-- GE Management Information Base VERSION 1.04 -- -- Date: 11/10/2004 -- Changes: remove of "_" in snmp identifiers, remove of duplicate comment characters -- Author : MHCL -- -- Date 02/14/2005 -- Changes: remove additional size definition for DisplayString -- Changes: remove additional range definition of PositiveInteger32 -- Changes: change of range definition for Integer32 entries -- Changes: changed names of managed UPSs so that tablenames end with 'table' -- without changes of other structures -- Changes: changed some Capital-/Lowercase issues -- Author : MHCL -- -- Date: 15/11/2006 -- Changes: added BatterRipple -- Changes: added OutputPowerFactor; OutputPeakCurrent; OutputShareCurrent -- Changes: added alarm HighpeedBusfailure; HighpeedBusCRCfailure; ConnectivityBusfailure -- Changes: added traps HighpeedBusfailure; HighpeedBusCRCfailure; ConnectivityBusfailure -- Changes: added traps HighpeedBusrestore; HighpeedBusCRCrestore; ConnectivityBusrestore -- Changes: added group Diagnostic -- Changes: added BatteryLifetime; FansLifetime; DCcapacitorsLifetime; ACcapacitorsLifetime -- GlobalServiceCheck -- Changes: added Status ServiceCheck -- Deleted: geEnvironmental tree -- Deleted: geModem tree -- Deleted: geDevices tree -- Deleted: geSoftware tree -- Author: GE, Stefan Kuhn -- -- Date: 25/11/2006 -- Changes: upsDiagnosticGlobalServiceChecke Syntax from DisplayString to Integer32 -- Changes: upsDiagnosticGlobalServiceChecke into upsDiagnosticGlobalServiceCheck -- Author: GE, Stefan Kuhn -- -- Date: 27/11/2006 -- added: upsDiagnosticBusJACommunicationStatus -- added: upsDiagnosticBusJBCommunicationStatus -- Moved: BatteryLifetime; FansLifetime; DCcapacitorsLifetime; ACcapacitorsLifetime -- GlobalServiceCheck -- Author: GE, Stefan Kuhn -- -- Date: 10/12/2006 -- modified: upsSecondsOnBattery from NonNegativeInteger32 back to Integer32 -- for the backward compatibility -- added: upsAlarmHighSpeedBusJACRCFailure,upsAlarmHighSpeedBusJBCRCFailure,upsAlarmShareCurrent, -- upsAlarmDCRipple and there relative traps -- Author: GE, Stefan Kuhn -- -- Date: 22/Oct/2007 -- added: geDevices group -- Author: GE, L. Giuntini -- -- Date: Feb 13th, 2008 -- Author: GE, L. Giuntini -- Created version 2.00 for SMIv2 compliance -- Changes include the following: -- * MODULE-IDENTITY clause introduced right after the IMPORT statement -- * Compliance to RFC2578, section 7.1.1, second paragraph -- in case of enumerations, use INTEGER rather than Integer32 -- * Replace MAX-ACCESS read-only with MAX-ACCESS read-write -- (access `read-write' is no longer allowed in SMIv2) -- * Use NOTIFICATION-TYPE instead of TRAP-TYPE for Traps -- Remove ENTERPRISE clause -- Rename VARIABLES clause as OBJECTS clause -- Add STATUS current clause -- Incorporate traps in the Object tree -- * Finally, corrected some errors (undefined/re-defined identifiers) -- -- Date: Jul 5th, 2010 -- Author: GE, L. Giuntini -- Created version 2.40 for IEMi / eBoost introduction -- Modified: -- * Description (Properties) for the upsStatus, upsUPSMode OIDs -- * Various changes to ensure full SNMP v2 compliance -- -- GE-MIB -- { iso org(3) dod(6) internet(1) private(4) enterprises(1) imv(818) } -- -- Title: GE-MIB -- By: Theo Versteeg & Fontana Gianluca -- -- 11-5-00 Theo Versteeg -- Removed the complete Victron-MIB to create a new IMV-mib to cover Comprot4, -- IM and IMV1 protocol. -- incl. external devices and object for the agents and protection software. -- -- Entries marked with (*) are part of the RFC1628 definition -- Although we integrated the RFC1628 in our own OID range, -- all RCF1628 OIDs should also be accessable on their own OID defined in RFC1628. GEPARALLELUPS-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, OBJECT-IDENTITY, Counter32, Gauge32, Integer32, Unsigned32, enterprises FROM SNMPv2-SMI DisplayString, TimeStamp, TimeInterval, TestAndIncr, AutonomousType, TEXTUAL-CONVENTION FROM SNMPv2-TC; imv MODULE-IDENTITY LAST-UPDATED "201007050000Z" ORGANIZATION "GE Digital Energy" CONTACT-INFO "GE Digital Energy Via Cantonale, 50 CH 6595 Riazzino Switzerland" DESCRIPTION "The MIB module to describe GE Digital Energy Uninterruptible Power Supplies." REVISION "201007050000Z" DESCRIPTION "Updated following IEMi & eBoost introduction." REVISION "200801080000Z" DESCRIPTION "SNMPv2 compliant MIB released." ::= { enterprises 818 } PositiveInteger32 ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "This data type is a non-zero and non-negative value." SYNTAX Integer32 (1..2147483647) NonNegativeInteger32 ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "This data type is a non-negative value." SYNTAX Integer32 (0..2147483647) geHardware OBJECT IDENTIFIER ::= { imv 1 } geUPS OBJECT IDENTIFIER ::= { geHardware 1 } -- The following list is not really a table, but can be implemented as one in the software. -- The complete UPS section is simply too large to fit in a pre-defined table. -- The solution: -- * All objects are defined for geGenericUPS -- * All individual UPSs of parallel systems can be reached by their respective sequence -- number as reflected in below list in stead of the geGenericUPS objects. geGenericUPS OBJECT IDENTIFIER ::= { geUPS 10 } geFirstUPS OBJECT IDENTIFIER ::= { geUPS 11 } geSecondUPS OBJECT IDENTIFIER ::= { geUPS 12 } geThirdUPS OBJECT IDENTIFIER ::= { geUPS 13 } geFourthUPS OBJECT IDENTIFIER ::= { geUPS 14 } geFifthUPS OBJECT IDENTIFIER ::= { geUPS 15 } geSixthUPS OBJECT IDENTIFIER ::= { geUPS 16 } geSeventhUPS OBJECT IDENTIFIER ::= { geUPS 17 } geEighthUPS OBJECT IDENTIFIER ::= { geUPS 18 } -- Generic UPS upsIdent OBJECT IDENTIFIER ::= { geGenericUPS 1 } upsBattery OBJECT IDENTIFIER ::= { geGenericUPS 2 } upsInput OBJECT IDENTIFIER ::= { geGenericUPS 3 } upsOutput OBJECT IDENTIFIER ::= { geGenericUPS 4 } upsBypass OBJECT IDENTIFIER ::= { geGenericUPS 5 } upsAlarm OBJECT IDENTIFIER ::= { geGenericUPS 6 } upsWellKnownAlarms OBJECT IDENTIFIER ::= { upsAlarm 3 } upsTest OBJECT IDENTIFIER ::= { geGenericUPS 7 } upsWellKnownTests OBJECT IDENTIFIER ::= { upsTest 7 } upsControl OBJECT IDENTIFIER ::= { geGenericUPS 8 } upsConfig OBJECT IDENTIFIER ::= { geGenericUPS 9 } upsGetSet OBJECT IDENTIFIER ::= { geGenericUPS 10 } geUPSTraps OBJECT IDENTIFIER ::= { geGenericUPS 11 } upsDiagnostic OBJECT IDENTIFIER ::= { geGenericUPS 12 } -- First UPS -- upsIdentfirst OBJECT IDENTIFIER ::= { geFirstUPS 1 } upsBatteryfirst OBJECT IDENTIFIER ::= { geFirstUPS 2 } upsInputfirst OBJECT IDENTIFIER ::= { geFirstUPS 3 } upsOutputfirst OBJECT IDENTIFIER ::= { geFirstUPS 4 } upsBypassfirst OBJECT IDENTIFIER ::= { geFirstUPS 5 } upsAlarmfirst OBJECT IDENTIFIER ::= { geFirstUPS 6 } upsWellKnownAlarmsfirst OBJECT IDENTIFIER ::= { upsAlarmfirst 3 } upsTestfirst OBJECT IDENTIFIER ::= { geFirstUPS 7 } upsWellKnownTestsfirst OBJECT IDENTIFIER ::= { upsTestfirst 7 } upsControlfirst OBJECT IDENTIFIER ::= { geFirstUPS 8 } upsConfigfirst OBJECT IDENTIFIER ::= { geFirstUPS 9 } upsGetSetfirst OBJECT IDENTIFIER ::= { geFirstUPS 10 } geUPSTrapsfirst OBJECT IDENTIFIER ::= { geFirstUPS 11 } upsDiagnosticfirst OBJECT IDENTIFIER ::= { geFirstUPS 12 } -- Second UPS -- upsIdentsecond OBJECT IDENTIFIER ::= { geSecondUPS 1 } upsBatterysecond OBJECT IDENTIFIER ::= { geSecondUPS 2 } upsInputsecond OBJECT IDENTIFIER ::= { geSecondUPS 3 } upsOutputsecond OBJECT IDENTIFIER ::= { geSecondUPS 4 } upsBypasssecond OBJECT IDENTIFIER ::= { geSecondUPS 5 } upsAlarmsecond OBJECT IDENTIFIER ::= { geSecondUPS 6 } upsWellKnownAlarmssecond OBJECT IDENTIFIER ::= { upsAlarmsecond 3 } upsTestsecond OBJECT IDENTIFIER ::= { geSecondUPS 7 } upsWellKnownTestssecond OBJECT IDENTIFIER ::= { upsTestsecond 7 } upsControlsecond OBJECT IDENTIFIER ::= { geSecondUPS 8 } upsConfigsecond OBJECT IDENTIFIER ::= { geSecondUPS 9 } upsGetSetsecond OBJECT IDENTIFIER ::= { geSecondUPS 10 } geUPSTrapssecond OBJECT IDENTIFIER ::= { geSecondUPS 11 } upsDiagnosticsecond OBJECT IDENTIFIER ::= { geSecondUPS 12 } -- Third UPS -- upsIdentthird OBJECT IDENTIFIER ::= { geThirdUPS 1 } upsBatterythird OBJECT IDENTIFIER ::= { geThirdUPS 2 } upsInputthird OBJECT IDENTIFIER ::= { geThirdUPS 3 } upsOutputthird OBJECT IDENTIFIER ::= { geThirdUPS 4 } upsBypassthird OBJECT IDENTIFIER ::= { geThirdUPS 5 } upsAlarmthird OBJECT IDENTIFIER ::= { geThirdUPS 6 } upsWellKnownAlarmsthird OBJECT IDENTIFIER ::= { upsAlarmthird 3 } upsTestthird OBJECT IDENTIFIER ::= { geThirdUPS 7 } upsWellKnownTeststhird OBJECT IDENTIFIER ::= { upsTestthird 7 } upsControlthird OBJECT IDENTIFIER ::= { geThirdUPS 8 } upsConfigthird OBJECT IDENTIFIER ::= { geThirdUPS 9 } upsGetSetthird OBJECT IDENTIFIER ::= { geThirdUPS 10 } geUPSTrapsthird OBJECT IDENTIFIER ::= { geThirdUPS 11 } upsDiagnosticthird OBJECT IDENTIFIER ::= { geThirdUPS 12 } -- Fourth UPS -- upsIdentfourth OBJECT IDENTIFIER ::= { geFourthUPS 1 } upsBatteryfourth OBJECT IDENTIFIER ::= { geFourthUPS 2 } upsInputfourth OBJECT IDENTIFIER ::= { geFourthUPS 3 } upsOutputfourth OBJECT IDENTIFIER ::= { geFourthUPS 4 } upsBypassfourth OBJECT IDENTIFIER ::= { geFourthUPS 5 } upsAlarmfourth OBJECT IDENTIFIER ::= { geFourthUPS 6 } upsWellKnownAlarmsfourth OBJECT IDENTIFIER ::= { upsAlarmfourth 3 } upsTestfourth OBJECT IDENTIFIER ::= { geFourthUPS 7 } upsWellKnownTestsfourth OBJECT IDENTIFIER ::= { upsTestfourth 7 } upsControlfourth OBJECT IDENTIFIER ::= { geFourthUPS 8 } upsConfigfourth OBJECT IDENTIFIER ::= { geFourthUPS 9 } upsGetSetfourth OBJECT IDENTIFIER ::= { geFourthUPS 10 } geUPSTrapsfourth OBJECT IDENTIFIER ::= { geFourthUPS 11 } upsDiagnosticfourth OBJECT IDENTIFIER ::= { geFourthUPS 12 } -- Fifth UPS -- upsIdentfifth OBJECT IDENTIFIER ::= { geFifthUPS 1 } upsBatteryfifth OBJECT IDENTIFIER ::= { geFifthUPS 2 } upsInputfifth OBJECT IDENTIFIER ::= { geFifthUPS 3 } upsOutputfifth OBJECT IDENTIFIER ::= { geFifthUPS 4 } upsBypassfifth OBJECT IDENTIFIER ::= { geFifthUPS 5 } upsAlarmfifth OBJECT IDENTIFIER ::= { geFifthUPS 6 } upsWellKnownAlarmsfifth OBJECT IDENTIFIER ::= { upsAlarmfifth 3 } upsTestfifth OBJECT IDENTIFIER ::= { geFifthUPS 7 } upsWellKnownTestsfifth OBJECT IDENTIFIER ::= { upsTestfifth 7 } upsControlfifth OBJECT IDENTIFIER ::= { geFifthUPS 8 } upsConfigfifth OBJECT IDENTIFIER ::= { geFifthUPS 9 } upsGetSetfifth OBJECT IDENTIFIER ::= { geFifthUPS 10 } geUPSTrapsfifth OBJECT IDENTIFIER ::= { geFifthUPS 11 } upsDiagnosticfifth OBJECT IDENTIFIER ::= { geFifthUPS 12 } -- Sixth UPS -- upsIdentsixth OBJECT IDENTIFIER ::= { geSixthUPS 1 } upsBatterysixth OBJECT IDENTIFIER ::= { geSixthUPS 2 } upsInputsixth OBJECT IDENTIFIER ::= { geSixthUPS 3 } upsOutputsixth OBJECT IDENTIFIER ::= { geSixthUPS 4 } upsBypasssixth OBJECT IDENTIFIER ::= { geSixthUPS 5 } upsAlarmsixth OBJECT IDENTIFIER ::= { geSixthUPS 6 } upsWellKnownAlarmssixth OBJECT IDENTIFIER ::= { upsAlarmsixth 3 } upsTestsixth OBJECT IDENTIFIER ::= { geSixthUPS 7 } upsWellKnownTestssixth OBJECT IDENTIFIER ::= { upsTestsixth 7 } upsControlsixth OBJECT IDENTIFIER ::= { geSixthUPS 8 } upsConfigsixth OBJECT IDENTIFIER ::= { geSixthUPS 9 } upsGetSetsixth OBJECT IDENTIFIER ::= { geSixthUPS 10 } geUPSTrapssixth OBJECT IDENTIFIER ::= { geSixthUPS 11 } upsDiagnosticsixth OBJECT IDENTIFIER ::= { geSixthUPS 12 } -- Seventh UPS -- upsIdentseventh OBJECT IDENTIFIER ::= { geSeventhUPS 1 } upsBatteryseventh OBJECT IDENTIFIER ::= { geSeventhUPS 2 } upsInputseventh OBJECT IDENTIFIER ::= { geSeventhUPS 3 } upsOutputseventh OBJECT IDENTIFIER ::= { geSeventhUPS 4 } upsBypassseventh OBJECT IDENTIFIER ::= { geSeventhUPS 5 } upsAlarmseventh OBJECT IDENTIFIER ::= { geSeventhUPS 6 } upsWellKnownAlarmsseventh OBJECT IDENTIFIER ::= { upsAlarmseventh 3 } upsTestseventh OBJECT IDENTIFIER ::= { geSeventhUPS 7 } upsWellKnownTestsseventh OBJECT IDENTIFIER ::= { upsTestseventh 7 } upsControlseventh OBJECT IDENTIFIER ::= { geSeventhUPS 8 } upsConfigseventh OBJECT IDENTIFIER ::= { geSeventhUPS 9 } upsGetSetseventh OBJECT IDENTIFIER ::= { geSeventhUPS 10 } geUPSTrapsseventh OBJECT IDENTIFIER ::= { geSeventhUPS 11 } upsDiagnosticseventh OBJECT IDENTIFIER ::= { geSeventhUPS 12 } -- Eighth UPS -- upsIdenteighth OBJECT IDENTIFIER ::= { geEighthUPS 1 } upsBatteryeighth OBJECT IDENTIFIER ::= { geEighthUPS 2 } upsInputeighth OBJECT IDENTIFIER ::= { geEighthUPS 3 } upsOutputeighth OBJECT IDENTIFIER ::= { geEighthUPS 4 } upsBypasseighth OBJECT IDENTIFIER ::= { geEighthUPS 5 } upsAlarmeighth OBJECT IDENTIFIER ::= { geEighthUPS 6 } upsWellKnownAlarmseighth OBJECT IDENTIFIER ::= { upsAlarmeighth 3 } upsTesteighth OBJECT IDENTIFIER ::= { geEighthUPS 7 } upsWellKnownTestseighth OBJECT IDENTIFIER ::= { upsTesteighth 7 } upsControleighth OBJECT IDENTIFIER ::= { geEighthUPS 8 } upsConfigeighth OBJECT IDENTIFIER ::= { geEighthUPS 9 } upsGetSeteighth OBJECT IDENTIFIER ::= { geEighthUPS 10 } geUPSTrapseighth OBJECT IDENTIFIER ::= { geEighthUPS 11 } upsDiagnosticeighth OBJECT IDENTIFIER ::= { geEighthUPS 12 } -- Device geDevices OBJECT IDENTIFIER ::= { geHardware 100 } geDevicesDescriptions OBJECT IDENTIFIER ::= { geDevices 1 } advSNMPWebIntCard OBJECT IDENTIFIER ::= { geDevicesDescriptions 1 } snmpWebIntCard OBJECT IDENTIFIER ::= { geDevicesDescriptions 2 } snmpWebIntBox OBJECT IDENTIFIER ::= { geDevicesDescriptions 3 } -- -- The GE UPS group -- geDiscoveredUPSsMask OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Reading this variable returns bit mask indicating which UPSs in a parallel system are alive. Management software should poll only these UPSs on their snmp branches 11-18 as follows: 1 FirstUPS alive 2 SecondUPS alive 4 ThirdUPS alive 8 FourthUPS alive 16 FifthUPS alive 32 SixthUPS alive 64 SeventhUPS alive 128 EigthUPS alive Since the management software should always monitor the GenericUPS branch (10), this value has no meaning for single upses (which provide values on that snmp branch), and should be set to zero in that case." ::= { geUPS 1 } geRequestPacket OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "Put the string, formatted as a IMV/CP4 packet, directly to internally RS485 bus. This OID could be used for accede directly to the internally RS485 bus from a remote place." ::= { geUPS 2 } geReplyPacket OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "Contain the reply of the IMV/CP4 request packet sent using the OID geRequestPacket. Every time that a write command has be made at the OID ge RequestPacket, the value of this OID is erased." ::= { geUPS 3 } -- -- The Device Identification group. Generic -- All objects in this group except for upsIdentName and -- upsIdentAttachedDevices are set at device initialization -- and remain static. -- upsIdentManufacturer OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The name of the UPS manufacturer.(*)" ::= { upsIdent 1 } upsIdentModel OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS Model designation.(*)" ::= { upsIdent 2 } upsIdentUPSSoftwareVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS firmware/software version(s). This variable may or may not have the same value as upsIdentAgentSoftwareVersion in some implementations.(*)" ::= { upsIdent 3 } upsIdentAgentSoftwareVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS agent software version. This variable may or may not have the same value as upsIdentUPSSoftwareVersion in some implementations.(*)" ::= { upsIdent 4 } upsIdentName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "A string identifying the UPS. This object should be set by the administrator.(*)" ::= { upsIdent 5 } upsIdentAttachedDevices OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "A string identifying the devices attached to the output(s) of the UPS. This object should be set by the administrator.(*)" ::= { upsIdent 6 } upsIdentUPSSerialNumber OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS serial number" ::= { upsIdent 7 } upsIdentComProtVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The IMV communication protocol version" ::= { upsIdent 8 } upsIdentOperatingTime OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "The present value of the operating time. total 'on' time since UPS manufactured" ::= { upsIdent 9 } -- -- Battery Group Generic -- upsBatteryStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), batteryNormal(2), batteryLow(3), batteryDepleted(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The indication of the capacity remaining in the UPS system's batteries. A value of batteryNormal indicates that the remaining run-time is greater than upsConfigLowBattTime. A value of batteryLow indicates that the remaining battery run-time is less than or equal to upsConfigLowBattTime. A value of batteryDepleted indicates that the UPS will be unable to sustain the present load when and if the utility power is lost (including the possibility that the utility power is currently absent and the UPS is unable to sustain the output).(*)" ::= { upsBattery 1 } upsSecondsOnBattery OBJECT-TYPE SYNTAX Integer32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "If the unit is on battery power, the elapsed time since the UPS last switched to battery power, or the time since the network management subsystem was last restarted, whichever is less. Zero shall be returned if the unit is not on battery power.(*)" ::= { upsBattery 2 } upsEstimatedMinutesRemaining OBJECT-TYPE SYNTAX PositiveInteger32 UNITS "minutes" MAX-ACCESS read-only STATUS current DESCRIPTION "An estimate of the time to battery charge depletion under the present load conditions if the utility power is off and remains off, or if it were to be lost and remain off.(*)" ::= { upsBattery 3 } upsEstimatedChargeRemaining OBJECT-TYPE SYNTAX Integer32 (0..100) UNITS "percent" MAX-ACCESS read-only STATUS current DESCRIPTION "An estimate of the battery charge remaining expressed as a percent of full charge.(*)" ::= { upsBattery 4 } upsBatteryVoltage OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Volt DC" MAX-ACCESS read-only STATUS current DESCRIPTION "The magnitude of the present battery voltage.(*)" ::= { upsBattery 5 } upsBatteryCurrent OBJECT-TYPE SYNTAX Integer32 UNITS "0.1 Amp DC" MAX-ACCESS read-only STATUS current DESCRIPTION "The present battery current.(*)" ::= { upsBattery 6 } upsBatteryTemperature OBJECT-TYPE SYNTAX Integer32 UNITS "degrees Centigrade" MAX-ACCESS read-only STATUS current DESCRIPTION "The ambient temperature at or near the UPS Battery casing.(*)" ::= { upsBattery 7 } upsBatteryRipple OBJECT-TYPE SYNTAX Integer32 UNITS "0.1 Volt RMS" MAX-ACCESS read-only STATUS current DESCRIPTION "The present DC link RMS voltage ripple.(*)" ::= { upsBattery 8 } -- -- Input Group -- upsInputLineBads OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "A count of the number of times the input entered an out-of-tolerance condition as defined by the manufacturer. This count is incremented by one each time the input transitions from zero out-of-tolerance lines to one or more input lines out-of-tolerance.(*)" ::= { upsInput 1 } upsInputNumLines OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of input lines utilized in this device. This variable indicates the number of rows in the input table.(*)" ::= { upsInput 2 } upsInputTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsInputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of input table entries. The number of entries is given by the value of upsInputNumLines.(*)" ::= { upsInput 3 } upsInputEntry OBJECT-TYPE SYNTAX UpsInputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing information applicable to a particular input line.(*)" INDEX { upsInputLineIndex } ::= { upsInputTable 1 } UpsInputEntry ::= SEQUENCE { upsInputLineIndex PositiveInteger32, upsInputFrequency NonNegativeInteger32, upsInputVoltage NonNegativeInteger32, upsInputCurrent NonNegativeInteger32, upsInputTruePower NonNegativeInteger32, upsInputVoltageMin NonNegativeInteger32, upsInputVoltageMax NonNegativeInteger32 } upsInputLineIndex OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The input line identifier.(*)" ::= { upsInputEntry 1 } upsInputFrequency OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The present input frequency.(*)" ::= { upsInputEntry 2 } upsInputVoltage OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The magnitude of the present input voltage.(*)" ::= { upsInputEntry 3 } upsInputCurrent OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 RMS Amp" MAX-ACCESS read-only STATUS current DESCRIPTION "The magnitude of the present input current.(*)" ::= { upsInputEntry 4 } upsInputTruePower OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The magnitude of the present input true power.(*)" ::= { upsInputEntry 5 } upsInputVoltageMin OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The lowest magnitude of the input voltage since last read out." ::= { upsInputEntry 6 } upsInputVoltageMax OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The highest magnitude of the input voltage since last read out." ::= { upsInputEntry 7 } -- -- The Output group. -- upsOutputSource OBJECT-TYPE SYNTAX INTEGER { other(1), none(2), normal(3), bypass(4), battery(5), booster(6), reducer(7) } MAX-ACCESS read-only STATUS current DESCRIPTION "The present source of output power. The enumeration none(2) indicates that there is no source of output power (and therefore no output power), for example, the system has opened the output breaker.(*)" ::= { upsOutput 1 } upsOutputFrequency OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The present output frequency.(*)" ::= { upsOutput 2 } upsOutputNumLines OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of output lines utilized in this device. This variable indicates the number of rows in the output table.(*)" ::= { upsOutput 3 } upsOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsOutputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of output table entries. The number of entries is given by the value of upsOutputNumLines.(*)" ::= { upsOutput 4 } upsOutputEntry OBJECT-TYPE SYNTAX UpsOutputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing information applicable to a particular output line.(*)" INDEX { upsOutputLineIndex } ::= { upsOutputTable 1 } UpsOutputEntry ::= SEQUENCE { upsOutputLineIndex PositiveInteger32, upsOutputVoltage NonNegativeInteger32, upsOutputCurrent NonNegativeInteger32, upsOutputPower NonNegativeInteger32, upsOutputPercentLoad Integer32, upsOutputPowerFactor Integer32, upsOutputPeakCurrent Integer32, upsOutputShareCurrent Integer32 } upsOutputLineIndex OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The output line identifier.(*)" ::= { upsOutputEntry 1 } upsOutputVoltage OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The present output voltage.(*)" ::= { upsOutputEntry 2 } upsOutputCurrent OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 RMS Amp" MAX-ACCESS read-only STATUS current DESCRIPTION "The present output current.(*)" ::= { upsOutputEntry 3 } upsOutputPower OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The present output true power.(*)" ::= { upsOutputEntry 4 } upsOutputPercentLoad OBJECT-TYPE SYNTAX Integer32 (0..200) UNITS "percent" MAX-ACCESS read-only STATUS current DESCRIPTION "The percentage of the UPS power capacity presently being used on this output line, i.e., the greater of the percent load of true power capacity and the percent load of VA.(*)" ::= { upsOutputEntry 5 } upsOutputPowerFactor OBJECT-TYPE SYNTAX Integer32 (-99..100) UNITS "0.01 cos phi" MAX-ACCESS read-only STATUS current DESCRIPTION "The present output power factor. The returned value correspond to the cosf of the load. A positive value indicate an inductive load; a negative value indicate a capacitive load; value 1 indicate a resistive load. If the measure is not available due to a small load for a consistent calculation, the NA value is then returned.(*)" ::= { upsOutputEntry 6 } upsOutputPeakCurrent OBJECT-TYPE SYNTAX Integer32 UNITS "Amps" MAX-ACCESS read-only STATUS current DESCRIPTION "The present output peak current.(*)" ::= { upsOutputEntry 7 } upsOutputShareCurrent OBJECT-TYPE SYNTAX Integer32 UNITS "Amps" MAX-ACCESS read-only STATUS current DESCRIPTION "In a parallel system ideally all the UPS are requested to contribute to the load with the same amount of current, i.e. with no current share. The current share occurs when an UPS exchanges some current with another UPS, so that this current component doesn't feed the load. The share part of the UPS current represents an undesired UPS loading, and therefore it should be minimized. If the share current is too high, the UPS results overloaded and in some conditions (i.e. very high load) the system could turn on bypass reducing dramatically the global system reliability. PMAD detects the amount of share currents in a parallel system, generating an alarm if this value is above a parameter-based threshold. Single UPS systems don't have this feature, NA will be provided.(*)" ::= { upsOutputEntry 8 } -- -- The Bypass group generic. -- upsBypassFrequency OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The present bypass frequency.(*)" ::= { upsBypass 1 } upsBypassNumLines OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of bypass lines utilized in this device. This entry indicates the number of rows in the bypass table.(*)" ::= { upsBypass 2 } upsBypassTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsBypassEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of bypass table entries. The number of entries is given by the value of upsBypassNumLines.(*)" ::= { upsBypass 3 } upsBypassEntry OBJECT-TYPE SYNTAX UpsBypassEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing information applicable to a particular bypass input.(*)" INDEX { upsBypassLineIndex } ::= { upsBypassTable 1 } UpsBypassEntry ::= SEQUENCE { upsBypassLineIndex PositiveInteger32, upsBypassVoltage NonNegativeInteger32, upsBypassCurrent NonNegativeInteger32, upsBypassPower NonNegativeInteger32 } upsBypassLineIndex OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The bypass line identifier.(*)" ::= { upsBypassEntry 1 } upsBypassVoltage OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The present bypass voltage.(*)" ::= { upsBypassEntry 2 } upsBypassCurrent OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 RMS Amp" MAX-ACCESS read-only STATUS current DESCRIPTION "The present bypass current.(*)" ::= { upsBypassEntry 3 } upsBypassPower OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The present true power conveyed by the bypass.(*)" ::= { upsBypassEntry 4 } -- -- The Alarm group generic. -- upsAlarmsPresent OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The present number of active alarm conditions.(*)" ::= { upsAlarm 1 } upsAlarmTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsAlarmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of alarm table entries. The table contains zero, one, or many rows at any moment, depending upon the number of alarm conditions in effect. The table is initially empty at agent startup. The agent creates a row in the table each time a condition is detected and deletes that row when that condition no longer pertains. The agent creates the first row with upsAlarmId equal to 1, and increments the value of upsAlarmId each time a new row is created, wrapping to the first free value greater than or equal to 1 when the maximum value of upsAlarmId would otherwise be exceeded. Consequently, after multiple operations, the table may become sparse, e.g., containing entries for rows 95, 100, 101, and 203 and the entries should not be assumed to be in chronological order because upsAlarmId might have wrapped. Alarms are named by an AutonomousType (OBJECT IDENTIFIER), upsAlarmDescr, to allow a single table to reflect well known alarms plus alarms defined by a particular implementation, i.e., as documented in the private enterprise MIB definition for the device. No two rows will have the same value of upsAlarmDescr, since alarms define conditions. In order to meet this requirement, care should be taken in the definition of alarm conditions to insure that a system cannot enter the same condition multiple times simultaneously. The number of rows in the table at any given time is reflected by the value of upsAlarmsPresent.(*)" ::= { upsAlarm 2 } upsAlarmEntry OBJECT-TYPE SYNTAX UpsAlarmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing information applicable to a particular alarm.(*)" INDEX { upsAlarmId } ::= { upsAlarmTable 1 } UpsAlarmEntry ::= SEQUENCE { upsAlarmId PositiveInteger32, upsAlarmDescr AutonomousType, upsAlarmTime TimeStamp } upsAlarmId OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique identifier for an alarm condition. This value must remain constant.(*)" ::= { upsAlarmEntry 1 } upsAlarmDescr OBJECT-TYPE SYNTAX AutonomousType MAX-ACCESS read-only STATUS current DESCRIPTION "A reference to an alarm description object. The object referenced should not be accessible, but rather be used to provide a unique description of the alarm condition.(*)" ::= { upsAlarmEntry 2 } upsAlarmTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime when the alarm condition was detected. If the alarm condition was detected at the time of agent startup and presumably existed before agent startup, the value of upsAlarmTime shall equal 0.(*)" ::= { upsAlarmEntry 3 } -- -- Well known alarm conditions generic. -- upsAlarmBatteryBad OBJECT-IDENTITY STATUS current DESCRIPTION "One or more batteries have been determined to require replacement.(*)" ::= { upsWellKnownAlarms 1 } upsAlarmOnBattery OBJECT-IDENTITY STATUS current DESCRIPTION "The UPS is drawing power from the batteries.(*)" ::= { upsWellKnownAlarms 2 } upsAlarmLowBattery OBJECT-IDENTITY STATUS current DESCRIPTION "The remaining battery run-time is less than or equal to upsConfigLowBattTime.(*)" ::= { upsWellKnownAlarms 3 } upsAlarmDepletedBattery OBJECT-IDENTITY STATUS current DESCRIPTION "The UPS will be unable to sustain the present load when and if the utility power is lost.(*)" ::= { upsWellKnownAlarms 4 } upsAlarmTempBad OBJECT-IDENTITY STATUS current DESCRIPTION "A temperature is out of tolerance.(*)" ::= { upsWellKnownAlarms 5 } upsAlarmInputBad OBJECT-IDENTITY STATUS current DESCRIPTION "An input condition is out of tolerance.(*)" ::= { upsWellKnownAlarms 6 } upsAlarmOutputBad OBJECT-IDENTITY STATUS current DESCRIPTION "An output condition (other than OutputOverload) is out of tolerance.(*)" ::= { upsWellKnownAlarms 7 } upsAlarmOutputOverload OBJECT-IDENTITY STATUS current DESCRIPTION "The output load exceeds the UPS output capacity.(*)" ::= { upsWellKnownAlarms 8 } upsAlarmOnBypass OBJECT-IDENTITY STATUS current DESCRIPTION "The Bypass is presently engaged on the UPS.(*)" ::= { upsWellKnownAlarms 9 } upsAlarmBypassBad OBJECT-IDENTITY STATUS current DESCRIPTION "The Bypass is out of tolerance.(*)" ::= { upsWellKnownAlarms 10 } upsAlarmOutputOffAsRequested OBJECT-IDENTITY STATUS current DESCRIPTION "The UPS has shutdown as requested, i.e., the output is off.(*)" ::= { upsWellKnownAlarms 11 } upsAlarmUpsOffAsRequested OBJECT-IDENTITY STATUS current DESCRIPTION "The entire UPS has shutdown as commanded.(*)" ::= { upsWellKnownAlarms 12 } upsAlarmChargerFailed OBJECT-IDENTITY STATUS current DESCRIPTION "An uncorrected problem has been detected within the UPS charger subsystem.(*)" ::= { upsWellKnownAlarms 13 } upsAlarmUpsOutputOff OBJECT-IDENTITY STATUS current DESCRIPTION "The output of the UPS is in the off state.(*)" ::= { upsWellKnownAlarms 14 } upsAlarmUpsSystemOff OBJECT-IDENTITY STATUS current DESCRIPTION "The UPS system is in the off state.(*)" ::= { upsWellKnownAlarms 15 } upsAlarmFanFailure OBJECT-IDENTITY STATUS current DESCRIPTION "The failure of one or more fans in the UPS has been detected.(*)" ::= { upsWellKnownAlarms 16 } upsAlarmFuseFailure OBJECT-IDENTITY STATUS current DESCRIPTION "The failure of one or more fuses has been detected.(*)" ::= { upsWellKnownAlarms 17 } upsAlarmGeneralFault OBJECT-IDENTITY STATUS current DESCRIPTION "A general fault in the UPS has been detected.(*)" ::= { upsWellKnownAlarms 18 } upsAlarmDiagnosticTestFailed OBJECT-IDENTITY STATUS current DESCRIPTION "The result of the last diagnostic test indicates a failure.(*)" ::= { upsWellKnownAlarms 19 } upsAlarmCommunicationsLost OBJECT-IDENTITY STATUS current DESCRIPTION "A problem has been encountered in the communications between the agent and the UPS.(*)" ::= { upsWellKnownAlarms 20 } upsAlarmAwaitingPower OBJECT-IDENTITY STATUS current DESCRIPTION "The UPS output is off and the UPS is awaiting the return of input power.(*)" ::= { upsWellKnownAlarms 21 } upsAlarmShutdownPending OBJECT-IDENTITY STATUS current DESCRIPTION "A upsShutdownAfterDelay countdown is underway.(*)" ::= { upsWellKnownAlarms 22 } upsAlarmShutdownImminent OBJECT-IDENTITY STATUS current DESCRIPTION "The UPS will turn off power to the load in less than 5 seconds; this may be either a timed shutdown or a low battery shutdown.(*)" ::= { upsWellKnownAlarms 23 } upsAlarmTestInProgress OBJECT-IDENTITY STATUS current DESCRIPTION "A test is in progress, as initiated and indicated by the Test Group. Tests initiated via other implementation-specific mechanisms can indicate the presence of the testing in the alarm table, if desired, via a OBJECT-IDENTITY macro in the MIB document specific to that implementation and are outside the scope of this OBJECT-IDENTITY.(*)" ::= { upsWellKnownAlarms 24 } upsAlarmReceptacleOff OBJECT-IDENTITY STATUS current DESCRIPTION "The receptacle are switch off " ::= { upsWellKnownAlarms 25 } upsAlarmHighSpeedBusFailure OBJECT-IDENTITY STATUS current DESCRIPTION "A problem on the High Speed Bus communication is detected" ::= { upsWellKnownAlarms 26 } upsAlarmHighSpeedBusJACRCFailure OBJECT-IDENTITY STATUS current DESCRIPTION "A CRC problem on the Highspeed Bus JA is detected." ::= { upsWellKnownAlarms 27 } upsAlarmConnectivityBusFailure OBJECT-IDENTITY STATUS current DESCRIPTION "A problem on the Connectivity Bus communication is detected" ::= { upsWellKnownAlarms 28 } upsAlarmHighSpeedBusJBCRCFailure OBJECT-IDENTITY STATUS current DESCRIPTION "A CRC problem on the Highspeed Bus JB is detected." ::= { upsWellKnownAlarms 29 } upsAlarmCurrentSharing OBJECT-IDENTITY STATUS current DESCRIPTION "The System detects an high current sharing on the parallel system" ::= { upsWellKnownAlarms 30 } upsAlarmDCRipple OBJECT-IDENTITY STATUS current DESCRIPTION "The System detects an high ripple voltage on one DC link" ::= { upsWellKnownAlarms 31 } upsAlarmMaskA OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Specifies which alarm can be handled by the UPS. The 'Mask' parameter is a Long Integer32. The meaning of every bit is the same as for the 'upsAlarmGroupA' command. A bit having value=1 indicates that the corresponding alarm is handled by the UPS." ::= { upsAlarm 4 } -- -- The Test Group generic -- upsTestId OBJECT-TYPE SYNTAX OBJECT IDENTIFIER MAX-ACCESS read-write STATUS current DESCRIPTION "The test is named by an OBJECT IDENTIFIER which allows a standard mechanism for the initiation of tests, including the well known tests identified in this document as well as those introduced by a particular implementation, i.e., as documented in the private enterprise MIB definition for the device. Setting this variable initiates the named test. Sets to this variable require the presence of upsTestSpinLock in the same SNMP message. The set request will be rejected with an appropriate error message if the requested test cannot be performed, including attempts to start a test when another test is already in progress. The status of the current or last test is maintained in upsTestResultsSummary. Tests in progress may be aborted by setting the upsTestId variable to upsTestAbortTestInProgress. Read operations return the value of the name of the test in progress if a test is in progress or the name of the last test performed if no test is in progress, unless no test has been run, in which case the well known value upsTestNoTestsInitiated is returned.(*)" ::= { upsTest 1 } -- see [6] for more information on the semantics of objects with -- syntax of TestAndIncr upsTestSpinLock OBJECT-TYPE SYNTAX TestAndIncr MAX-ACCESS read-write STATUS current DESCRIPTION "A spin lock on the test subsystem. The spinlock is used as follows. Before starting a test, a manager-station should make sure that a test is not in progress as follows: tryagain: get (upsTestSpinLock) while (upsTestResultsSummary == inProgress) { /* loop while a test is running for another manager */ short delay get (upsTestSpinLock) } lockvalue = upsTestSpinLock /* no test in progress, start the test */ set (upsTestSpinLock = lockvalue, upsTestId = requestedtest) if (errorindex == 1) { /* (upsTestSpinLock failed) */ /* if problem is not access control, then some other manager slipped in ahead of us */ goto tryagain } if (errorindex == 2) { /* (upsTestId) */ /* cannot perform the test */ give up } /* test started ok */ /* wait for test completion by polling upsTestResultsSummary */ get (upsTestSpinLock, upsTestResultsSummary, upsTestResultsDetail) while (upsTestResultsSummary == inProgress) { short delay get (upsTestSpinLock, upsTestResultsSummary, upsTestResultsDetail) } /* when test completes, retrieve any additional test results */ /* if upsTestSpinLock == lockvalue + 1, then these are our test */ /* results (as opposed to another manager's */ The initial value of upsTestSpinLock at agent initialization shall be 1.(*)" ::= { upsTest 2 } upsTestResultsSummary OBJECT-TYPE SYNTAX INTEGER { donePass(1), doneWarning(2), doneError(3), aborted(4), inProgress(5), noTestsInitiated(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "The results of the current or last UPS diagnostics test performed. The values for donePass(1), doneWarning(2), and doneError(3) indicate that the test completed either successfully, with a warning, or with an error, respectively. The value aborted(4) is returned for tests which are aborted by setting the value of upsTestId to upsTestAbortTestInProgress. Tests which have not yet concluded are indicated by inProgress(5). The value noTestsInitiated(6) indicates that no previous test results are available, such as is the case when no tests have been run since the last reinitialization of the network management subsystem and the system has no provision for non- volatile storage of test results.(*)" ::= { upsTest 3 } upsTestResultsDetail OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "Additional information about upsTestResultsSummary. If no additional information available, a zero length string is returned.(*)" ::= { upsTest 4 } upsTestStartTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the time the test in progress was initiated, or, if no test is in progress, the time the previous test was initiated. If the value of upsTestResultsSummary is noTestsInitiated(6), upsTestStartTime has the value 0.(*)" ::= { upsTest 5 } upsTestElapsedTime OBJECT-TYPE SYNTAX TimeInterval MAX-ACCESS read-only STATUS current DESCRIPTION "The amount of time, in TimeTicks, since the test in progress was initiated, or, if no test is in progress, the previous test took to complete. If the value of upsTestResultsSummary is noTestsInitiated(6), upsTestElapsedTime has the value 0.(*)" ::= { upsTest 6 } -- -- Well known tests generic. -- upsTestNoTestsInitiated OBJECT-IDENTITY STATUS current DESCRIPTION "No tests have been initiated and no test is in progress.(*)" ::= { upsWellKnownTests 1 } upsTestAbortTestInProgress OBJECT-IDENTITY STATUS current DESCRIPTION "The test in progress is to be aborted / the test in progress was aborted.(*)" ::= { upsWellKnownTests 2 } upsTestGeneralSystemsTest OBJECT-IDENTITY STATUS current DESCRIPTION "The manufacturer's standard test of UPS device systems.(*)" ::= { upsWellKnownTests 3 } upsTestQuickBatteryTest OBJECT-IDENTITY STATUS current DESCRIPTION "A test that is sufficient to determine if the battery needs replacement.(*)" ::= { upsWellKnownTests 4 } upsTestDeepBatteryCalibration OBJECT-IDENTITY STATUS current DESCRIPTION "The system is placed on battery to a discharge level, set by the manufacturer, sufficient to determine battery replacement and battery run-time with a high degree of confidence. WARNING: this test will leave the battery in a low charge state and will require time for recharging to a level sufficient to provide normal battery duration for the protected load.(*)" ::= { upsWellKnownTests 5 } -- -- The Control group generic. -- upsShutdownType OBJECT-TYPE SYNTAX INTEGER { output(1), system(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object determines the nature of the action to be taken at the time when the countdown of the upsShutdownAfterDelay and upsRebootWithDuration objects reaches zero. Setting this object to output(1) indicates that shutdown requests should cause only the output of the UPS to turn off. Setting this object to system(2) indicates that shutdown requests will cause the entire UPS system to turn off.(*)" ::= { upsControl 1 } upsShutdownAfterDelay OBJECT-TYPE SYNTAX Integer32 (-1..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object will shutdown (i.e., turn off) either the UPS output or the UPS system (as determined by the value of upsShutdownType at the time of shutdown) after the indicated number of seconds, or less if the UPS batteries become depleted. Setting this object to 0 will cause the shutdown to occur immediately. Setting this object to -1 will abort the countdown. If the system is already in the desired state at the time the countdown reaches 0, then nothing will happen. That is, there is no additional action at that time if upsShutdownType = system and the system is already off. Similarly, there is no additional action at that time if upsShutdownType = output and the output is already off. When read, upsShutdownAfterDelay will return the number of seconds remaining until shutdown, or -1 if no shutdown countdown is in effect. On some systems, if the agent is restarted while a shutdown countdown is in effect, the countdown may be aborted. Sets to this object override any upsShutdownAfterDelay already in effect.(*)" ::= { upsControl 2 } upsStartupAfterDelay OBJECT-TYPE SYNTAX Integer32 (-1..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object will start the output after the indicated number of seconds, including starting the UPS, if necessary. Setting this object to 0 will cause the startup to occur immediately. Setting this object to -1 will abort the countdown. If the output is already on at the time the countdown reaches 0, then nothing will happen. Sets to this object override the effect of any upsStartupAfterDelay countdown or upsRebootWithDuration countdown in progress. When read, upsStartupAfterDelay will return the number of seconds until startup, or -1 if no startup countdown is in effect. If the countdown expires during a utility failure, the startup shall not occur until the utility power is restored. On some systems, if the agent is restarted while a startup countdown is in effect, the countdown is aborted.(*)" ::= { upsControl 3 } upsRebootWithDuration OBJECT-TYPE SYNTAX Integer32 (-1..300) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object will immediately shutdown (i.e., turn off) either the UPS output or the UPS system (as determined by the value of upsShutdownType at the time of shutdown) for a period equal to the indicated number of seconds, after which time the output will be started, including starting the UPS, if necessary. If the number of seconds required to perform the request is greater than the requested duration, then the requested shutdown and startup cycle shall be performed in the minimum time possible, but in no case shall this require more than the requested duration plus 60 seconds. When read, upsRebootWithDuration shall return the number of seconds remaining in the countdown, or -1 if no countdown is in progress. If the startup should occur during a utility failure, the startup shall not occur until the utility power is restored.(*)" ::= { upsControl 4 } upsAutoRestart OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to 'on' will cause the UPS system to restart after a shutdown if the shutdown occurred during a power loss as a result of either a upsShutdownAfterDelay or an internal battery depleted condition. Setting this object to 'off' will prevent the UPS system from restarting after a shutdown until an operator manually or remotely explicitly restarts it. If the UPS is in a startup or reboot countdown, then the UPS will not restart until that delay has been satisfied.(*)" ::= { upsControl 5 } upsReceptaclesNum OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of receptacles utilized in this device. This entry indicates the number of rows in the receptacle table." ::= { upsControl 6 } upsReceptacleTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsReceptacleEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of receptacle table entries. The number of entries is given by the value of upsReceptacleNum." ::= { upsControl 7 } upsReceptacleEntry OBJECT-TYPE SYNTAX UpsReceptacleEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing information applicable to a particular receptacle." INDEX { upsReceptacleLineIndex } ::= { upsReceptacleTable 1 } UpsReceptacleEntry ::= SEQUENCE { upsReceptacleLineIndex PositiveInteger32, upsReceptacleOnOff INTEGER } upsReceptacleLineIndex OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The receptacle line identifier." ::= { upsReceptacleEntry 1 } upsReceptacleOnOff OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The present state of the receptacle. Setting this object to 'on' will cause the receptacle to be turned on. Setting this object to 'off' will turn the receptacle off. If the receptacle is already in the desired state nothing will happen. After an autorestart (see upsAutoRestart) the receptacle will be on." ::= { upsReceptacleEntry 2 } upsUPSMode OBJECT-TYPE SYNTAX INTEGER { offLine(1), onLine(2), ecomode(3), iem(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "The operation mode off the UPS. Off-line indicates a mode in which the input power is transferred to the output directly or via a step-up or step-down transformer. On-line mode indicates a mode in which the output power is regenerated through some convertor. the operating mode of the UPS may be fixed, or may be selectable (e.g. an on-line UPS with ecomode)" ::= { upsControl 8 } upsRectifierOnOff OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The present state of the rectifier. Setting this object to 'on' will cause the rectifier to be turned on. Setting this object to 'off' will turn the rectifier off. If the rectifier is already in the desired state nothing will happen. " ::= { upsControl 9 } upsBatteryChargeMethod OBJECT-TYPE SYNTAX INTEGER { normalcharge(1), boostcharge(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The present state of the charge method. Setting this object to 'Normal charge' will cause the battery to be charged using the normal method. Setting this object to 'Boost charge' will charge the battery in boost mode. If the charge method is already in the desired state nothing will happen. " ::= { upsControl 10 } upsInverterOnOff OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The present state of the inverter. Setting this object to 'on' will cause the inverter to be turned on. Setting this object to 'off' will turn the inverter off. If the inverter is already in the desired state nothing will happen. " ::= { upsControl 11 } upsBypassOnOff OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The present state of the bypass. Setting this object to 'on' will cause the bypass to be activated. Setting this object to 'off' will deactivate the bypass. If the UPS is already in the desired state nothing will happen. " ::= { upsControl 12 } upsLoadSource OBJECT-TYPE SYNTAX INTEGER { onbypass(1), onInverter(2), onDetour(3), loadOff(4), other (5) } MAX-ACCESS read-write STATUS current DESCRIPTION "The present source of the load. Setting this object to 'On bypass' will cause the load to be supplied by the bypass. Setting this object to 'On inverter' will cause the load to be supplied by the inverter. If the load is already supplied by the desired source nothing will happen. " ::= { upsControl 13 } -- -- The Configuration group generic. -- upsConfigInputVoltage OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-write STATUS current DESCRIPTION "The magnitude of the nominal input voltage. On those systems which support read-write access to this object, if there is an attempt to set this variable to a value that is not supported, the request must be rejected and the agent shall respond with an appropriate error message, i.e., badValue for SNMPv1, or inconsistentValue for SNMPv2.(*)" ::= { upsConfig 1 } upsConfigInputFreq OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Hertz" MAX-ACCESS read-write STATUS current DESCRIPTION "The nominal input frequency. On those systems which support read-write access to this object, if there is an attempt to set this variable to a value that is not supported, the request must be rejected and the agent shall respond with an appropriate error message, i.e., badValue for SNMPv1, or inconsistentValue for SNMPv2.(*)" ::= { upsConfig 2 } upsConfigOutputVoltage OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-write STATUS current DESCRIPTION "The magnitude of the nominal output voltage. On those systems which support read-write access to this object, if there is an attempt to set this variable to a value that is not supported, the request must be rejected and the agent shall respond with an appropriate error message, i.e., badValue for SNMPv1, or inconsistentValue for SNMPv2.(*)" ::= { upsConfig 3 } upsConfigOutputFreq OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Hertz" MAX-ACCESS read-write STATUS current DESCRIPTION "The nominal output frequency. On those systems which support read-write access to this object, if there is an attempt to set this variable to a value that is not supported, the request must be rejected and the agent shall respond with an appropriate error message, i.e., badValue for SNMPv1, or inconsistentValue for SNMPv2.(*)" ::= { upsConfig 4 } upsConfigOutputVA OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "Volt-Amps" MAX-ACCESS read-only STATUS current DESCRIPTION "The magnitude of the nominal Volt-Amp rating.(*)" ::= { upsConfig 5 } upsConfigOutputPower OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The magnitude of the nominal true power rating.(*)" ::= { upsConfig 6 } upsConfigLowBattTime OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "The value of upsEstimatedMinutesRemaining at which a lowBattery condition is declared. For agents which support only discrete (discontinuous) values, then the agent shall round up to the next supported value. If the requested value is larger than the largest supported value, then the largest supported value shall be selected.(*)" ::= { upsConfig 7 } upsConfigAudibleStatus OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2), muted(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "The requested state of the audible alarm. When in the disabled state, the audible alarm should never sound. The enabled state is self-describing. Setting this object to muted(3) when the audible alarm is sounding shall temporarily silence the alarm. It will remain muted until it would normally stop sounding and the value returned for read operations during this period shall equal muted(3). At the end of this period, the value shall revert to enabled(2). Writes of the value muted(3) when the audible alarm is not sounding shall be accepted but otherwise shall have no effect.(*)" ::= { upsConfig 8 } upsConfigLowVoltageTransferPoint OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-write STATUS current DESCRIPTION "The minimum input line voltage allowed before the UPS system transfers to battery backup.(*)" ::= { upsConfig 9 } upsConfigHighVoltageTransferPoint OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "RMS Volts" MAX-ACCESS read-write STATUS current DESCRIPTION "The maximum line voltage allowed before the UPS system transfers to battery backup.(*)" ::= { upsConfig 10 } upsConfigBatteryCapacity OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "Amps Hours" MAX-ACCESS read-write STATUS current DESCRIPTION "The installed battery capacity. This value is the 'factory'-value, not the value after calibration." ::= { upsConfig 11 } upsConfigBatteryChargeCurrent OBJECT-TYPE SYNTAX NonNegativeInteger32 UNITS "0.1 Amp DC" MAX-ACCESS read-write STATUS current DESCRIPTION "The maximum battery charge current, including external chargers." ::= { upsConfig 12 } upsConfigNoLoadShutdown OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Dis- or enable 'no load' shutdown from the contact interface." ::= { upsConfig 13 } upsConfigStartDelay OBJECT-TYPE SYNTAX PositiveInteger32 UNITS "minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "Minimum required autonomy time before the UPS may perform an autorestart." ::= { upsConfig 14 } -- -- The GetSet group generic. -- upsEventGetNext OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS read-write STATUS current DESCRIPTION "The number of events to retreive from the UPS event buffer. When this object is set the EventTable will be filled with the requested number of entries. The value upsEventSetStartingTimeStamp will be used as the start value of the table with the lowest index number." ::= { upsGetSet 1 } upsEventGetPrevious OBJECT-TYPE SYNTAX PositiveInteger32 MAX-ACCESS read-write STATUS current DESCRIPTION "The number of events to retreive from the UPS event buffer. When this object is set the EventTable will be filled with the requested number of entries. The value upsEventLastTime will be used as the last value of the table with the highest index number. Returns SNMPNOSUCHNAME for UPSs that don't support this command." ::= { upsGetSet 2 } upsEventSetStartingTimeStamp OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-write STATUS current DESCRIPTION "The timestamp which is used as starting point for downloading events from the UPS event buffer" ::= { upsGetSet 3 } upsEventRetreiveCurrentTimeStamp OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-only STATUS current DESCRIPTION "The current timestamp is retreived from the UPS" ::= { upsGetSet 4 } upsEventTableSize OBJECT-TYPE SYNTAX NonNegativeInteger32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of entries in the event table. This object indicates the number of rows in the event table." ::= { upsGetSet 5 } upsEventTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsEventEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of event table entries. The number of entries is always 10, and the value of upsEventTableSize gives the number of valid entries from the begging of the table. Invalid entries return 0. To prevent problems with simultaneous queries from several agents, these values MUST be accessed using several PDUs in the same SNMP message ( is (1..10)): PDU-SET upsSetStartingTimeStamp