-- ************************************************************************* -- AMERICAN POWER CONVERSION PowerNet-MIB -- ************************************************************************* -- Copyright (c) 2002 American Power Conversion, Inc. -- PowerNet is a Trademark of American Power Conversion Corp. -- -- Title: APC TOP LEVEL PowerNet MIB -- -- Version : 3.4.4 -- -- Generated by script: tomib.awk -- -- Input File: powernetPS.mib -- -- Created: Friday, June, 28, 2002 -- -- Revision History: -- ************************************************************************* -- - v3.2.0 Added functionality for MasterSwitch Plus -- - v3.3.0 Added functionality for MX28B (dcDM3) and 3-phase UPS -- - v3.3.2 New traps for Thors Hammer -- 07/15/01 - v3.4.0 Added transfer switch -- - v3.4.3 Added functionality for External and Integrated Environmental Monitor -- 05/31/02 - v3.4.4b (still in progress!!!) Added dcmim2 (Siemens) dc functionality -- 06/05/02 - Added battery Manager (Reading) trap functionality -- 06/14/02 - v3.4.4c Added Psx Traps for PDU (GiantSquid) and RM-PDU (StLouis) -- -- ************************************************************************* -- ************************************************************************* -- PowerNet-MIB { iso org(3) dod(6) internet(1) private(4) -- enterprises(1) apc(318) } PowerNet-MIB DEFINITIONS ::= BEGIN IMPORTS enterprises, IpAddress, Gauge, TimeTicks FROM RFC1155-SMI DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212 TRAP-TYPE FROM RFC-1215; apc OBJECT IDENTIFIER ::= { enterprises 318 } products OBJECT IDENTIFIER ::= { apc 1 } apcmgmt OBJECT IDENTIFIER ::= { apc 2 } hardware OBJECT IDENTIFIER ::= { products 1 } software OBJECT IDENTIFIER ::= { products 2 } system OBJECT IDENTIFIER ::= { products 3 } experimental OBJECT IDENTIFIER ::= { products 4 } mconfig OBJECT IDENTIFIER ::= { apcmgmt 1 } mcontrol OBJECT IDENTIFIER ::= { apcmgmt 2 } mtrapargs OBJECT IDENTIFIER ::= { apcmgmt 3 } mfiletransfer OBJECT IDENTIFIER ::= { apcmgmt 4 } mconfigClock OBJECT IDENTIFIER ::= { mconfig 6 } mfiletransferStatus OBJECT IDENTIFIER ::= { mfiletransfer 1 } mfiletransferConfig OBJECT IDENTIFIER ::= { mfiletransfer 2 } mfiletransferControl OBJECT IDENTIFIER ::= { mfiletransfer 3 } mfiletransferConfigSettings OBJECT IDENTIFIER ::= { mfiletransferConfig 1 } mfiletransferConfigTFTP OBJECT IDENTIFIER ::= { mfiletransferConfig 2 } mfiletransferConfigFTP OBJECT IDENTIFIER ::= { mfiletransferConfig 3 } ups OBJECT IDENTIFIER ::= { hardware 1 } measureUps OBJECT IDENTIFIER ::= { hardware 2 } miniSNMPadapter OBJECT IDENTIFIER ::= { hardware 3 } masterswitch OBJECT IDENTIFIER ::= { hardware 4 } masterswitchVM OBJECT IDENTIFIER ::= { hardware 5 } masterswitchMSP OBJECT IDENTIFIER ::= { hardware 6 } dcDM3 OBJECT IDENTIFIER ::= { hardware 7 } automaticTransferSwitch OBJECT IDENTIFIER ::= { hardware 8 } dc2 OBJECT IDENTIFIER ::= { hardware 9 } environmentalMonitor OBJECT IDENTIFIER ::= { hardware 10 } powerNetSubAgent OBJECT IDENTIFIER ::= { software 1 } powerNetSoftwareSystem OBJECT IDENTIFIER ::= { powerNetSubAgent 1 } powerNetSoftwareConfig OBJECT IDENTIFIER ::= { powerNetSubAgent 2 } backUPS OBJECT IDENTIFIER ::= { system 1 } smartUPS OBJECT IDENTIFIER ::= { system 2 } matrixUPS OBJECT IDENTIFIER ::= { system 3 } masterSwitch OBJECT IDENTIFIER ::= { system 4 } symmetraUPS OBJECT IDENTIFIER ::= { system 5 } dp100E OBJECT IDENTIFIER ::= { system 6 } dp300E OBJECT IDENTIFIER ::= { system 7 } monitors OBJECT IDENTIFIER ::= { system 8 } redundantSwitch OBJECT IDENTIFIER ::= { system 9 } dcPower OBJECT IDENTIFIER ::= { system 10 } automaticXferSwitch OBJECT IDENTIFIER ::= { system 11 } smartUPS250 OBJECT IDENTIFIER ::= { smartUPS 1 } smartUPS400 OBJECT IDENTIFIER ::= { smartUPS 2 } smartUPS600 OBJECT IDENTIFIER ::= { smartUPS 3 } smartUPS900 OBJECT IDENTIFIER ::= { smartUPS 4 } smartUPS1250 OBJECT IDENTIFIER ::= { smartUPS 5 } smartUPS2000 OBJECT IDENTIFIER ::= { smartUPS 6 } smartUPS450 OBJECT IDENTIFIER ::= { smartUPS 7 } smartUPS700 OBJECT IDENTIFIER ::= { smartUPS 8 } smartUPS1000 OBJECT IDENTIFIER ::= { smartUPS 9 } smartUPS1400 OBJECT IDENTIFIER ::= { smartUPS 10 } smartUPS2200 OBJECT IDENTIFIER ::= { smartUPS 11 } smartUPS3000 OBJECT IDENTIFIER ::= { smartUPS 12 } smartUPS5000 OBJECT IDENTIFIER ::= { smartUPS 13 } matrixUPS3000 OBJECT IDENTIFIER ::= { matrixUPS 1 } matrixUPS5000 OBJECT IDENTIFIER ::= { matrixUPS 2 } masterSwitchV1 OBJECT IDENTIFIER ::= { masterSwitch 1} masterSwitchV2 OBJECT IDENTIFIER ::= { masterSwitch 2} masterSwitchVM OBJECT IDENTIFIER ::= { masterSwitch 3} masterSwitchMSP OBJECT IDENTIFIER ::= { masterSwitch 4} symmetraUPS4kVA OBJECT IDENTIFIER ::= { symmetraUPS 1 } symmetraUPS8kVA OBJECT IDENTIFIER ::= { symmetraUPS 2 } symmetraUPS12kVA OBJECT IDENTIFIER ::= { symmetraUPS 3 } symmetraUPS16kVA OBJECT IDENTIFIER ::= { symmetraUPS 4 } environmental OBJECT IDENTIFIER ::= { monitors 1 } dm3 OBJECT IDENTIFIER ::= { dcPower 1 } dcmim2 OBJECT IDENTIFIER ::= { dcPower 2 } upsIdent OBJECT IDENTIFIER ::= { ups 1 } upsBattery OBJECT IDENTIFIER ::= { ups 2 } upsInput OBJECT IDENTIFIER ::= { ups 3 } upsOutput OBJECT IDENTIFIER ::= { ups 4 } upsConfig OBJECT IDENTIFIER ::= { ups 5 } upsControl OBJECT IDENTIFIER ::= { ups 6 } upsTest OBJECT IDENTIFIER ::= { ups 7 } upsComm OBJECT IDENTIFIER ::= { ups 8 } upsPhase OBJECT IDENTIFIER ::= { ups 9 } upsBasicIdent OBJECT IDENTIFIER ::= { upsIdent 1 } upsAdvIdent OBJECT IDENTIFIER ::= { upsIdent 2 } upsBasicBattery OBJECT IDENTIFIER ::= { upsBattery 1 } upsAdvBattery OBJECT IDENTIFIER ::= { upsBattery 2 } upsBasicInput OBJECT IDENTIFIER ::= { upsInput 1 } upsAdvInput OBJECT IDENTIFIER ::= { upsInput 2 } upsBasicOutput OBJECT IDENTIFIER ::= { upsOutput 1 } upsAdvOutput OBJECT IDENTIFIER ::= { upsOutput 2 } upsBasicConfig OBJECT IDENTIFIER ::= { upsConfig 1 } upsAdvConfig OBJECT IDENTIFIER ::= { upsConfig 2 } upsBasicControl OBJECT IDENTIFIER ::= { upsControl 1 } upsAdvControl OBJECT IDENTIFIER ::= { upsControl 2 } upsBasicTest OBJECT IDENTIFIER ::= { upsTest 1 } upsAdvTest OBJECT IDENTIFIER ::= { upsTest 2 } upsPhaseResetValues OBJECT IDENTIFIER ::= { upsPhase 1 } upsPhaseInput OBJECT IDENTIFIER ::= { upsPhase 2 } upsPhaseOutput OBJECT IDENTIFIER ::= { upsPhase 3 } mUpsEnviron OBJECT IDENTIFIER ::= { measureUps 1 } mUpsContact OBJECT IDENTIFIER ::= { measureUps 2 } serialPort OBJECT IDENTIFIER ::= { miniSNMPadapter 1} serialPort1 OBJECT IDENTIFIER ::= { serialPort 1} serialPort2 OBJECT IDENTIFIER ::= { serialPort 2} serialPort2Config OBJECT IDENTIFIER ::= { serialPort2 1} serialPort2Control OBJECT IDENTIFIER ::= { serialPort2 2} sPDUIdent OBJECT IDENTIFIER ::= { masterswitch 1 } sPDUMasterControl OBJECT IDENTIFIER ::= { masterswitch 2 } sPDUMasterConfig OBJECT IDENTIFIER ::= { masterswitch 3 } sPDUOutletControl OBJECT IDENTIFIER ::= { masterswitch 4 } sPDUOutletConfig OBJECT IDENTIFIER ::= { masterswitch 5 } sPDUIdentVM OBJECT IDENTIFIER ::= { masterswitchVM 1 } sPDUMasterControlVM OBJECT IDENTIFIER ::= { masterswitchVM 2 } sPDUMasterConfigVM OBJECT IDENTIFIER ::= { masterswitchVM 3 } sPDUMasterStatusVM OBJECT IDENTIFIER ::= { masterswitchVM 4 } sPDUOutletControlVM OBJECT IDENTIFIER ::= { masterswitchVM 5 } sPDUOutletConfigVM OBJECT IDENTIFIER ::= { masterswitchVM 6 } sPDUOutletStatusVM OBJECT IDENTIFIER ::= { masterswitchVM 7 } sPDUIdentMSP OBJECT IDENTIFIER ::= { masterswitchMSP 1 } sPDUMasterControlMSP OBJECT IDENTIFIER ::= { masterswitchMSP 2 } sPDUMasterConfigMSP OBJECT IDENTIFIER ::= { masterswitchMSP 3 } sPDUMasterStatusMSP OBJECT IDENTIFIER ::= { masterswitchMSP 4 } sPDUOutletControlMSP OBJECT IDENTIFIER ::= { masterswitchMSP 5 } sPDUOutletConfigMSP OBJECT IDENTIFIER ::= { masterswitchMSP 6 } sPDUOutletStatusMSP OBJECT IDENTIFIER ::= { masterswitchMSP 7 } sPDUOutletConfigMSPall OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 1 } sPDUOutletConfigMSPgs OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 2 } sPDUOutletConfigMSPannun OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 3 } sPDUOutletConfigMSPmups OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 4 } dm3Ident OBJECT IDENTIFIER ::= { dcDM3 1 } dm3Config OBJECT IDENTIFIER ::= { dcDM3 2 } dm3Status OBJECT IDENTIFIER ::= { dcDM3 3 } dm3IdentSystem OBJECT IDENTIFIER ::= { dm3Ident 1} dm3ConfigSystem OBJECT IDENTIFIER ::= { dm3Config 1 } dm3ConfigLVD OBJECT IDENTIFIER ::= { dm3Config 2 } dm3ConfigBattery OBJECT IDENTIFIER ::= { dm3Config 3 } dm3ConfigPowerModules OBJECT IDENTIFIER ::= { dm3Config 4 } dm3ConfigRelays OBJECT IDENTIFIER ::= { dm3Config 5 } dm3ConfigDistribution OBJECT IDENTIFIER ::= { dm3Config 6 } dm3ConfigRectifier OBJECT IDENTIFIER ::= { dm3ConfigPowerModules 1 } dm3ConfigConverter OBJECT IDENTIFIER ::= { dm3ConfigPowerModules 2 } dm3ConfigRectThresh OBJECT IDENTIFIER ::= { dm3ConfigRectifier 1 } dm3ConfigRectAlarms OBJECT IDENTIFIER ::= { dm3ConfigRectifier 2 } dm3ConfigConvThresh OBJECT IDENTIFIER ::= { dm3ConfigConverter 1 } dm3ConfigConvAlarms OBJECT IDENTIFIER ::= { dm3ConfigConverter 2 } dm3ConfigOutputRelays OBJECT IDENTIFIER ::= { dm3ConfigRelays 1 } dm3ConfigInputRelays OBJECT IDENTIFIER ::= { dm3ConfigRelays 2 } dm3ConfigBreakers OBJECT IDENTIFIER ::= { dm3ConfigDistribution 1 } dm3ConfigFuses OBJECT IDENTIFIER ::= { dm3ConfigDistribution 2 } dm3StatusSystem OBJECT IDENTIFIER ::= { dm3Status 1 } dm3StatusAlarms OBJECT IDENTIFIER ::= { dm3Status 2 } dm3StatusBattery OBJECT IDENTIFIER ::= { dm3Status 3 } dm3StatusOEM OBJECT IDENTIFIER ::= { dm3Status 4 } dm3StatusLVD OBJECT IDENTIFIER ::= { dm3Status 5 } dm3StatusPowerModules OBJECT IDENTIFIER ::= { dm3Status 6 } dm3StatusRelays OBJECT IDENTIFIER ::= { dm3Status 7 } dm3StatusDistribution OBJECT IDENTIFIER ::= { dm3Status 8 } dm3StatusRectifier OBJECT IDENTIFIER ::= { dm3StatusPowerModules 1 } dm3StatusConverter OBJECT IDENTIFIER ::= { dm3StatusPowerModules 2 } dm3StatusOutputRelays OBJECT IDENTIFIER ::= { dm3StatusRelays 1 } dm3StatusInputRelays OBJECT IDENTIFIER ::= { dm3StatusRelays 2 } dm3StatusBreakers OBJECT IDENTIFIER ::= { dm3StatusDistribution 1 } dm3StatusFuses OBJECT IDENTIFIER ::= { dm3StatusDistribution 2 } atsIdent OBJECT IDENTIFIER ::= { automaticTransferSwitch 1 } atsCalibration OBJECT IDENTIFIER ::= { automaticTransferSwitch 2 } atsControl OBJECT IDENTIFIER ::= { automaticTransferSwitch 3 } atsConfig OBJECT IDENTIFIER ::= { automaticTransferSwitch 4 } atsStatus OBJECT IDENTIFIER ::= { automaticTransferSwitch 5 } atsCalibrationInput OBJECT IDENTIFIER ::= { atsCalibration 1 } atsCalibrationPowerSupply OBJECT IDENTIFIER ::= { atsCalibration 2 } atsCalibrationOutput OBJECT IDENTIFIER ::= { atsCalibration 3 } atsStatusDeviceStatus OBJECT IDENTIFIER ::= { atsStatus 1 } atsStatusResetValues OBJECT IDENTIFIER ::= { atsStatus 2 } atsStatusInput OBJECT IDENTIFIER ::= { atsStatus 3 } atsStatusOutput OBJECT IDENTIFIER ::= { atsStatus 4 } dcmim2Ident OBJECT IDENTIFIER ::= { dc2 1 } dcmim2Control OBJECT IDENTIFIER ::= { dc2 2 } dcmim2Config OBJECT IDENTIFIER ::= { dc2 3 } dcmim2Status OBJECT IDENTIFIER ::= { dc2 4 } dcmim2IdentSystem OBJECT IDENTIFIER ::= { dcmim2Ident 1 } dcmim2ControlSystem OBJECT IDENTIFIER ::= { dcmim2Control 1 } dcmim2ConfigSystem OBJECT IDENTIFIER ::= { dcmim2Config 1 } dcmim2ConfigBattery OBJECT IDENTIFIER ::= { dcmim2Config 2 } dcmim2ConfigLVD OBJECT IDENTIFIER ::= { dcmim2Config 3 } dcmim2StatusSystem OBJECT IDENTIFIER ::= { dcmim2Status 1 } dcmim2StatusRectifier OBJECT IDENTIFIER ::= { dcmim2Status 2 } dcmim2StatusBattery OBJECT IDENTIFIER ::= { dcmim2Status 3 } dcmim2StatusLVD OBJECT IDENTIFIER ::= { dcmim2Status 4 } dcmim2StatusAlarms OBJECT IDENTIFIER ::= { dcmim2Status 5 } external OBJECT IDENTIFIER ::= { environmentalMonitor 1 } integrated OBJECT IDENTIFIER ::= { environmentalMonitor 2 } emIdent OBJECT IDENTIFIER ::= { external 1 } emConfig OBJECT IDENTIFIER ::= { external 2 } emStatus OBJECT IDENTIFIER ::= { external 3 } iemIdent OBJECT IDENTIFIER ::= { integrated 1 } iemConfig OBJECT IDENTIFIER ::= { integrated 2 } iemStatus OBJECT IDENTIFIER ::= { integrated 3 } -- object types -- the products group -- the experimental group -- the apcmgmt group -- the mconfig group mconfigNumTrapReceivers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of managers to send traps to." ::= { mconfig 1 } mconfigTrapReceiverTable OBJECT-TYPE SYNTAX SEQUENCE OF MconfigTrapReceiverEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of managers to send traps to. The number of entries is given by the value of mconfigNumTrapReceivers. Maximum number of Trap Receivers is four." ::= { mconfig 2 } mconfigTrapReceiverEntry OBJECT-TYPE SYNTAX MconfigTrapReceiverEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The managers to send traps to." INDEX { trapIndex} ::= { mconfigTrapReceiverTable 1 } MconfigTrapReceiverEntry ::= SEQUENCE { trapIndex INTEGER, receiverAddr IpAddress, communityString DisplayString, severity INTEGER, acceptThisReceiver INTEGER, receiveTrapType INTEGER } trapIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to a trap receiver entry." ::= { mconfigTrapReceiverEntry 1 } receiverAddr OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of the manager to send a trap to." ::= { mconfigTrapReceiverEntry 2 } communityString OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The community name to use in the trap when sent to the manager." ::= { mconfigTrapReceiverEntry 3 } severity OBJECT-TYPE SYNTAX INTEGER { information(1), warning(2), severe(3) } ACCESS read-only STATUS obsolete DESCRIPTION "The severity threshold of traps to send to the manager. traps are labeled in severity as informational(1), warning(2), severe(3). Only traps of equal or greater severity than this value are sent to the manager." ::= { mconfigTrapReceiverEntry 4 } acceptThisReceiver OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-write STATUS mandatory DESCRIPTION "An entry will become active if yes, and will be deleted if no." ::= { mconfigTrapReceiverEntry 5 } receiveTrapType OBJECT-TYPE SYNTAX INTEGER { powernet (1), ietf (2), both (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The node in this entry will receive traps defined in APC PowerNet MIB, if this OID is set to yes." ::= { mconfigTrapReceiverEntry 6 } mconfigBOOTPEnabled OBJECT-TYPE SYNTAX INTEGER { yes (1), no (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The value of yes(1) indicates the PowerNet Adapter is configured to obtain its IP configuration parameters from a BOOTP server. The value of no(2) indicates adapter will assume IP configuration parameters values saved in adapter's eeprom, which was orginially configured at local console." ::= { mconfig 3 } mconfigTFTPServerIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of TFTP server. If mconfigBOOTPEnabled is yes(1), then this IP address is provided by BOOTP server and not allowed to be modified; otherwise, this IP address can be modified. Before using TFTP to load new code image, the image file should be placed in proper directory of the specified TFTP server. This OID is only supported by AP9605, AP9205, and AP9603 PowerNet SNMP Adapters." ::= { mconfig 4 } newCodeAuthentViaTFTP OBJECT-TYPE SYNTAX INTEGER { unknown (1), validNewAgentCodeImage (2), sameAgentCodeImage (3), invalidAgentCodeImage (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Once mcontrolRestartAgent is set to loadAndExecuteNewAgent (3), PowerNet adapter will start to load the remote image file, for authentication only, instead of saving the code into flash memory. Only if a validNewAgentCodeImage (1) is found will the agent reboot the PowerNet adaoter and invoke the loader to load and save new code into the flash memory. Otherwise, the current agent code will continue to run. This OID shows the result of the above authentication process. validNewAgentCodeImage (1) means the code image on TFTP server is a valid APC agent code and is different version from the current agent. Once agent identifies this, loader will start to update flash memory with the new agent code. sameAgentCodeImage (2) means the code image on TFTP server is exactly the same as the currently running agent. Currently running agent will not invoke loader to load the same again. invalidAgentCodeImage (3) means the code image on TFTP server is NOT a valid APC agent code. Thus, current agent will not load it into the flash memory. The value of this OID will be associated with TRAP codeImageAuthentDone. This OID is only supported by AP9605, AP9205, and AP9603 PowerNet SNMP Adapters." ::= { mconfig 5 } mconfigClockDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The current date in the mm/dd/yyyy format. Example: 01/01/2000." ::= { mconfigClock 1 } mconfigClockTime OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The current time in the hh:mm:ss am/pm format. Example: 12:00:00 am." ::= { mconfigClock 2 } mcontrolRestartAgent OBJECT-TYPE SYNTAX INTEGER { restartCurrentAgent (1), continueCurrentAgent (2), loadAndExecuteNewAgent (3), restartWithoutAgent (4), resetNetworkAndRestart (5) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to restartCurrentAgent (1) will restart the same SNMP agent code currently saved in flash memory. Setting this OID to loadAndExecuteNewAgent (3) will enable adapter to load a new agent code into the flash memory and start to execute this new agent code. Bootp/tftp is the default protocol. loadAndExecuteNewAgent is only supported by AP9605, AP9205, and AP9603 PowerNet SNMP Adapters. Setting this OID to restartWithoutAgent (4) will restart the system and not start the agent. The subsequent time the system restarts the agent will also automatically restart. Setting this OID to resetNetworkAndRestart (5) will set the Boot Mode, IP Address, Subnet Mask, and Default Gateway to defaults and expire any existing DHCP lease." ::= { mcontrol 1 } -- The mtrapargs group -- These OIDs allows APC traps to be sent with additional arguments -- which may not be defined in the APC MIB. mtrapargsInteger OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 1 } mtrapargsIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an IP address argument that my not be defined in the APC MIB. A get of this OID will return 0.0.0.0." ::= { mtrapargs 2 } mtrapargsString OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 3 } mtrapargsGauge OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a Gauge argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 4 } mtrapargsTimeTicks OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a TimeTicks argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 5 } mtrapargsInteger02 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 6 } mtrapargsInteger03 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an integer argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 7 } mtrapargsIpAddress02 OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an IP address argument that my not be defined in the APC MIB. A get of this OID will return 0.0.0.0." ::= { mtrapargs 8 } mtrapargsIpAddress03 OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an IP address argument that my not be defined in the APC MIB. A get of this OID will return 0.0.0.0." ::= { mtrapargs 9 } mtrapargsString02 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 10 } mtrapargsString03 OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with an octet string argument that my not be defined in the APC MIB. A get of this OID will return a NULL string." ::= { mtrapargs 11 } mtrapargsGauge02 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a Gauge argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 12 } mtrapargsGauge03 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a Gauge argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 13 } mtrapargsTimeTicks02 OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a TimeTicks argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 14 } mtrapargsTimeTicks03 OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This OID allows APC traps to be sent with a TimeTicks argument that my not be defined in the APC MIB. A get of this OID will return 0." ::= { mtrapargs 15 } -- the mfiletransfer group -- the mfiletransferStatus group mfiletransferStatusLastTransferResult OBJECT-TYPE SYNTAX INTEGER { lastFileTransferResultSuccessful (1), lastFileTransferResultNotAvailable (2), lastFileTransferResultFailureUnknown (3), lastFileTransferResultFailureServerInaccessible (4), lastFileTransferResultFailureServerAccessDenied (5), lastFileTransferResultFailureFileNotFound (6), lastFileTransferResultFailureFileTypeUnknown (7), lastFileTransferResultFailureFileCorrupted (8) } ACCESS read-only STATUS mandatory DESCRIPTION "Once mfiletransferControlInitiateFileTransfer is set to a value other than doNotInitiateFileTransfer a file transfer of mfiletransferConfigSettingsFilename will be attempted from either a TFTP or FTP server. This OID shows the last attempted file transfer result. lastFileTransferResultSuccessful (1) means the file transfer was successful. lastFileTransferResultNotAvailable (2) means that there have been no previous file transfers. lastFileTransferResultFailureUnknown (3) means that the last file transfer failed for an unknown reason. lastFileTransferResultFailureServerInaccessible (4) means that the TFTP or FTP server could not be found on the network. lastFileTransferResultFailureServerAccessDenied (5) means that the TFTP or FTP server denied access. lastFileTransferResultFailureFileNotFound (6) means that the file could not be located. lastFileTransferResultFailureFileTypeUnknown (7) means the file was examined, but the contents were unknown. lastFileTransferResultFailureFileCorrupt (8) means the transfered file was corrupt." ::= { mfiletransferStatus 1 } -- the mfiletransferConfig group -- the mfiletransferConfigSettings group mfiletransferConfigSettingsFilename OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The path and name of the file to transfer using the mfiletransferControlInitiateFileTransfer OID. If the file to transfer exists in the default server directory then the path may be omitted." ::= { mfiletransferConfigSettings 1 } -- the mfiletransferConfigTFTP group mfiletransferConfigTFTPServerAddress OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The IP Address in dotted decimal notation of the TFTP server involved in the file transfer." ::= { mfiletransferConfigTFTP 1 } -- the mfiletransferConfigFTP group mfiletransferConfigFTPServerAddress OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The IP Address in dotted decimal notation of the FTP server involved in the file transfer." ::= { mfiletransferConfigFTP 1 } mfiletransferConfigFTPServerUser OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The user identification for logging into the FTP server specifed with mfiletransferConfigFTPServerAddress." ::= { mfiletransferConfigFTP 2 } mfiletransferConfigFTPServerPassword OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The password for logging into the FTP server specifed with mfiletransferConfigFTPServerAddress." ::= { mfiletransferConfigFTP 3 } -- the mfiletransferControl group mfiletransferControlInitiateFileTransfer OBJECT-TYPE SYNTAX INTEGER { doNotInitiateFileTransfer (1), initiateFileTransferDownloadViaTFTP (2), initiateFileTransferDownloadViaFTP (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to doNotInitiateFileTransfer (1) will do nothing. Setting this OID to initiateFileTransferDownloadViaTFTP (2) will attempt to transfer the file named in mfiletransferConfigSettingsFilename from the TFTP Server identified in mfiletransferConfigTFTPAddress. Setting this OID to initiateFileTransferDownloadViaFTP (3) will attempt to transfer the file named in mfiletransferConfigSettingsFilename from the FTP Server identified in mfiletransferConfigFTPAddress using mfiletransferConfigFTPUser and mfiletransferConfigFTPPassword for the FTP Server login process." ::= { mfiletransferControl 1 } -- the software group -- the powerNetSubAgent group -- the powerNetSoftwareSystem group powerNetSoftwareSystemDescription OBJECT-TYPE SYNTAX DisplayString (SIZE (0..79)) ACCESS read-only STATUS mandatory DESCRIPTION "A brief description of the PowerNet sub-agent." ::= { powerNetSoftwareSystem 1 } powerNetSoftwareOid OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "The object identifier of the PowerNet sub-agent." ::= { powerNetSoftwareSystem 2 } -- powerNetSmuxPeer OBJECT IDENTIFIER ::= { powerNetSoftwareOid 1 } -- powerNetDPIPeer OBJECT IDENTIFIER ::= { powerNetSoftwareOid 2 } powerNetSoftwareSystemUpTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The time that the sub-agent has been running." ::= { powerNetSoftwareSystem 3 } -- powerNetSoftwareConfig group powerNetSoftwareTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of software modules supporting the UPS." ::= { powerNetSoftwareConfig 1 } powerNetSoftwareTable OBJECT-TYPE SYNTAX SEQUENCE OF SoftwareEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of the software monitoring the UPS." ::= { powerNetSoftwareConfig 2 } powerNetSoftwareEntry OBJECT-TYPE SYNTAX SoftwareEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information on a software module." INDEX { moduleNumber } ::= { powerNetSoftwareTable 1 } SoftwareEntry ::= SEQUENCE { moduleNumber INTEGER, moduleName DisplayString, moduleVersion DisplayString, moduleDate DisplayString } moduleNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index into the Software Entry Table" ::= { powerNetSoftwareEntry 1 } moduleName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..79)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the software module." ::= { powerNetSoftwareEntry 2 } moduleVersion OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-only STATUS mandatory DESCRIPTION "The version of the software module." ::= { powerNetSoftwareEntry 3 } moduleDate OBJECT-TYPE SYNTAX DisplayString (SIZE (0..9)) ACCESS read-only STATUS mandatory DESCRIPTION "The date of the software module represented as mm-dd-yy." ::= { powerNetSoftwareEntry 4 } -- the ups group -- the upsIdent group -- the upsBasicIdent upsBasicIdentModel OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The UPS model name (e.g. 'APC Smart-UPS 600')." ::= { upsBasicIdent 1 } upsBasicIdentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "An 8 byte ID string identifying the UPS. This object can be set by the administrator." ::= { upsBasicIdent 2 } -- the upsAdvIdent group upsAdvIdentFirmwareRevision OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The firmware revision of the UPS system's microprocessor." ::= { upsAdvIdent 1 } upsAdvIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the UPS was manufactured in mm/dd/yy format." ::= { upsAdvIdent 2 } upsAdvIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 8-character string identifying the serial number of the UPS internal microprocessor. This number is set at the factory. NOTE: This number does NOT correspond to the serial number on the rear of the UPS." ::= { upsAdvIdent 3 } -- the upsBattery group -- the upsBasicBattery group upsBasicBatteryStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), batteryNormal(2), batteryLow(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the UPS batteries. A batteryLow(3) value indicates the UPS will be unable to sustain the current load, and its services will be lost if power is not restored. The amount of run time in reserve at the time of low battery can be configured by the upsAdvConfigLowBatteryRunTime." ::= { upsBasicBattery 1 } upsBasicBatteryTimeOnBattery OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The elapsed time since the UPS has switched to battery power." ::= { upsBasicBattery 2 } upsBasicBatteryLastReplaceDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The date when the UPS system's batteries were last replaced in mm/dd/yy format. For Smart-UPS models, this value is originally set in the factory. When the UPS batteries are replaced, this value should be reset by the administrator." ::= { upsBasicBattery 3 } -- the upsAdvBattery group upsAdvBatteryCapacity OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The remaining battery capacity expressed in percent of full capacity." ::= { upsAdvBattery 1 } upsAdvBatteryTemperature OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current internal UPS temperature expressed in Celsius." ::= { upsAdvBattery 2 } upsAdvBatteryRunTimeRemaining OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The UPS battery run time remaining before battery exhaustion." ::= { upsAdvBattery 3 } upsAdvBatteryReplaceIndicator OBJECT-TYPE SYNTAX INTEGER { noBatteryNeedsReplacing(1), batteryNeedsReplacing(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether the UPS batteries need replacing." ::= { upsAdvBattery 4 } upsAdvBatteryNumOfBattPacks OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of external battery packs connected to the UPS. If the UPS does not use smart cells then the agent reports ERROR_NO_SUCH_NAME." ::= { upsAdvBattery 5 } upsAdvBatteryNumOfBadBattPacks OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of external battery packs connected to the UPS that are defective. If the UPS does not use smart cells then the agent reports ERROR_NO_SUCH_NAME." ::= { upsAdvBattery 6 } -- the upsBasicInput group upsBasicInputPhase OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current AC input phase." ::= { upsBasicInput 1 } -- the upsAdvInput group upsAdvInputLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current utility line voltage in VAC." ::= { upsAdvInput 1 } upsAdvInputMaxLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The maximum utility line voltage in VAC over the previous 1 minute period." ::= { upsAdvInput 2 } upsAdvInputMinLineVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The minimum utility line voltage in VAC over the previous 1 minute period." ::= { upsAdvInput 3 } upsAdvInputFrequency OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current input frequency to the UPS system in Hz." ::= { upsAdvInput 4 } upsAdvInputLineFailCause OBJECT-TYPE SYNTAX INTEGER { noTransfer(1), highLineVoltage(2), brownout(3), blackout(4), smallMomentarySag(5), deepMomentarySag(6), smallMomentarySpike(7), largeMomentarySpike(8), selfTest(9), rateOfVoltageChnage(10) } ACCESS read-only STATUS mandatory DESCRIPTION "The reason for the occurrence of the last transfer to UPS battery power. The variable is set to: - noTransfer(1) -- if there is no transfer yet. - highLineVoltage(2) -- if the transfer to battery is caused by an over voltage greater than the high transfer vloltage. - brownout(3) -- if the duration of the outage is greater than five seconds and the line voltage is between 40% of the rated output voltage and the low transfer voltage. - blackout(4) -- if the duration of the outage is greater than five seconds and the line voltage is between 40% of the rated output voltage and ground. - smallMomentarySag(5) -- if the duration of the outage is less than five seconds and the line voltage is between 40% of the rated output voltage and the low transfer voltage. - deepMomentarySag(6) -- if the duration of the outage is less than five seconds and the line voltage is between 40% of the rated output voltage and ground. The variable is set to - smallMomentarySpike(7) -- if the line failure is caused by a rate of change of input voltage less than ten volts per cycle. - largeMomentarySpike(8) -- if the line failure is caused by a rate of change of input voltage greater than ten volts per cycle. - selfTest(9) -- if the UPS was commanded to do a self test. - rateOfVoltageChange(10) -- if the failure is due to the rate of change of the line voltage." ::= { upsAdvInput 5 } -- the upsBasicOutput group upsBasicOutputStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), onLine(2), onBattery(3), onSmartBoost(4), timedSleeping(5), softwareBypass(6), off(7), rebooting(8), switchedBypass(9), hardwareFailureBypass(10), sleepingUntilPowerReturn(11), onSmartTrim(12) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the UPS. If the UPS is unable to determine the state of the UPS this variable is set to unknown(1)." ::= { upsBasicOutput 1 } upsBasicOutputPhase OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current output phase." ::= { upsBasicOutput 2 } -- the upsAdvOutput group upsAdvOutputVoltage OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage of the UPS system in VAC." ::= { upsAdvOutput 1 } upsAdvOutputFrequency OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current output frequency of the UPS system in Hz." ::= { upsAdvOutput 2 } upsAdvOutputLoad OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current UPS load expressed in percent of rated capacity." ::= { upsAdvOutput 3 } upsAdvOutputCurrent OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The current in ampres drawn by the load on the UPS." ::= { upsAdvOutput 4 } -- the upsBasicConfig group upsBasicConfigNumDevices OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of devices that are plugged into the UPS." ::= { upsBasicConfig 1 } upsBasicConfigDeviceTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsBasicConfigDeviceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of devices that are plugged into the UPS. The number of entries is given by the value of upsBasicConfigNumDevices." ::= { upsBasicConfig 2 } upsBasicConfigDeviceEntry OBJECT-TYPE SYNTAX UpsBasicConfigDeviceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The devices plugged in to the UPS." INDEX { deviceIndex } ::= { upsBasicConfigDeviceTable 1 } UpsBasicConfigDeviceEntry ::= SEQUENCE { deviceIndex INTEGER, deviceName DisplayString, vaRating INTEGER, acceptThisDevice INTEGER } deviceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the device that is plugged into the UPS." ::= { upsBasicConfigDeviceEntry 1 } deviceName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name/description of the device plugged into the UPS." ::= { upsBasicConfigDeviceEntry 2 } vaRating OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The volt-amp rating of the device plugged into the UPS." ::= { upsBasicConfigDeviceEntry 3 } acceptThisDevice OBJECT-TYPE SYNTAX INTEGER { yes(1), no(2) } ACCESS read-write STATUS mandatory DESCRIPTION "An entry is added if yes, the entry is deleted if no." ::= { upsBasicConfigDeviceEntry 4 } -- the upsAdvConfig group upsAdvConfigRatedOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The nominal output voltage from the UPS in VAC. Possible values are 100, 120, 208, 220, 225, 230 and 240. NOTE: Only units that are 220, 225, 230 and 240 can be changed. Allowable set values are 220, 225, 230, and 240. For these adjustable units, if a value other than a supported value is provided in a set request, the UPS interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { upsAdvConfig 1 } upsAdvConfigHighTransferVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The maximum line voltage in VAC allowed before the UPS system transfers to battery backup. Allowed values depend on the UPS used: 100 volt units allow settings of 108, 110, 112, and 114. 120 volt units allow settings of 129, 132, 135, and 138. 208 volt units allow settings of 224, 229, 234, and 239. 230 volt units allow settings of 253, 264, 271, and 280. Matrix Notes: Matrix units configured for 208V input allow settings of 240, 244, 248, and 252. Matrix units configured for 240V input allow settings of 276, 264, 253, and 282. If a value other than a supported value is provided in a set request, the UPS interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { upsAdvConfig 2 } upsAdvConfigLowTransferVolt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum line voltage in VAC allowed before the UPS system transfers to battery backup. Allowable values depend on the UPS used: 100 volt units allow settings of 81, 85, 90, 92. 120 volt units allow settings of 97, 100, 103, 106. 208 volt units allow settings of 168, 172, 177, 182. 230 volt units allow settings of 188, 196, 204, 208. Matrix Notes: Matrix units configured for 208V input have a fixed low transfer voltage of 156 volts. Matrix units configured for 240V input have a fixed low transfer voltage of 180 volts. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 3 } upsAdvConfigAlarm OBJECT-TYPE SYNTAX INTEGER { timed(1), atLowBattery(2), never(3) } ACCESS read-write STATUS mandatory DESCRIPTION "A flag indicating how the UPS should handle audible line fail alarms." ::= { upsAdvConfig 4 } upsAdvConfigAlarmTimer OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The time after initial line failure at which the UPS begins emitting audible alarms (beeping). This timer is observerd only if the value of extControlAlarm is timed(2). Allowed values are 0 or 30 seconds. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { upsAdvConfig 5 } upsAdvConfigMinReturnCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minimum battery capacity required before the UPS will return from a low battery shutdown condition. The capacity is measured from 0% battery capacity (or Low Battery) as a percent of full capacity (100%). In other words, the UPS will not re-energize the output until the battery has charged so that its' capacity is equal to this value. Allowed values are 0, 10, 25, or 90 percent. If a value other than a supported value is provided in a set request, the UPS interprets the value as the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value (90%) is used." ::= { upsAdvConfig 6 } upsAdvConfigSensitivity OBJECT-TYPE SYNTAX INTEGER { auto(1), low(2), medium(3), high(4) } ACCESS read-write STATUS mandatory DESCRIPTION "The sensitivity of the UPS to utility line abnormalities or noises." ::= { upsAdvConfig 7 } upsAdvConfigLowBatteryRunTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The desired run time of the UPS, in seconds, once the low battery condition is reached. Allowed values are 120, 300, 420, or 600 seconds. During this time the UPS will produce a constant warning tone which can not be disabled. If a value other than a supported value is provided in a set request, the UPS interprets the value as the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 8 } upsAdvConfigReturnDelay OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The delay in seconds after utility line power returns before the UPS will turn on. This value is also used when the UPS comes out of a reboot and before the UPS wakes up from 'sleep' mode. Allowed values are 0, 60, 180 and 300 seconds. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 9 } upsAdvConfigShutoffDelay OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The delay in seconds the UPS remains on after being told to turn off. Allowed values are 20, 180, 300, and 600 seconds. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value. If the provided value is higher than the highest acceptable value, the highest acceptable value is used." ::= { upsAdvConfig 10 } upsAdvConfigUpsSleepTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The time in seconds for the UPS to go to 'sleep' when instructed. When in sleep mode, the UPS will not provide output power regardless of the input line state. Once the specified time has elapsed, output power will be restored. This is a configuration setting. The UPS will not go to sleep until told to do so by the manager from a management station. Any input value is allowed, however the UPS only recognizes 1/10 of an hour increments. The provided value will be rounded to the closest 1/10 of an hour with one exception: Any value entered between 1 and 540 seconds will be rounded to 360 seconds (or 6 minutes)." ::= { upsAdvConfig 11 } upsAdvConfigSetEEPROMDefaults OBJECT-TYPE SYNTAX INTEGER { noSetEEPROMDefaults(1), setEEPROMDefaults(2) } ACCESS read-write STATUS mandatory DESCRIPTION "WRITE: Resets the UPS EEPROM variables to default values. READ: returns 0" ::= { upsAdvConfig 12 } upsAdvConfigDipSwitchSetting OBJECT-TYPE SYNTAX SEQUENCE OF UpsAdvConfigDipSwitchEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Current settings of UPS dip switches." ::= { upsAdvConfig 13 } upsAdvConfigDipSwitchEntry OBJECT-TYPE SYNTAX UpsAdvConfigDipSwitchEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The current setting of one dip switch." INDEX { dipSwitchIndex } ::= { upsAdvConfigDipSwitchSetting 1 } UpsAdvConfigDipSwitchEntry ::= SEQUENCE { dipSwitchIndex INTEGER, dipSwitchStatus INTEGER } dipSwitchIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of a UPS dip switch." ::= { upsAdvConfigDipSwitchEntry 1 } dipSwitchStatus OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The setting of a UPS dip switch." ::= { upsAdvConfigDipSwitchEntry 2 } upsAdvConfigBattExhaustThresh OBJECT-TYPE SYNTAX TimeTicks ACCESS read-write STATUS mandatory DESCRIPTION "The number of seconds prior to battery exhaustion when the UPS will switch off power to it's load." ::= { upsAdvConfig 14 } upsAdvConfigPassword OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The password entered at the UPS front panel to enable local configuation of the EEProm. If the password is disabled or is not supported, then the agent returns a null string." ::= { upsAdvConfig 15 } upsAdvConfigAllowedSetTable OBJECT-TYPE SYNTAX SEQUENCE OF ApcUpsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table listing the allowed values for all discrete configurable UPS variables." ::= { upsAdvConfig 16 } apcUpsConfigEntry OBJECT-TYPE SYNTAX ApcUpsConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table entry for a configurable UPS variable." INDEX { apcUpsConfigFieldIndex } ::= { upsAdvConfigAllowedSetTable 1 } ApcUpsConfigEntry ::= SEQUENCE { apcUpsConfigFieldIndex INTEGER, apcUpsConfigFieldOID OBJECT IDENTIFIER, apcUpsConfigFieldValueRange DisplayString } apcUpsConfigFieldIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to an eeprom field entry." ::= { apcUpsConfigEntry 1 } apcUpsConfigFieldOID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "The OID of the current configurable value." ::= { apcUpsConfigEntry 2 } apcUpsConfigFieldValueRange OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The distcrete set of allowed values of a configurable register. Individual values are delimited by a comma." ::= { apcUpsConfigEntry 3 } -- the upsBasicControl group upsBasicControlConserveBattery OBJECT-TYPE SYNTAX INTEGER { noTurnOffUps(1), turnOffUpsToConserveBattery(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to turnUpsOffToConserveBattery(2) causes a UPS on battery to be put into 'sleep' mode. The UPS will turn back on when utility power is restored. Attempting to turn off a UPS that is not on battery will result in a badValue error. Setting this value to noTurnOffUps(1) has no effect. The value noTurnOffUps(1) will always be returned when the variable is read." ::= { upsBasicControl 1 } -- the upsAdvControl group upsAdvControlUpsOff OBJECT-TYPE SYNTAX INTEGER { noTurnUpsOff(1), turnUpsOff(2), turnUpsOffGracefully(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to turnUpsOff(2) causes the UPS to shut off. When in this state, the UPS will not provide output power regardless of the input line state. The ON/OFF switch on the UPS must be toggled for the UPS to return to operation. Setting this variable to turnUpsOffGracefully(3) causes the UPS to shut off after a delay period. This allows the host to shut down in a graceful manner. When in this state, the UPS will not provide output power regardless of the input line state. The ON/OFF switch on the UPS must be toggled for the UPS to return to operation. Setting this value to noTurnUpsOff(1) has no effect. The value noTurnUpsOff(1) will always be returned when the variable is read." ::= { upsAdvControl 1 } upsAdvControlRebootUps OBJECT-TYPE SYNTAX INTEGER { noRebootUps(1), rebootUps(2), rebootUpsGracefully(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to rebootUps(2) causes the UPS to shut off and turn back on. Setting this variable to rebootUpsGracefully(3) causes the UPS to shut off and turn back on after a delay period. This allows the host to shut down in a graceful manner. Setting this value to noRebootUps(1) has no effect. The value noRebootUps(1) will always be returned when the variable is read." ::= { upsAdvControl 2 } upsAdvControlUpsSleep OBJECT-TYPE SYNTAX INTEGER { noPutUpsToSleep(1), putUpsToSleep(2), putUpsToSleepGracefully(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to putUpsToSleep(2) causes the UPS to go to sleep for the time specified by upsAdvConfigUpsSleepTime. Setting this variable to putUpsToSleepGracefully(3) causes the UPS to go to sleep for the time specified by upsAdvConfigUpsSleepTime after a delay period. This allows the host to shut down in a graceful manner. When in sleep mode, the UPS will not provide output power regardless of the input line state. Once the specified time has elapsed, output power will be restored. Setting this value to noPutUpsToSleep(1) has no effect. The value noPutUpsToSleep(1) will always be returned when the variable is read." ::= { upsAdvControl 3 } upsAdvControlSimulatePowerFail OBJECT-TYPE SYNTAX INTEGER { noSimulatePowerFailure(1), simulatePowerFailure(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to simulatePowerFailure(2) causes the UPS switch to battery power. Setting this value to noSimulatePowerFailure(1) has no effect. The value noSimulatePowerFailure(1) will always be returned when the variable is read." ::= { upsAdvControl 4 } upsAdvControlFlashAndBeep OBJECT-TYPE SYNTAX INTEGER { noFlashAndBeep(1), flashAndBeep(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to flashAndBeep(2) causes the UPS to beep and simultaneously turn on the UPS front panel lights (Smart-UPS only). Setting this value to noFlashAndBeep(1) has no effect. The value noFlashAndBeep(1) will always be returned when the variable is read." ::= { upsAdvControl 5 } upsAdvControlTurnOnUPS OBJECT-TYPE SYNTAX INTEGER { noTurnOnUPS(1), turnOnUPS(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to turnOnUPS(2) causes the UPS to be turned on immediately, provided upsBasicOutputStatus does not read ON. Setting this value to noTurnOnUPS(1) has no effect. The value noTurnOnUPS(1) will always be returned when the variable is read. This action is only available with the APC Mini-SNMP Adapter." ::= { upsAdvControl 6 } upsAdvControlBypassSwitch OBJECT-TYPE SYNTAX INTEGER { noBypassSwitch (1), switchToBypass (2), switchOutOfBypass(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This switch puts the UPS in or out of bypass mode." ::= { upsAdvControl 7 } -- the upsTest group -- the upsBasicTest group -- the upsAdvTest group upsAdvTestDiagnosticSchedule OBJECT-TYPE SYNTAX INTEGER { unknown(1), biweekly(2), weekly(3), atTurnOn(4), never(5) } ACCESS read-write STATUS mandatory DESCRIPTION "The UPS system's automatic battery test schedule." ::= { upsAdvTest 1 } upsAdvTestDiagnostics OBJECT-TYPE SYNTAX INTEGER { noTestDiagnostics(1), testDiagnostics(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to testDiagnostics(2) causes the UPS to perform a diagnostic self test. Setting this value to noTestDiagnostics(1) has no effect. The value noTestDiagnostics(1) will always be returned when the variable is read." ::= { upsAdvTest 2 } upsAdvTestDiagnosticsResults OBJECT-TYPE SYNTAX INTEGER { ok(1), failed(2), invalidTest(3), testInProgress(4) } ACCESS read-only STATUS mandatory DESCRIPTION "The results of the last UPS diagnostics test performed." ::= { upsAdvTest 3 } upsAdvTestLastDiagnosticsDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date the last UPS diagnostics test was performed in mm/dd/yy format." ::= { upsAdvTest 4 } upsAdvTestRuntimeCalibration OBJECT-TYPE SYNTAX INTEGER { noPerformCalibration(1), performCalibration(2), cancelCurrentCalibration(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to performCalibration(2) causes the UPS to discharge to calibrate the UPS. The test will only start if the battery capacity is 100%. The test runs until capacity is less than 25%. Setting this variable to cancelCurrentCalibration(3) after setting performCalibration(2) will cancel the current discharge. Setting this variable to noPerformCalibration(1) will have no effect. The value noPerformCalibration(1) will always be returned when the variable is read. The result of the calibration will be saved in upsAdvTestCalibrationResult." ::= { upsAdvTest 5 } upsAdvTestCalibrationResults OBJECT-TYPE SYNTAX INTEGER { ok(1), invalidCalibration(2), calibrationInProgress(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The results of the last runtime calibration. Value ok(1) means a successful runtime calibration. Value invalidCalibration(2) indicates last calibration did not take place since the battery capacity was below 100%. Value calibrationInProgress(3) means a calibration is occurring now. " ::= { upsAdvTest 6 } upsAdvTestCalibrationDate OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date the last UPS runtime calibration was performed in mm/dd/yy format." ::= { upsAdvTest 7 } -- the upsComm group upsCommStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), noComm(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of agent's communication with UPS. " ::= { upsComm 1 } -- the measureUps group -- the Environ group mUpsEnvironAmbientTemperature OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The ambient temperature in Celsius for Probe 1." ::= { mUpsEnviron 1 } mUpsEnvironRelativeHumidity OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity as a percentage for Probe 1." ::= { mUpsEnviron 2 } mUpsEnvironAmbientTemperature2 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The ambient temperature in Celsius for Probe 2." ::= { mUpsEnviron 3 } mUpsEnvironRelativeHumidity2 OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The relative humidity as a percentage for Probe 2." ::= { mUpsEnviron 4 } -- the mUpsContact group mUpsContactNumContacts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of contacts supported by the Measure-UPS." ::= { mUpsContact 1 } mUpsContactTable OBJECT-TYPE SYNTAX SEQUENCE OF ContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of contacts supported by the Measure-UPS." ::= { mUpsContact 2 } mUpsContactEntry OBJECT-TYPE SYNTAX ContactEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A contact entry containing information for a given contact." INDEX { contactNumber } ::= { mUpsContactTable 1 } ContactEntry ::= SEQUENCE { contactNumber INTEGER, normalState INTEGER, description DisplayString, monitoringStatus INTEGER, currentStatus INTEGER } contactNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index identifying the contact on the Measure-UPS." ::= { mUpsContactEntry 1 } normalState OBJECT-TYPE SYNTAX INTEGER { unknown(1), open(2), closed(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The normal operating position of the contact. If the normal operating postion cannot be set then it is contolled via the dip switch on the Measure-UPS and is therefore read-only." ::= { mUpsContactEntry 2 } description OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The description of the purpose/use of the contact." ::= { mUpsContactEntry 3 } monitoringStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), enabled(2), disabled(3) } ACCESS read-write STATUS mandatory DESCRIPTION "A flag indicating whether this contact is monitored, or not." ::= { mUpsContactEntry 4 } currentStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), noFault(2), fault(3) } ACCESS read-only STATUS mandatory DESCRIPTION "This value indicates the current state of the contact. If the contact is not in its normal state. This value is set to fault(2)." ::= { mUpsContactEntry 5 } -- Three Phase Group -- -- Reset Max/Min Values Group -- upsPhaseResetMaxMinValues OBJECT-TYPE SYNTAX INTEGER { none (1), reset (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Reset the maximum and minimum UPS values: upsPhaseInputMaxVoltage, upsPhaseInputMinVoltage, upsPhaseInputMaxCurrent, upsPhaseInputMinCurrent, upsPhaseInputMaxPower, upsPhaseInputMinPower, upsPhaseOutputMaxCurrent, upsPhaseOutputMinCurrent, upsPhaseOutputMaxLoad, upsPhaseOutputMinLoad, upsPhaseOutputMaxPercentLoad, upsPhaseOutputMinPercentLoad, upsPhaseOutputMaxPower, upsPhaseOutputMinPower, upsPhaseOutputMaxPercentPower, upsPhaseOutputMinPercentPower." ::= { upsPhaseResetValues 1 } -- -- Input Group -- -- Number of Inputs upsPhaseNumInputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input feeds to this device. This variable indicates the number of rows in the input table." ::= { upsPhaseInput 1 } -- Input Table upsPhaseInputTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the value of upsPhaseNumInputs." ::= { upsPhaseInput 2 } upsPhaseInputEntry OBJECT-TYPE SYNTAX UpsPhaseInputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input." INDEX { upsPhaseInputTableIndex } ::= { upsPhaseInputTable 1 } UpsPhaseInputEntry ::= SEQUENCE { upsPhaseInputTableIndex INTEGER, upsPhaseNumInputPhases INTEGER, upsPhaseInputVoltageOrientation INTEGER, upsPhaseInputFrequency INTEGER, upsPhaseInputType INTEGER, upsPhaseInputName DisplayString } upsPhaseInputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { upsPhaseInputEntry 1 } upsPhaseNumInputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of input phases utilized in this device. The sum of all the upsPhaseNumInputPhases variable indicates the number of rows in the input phase table." ::= { upsPhaseInputEntry 2 } upsPhaseInputVoltageOrientation OBJECT-TYPE SYNTAX INTEGER { unknown(1), singlePhase(2), splitPhase(3), threePhasePhaseToNeutral(4), threePhasePhaseToPhase(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage orientation: 1: unknown for this UPS 2: singlePhase - phase 1 voltage is between Phase 1 and Neutral. 3: splitPhase - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 1 and Phase2. 4: threePhasePhaseToNeutral - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase3 and Neutral. 5: threePhasePhaseToPhase - phase 1 voltage is between Phase 1 and Phase 2; phase 2 voltage is betwwn Phase 2 and Phase 3; phase 3 voltage is between Phase 3 and Phase 1." ::= { upsPhaseInputEntry 3 } upsPhaseInputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input frequency in 0.1 Hertz, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputEntry 4 } upsPhaseInputType OBJECT-TYPE SYNTAX INTEGER { unknown(1), main(2), bypass(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The input type." ::= { upsPhaseInputEntry 5 } upsPhaseInputName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A name given to a particular input." ::= { upsPhaseInputEntry 6 } -- Input Phase Table upsPhaseInputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of input table entries. The number of entries is given by the sum of the upsPhaseNumInputPhases." ::= { upsPhaseInput 3 } upsPhaseInputPhaseEntry OBJECT-TYPE SYNTAX UpsPhaseInputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular input phase." INDEX { upsPhaseInputPhaseTableIndex, upsPhaseInputPhaseIndex } ::= { upsPhaseInputPhaseTable 1 } UpsPhaseInputPhaseEntry ::= SEQUENCE { upsPhaseInputPhaseTableIndex INTEGER, upsPhaseInputPhaseIndex INTEGER, upsPhaseInputVoltage INTEGER, upsPhaseInputMaxVoltage INTEGER, upsPhaseInputMinVoltage INTEGER, upsPhaseInputCurrent INTEGER, upsPhaseInputMaxCurrent INTEGER, upsPhaseInputMinCurrent INTEGER, upsPhaseInputPower INTEGER, upsPhaseInputMaxPower INTEGER, upsPhaseInputMinPower INTEGER } upsPhaseInputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input identifier." ::= { upsPhaseInputPhaseEntry 1 } upsPhaseInputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input phase identifier." ::= { upsPhaseInputPhaseEntry 2 } upsPhaseInputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input voltage in VAC, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputPhaseEntry 3 } upsPhaseInputMaxVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input voltage in VAC measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 4 } upsPhaseInputMinVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input voltage in VAC measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 5 } upsPhaseInputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input current in 0.1 amperes, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputPhaseEntry 6 } upsPhaseInputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 7 } upsPhaseInputMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 8 } upsPhaseInputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The input power in Watts, or -1 if it's unsupported by this UPS." ::= { upsPhaseInputPhaseEntry 9 } upsPhaseInputMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum input power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 10 } upsPhaseInputMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum input power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseInputPhaseEntry 11 } -- -- The Output group. -- -- Number of Outputs upsPhaseNumOutputs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output feeds to this device. This variable indicates the number of rows in the output table." ::= { upsPhaseOutput 1 } -- Output Table upsPhaseOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the value of upsOutputNumPhases." ::= { upsPhaseOutput 2 } upsPhaseOutputEntry OBJECT-TYPE SYNTAX UpsPhaseOutputEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output." INDEX { upsPhaseOutputTableIndex } ::= { upsPhaseOutputTable 1 } UpsPhaseOutputEntry ::= SEQUENCE { upsPhaseOutputTableIndex INTEGER, upsPhaseNumOutputPhases INTEGER, upsPhaseOutputVoltageOrientation INTEGER, upsPhaseOutputFrequency INTEGER } upsPhaseOutputTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { upsPhaseOutputEntry 1 } upsPhaseNumOutputPhases OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of output phases utilized in this device. The sum of all the upsPhaseNumOutputPhases variable indicates the number of rows in the output phase table." ::= { upsPhaseOutputEntry 2 } upsPhaseOutputVoltageOrientation OBJECT-TYPE SYNTAX INTEGER { unknown(1), singlePhase(2), splitPhase(3), threePhasePhaseToNeutral(4), threePhasePhaseToPhase(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage orientation: 1: unknown for this UPS 2: singlePhase - phase 1 voltage is between Phase 1 and Neutral. 3: splitPhase - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase 1 and Phase2. 4: threePhasePhaseToNeutral - phase 1 voltage is between Phase 1 and Neutral; phase 2 voltage is between Phase 2 and Neutral; phase 3 voltage is between Phase3 and Neutral. 5: threePhasePhaseToPhase - phase 1 voltage is between Phase 1 and Phase 2; phase 2 voltage is betwwn Phase 2 and Phase 3; phase 3 voltage is between Phase 3 and Phase 1." ::= { upsPhaseOutputEntry 3 } upsPhaseOutputFrequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output frequency in 0.1 Hertz, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputEntry 4 } -- Output Phase Table upsPhaseOutputPhaseTable OBJECT-TYPE SYNTAX SEQUENCE OF UpsPhaseOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of output table entries. The number of entries is given by the sum of the upsPhaseNumOutputPhases." ::= { upsPhaseOutput 3 } upsPhaseOutputPhaseEntry OBJECT-TYPE SYNTAX UpsPhaseOutputPhaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry containing information applicable to a particular output phase." INDEX { upsPhaseOutputPhaseTableIndex, upsPhaseOutputPhaseIndex } ::= { upsPhaseOutputPhaseTable 1 } UpsPhaseOutputPhaseEntry ::= SEQUENCE { upsPhaseOutputPhaseTableIndex INTEGER, upsPhaseOutputPhaseIndex INTEGER, upsPhaseOutputVoltage INTEGER, upsPhaseOutputCurrent INTEGER, upsPhaseOutputMaxCurrent INTEGER, upsPhaseOutputMinCurrent INTEGER, upsPhaseOutputLoad INTEGER, upsPhaseOutputMaxLoad INTEGER, upsPhaseOutputMinLoad INTEGER, upsPhaseOutputPercentLoad INTEGER, upsPhaseOutputMaxPercentLoad INTEGER, upsPhaseOutputMinPercentLoad INTEGER, upsPhaseOutputPower INTEGER, upsPhaseOutputMaxPower INTEGER, upsPhaseOutputMinPower INTEGER, upsPhaseOutputPercentPower INTEGER, upsPhaseOutputMaxPercentPower INTEGER, upsPhaseOutputMinPercentPower INTEGER } upsPhaseOutputPhaseTableIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output identifier." ::= { upsPhaseOutputPhaseEntry 1 } upsPhaseOutputPhaseIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output phase identifier." ::= { upsPhaseOutputPhaseEntry 2 } upsPhaseOutputVoltage OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output voltage in VAC, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 3 } upsPhaseOutputCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output current in 0.1 amperes drawn by the load on the UPS, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 4 } upsPhaseOutputMaxCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 5 } upsPhaseOutputMinCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output current in 0.1 amperes measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 6 } upsPhaseOutputLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output load in VA, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 7 } upsPhaseOutputMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output load in VA measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 8 } upsPhaseOutputMinLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output load in VA measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 9 } upsPhaseOutputPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the UPS load capacity in VA at redundency @ (n + x) presently being used on this output phase, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 10 } upsPhaseOutputMaxPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the UPS load capacity in VA measured at redundency @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 11 } upsPhaseOutputMinPercentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum percentage of the UPS load capacity in VA measured at redundency @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 12 } upsPhaseOutputPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The output power in Watts, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 13 } upsPhaseOutputMaxPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum output power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 14 } upsPhaseOutputMinPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum output power in Watts measured since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 15 } upsPhaseOutputPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percentage of the UPS power capacity in Watts at redundency @ (n + x) presently being used on this output phase, or -1 if it's unsupported by this UPS." ::= { upsPhaseOutputPhaseEntry 16 } upsPhaseOutputMaxPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the UPS power capacity in Watts measured at redundency @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 17 } upsPhaseOutputMinPercentPower OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum percentage of the UPS power capacity in Watts measured at redundency @ (n + x) presently being used on this output phase since the last reset (upsPhaseResetMaxMinValues), or -1 if it's unsupported by this UPS. Sampled every 30 seconds." ::= { upsPhaseOutputPhaseEntry 18 } -- the serialPort2Config group serialPort2Mode OBJECT-TYPE SYNTAX INTEGER { localConsole(1), passthrough(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to passthrough will enable mini's port2 behave like a UPS port. Choosing localConsole will enable the port to be used as local console." ::= { serialPort2Config 1 } -- the serialPort2Control group setPulseOnTXD OBJECT-TYPE SYNTAX INTEGER { noSetPulseOnTXD(1), setPulseOnTXD(2), setTXDLow(3), setTXDHigh(4) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this variable to setPulseOnTXD(2) causes adapter to generate a PULSE on TXD pin of serial port 2. The duration in the prototype implementation will be 1 second. Setting this value to noSetPulseOnTXD(1) has no effect. The value noSetPulseOnTXD(1) will always be returned when the variable is read. Setting this value to setTXDLow(3), or setTXDHigh(4) will keep TXD always low or high respectively." ::= { serialPort2Control 1 } -- the sPDUIdent group sPDUIdentHardwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware revision of the PDU. This value is set at the factory." ::= { sPDUIdent 1 } sPDUIdentFirmwareRev OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 8 byte ID string identifying the PDU firmware revision. This value is set at the factory." ::= { sPDUIdent 2 } sPDUIdentDateOfManufacture OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the PDU was manufactured in mm/dd/yy format. This value is set at the factory. The year 2000 will be represented by 00." ::= { sPDUIdent 3 } sPDUIdentModelNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 10-character string identifying the model number of the PDU internal. This value is set at the factory." ::= { sPDUIdent 4 } sPDUIdentSerialNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 12-character string identifying the serial number of the PDU internal microprocessor. This value is set at the factory." ::= { sPDUIdent 5 } -- the sPDUMasterControl group sPDUMasterControlSwitch OBJECT-TYPE SYNTAX INTEGER { turnAllOnNow (1), turnAllOnSequence (2), turnAllOffNow (3), rebootAllNow (4), rebootAllSequence (5), noCommand (6), turnAllOffSequence (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to turnAllOnNow (1) will turn all outlets on immediately. Setting this OID to turnAllOnSequence (2) will turn all outlets on as defined by each outlet's sPDUOutletPowerOnTime OID value. Setting this OID to turnAllOff (3) will turn all outlets off immediately. Setting this OID to rebootAllNow (4) will reboot all outlets immediately. For MasterSwitch firmware version 1.X, setting this OID to rebootAllSequence (5) reboots all outlets, with power returned to the outlets in the sequence defined by each outlet's sPDUOutletPowerOnTime OID value. For MasterSwitch firmware version 2.X, setting this OID to rebootAllSequence (5) will cause a turnAllOffSequence to be performed. Once all outlets are off, the MasterSwitch will then delay the sPDUMasterConfigReboot OID time, and then perform a turnAllOnSequence. For MasterSwitch firmware version 2.X, setting this OID to turnAllOffSequence (7) will turn all outlets off as defined by each outlet's sPDUOutletPowerOffTime OID value. For MasterSwitch firmware version 1.X, setting this OID to turnAllOffSequence (7) will have no effect. Getting this OID will return the noCommand (6) value." ::= { sPDUMasterControl 1 } sPDUMasterState OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will cause the status of all outlets to be returned. This OID is provided for informational purposes only. To change the outlet state, the user should use the sPDUOutletCtl OID in the sPDUOutletControlTable. The format of the data returned is a character string consisting of the word 'On' if the outlet is on or 'Off' if the outlet is off. At least one space will delimit each outlet entry in the string. If the outlet states are unknown, the character string 'Unknown' will be returned. This signifies that there is an inconsistancy in the PDU. In the rear case that this should happen, the user is advised to shut down all equipment powered by the PDU and then cycle the PDU's power. This will put the PDU in a consistant state." ::= { sPDUMasterControl 2 } sPDUMasterPending OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will cause the command pending status of all outlets to be returned. The format of the data returned is a character string consisting of the word 'Yes' if a command is pending for the outlet or 'No' if there is no command pending for the outlet. At least one space will delimit each outlet entry in the string. If the pending states are unknown, the character string 'Unknown' will be returned. This signifies that there is an inconsistancy in the PDU. In the rear case that this should happen, the user is advised to shut down all equipment powered by the PDU and then cycle the PDU's power. This will put the PDU in a consistant state." ::= { sPDUMasterControl 3 } -- the sPDUMasterConfig group sPDUMasterConfigPowerOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between when power is provided to the PDU and when the PDU provides basic master power to the outlets. Allowed values are: -1 never apply power automatically. 0 apply power immediately. 15 apply power in 15 seconds. 30 apply power in 30 seconds. 45 apply power in 45 seconds. 60 apply power in 60 seconds (1 minute). 120 apply power in 120 seconds (2 minutes). 300 apply power in 300 seconds (5 minutes). If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUMasterConfig 1 } sPDUMasterConfigReboot OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allowed values are: 5 wait 5 seconds between off/on. 10 wait 10 seconds between off/on. 15 wait 15 seconds between off/on. 20 wait 20 seconds between off/on. 30 wait 30 seconds between off/on. 45 wait 45 seconds between off/on. 60 wait 60 seconds (1 minute) between off/on. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used. This OID is read-only for the MasterSwitch version 2.X and is the maximum sPDUOutletRebootDuration OID of the individual outlets." ::= { sPDUMasterConfig 2 } sPDUMasterConfigPDUName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the PDU. The maximum value is 20 characters." ::= { sPDUMasterConfig 3 } -- the sPDUOutletControl group sPDUOutletControlTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlets for the PDU." ::= { sPDUOutletControl 1 } sPDUOutletControlTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet switches. The number of entries is contained in the sPDUOutletControlTableSize OID." ::= { sPDUOutletControl 2 } sPDUOutletControlEntry OBJECT-TYPE SYNTAX OutletControlEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletControlIndex} ::= { sPDUOutletControlTable 1 } OutletControlEntry ::= SEQUENCE { sPDUOutletControlIndex INTEGER, sPDUOutletPending INTEGER, sPDUOutletCtl INTEGER, sPDUOutletCtlName DisplayString } sPDUOutletControlIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletControlEntry 1 } sPDUOutletPending OBJECT-TYPE SYNTAX INTEGER{ commandPending (1), noCommandPending (2), commandPendingUnknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Reports whether the current outlet has a pending command. If the commandPendingUnknown (3) value is returned, all devices powered by the PDU should be shut down. The PDU's power should then be cycled to clear this condition." ::= { sPDUOutletControlEntry 2 } sPDUOutletCtl OBJECT-TYPE SYNTAX INTEGER { outletOn (1), outletOff (2), outletReboot (3), outletUnknown (4), outletOnWithDelay (5), outletOffWithDelay (6), outletRebootWithDelay (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the outletOn (1) value will be returned. If the outlet is off, the outletOff (2) value will be returned. If the state of the outlet cannot be determined, the outletUnknown (4) value will be returned. If the outletUnknown condition should occur, all devices powered by the PDU should be shut down. The PDU's power should then be cycled to clear this condition. Setting this variable to outletOn (1) will turn the outlet on. Setting this variable to outletOff (2) will turn the outlet off. Setting this variable to outletReboot (3) will reboot the outlet. Setting this variable to outletOnWithDelay (5) will turn the outlet on after the sPDUOutletPowerOnTime OID has elapsed. This option is not valid for MasterSwitch firmware version 1.X. Setting this variable to outletOffWithDelay (6) will turn the outlet off after the sPDUOutletPowerOffTime OID has elapsed.This option is not valid for MasterSwitch firmware version 1.X. Setting this variable to outletRebootWithDelay (7) will turn the outlet off after the sPDUOutletPowerOffTime OID has elapsed, wait the sPDUOutletRebootDuration OID time, then turn the outlet back on. This option is not valid for MasterSwitch firmware version 1.X." ::= { sPDUOutletControlEntry 3 } sPDUOutletCtlName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 20 characters. This OID is provided for informational purposes only. This value is set by the sPDUOutletName OID." ::= { sPDUOutletControlEntry 4 } -- the sPDUOutletConfig group sPDUOutletConfigTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of outlets for the PDU." ::= { sPDUOutletConfig 1 } sPDUOutletConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF SPDUOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The list of outlets to configure. The number of entries is defined by the sPDUOutletConfigTableSize OID." ::= { sPDUOutletConfig 2 } sPDUOutletConfigEntry OBJECT-TYPE SYNTAX SPDUOutletConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletConfigIndex} ::= { sPDUOutletConfigTable 1 } SPDUOutletConfigEntry ::= SEQUENCE { sPDUOutletConfigIndex INTEGER, sPDUOutletPowerOnTime INTEGER, sPDUOutletName DisplayString, sPDUOutletPowerOffTime INTEGER, sPDUOutletRebootDuration INTEGER } sPDUOutletConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigEntry 1 } sPDUOutletPowerOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering on when the MasterSwitch is powered on. Allowed values are: -1 never power on automatically. 0 power on with the Master Switch. 15 power on 15 seconds after the MasterSwitch has power applied. 30 power on 30 seconds after the MasterSwitch has power applied. 45 power on 45 seconds after the MasterSwitch has power applied. 60 power on 60 seconds (1 minute) after the MasterSwitch has power applied. 120 power on 120 seconds (2 minutes) after the MasterSwitch has power applied. 300 power on 300 seconds (5 minutes) after the MasterSwitch has power applied. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUOutletConfigEntry 2 } sPDUOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 20 characters." ::= { sPDUOutletConfigEntry 3 } sPDUOutletPowerOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering off. Allowed values are: -1 never power off automatically. 0 power off with the MasterSwitch. 15 power off 15 seconds after being commanded. 30 power off 30 seconds after being commanded. 45 power off 45 seconds after being commanded. 60 power off 60 seconds (1 minute) after being commanded. 120 power off 120 seconds (2 minutes) after being commanded. 300 power off 300 seconds (5 minutes) after being commanded. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used. This OID is not available for MasterSwitch firmware version 1.X." ::= { sPDUOutletConfigEntry 4 } sPDUOutletRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allowed values are: 5 wait 5 seconds between off/on. 10 wait 10 seconds between off/on. 15 wait 15 seconds between off/on. 20 wait 20 seconds between off/on. 30 wait 30 seconds between off/on. 45 wait 45 seconds between off/on. 60 wait 60 seconds (1 minute) between off/on. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used. This OID is not available for MasterSwitch firmware version 1.X." ::= { sPDUOutletConfigEntry 5 } -- the sPDUIdentVM group sPDUIdentVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs controllable by this IP address." ::= { sPDUIdentVM 1 } sPDUIdentVMTable OBJECT-TYPE SYNTAX SEQUENCE OF IdentVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for query of the individual MasterSwitch VMs. The number of entries is contained in the sPDUIdentVMTableSize OID." ::= { sPDUIdentVM 2 } sPDUIdentVMEntry OBJECT-TYPE SYNTAX IdentVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to query." INDEX { sPDUIdentVMIndex} ::= { sPDUIdentVMTable 1 } IdentVMEntry ::= SEQUENCE { sPDUIdentVMIndex INTEGER, sPDUIdentNameVM DisplayString, sPDUIdentHardwareRevVM DisplayString, sPDUIdentFirmwareRevVM DisplayString, sPDUIdentDateOfManufactureVM DisplayString, sPDUIdentModelNumberVM DisplayString, sPDUIdentSerialNumberVM DisplayString } sPDUIdentVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUIdentVMEntry 1 } sPDUIdentNameVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 23-character string identifying the MasterSwitch VM. " ::= { sPDUIdentVMEntry 2 } sPDUIdentHardwareRevVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The hardware version of the MasterSwitch VM. This value is set at the factory." ::= { sPDUIdentVMEntry 3 } sPDUIdentFirmwareRevVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "An 6-character ID string identifying the MasterSwitch VM firmware version. This value is set at the factory." ::= { sPDUIdentVMEntry 4 } sPDUIdentDateOfManufactureVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The date when the MasterSwitch VM was manufactured in mm/dd/yyyy format. This value is set at the factory. " ::= { sPDUIdentVMEntry 5 } sPDUIdentModelNumberVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 17-character string identifying the model number of the MasterSwitch VM. This value is set at the factory." ::= { sPDUIdentVMEntry 6 } sPDUIdentSerialNumberVM OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A 17-character string identifying the serial number of the MasterSwitch VM. This value is set at the factory." ::= { sPDUIdentVMEntry 7 } -- the sPDUMasterControlVM group sPDUMasterControlVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs controllable by this IP address." ::= { sPDUMasterControlVM 1 } sPDUMasterControlVMTable OBJECT-TYPE SYNTAX SEQUENCE OF MasterControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of the individual MasterSwitch VMs. The number of entries is contained in the sPDUMasterControlVMTableSize OID." ::= { sPDUMasterControlVM 2 } sPDUMasterControlVMEntry OBJECT-TYPE SYNTAX MasterControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to control." INDEX { sPDUMasterControlVMIndex} ::= { sPDUMasterControlVMTable 1 } MasterControlVMEntry ::= SEQUENCE { sPDUMasterControlVMIndex INTEGER, sPDUMasterControlVMName DisplayString, sPDUMasterControlVMCommand INTEGER } sPDUMasterControlVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUMasterControlVMEntry 1 } sPDUMasterControlVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. The maximum value is 23 characters. The name is set by using the sPDUMasterConfigVMName OID." ::= { sPDUMasterControlVMEntry 2 } sPDUMasterControlVMCommand OBJECT-TYPE SYNTAX INTEGER { noCommandAllVM (1), immediateAllOnVM (2), immediateAllOffVM (3), immediateAllRebootVM (4), delayedAllOnVM (5), delayedAllOffVM (6), sequencedAllRebootVM (7), delayedAllRebootVM (8), delayedSequenceAllRebootVM (9), cancelAllPendingCommandsVM (10), audioAlarmMute (11) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to immediateAllOnVM (2) will turn all outlets on immediately. Setting this OID to immediateAllOffVM (3) will turn all outlets off immediately. Setting this OID to immediateAllRebootVM (4) will reboot all outlets immediately. Setting this OID to delayedAllOnVM (5) will turn all outlets on as defined by each outlet's sPDUOutletConfigVMPowerOnTime OID value. Setting this OID to delayedAllOffVM (6) will turn all outlets off as defined by each outlet's sPDUOutletConfigVMPowerOffTime OID value. Setting this OID to sequencedAllRebootVM (7) will cause a immediateAllOffVM command to be performed. The MasterSwitch VM will then delay the sPDUMasterStatusVMRebootDuration OID time, and then perform a delayedAllOnVM command. Setting this OID to delayedAllRebootVM (8) will cause a delayedAllOffVM command to be performed. Each outlet will then wait its sPDUOutletConfigVMRebootDuration before returning power to the outlet. Setting this OID to delayedSequenceAllRebootVM (9) will cause a delayedAllOffVM command to be performed. Once all outlets are off, the MasterSwitch VM will then delay the sPDUMasterStatusVMRebootDuration OID time, and then perform a delayedAllOnVM command. Setting this OID to cancelAllPendingCommandsVM (10) will cause all pending commands on the MasterSwitch VM to be cancelled. Setting this OID to audioAlarmMute (11) will temporarily silence the audible alarm for the duration of the current overload condition. The audible alarm will be activated on subsequent overload alarms. Getting this OID will return the noCommandAllVM (1) value." ::= { sPDUMasterControlVMEntry 3 } -- the sPDUMasterConfigVM group sPDUMasterConfigVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs configurable by this IP address." ::= { sPDUMasterConfigVM 1 } sPDUMasterConfigVMTable OBJECT-TYPE SYNTAX SEQUENCE OF MasterConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of the individual MasterSwitch VMs. The number of entries is contained in the sPDUMasterConfigVMTableSize OID." ::= { sPDUMasterConfigVM 2 } sPDUMasterConfigVMEntry OBJECT-TYPE SYNTAX MasterConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to configure." INDEX { sPDUMasterConfigVMIndex} ::= { sPDUMasterConfigVMTable 1 } MasterConfigVMEntry ::= SEQUENCE { sPDUMasterConfigVMIndex INTEGER, sPDUMasterConfigVMName DisplayString, sPDUMasterConfigVMColdstartDelay INTEGER, sPDUMasterConfigVMAudioAlarmActivated INTEGER, sPDUMasterConfigVMHighLoadWarningThreshold INTEGER, sPDUMasterConfigVMLowLoadWarningThreshold INTEGER, sPDUMasterConfigVMOverloadRestriction INTEGER } sPDUMasterConfigVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUMasterConfigVMEntry 1 } sPDUMasterConfigVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUMasterConfigVMEntry 2 } sPDUMasterConfigVMColdstartDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION " The amount of delay, in seconds, between when power is provided to the MasterSwitch VM and when the MasterSwitch VM provides basic master power to the outlets. Allowed values are: -1 never apply power automatically. 0 apply power immediately. 15 apply power in 15 seconds. 30 apply power in 30 seconds. 45 apply power in 45 seconds. 60 apply power in 60 seconds (1 minute). 120 apply power in 120 seconds (2 minutes). 300 apply power in 300 seconds (5 minutes). If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUMasterConfigVMEntry 3 } sPDUMasterConfigVMAudioAlarmActivated OBJECT-TYPE SYNTAX INTEGER { audioAlarmActiveNever (1), audioAlarmActiveOnOverload (2), audioAlarmActiveOnOverloadImminent (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this OID to audioAlarmActiveNever (1) will disable the audio alarm on the MasterSwitch VM. Setting this OID to audioAlarmActiveOnOverload (2) will activate the audio alarm on the MasterSwitch VM when an overload condition is present. Setting this OID to audioAlarmActiveOnOverloadImminent (3) will activate the audio arlarm on the MasterSwitch VM when the load on the MasterSwitch VM has surpassed the sPDUMasterConfigVMHighLoadWarningThreshold OID value." ::= { sPDUMasterConfigVMEntry 4 } sPDUMasterConfigVMHighLoadWarningThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing an overload condition. It is represented as a percentage of full load." ::= { sPDUMasterConfigVMEntry 5 } sPDUMasterConfigVMLowLoadWarningThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "A threshold that indicates the power consumption of the load is nearing a low consumption condition. It is represented as a percentage of full load." ::= { sPDUMasterConfigVMEntry 6 } sPDUMasterConfigVMOverloadRestriction OBJECT-TYPE SYNTAX INTEGER { alwaysAllowTurnON (1), restrictOnWarning (2), restrictOnOverload (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This OID controls the behavior of the MasterSwitch VM when an overload condition is possible and additional outlets are requested to be turned on. Setting this OID to alwaysAllowTurnON (1) will always allow the outlets to turn on. Setting this OID to restrictOnWarning (2) will not allow outlets to turn on if the sPDUMasterConfigVMHighLoadWarningThreshold OID is exceeded. Setting this OID to restrictOnOverload (3) will not allow outlets to turn on if the MasterSwitch Vm is in an overload condition." ::= { sPDUMasterConfigVMEntry 7 } -- the sPDUMasterStatusVM group sPDUMasterStatusVMTableSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of MasterSwitch VMs at this IP address." ::= { sPDUMasterStatusVM 1 } sPDUMasterStatusVMTable OBJECT-TYPE SYNTAX SEQUENCE OF MasterStatusVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for gathering of status from the individual MasterSwitch VMs. The number of entries is contained in the sPDUMasterStatusVMTableSize OID." ::= { sPDUMasterStatusVM 2 } sPDUMasterStatusVMEntry OBJECT-TYPE SYNTAX MasterStatusVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The MasterSwitch VMs to gather status from." INDEX { sPDUMasterStatusVMIndex} ::= { sPDUMasterStatusVMTable 1 } MasterStatusVMEntry ::= SEQUENCE { sPDUMasterStatusVMIndex INTEGER, sPDUMasterStatusVMName DisplayString, sPDUMasterStatusVMCommandPending INTEGER, sPDUMasterStatusVMOverloadCondition INTEGER, sPDUMasterStatusVMLowLoadCondition INTEGER, sPDUMasterStatusVMCurrentLoad INTEGER, sPDUMasterStatusVMMaxLoad INTEGER, sPDUMasterStatusVMOutletCount INTEGER, sPDUMasterStatusVMRebootDuration INTEGER } sPDUMasterStatusVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM entry." ::= { sPDUMasterStatusVMEntry 1 } sPDUMasterStatusVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUMasterStatusVMEntry 2 } sPDUMasterStatusVMCommandPending OBJECT-TYPE SYNTAX INTEGER { commandPendingMasterTrueVM (1), commandPendingMasterFalseVM (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return commandPendingMasterTrueVM (1) if the MasterSwitch VM has a pending command on any of its outlets. commandPendingMasterFalseVM (2) will be returned if there are no pending commands." ::= { sPDUMasterStatusVMEntry 3 } sPDUMasterStatusVMOverloadCondition OBJECT-TYPE SYNTAX INTEGER { overloadConditionTrueVM (1), overloadConditionFalseVM (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return overloadConditionTrueVM (1) if the sPDUMasterConfigVMHighLoadWarningThreshold OID is violated. overloadConditionFalseVM (2) will be returned if the sPDUMasterConfigVMHighLoadWarningThreshold OID is not violated." ::= { sPDUMasterStatusVMEntry 4 } sPDUMasterStatusVMLowLoadCondition OBJECT-TYPE SYNTAX INTEGER { lowLoadConditionTrueVM (1), lowLoadConditionFalseVM (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return lowLoadConditionTrueVM (1) if the sPDUMasterConfigVMLowLoadWarningThreshold OID is violated. lowLoadConditionFalseVM (2) will be returned if the sPDUMasterConfigVMHighLoadWarningThreshold OID is not violated. " ::= { sPDUMasterStatusVMEntry 5 } sPDUMasterStatusVMCurrentLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the total amount of power being consumed by the load. It is represented as a percentage of full load." ::= { sPDUMasterStatusVMEntry 6 } sPDUMasterStatusVMMaxLoad OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the total amount of power that this MasterSwitch VM can provide. It is represented in Amps." ::= { sPDUMasterStatusVMEntry 7 } sPDUMasterStatusVMOutletCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the number of controllable outlets for this MasterSwitch VM." ::= { sPDUMasterStatusVMEntry 8 } sPDUMasterStatusVMRebootDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Getting this OID will return the largest sPDUOutletConfigVMRebootDuration OID time for this MasterSwitch VM." ::= { sPDUMasterStatusVMEntry 9 } -- the sPDUOutletControlVM group sPDUOutletControlVMTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for control of individual outlet switches. The number of entries is contained in the sPDUMasterStatusOutletCount OID." ::= { sPDUOutletControlVM 1 } sPDUOutletControlVMEntry OBJECT-TYPE SYNTAX OutletControlVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to control." INDEX { sPDUOutletControlVMIndex, sPDUOutletControlVMOutletIndex } ::= { sPDUOutletControlVMTable 1 } OutletControlVMEntry ::= SEQUENCE { sPDUOutletControlVMIndex INTEGER, sPDUOutletControlVMName DisplayString, sPDUOutletControlVMOutletIndex INTEGER, sPDUOutletControlVMOutletName DisplayString, sPDUOutletControlVMOutletCommand INTEGER } sPDUOutletControlVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM." ::= { sPDUOutletControlVMEntry 1 } sPDUOutletControlVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters. This OID is provided for informational purposes only." ::= { sPDUOutletControlVMEntry 2 } sPDUOutletControlVMOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletControlVMEntry 3 } sPDUOutletControlVMOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 23 characters. This OID is provided for informational purposes only." ::= { sPDUOutletControlVMEntry 4 } sPDUOutletControlVMOutletCommand OBJECT-TYPE SYNTAX INTEGER { immediateOnVM (1), immediateOffVM (2), immediateRebootVM (3), delayedOnVM (4), delayedOffVM (5), delayedRebootVM (6), cancelPendingCommandVM (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Getting this variable will return the outlet state. If the outlet is on, the immediateOnVM (1) value will be returned. If the outlet is off, the immediateOffVM (2) value will be returned. Setting this variable to immediateOnVM (1) will immediately turn the outlet on. Setting this variable to immediateOffVM (2) will immediately turn the outlet off. Setting this variable to immediateRebootVM (3) will immediately reboot the outlet. Setting this variable to delayedOnVM (4) will turn the outlet on after the sPDUOutletConfigVMPowerOnTime OID time has elapsed. Setting this variable to delayedOffVM (5) will turn the outlet off after the sPDUOutletConfigVMPowerOffTime OID time has elapsed. Setting this variable to delayedRebootVM (6) will cause the MasterSwitch VM to perform a delayedOffVM command, wait the sPDUOutletConfigVMRebootDuration OID time, and then perform the immediateOnVM command. Setting this variable to cancelPendingCommandVM (7) will cause any pending command to this outlet to be cancelled." ::= { sPDUOutletControlVMEntry 5 } -- the sPDUOutletConfigVM group sPDUOutletConfigVMTable OBJECT-TYPE SYNTAX SEQUENCE OF OutletConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows for configuration of individual outlets. The number of entries is contained in the sPDUMasterStatusOutletCount OID." ::= { sPDUOutletConfigVM 1 } sPDUOutletConfigVMEntry OBJECT-TYPE SYNTAX OutletConfigVMEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The outlets to configure." INDEX { sPDUOutletConfigVMIndex, sPDUOutletConfigVMOutletIndex } ::= { sPDUOutletConfigVMTable 1 } OutletConfigVMEntry ::= SEQUENCE { sPDUOutletConfigVMIndex INTEGER, sPDUOutletConfigVMName DisplayString, sPDUOutletConfigVMOutletIndex INTEGER, sPDUOutletConfigVMOutletName DisplayString, sPDUOutletConfigVMPowerOnTime INTEGER, sPDUOutletConfigVMPowerOffTime INTEGER, sPDUOutletConfigVMRebootDuration INTEGER } sPDUOutletConfigVMIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the MasterSwitch VM." ::= { sPDUOutletConfigVMEntry 1 } sPDUOutletConfigVMName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The name of the MasterSwitch VM. Maximum size is 23 characters." ::= { sPDUOutletConfigVMEntry 2 } sPDUOutletConfigVMOutletIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the outlet entry." ::= { sPDUOutletConfigVMEntry 3 } sPDUOutletConfigVMOutletName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The name of the outlet. Maximum size is 23 characters." ::= { sPDUOutletConfigVMEntry 4 } sPDUOutletConfigVMPowerOnTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering on at coldstart or when a command that requires a turn-on delay is issued. Allowed values are: -1 never power on. 0 power on immediately. 15 power on 15 seconds after being commanded. 30 power on 30 seconds after being commanded. 45 power on 45 seconds after being commanded. 60 power on 60 seconds (1 minute) after being commanded. 120 power on 120 seconds (2 minutes) after being commanded. 300 power on 300 seconds (5 minutes) after being commanded. If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. If the provided value is lower than the lowest acceptable value, the lowest acceptable value is used." ::= { sPDUOutletConfigVMEntry 5 } sPDUOutletConfigVMPowerOffTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time (in seconds) the outlet will delay powering off when a command that requires a turn-off delay is issued. Allowed values are: -1 never power off automatically. 0 power off immediately. 15 power off 15 seconds after being commanded. 30 power off 30 seconds after being commanded. 45 power off 45 seconds after being commanded. 60 power off 60 seconds (1 minute) after being commanded. 120 power off 120 second