPoleSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { outletPoleSensorLogEntry 4 } logOutletPoleSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { outletPoleSensorLogEntry 5 } logOutletPoleSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { outletPoleSensorLogEntry 6 } logOutletPoleSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { outletPoleSensorLogEntry 7 } logOutletPoleSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { outletPoleSensorLogEntry 8 } logOutletPoleSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 1 and outletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { outletPoleSensorLogEntry 9 } -- The overCurrentProtectorSensorLogTable overCurrentProtectorSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF OverCurrentProtectorSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of overCurrentProtector sensor entries. The number of entries is given by the value of overCurrentProtectorCount for the PDU." ::= { logOverCurrentProtector 3 } overCurrentProtectorSensorLogEntry OBJECT-TYPE SYNTAX OverCurrentProtectorSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an overCurrentProtector sensor." INDEX { pduId, overCurrentProtectorIndex, sensorType, logIndex } ::= { overCurrentProtectorSensorLogTable 1 } OverCurrentProtectorSensorLogEntryStruct ::= SEQUENCE { logOverCurrentProtectorSensorDataAvailable TruthValue, logOverCurrentProtectorSensorState SensorStateEnumeration, logOverCurrentProtectorSensorAvgValue Unsigned32, logOverCurrentProtectorSensorMaxValue Unsigned32, logOverCurrentProtectorSensorMinValue Unsigned32, logOverCurrentProtectorSensorSignedAvgValue Integer32, logOverCurrentProtectorSensorSignedMaxValue Integer32, logOverCurrentProtectorSensorSignedMinValue Integer32 } logOverCurrentProtectorSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { overCurrentProtectorSensorLogEntry 2 } logOverCurrentProtectorSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { overCurrentProtectorSensorLogEntry 3 } logOverCurrentProtectorSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { overCurrentProtectorSensorLogEntry 4 } logOverCurrentProtectorSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { overCurrentProtectorSensorLogEntry 5 } logOverCurrentProtectorSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { overCurrentProtectorSensorLogEntry 6 } logOverCurrentProtectorSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { overCurrentProtectorSensorLogEntry 7 } logOverCurrentProtectorSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { overCurrentProtectorSensorLogEntry 8 } logOverCurrentProtectorSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { overCurrentProtectorSensorLogEntry 9 } -- The externalSensorLogTable externalSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF ExternalSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of external sensor entries. The number of entries is given by the value of externalSensorCount for the PDU." ::= { logExternalSensor 3 } externalSensorLogEntry OBJECT-TYPE SYNTAX ExternalSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for an external sensor." INDEX { pduId, sensorID, logIndex } ::= { externalSensorLogTable 1 } ExternalSensorLogEntryStruct ::= SEQUENCE { logExternalSensorDataAvailable TruthValue, logExternalSensorState SensorStateEnumeration, logExternalSensorAvgValue Integer32, logExternalSensorMaxValue Integer32, logExternalSensorMinValue Integer32 } logExternalSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { externalSensorLogEntry 2 } logExternalSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { externalSensorLogEntry 3 } logExternalSensorAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading average value. The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01." ::= { externalSensorLogEntry 4 } logExternalSensorMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading maximum value. The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01." ::= { externalSensorLogEntry 5 } logExternalSensorMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading minimum value. The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01." ::= { externalSensorLogEntry 6 } -- The wireSensorLogTable wireSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF WireSensorLogEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "A list of wire sensor entries. The number of entries is given by the value of wireCount for the PDU." ::= { logWire 3 } wireSensorLogEntry OBJECT-TYPE SYNTAX WireSensorLogEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "An entry containing log objects for a wire sensor." INDEX { pduId, wireId, sensorType, logIndex } ::= { wireSensorLogTable 1 } WireSensorLogEntryStruct ::= SEQUENCE { logWireSensorDataAvailable TruthValue, logWireSensorState SensorStateEnumeration, logWireSensorAvgValue Unsigned32, logWireSensorMaxValue Unsigned32, logWireSensorMinValue Unsigned32 } logWireSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS deprecated DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { wireSensorLogEntry 2 } logWireSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The sensor state." ::= { wireSensorLogEntry 3 } logWireSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The sensor reading average value. The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the value exceeds 4294967295" ::= { wireSensorLogEntry 4 } logWireSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The sensor reading maximum value. The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the value exceeds 4294967295" ::= { wireSensorLogEntry 5 } logWireSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The sensor reading minimum value. The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the value exceeds 4294967295." ::= { wireSensorLogEntry 6 } -- The transferSwitchSensorLogTable transferSwitchSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF TransferSwitchSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of Transfer Switch sensor entries. The number of entries is given by the value of transferSwitchCount for the PDU." ::= { logTransferSwitch 3 } transferSwitchSensorLogEntry OBJECT-TYPE SYNTAX TransferSwitchSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for a transfer switch sensor." INDEX { pduId, transferSwitchId, sensorType, logIndex } ::= { transferSwitchSensorLogTable 1 } TransferSwitchSensorLogEntryStruct ::= SEQUENCE { logTransferSwitchSensorDataAvailable TruthValue, logTransferSwitchSensorState SensorStateEnumeration, logTransferSwitchSensorAvgValue Unsigned32, logTransferSwitchSensorMaxValue Unsigned32, logTransferSwitchSensorMinValue Unsigned32, logTransferSwitchSensorSignedAvgValue Integer32, logTransferSwitchSensorSignedMaxValue Integer32, logTransferSwitchSensorSignedMinValue Integer32 } logTransferSwitchSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { transferSwitchSensorLogEntry 2 } logTransferSwitchSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { transferSwitchSensorLogEntry 3 } logTransferSwitchSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { transferSwitchSensorLogEntry 4 } logTransferSwitchSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { transferSwitchSensorLogEntry 5 } logTransferSwitchSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { transferSwitchSensorLogEntry 6 } logTransferSwitchSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { transferSwitchSensorLogEntry 7 } logTransferSwitchSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { transferSwitchSensorLogEntry 8 } logTransferSwitchSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { transferSwitchSensorLogEntry 9 } -- The circuitSensorLogTable circuitSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of Circuit sensor log entries. The number of entries is given by the value of panelinletCount for the Floor PDU." ::= { logCircuit 3 } circuitSensorLogEntry OBJECT-TYPE SYNTAX CircuitSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for a circuit sensor." INDEX { pduId, circuitId, sensorType, logIndex } ::= { circuitSensorLogTable 1 } CircuitSensorLogEntryStruct ::= SEQUENCE { logCircuitSensorDataAvailable TruthValue, logCircuitSensorState SensorStateEnumeration, logCircuitSensorAvgValue Unsigned32, logCircuitSensorMaxValue Unsigned32, logCircuitSensorMinValue Unsigned32, logCircuitSensorSignedAvgValue Integer32, logCircuitSensorSignedMaxValue Integer32, logCircuitSensorSignedMinValue Integer32 } logCircuitSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { circuitSensorLogEntry 2 } logCircuitSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { circuitSensorLogEntry 3 } logCircuitSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { circuitSensorLogEntry 4 } logCircuitSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { circuitSensorLogEntry 5 } logCircuitSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { circuitSensorLogEntry 6 } logCircuitSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { circuitSensorLogEntry 7 } logCircuitSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { circuitSensorLogEntry 8 } logCircuitSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { circuitSensorLogEntry 9 } -- The circuitPoleSensorLogTable circuitPoleSensorLogTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitPoleSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of circuit pole sensor log entries. The number of entries is given by the value of panelCircuitPoleCount for the circut." ::= { logCircuit 5 } circuitPoleSensorLogEntry OBJECT-TYPE SYNTAX CircuitPoleSensorLogEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing log objects for a circuit pole sensor." INDEX { pduId, circuitId, circuitPoleId, sensorType, logIndex } ::= { circuitPoleSensorLogTable 1 } CircuitPoleSensorLogEntryStruct ::= SEQUENCE { logCircuitPoleSensorDataAvailable TruthValue, logCircuitPoleSensorState SensorStateEnumeration, logCircuitPoleSensorAvgValue Unsigned32, logCircuitPoleSensorMaxValue Unsigned32, logCircuitPoleSensorMinValue Unsigned32, logCircuitPoleSensorSignedAvgValue Integer32, logCircuitPoleSensorSignedMaxValue Integer32, logCircuitPoleSensorSignedMinValue Integer32 } logCircuitPoleSensorDataAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is data available for this sensor during this measurement period?" ::= { circuitPoleSensorLogEntry 2 } logCircuitPoleSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { circuitPoleSensorLogEntry 3 } logCircuitPoleSensorAvgValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { circuitPoleSensorLogEntry 4 } logCircuitPoleSensorMaxValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { circuitPoleSensorLogEntry 5 } logCircuitPoleSensorMinValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings." ::= { circuitPoleSensorLogEntry 6 } logCircuitPoleSensorSignedAvgValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The average sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { circuitPoleSensorLogEntry 7 } logCircuitPoleSensorSignedMaxValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { circuitPoleSensorLogEntry 8 } logCircuitPoleSensorSignedMinValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum sensor reading for the log period as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647)." ::= { circuitPoleSensorLogEntry 9 } -- the Measurements table -- The unitSensorMeasurementsTable unitSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF UnitSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of unit sensor entries." ::= { measurementsUnit 3 } unitSensorMeasurementsEntry OBJECT-TYPE SYNTAX UnitSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an unit sensor." INDEX { pduId, sensorType } ::= { unitSensorMeasurementsTable 1 } UnitSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsUnitSensorIsAvailable TruthValue, measurementsUnitSensorState SensorStateEnumeration, measurementsUnitSensorValue Unsigned32, measurementsUnitSensorTimeStamp Unsigned32, measurementsUnitSensorSignedValue Integer32 } measurementsUnitSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { unitSensorMeasurementsEntry 2 } measurementsUnitSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { unitSensorMeasurementsEntry 3 } measurementsUnitSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. power supply status sensors." ::= { unitSensorMeasurementsEntry 4 } measurementsUnitSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { unitSensorMeasurementsEntry 5 } measurementsUnitSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by unitSensorDecimalDigits. For example, if the value is 1 and unitSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. power supply status sensors." ::= { unitSensorMeasurementsEntry 6 } -- The inletSensorMeasurementsTable inletSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF InletSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of inlet sensor entries. The number of entries is given by the value of inletCount for the PDU." ::= { measurementsInlet 3 } inletSensorMeasurementsEntry OBJECT-TYPE SYNTAX InletSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an inlet sensor." INDEX { pduId, inletId, sensorType } ::= { inletSensorMeasurementsTable 1 } InletSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsInletSensorIsAvailable TruthValue, measurementsInletSensorState SensorStateEnumeration, measurementsInletSensorValue Unsigned32, measurementsInletSensorTimeStamp Unsigned32, measurementsInletSensorSignedValue Integer32 } measurementsInletSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { inletSensorMeasurementsEntry 2 } measurementsInletSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { inletSensorMeasurementsEntry 3 } measurementsInletSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorMeasurementsEntry 4 } measurementsInletSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { inletSensorMeasurementsEntry 5 } measurementsInletSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { inletSensorMeasurementsEntry 6 } -- The inletPoleSensorMeasurementsTable inletPoleSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF InletPoleSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of inletPole sensor entries. The number of entries is given by the value of inletPoleCount for the inlet." ::= { measurementsInlet 4 } inletPoleSensorMeasurementsEntry OBJECT-TYPE SYNTAX InletPoleSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an inletPole sensor." INDEX { pduId, inletId, inletPoleIndex,sensorType } ::= { inletPoleSensorMeasurementsTable 1 } InletPoleSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsInletPoleSensorIsAvailable TruthValue, measurementsInletPoleSensorState SensorStateEnumeration, measurementsInletPoleSensorValue Unsigned32, measurementsInletPoleSensorTimeStamp Unsigned32, measurementsInletPoleSensorSignedValue Integer32 } measurementsInletPoleSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { inletPoleSensorMeasurementsEntry 2 } measurementsInletPoleSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { inletPoleSensorMeasurementsEntry 3 } measurementsInletPoleSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorMeasurementsEntry 4 } measurementsInletPoleSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { inletPoleSensorMeasurementsEntry 5 } measurementsInletPoleSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by inletPoleSensorDecimalDigits. For example, if the value is 1 and inletPoleSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { inletPoleSensorMeasurementsEntry 6 } -- The outletSensorMeasurementsTable outletSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlet sensor entries. The number of entries is given by the value of outletCount for the PDU." ::= { measurementsOutlet 3 } outletSensorMeasurementsEntry OBJECT-TYPE SYNTAX OutletSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an outlet sensor." INDEX { pduId, outletId, sensorType } ::= { outletSensorMeasurementsTable 1 } OutletSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsOutletSensorIsAvailable TruthValue, measurementsOutletSensorState SensorStateEnumeration, measurementsOutletSensorValue Unsigned32, measurementsOutletSensorTimeStamp Unsigned32, measurementsOutletSensorSignedValue Integer32 } measurementsOutletSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { outletSensorMeasurementsEntry 2 } measurementsOutletSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { outletSensorMeasurementsEntry 3 } measurementsOutletSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorMeasurementsEntry 4 } measurementsOutletSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { outletSensorMeasurementsEntry 5 } measurementsOutletSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by outletSensorDecimalDigits. For example, if the value is 1 and outletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. outlet state sensors." ::= { outletSensorMeasurementsEntry 6 } -- The outletPoleSensorMeasurementsTable outletPoleSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletPoleSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outletPole sensor entries. The number of entries is given by the value of outletPoletCount for the outlet." ::= { measurementsOutlet 4 } outletPoleSensorMeasurementsEntry OBJECT-TYPE SYNTAX OutletPoleSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an outletPole sensor." INDEX { pduId, outletId, outletPoleIndex,sensorType } ::= { outletPoleSensorMeasurementsTable 1 } OutletPoleSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsOutletPoleSensorIsAvailable TruthValue, measurementsOutletPoleSensorState SensorStateEnumeration, measurementsOutletPoleSensorValue Unsigned32, measurementsOutletPoleSensorTimeStamp Unsigned32, measurementsOutletPoleSensorSignedValue Integer32 } measurementsOutletPoleSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { outletPoleSensorMeasurementsEntry 2 } measurementsOutletPoleSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { outletPoleSensorMeasurementsEntry 3 } measurementsOutletPoleSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 50 and outletPoleSensorDecimalDigits is 2, then actual value is 0.05. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorMeasurementsEntry 4 } measurementsOutletPoleSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { outletPoleSensorMeasurementsEntry 5 } measurementsOutletPoleSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by outletPoleSensorDecimalDigits. For example, if the value is 50 and outletPoleSensorDecimalDigits is 2, then actual value is 0.05. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading." ::= { outletPoleSensorMeasurementsEntry 6 } -- The overCurrentProtectorSensorMeasurementsTable overCurrentProtectorSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF OverCurrentProtectorSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of overCurrentProtector sensor entries. The number of entries is given by the value of overCurrentProtectorCount for the PDU." ::= { measurementsOverCurrentProtector 3 } overCurrentProtectorSensorMeasurementsEntry OBJECT-TYPE SYNTAX OverCurrentProtectorSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an overCurrentProtector." INDEX { pduId, overCurrentProtectorIndex, sensorType } ::= { overCurrentProtectorSensorMeasurementsTable 1 } OverCurrentProtectorSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsOverCurrentProtectorSensorIsAvailable TruthValue, measurementsOverCurrentProtectorSensorState SensorStateEnumeration, measurementsOverCurrentProtectorSensorValue Unsigned32, measurementsOverCurrentProtectorSensorTimeStamp Unsigned32, measurementsOverCurrentProtectorSensorSignedValue Integer32 } measurementsOverCurrentProtectorSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { overCurrentProtectorSensorMeasurementsEntry 2 } measurementsOverCurrentProtectorSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { overCurrentProtectorSensorMeasurementsEntry 3 } measurementsOverCurrentProtectorSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorMeasurementsEntry 4 } measurementsOverCurrentProtectorSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { overCurrentProtectorSensorMeasurementsEntry 5 } measurementsOverCurrentProtectorSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by overCurrentProtectorSensorDecimalDigits. For example, if the value is 1 and overCurrentProtectorSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. trip sensors." ::= { overCurrentProtectorSensorMeasurementsEntry 6 } -- The externalSensorMeasurementsTable externalSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF ExternalSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of external sensor entries. The number of entries is given by the value of externalSensorCount for the PDU." ::= { measurementsExternalSensor 3 } externalSensorMeasurementsEntry OBJECT-TYPE SYNTAX ExternalSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for an external sensor." INDEX { pduId, sensorID } ::= { externalSensorMeasurementsTable 1 } ExternalSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsExternalSensorIsAvailable TruthValue, measurementsExternalSensorState SensorStateEnumeration, measurementsExternalSensorValue Integer32, measurementsExternalSensorTimeStamp Unsigned32 } measurementsExternalSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { externalSensorMeasurementsEntry 2 } measurementsExternalSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { externalSensorMeasurementsEntry 3 } measurementsExternalSensorValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by externalSensorDecimalDigits. For example, if the value is 1 and externalSensorDecimalDigits is 2, then actual value is 0.01. This parameter does not apply to sensors without numerical reading, e.g. contact closure or smoke detection sensors." ::= { externalSensorMeasurementsEntry 4 } measurementsExternalSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading timestamp." ::= { externalSensorMeasurementsEntry 5 } -- The wireSensorMeasurementsTable wireSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF WireSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "A list of wire sensor entries. The number of entries is given by the value of wireCount for the PDU." ::= { measurementsWire 3 } wireSensorMeasurementsEntry OBJECT-TYPE SYNTAX WireSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS deprecated DESCRIPTION "An entry containing measurement objects for a wire." INDEX { pduId, wireId, sensorType } ::= { wireSensorMeasurementsTable 1 } WireSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsWireSensorIsAvailable TruthValue, measurementsWireSensorState SensorStateEnumeration, measurementsWireSensorValue Unsigned32, measurementsWireSensorTimeStamp Unsigned32 } measurementsWireSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS deprecated DESCRIPTION "Is the sensor available?" ::= { wireSensorMeasurementsEntry 2 } measurementsWireSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The sensor state." ::= { wireSensorMeasurementsEntry 3 } measurementsWireSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The sensor value. The value of this OID variable should be scaled by wireSensorDecimalDigits. For example, if the value is 1 and wireSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the value exceeds 4294967295 This parameter does not apply to sensors without numerical reading." ::= { wireSensorMeasurementsEntry 4 } measurementsWireSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The timestamp." ::= { wireSensorMeasurementsEntry 5 } -- The transfer switch SensorMeasurementsTable transferSwitchSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF TransferSwitchSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of transfer switch sensor entries. The number of entries is given by the value of transferSwitchCount for the PDU." ::= { measurementsTransferSwitch 3 } transferSwitchSensorMeasurementsEntry OBJECT-TYPE SYNTAX TransferSwitchSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for a transfer switch." INDEX { pduId, transferSwitchId, sensorType } ::= { transferSwitchSensorMeasurementsTable 1 } TransferSwitchSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsTransferSwitchSensorIsAvailable TruthValue, measurementsTransferSwitchSensorState SensorStateEnumeration, measurementsTransferSwitchSensorValue Unsigned32, measurementsTransferSwitchSensorTimeStamp Unsigned32, measurementsTransferSwitchSensorSignedValue Integer32 } measurementsTransferSwitchSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { transferSwitchSensorMeasurementsEntry 2 } measurementsTransferSwitchSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { transferSwitchSensorMeasurementsEntry 3 } measurementsTransferSwitchSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorMeasurementsEntry 4 } measurementsTransferSwitchSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { transferSwitchSensorMeasurementsEntry 5 } measurementsTransferSwitchSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by transferSwitchSensorDecimalDigits. For example, if the value is 1 and transferSwitchSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. operational state or switch fault sensors." ::= { transferSwitchSensorMeasurementsEntry 6 } -- The CircuitSensorMeasurementsTable circuitSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of circuit sensor entries. " ::= { measurementsCircuit 3 } circuitSensorMeasurementsEntry OBJECT-TYPE SYNTAX CircuitSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for circuit sensor." INDEX { pduId, circuitId, sensorType } ::= { circuitSensorMeasurementsTable 1 } CircuitSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsCircuitSensorIsAvailable TruthValue, measurementsCircuitSensorState SensorStateEnumeration, measurementsCircuitSensorValue Unsigned32, measurementsCircuitSensorTimeStamp Unsigned32, measurementsCircuitSensorSignedValue Integer32 } measurementsCircuitSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { circuitSensorMeasurementsEntry 2 } measurementsCircuitSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { circuitSensorMeasurementsEntry 3 } measurementsCircuitSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorMeasurementsEntry 4 } measurementsCircuitSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { circuitSensorMeasurementsEntry 5 } measurementsCircuitSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitSensorMeasurementsEntry 6 } -- The CircuitPoleSensorMeasurementsTable circuitPoleSensorMeasurementsTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitPoleSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of panel circuit pole sensor entries. The number of entries is given by the value of inletCount for the PDU." ::= { measurementsCircuit 4 } circuitPoleSensorMeasurementsEntry OBJECT-TYPE SYNTAX CircuitPoleSensorMeasurementsEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing measurement objects for a circuit pole sensor." INDEX { pduId, circuitId, circuitPoleId, sensorType } ::= { circuitPoleSensorMeasurementsTable 1 } CircuitPoleSensorMeasurementsEntryStruct ::= SEQUENCE { measurementsCircuitPoleSensorIsAvailable TruthValue, measurementsCircuitPoleSensorState SensorStateEnumeration, measurementsCircuitPoleSensorValue Unsigned32, measurementsCircuitPoleSensorTimeStamp Unsigned32, measurementsCircuitPoleSensorSignedValue Integer32 } measurementsCircuitPoleSensorIsAvailable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Is the sensor available?" ::= { circuitPoleSensorMeasurementsEntry 2 } measurementsCircuitPoleSensorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor state." ::= { circuitPoleSensorMeasurementsEntry 3 } measurementsCircuitPoleSensorValue OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as an unsigned integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value will wrap around if the scaled sensor reading exceeds 4294967295. It is undefined for sensors which can have negative readings. This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitPoleSensorMeasurementsEntry 4 } measurementsCircuitPoleSensorTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp." ::= { circuitPoleSensorMeasurementsEntry 5 } measurementsCircuitPoleSensorSignedValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sensor reading as a signed integer. The value of this OID variable should be scaled by inletSensorDecimalDigits. For example, if the value is 1 and inletSensorDecimalDigits is 2, then actual value is 0.01. This value is undefined for sensors whose range exceeds the Integer32 range (-2147483648 .. 2147483647). This parameter does not apply to sensors without numerical reading, e.g. surge protector status sensors." ::= { circuitPoleSensorMeasurementsEntry 6 } -- the OutletSwitchControlTable -- The OutletSwitchControl table implements switching of outlets. outletSwitchControlTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletSwitchControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of outlets for a PDU. The number of entries is given by the value of outletCount." ::= { outletControl 2 } outletSwitchControlEntry OBJECT-TYPE SYNTAX OutletSwitchControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for implementing switching operations on an outlet." INDEX { pduId, outletId } ::= { outletSwitchControlTable 1 } OutletSwitchControlEntryStruct ::= SEQUENCE { switchingOperation OutletSwitchingOperationsEnumeration, outletSwitchingState SensorStateEnumeration, outletSwitchingTimeStamp Unsigned32 } switchingOperation OBJECT-TYPE SYNTAX OutletSwitchingOperationsEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The switching operation." ::= { outletSwitchControlEntry 2 } outletSwitchingState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The outlet state at present" ::= { outletSwitchControlEntry 3 } outletSwitchingTimeStamp OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp indicating when the outlet was last switched" ::= { outletSwitchControlEntry 4 } -- the transferSwitchControlTable -- The TransferSwitchControl table implements control operations of transfer switches. transferSwitchControlTable OBJECT-TYPE SYNTAX SEQUENCE OF TransferSwitchControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of transfer switches for a PDU. The number of entries is given by the value of transferSwitchCount." ::= { transferSwitchControl 1 } transferSwitchControlEntry OBJECT-TYPE SYNTAX TransferSwitchControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for implementing switching operations on a transfer switch." INDEX { pduId, transferSwitchId } ::= { transferSwitchControlTable 1 } TransferSwitchControlEntryStruct ::= SEQUENCE { transferSwitchActiveInlet Integer32, transferSwitchTransferToInlet Integer32, transferSwitchAlarmOverride TruthValue, transferSwitchLastTransferReason TransferSwitchTransferReasonEnumeration } transferSwitchActiveInlet OBJECT-TYPE SYNTAX Integer32(1..64) MAX-ACCESS read-only STATUS current DESCRIPTION "The index of the currently active inlet." ::= { transferSwitchControlEntry 1 } transferSwitchTransferToInlet OBJECT-TYPE SYNTAX Integer32(1..64) MAX-ACCESS read-write STATUS current DESCRIPTION "Select the active inlet. If the new inlet is available, it will become both active and preferred, otherwise an inconsistentValue error will be returned. By default the switching operation will fail if the phase difference between the inlets is too large. In this case the switch can be forced by writing transferSwitchAlarmOverride as True in the same request. This variable will always read as 0." ::= { transferSwitchControlEntry 2 } transferSwitchAlarmOverride OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Force transfer even if the phase difference between the inlets is too large. This may only be written together with transferSwitchTransferToInlet, otherwise an inconsistentValue error will be returned. Always reads as false." ::= { transferSwitchControlEntry 3 } transferSwitchLastTransferReason OBJECT-TYPE SYNTAX TransferSwitchTransferReasonEnumeration MAX-ACCESS read-only STATUS current DESCRIPTION "The reason for the most recent transfer" ::= { transferSwitchControlEntry 4 } -- the actuatorControlTable -- The actuatorControl table implements user-initiated state changes for an actuator. actuatorControlTable OBJECT-TYPE SYNTAX SEQUENCE OF ActuatorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of actuators for a PDU. " ::= { actuatorControl 2 } actuatorControlEntry OBJECT-TYPE SYNTAX ActuatorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for implementing user-initiated state changes for an actuator." INDEX { pduId, sensorID } ::= { actuatorControlTable 1 } ActuatorControlEntryStruct ::= SEQUENCE { actuatorState SensorStateEnumeration } actuatorState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The actuator state. A Get operation retrieves the state of the actuator. A Set operation changes the stae of the sensor. The valid states for set operations are on and Off. Attempting to set the state to any other value will generate an error. " ::= { actuatorControlEntry 2 } -- the RCM (Residual Control Monitor) Self Test Table -- The rcmSelfTest table implements self test of the RCM. rcmSelfTestTable OBJECT-TYPE SYNTAX SEQUENCE OF RcmSelfTestEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of RCMs. " ::= { rcmControl 2 } rcmSelfTestEntry OBJECT-TYPE SYNTAX RcmSelfTestEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for implementing self test of an RCM." INDEX { pduId, inletId } ::= { rcmSelfTestTable 1 } RcmSelfTestEntryStruct ::= SEQUENCE { rcmState SensorStateEnumeration } rcmState OBJECT-TYPE SYNTAX SensorStateEnumeration MAX-ACCESS read-write STATUS current DESCRIPTION "The rcm state. A Get operation retrieves the state of the RCM State Sensor. A Set operation changes the state of the sensor. The valid state for set operations is selfTest. When rcmState is set to selfTest, self test of the RCM starts. Attempting to set the state to any other value will generate an error. If the current state is selfTest, then an attempt to set the value to selfTest will be ignored. " ::= { rcmSelfTestEntry 2 } -- the InletSensorControlTable -- The InletSensorControl table implements operations on inlet sensors inletSensorControlTable OBJECT-TYPE SYNTAX SEQUENCE OF InletSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of control entries for the inlet sensors of a PDU. The set of valid indexes is defined by the value of inletCount and the inletDeviceCapabilities entry for the selected inlet." ::= { inletSensorControl 1 } inletSensorControlEntry OBJECT-TYPE SYNTAX InletSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry used for controlling an inlet sensor." INDEX { pduId, inletId, sensorType } ::= { inletSensorControlTable 1 } InletSensorControlEntryStruct ::= SEQUENCE { inletSensorResetValue Integer32 } inletSensorResetValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Writing to this variable sets a new value for the addressed sensor. Only accumulating sensors (e.g. energy counters) can be reset, and currently the only supported value is 0. Writing any other value returns an error. This variable will always read as 0." ::= { inletSensorControlEntry 1 } -- the OutletSensorControlTable -- The OutletSensorControl table implements operations on outlet sensors outletSensorControlTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of control entries for the outlet sensors of a PDU. The set of valid indexes is defined by the value of outletCount and the outletDeviceCapabilities entry for the selected outlet." ::= { outletSensorControl 1 } outletSensorControlEntry OBJECT-TYPE SYNTAX OutletSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry used for controlling an outlet sensor." INDEX { pduId, outletId, sensorType } ::= { outletSensorControlTable 1 } OutletSensorControlEntryStruct ::= SEQUENCE { outletSensorResetValue Integer32 } outletSensorResetValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Writing to this variable sets a new value for the addressed sensor. Only accumulating sensors (e.g. energy counters) can be reset, and currently the only supported value is 0. Writing any other value returns an error. This variable will always read as 0." ::= { outletSensorControlEntry 1 } -- the UnitSensorControlTable -- The UnitSensorControl table implements operations on pdu sensors unitSensorControlTable OBJECT-TYPE SYNTAX SEQUENCE OF UnitSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of control entries for the global sensors of a PDU. The set of valid indexes is defined by the value of pduCount and the pduDeviceCapabilities entry." ::= { unitSensorControl 1 } unitSensorControlEntry OBJECT-TYPE SYNTAX UnitSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry used for controlling an global sensor." INDEX { pduId, sensorType } ::= { unitSensorControlTable 1 } UnitSensorControlEntryStruct ::= SEQUENCE { unitSensorResetValue Integer32 } unitSensorResetValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Writing to this variable sets a new value for the addressed sensor. Only accumulating sensors (e.g. energy counters) can be reset, and currently the only supported value is 0. Writing any other value returns an error. This variable will always read as 0. This object applies only to multi-inlet PDUs." ::= { unitSensorControlEntry 1 } -- the circuitSensorControlTable -- The CicruitSensorControl table implements operations on circuit sensors circuitSensorControlTable OBJECT-TYPE SYNTAX SEQUENCE OF CircuitSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of control entries for the circuit sensors of a BCM2. The maximum number of entries is given by the value of panelCircuitPositionCount." ::= { circuitSensorControl 1 } circuitSensorControlEntry OBJECT-TYPE SYNTAX CircuitSensorControlEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry used for controlling an circuit sensor." INDEX { pduId, circuitId, sensorType } ::= { circuitSensorControlTable 1 } CircuitSensorControlEntryStruct ::= SEQUENCE { circuitSensorResetValue Integer32 } circuitSensorResetValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Writing to this variable sets a new value for the addressed sensor. Only accumulating sensors (e.g. energy counters) can be reset, and currently the only supported value is 0. Writing any other value returns an error. This variable will always read as 0." ::= { circuitSensorControlEntry 1 } -- the ReliabilityData table -- The ReliabilityData table contains reliability data for the PDU. reliabilityDataTableSequenceNumber OBJECT-TYPE SYNTAX Integer32(1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The sequence number for updates to the reliability data table" ::= { reliabilityData 1 } reliabilityDataTable OBJECT-TYPE SYNTAX SEQUENCE OF ReliabilityDataEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PDU reliability data entries." ::= { reliabilityData 2 } reliabilityDataEntry OBJECT-TYPE SYNTAX ReliabilityDataEntryStruct MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing reliability data for a particular PDU." INDEX { reliabilityIndex } ::= { reliabilityDataTable 1 } ReliabilityDataEntryStruct ::= SEQUENCE { reliabilityIndex Integer32, reliabilityId DisplayString, reliabilityDataValue Unsigned32, reliabilityDataMaxPossible Unsigned32, reliabilityDataWorstValue Unsigned32, reliabilityDataThreshold Unsigned32, reliabilityDataRawUpperBytes Unsigned32, reliabilityDataRawLowerBytes Unsigned32, reliabilityDataFlags BITS } reliabilityIndex OBJECT-TYPE SYNTAX Integer32(1..4096) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index of the entry in the table." ::= { reliabilityDataEntry 1 } reliabilityId OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "Unique ID of the entry. POH Power on hours. CB.