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bmatherly/APC PDU Monitor Instructions

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Script to control an APC MasterSwitch PDU to reset an outlet when the network stops working
Raw
APC PDU Monitor Instructions
sudo cp netmonitor.sh /usr/bin/netmonitor.sh
sudo chmod 755 /usr/bin/netmonitor.sh
sudo crontab -e
Add to crontab:
*/2 * * * * /usr/bin/netmonitor.sh 2>&1 | /usr/bin/logger -t netmonitor
Raw
netmonitor.sh
#!/bin/bash
declare -r SWITCH_ADDRESS="192.168.0.3"
declare -r BASE_SWITCH_OID="1.3.6.1.4.1.318.1.1.4.4.2.1.3"
declare -r CABLE_MODEM_OUTLET="1"
declare -r ROUTER_OUTLET="2"
declare -r VM_HOST_OUTLET="3"
declare -r PRIMARY_NET_TEST_HOST="www.midcocomm.com"
declare -r SECODARY_NET_TEST_HOST="www.google.com"
declare -r VM_TEST_HOST="192.168.0.6"
power_on_device()
{
echo "Powering on device $1"
snmpset -v1 -cpublic $SWITCH_ADDRESS $BASE_SWITCH_OID.$1 i 1 >> /dev/null
}
power_off_device()
{
echo "Powering off device $1"
snmpset -v1 -cpublic $SWITCH_ADDRESS $BASE_SWITCH_OID.$1 i 2 >> /dev/null
}
reboot_device()
{
echo "Rebooting device $1"
snmpset -v1 -cpublic $SWITCH_ADDRESS $BASE_SWITCH_OID.$1 i 3 >> /dev/null
}
test_internet()
{
ping -c1 -q $PRIMARY_NET_TEST_HOST >> /dev/null
if [ $? -ne 0 ]; then
echo "Primary internet host ping failure"
ping -c1 -W10 -q $SECODARY_NET_TEST_HOST >> /dev/null
if [ $? -ne 0 ]; then
echo "Secondary internet host ping failure"
return 0
fi
fi
return 1
}
test_vm_host()
{
ping -c1 -q $VM_TEST_HOST >> /dev/null
if [ $? -ne 0 ]; then
echo "VM Host first attempt failed"
ping -c1 -W20 -q $VM_TEST_HOST >> /dev/null
if [ $? -ne 0 ]; then
echo "VM Host second attempt failed"
return 0
fi
fi
return 1
}
test_internet
if [ $? -eq 0 ]; then
reboot_device $CABLE_MODEM_OUTLET
reboot_device $ROUTER_OUTLET
fi
#test_vm_host
#if [ $? -eq 0 ]; then
# reboot_device $VM_HOST_OUTLET
#fi
Raw
PowerNet-MIB.mib
-- *************************************************************************
-- 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 : 3.4.3
--
-- Generated by script: tomib.awk
--
-- Input File: powernetPS.mib
--
-- Created: Tuesday, May, 14, 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 and MX06 (dcDM6) functionality
--
-- *************************************************************************
-- *************************************************************************
-- 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 }
dcDM6 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 }
dm6 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 }
dm6Ident OBJECT IDENTIFIER ::= { dcDM6 1 }
dm6Control OBJECT IDENTIFIER ::= { dcDM6 2 }
dm6Config OBJECT IDENTIFIER ::= { dcDM6 3 }
dm6Status OBJECT IDENTIFIER ::= { dcDM6 4 }
dm6IdentSystem OBJECT IDENTIFIER ::= { dm6Ident 1 }
dm6ControlSystem OBJECT IDENTIFIER ::= { dm6Control 1 }
dm6ConfigSystem OBJECT IDENTIFIER ::= { dm6Config 1 }
dm6ConfigBattery OBJECT IDENTIFIER ::= { dm6Config 2 }
dm6ConfigLVD OBJECT IDENTIFIER ::= { dm6Config 3 }
dm6ConfigLoadShunt OBJECT IDENTIFIER ::= { dm6Config 4 }
dm6ConfigBatteryShunt OBJECT IDENTIFIER ::= { dm6Config 5 }
dm6ConfigSystemAlarm OBJECT IDENTIFIER ::= { dm6Config 6 }
dm6ConfigUserAlarm OBJECT IDENTIFIER ::= { dm6Config 7 }
dm6StatusSystem OBJECT IDENTIFIER ::= { dm6Status 1 }
dm6StatusAlarms OBJECT IDENTIFIER ::= { dm6Status 2 }
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 seconds (2 minutes) after being commanded.
300 power off 300 seconds (5 minutes) after being commanded.
If a value other than a supported value is provided in a
set request, the MasterSwitch VM interprets it as the next lower
acceptable value. If the provided value is lower than
the lowest acceptable value, the lowest acceptable
value is used."
::= { sPDUOutletConfigVMEntry 6 }
sPDUOutletConfigVMRebootDuration OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"During a reboot sequence, power is turned off and then
back on. This OID defines the amount of time to wait,
in seconds, after turning the power off, at the start
of the sequence, before turning power back on, at the
end of the reboot sequence.
Allowed values are:
5 wait 5 seconds between off/on.
10 wait 10 seconds between off/on.
15 wait 15 seconds between off/on.
20 wait 20 seconds between off/on.
30 wait 30 seconds between off/on.
45 wait 45 seconds between off/on.
60 wait 60 seconds (1 minute) between off/on.
If a value other than a supported value is provided in a
set request, the MasterSwitch VM interprets it as the next lower
acceptable value. If the provided value is lower than
the lowest acceptable value, the lowest acceptable
value is used."
::= { sPDUOutletConfigVMEntry 7 }
-- the sPDUOutletStatusVM group
sPDUOutletStatusVMTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletStatusVMEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for getting of status of individual outlets. The number of
entries is contained in the sPDUMasterStatusOutletCount OID."
::= { sPDUOutletStatusVM 1 }
sPDUOutletStatusVMEntry OBJECT-TYPE
SYNTAX OutletStatusVMEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to gather status from."
INDEX { sPDUOutletStatusVMIndex, sPDUOutletStatusVMOutletIndex }
::= { sPDUOutletStatusVMTable 1 }
OutletStatusVMEntry ::=
SEQUENCE {
sPDUOutletStatusVMIndex INTEGER,
sPDUOutletStatusVMName DisplayString,
sPDUOutletStatusVMOutletIndex INTEGER,
sPDUOutletStatusVMOutletName DisplayString,
sPDUOutletStatusVMOutletState INTEGER,
sPDUOutletStatusVMCommandPending INTEGER
}
sPDUOutletStatusVMIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch VM."
::= { sPDUOutletStatusVMEntry 1 }
sPDUOutletStatusVMName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch VM. Maximum size is 23 characters."
::= { sPDUOutletStatusVMEntry 2 }
sPDUOutletStatusVMOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletStatusVMEntry 3 }
sPDUOutletStatusVMOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the outlet. Maximum size is 23 characters."
::= { sPDUOutletStatusVMEntry 4 }
sPDUOutletStatusVMOutletState OBJECT-TYPE
SYNTAX INTEGER {
outletStatusVMOn (1),
outletStatusVMOff (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this variable will return the outlet state. If
the outlet is on, the outletStatusOnVM (1) value will be returned.
If the outlet is off, the outletStatusOffVM (2) value will be
returned. "
::= { sPDUOutletStatusVMEntry 5 }
sPDUOutletStatusVMCommandPending OBJECT-TYPE
SYNTAX INTEGER {
outletStatusVMCommandPending (1),
outletStatusVMNoCommandPending (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this variable will return the command pending
state of the outlet. If a command is pending on the
outlet, the outletStatusVMCommandPending (1) value
will be returned. If there is not a command pending
on the outlet, the outletStatusVMNoCommandPending (2)
will be returned."
::= { sPDUOutletStatusVMEntry 6 }
-- the sPDUIdentMSP group
sPDUIdentMSPTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of MasterSwitch pluses controllable
by this IP address."
::= { sPDUIdentMSP 1 }
sPDUIdentMSPTable OBJECT-TYPE
SYNTAX SEQUENCE OF IdentMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for query of the individual MasterSwitch pluses.
The number of entries is contained in the
sPDUIdentMSPTableSize OID."
::= { sPDUIdentMSP 2 }
sPDUIdentMSPEntry OBJECT-TYPE
SYNTAX IdentMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The MasterSwitch pluses to query."
INDEX { sPDUIdentMSPIndex}
::= { sPDUIdentMSPTable 1 }
IdentMSPEntry ::=
SEQUENCE {
sPDUIdentMSPIndex INTEGER,
sPDUIdentNameMSP DisplayString,
sPDUIdentHardwareRevMSP DisplayString,
sPDUIdentFirmwareRevMSP DisplayString,
sPDUIdentDateOfManufactureMSP DisplayString,
sPDUIdentModelNumberMSP DisplayString,
sPDUIdentSerialNumberMSP DisplayString
}
sPDUIdentMSPIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus entry."
::= { sPDUIdentMSPEntry 1 }
sPDUIdentNameMSP OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUIdentMSPEntry 2 }
sPDUIdentHardwareRevMSP OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The hardware version of the MasterSwitch plus.
This value is set at the factory."
::= { sPDUIdentMSPEntry 3 }
sPDUIdentFirmwareRevMSP OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"An 6-character ID string identifying the MasterSwitch plus
firmware version. This value is set at the factory."
::= { sPDUIdentMSPEntry 4 }
sPDUIdentDateOfManufactureMSP OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The date when the MasterSwitch plus was manufactured in mm/dd/yyyy format.
This value is set at the factory. "
::= { sPDUIdentMSPEntry 5 }
sPDUIdentModelNumberMSP OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 17-character string identifying the model number of
the MasterSwitch plus. This value is set at the factory."
::= { sPDUIdentMSPEntry 6 }
sPDUIdentSerialNumberMSP OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 17-character string identifying the serial number of
the MasterSwitch plus. This value is set at the factory."
::= { sPDUIdentMSPEntry 7 }
-- the sPDUMasterControlMSP group
sPDUMasterControlMSPTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of MasterSwitch pluses controllable
by this IP address."
::= { sPDUMasterControlMSP 1 }
sPDUMasterControlMSPTable OBJECT-TYPE
SYNTAX SEQUENCE OF MasterControlMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for control of the individual MasterSwitch pluses.
The number of entries is contained in the
sPDUMasterControlMSPTableSize OID."
::= { sPDUMasterControlMSP 2 }
sPDUMasterControlMSPEntry OBJECT-TYPE
SYNTAX MasterControlMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The MasterSwitch pluses to control."
INDEX { sPDUMasterControlMSPIndex}
::= { sPDUMasterControlMSPTable 1 }
MasterControlMSPEntry ::=
SEQUENCE {
sPDUMasterControlMSPIndex INTEGER,
sPDUMasterControlMSPName DisplayString,
sPDUMasterControlMSPCommand INTEGER
}
sPDUMasterControlMSPIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus entry."
::= { sPDUMasterControlMSPEntry 1 }
sPDUMasterControlMSPName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUMasterControlMSPEntry 2 }
sPDUMasterControlMSPCommand OBJECT-TYPE
SYNTAX INTEGER {
noCommandAllMSP (1),
immediateAllOnMSP (2),
sequencedAllOnMSP (3),
immediateAllOffMSP (4),
gracefulAllRebootMSP (5),
immediateAllRebootMSP (6),
gracefulAllShutdownMSP (7),
overrideAllBatCapThreshMSP (8),
cancelAllPendingCommandsMSP (9),
restoreFactoryDefaultsMSP (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to immediateAllOnMSP (2) will turn all outlets
on immediately.
Setting this OID to sequencedAllOnMSP (3) will turn all outlets
on as defined by each outlet's sPDUOutletConfigMSPPowerOnDelay OID value.
Setting this OID to immediateAllOffMSP (4) will turn all outlets
off immediately.
Setting this OID to gracefulAllRebootMSP (5) will reboot all outlets
(after the device running PowerChute confirms shutdown) as defined
by each outlet's sPDUOutletConfigMSPRebootDuration OID time value.
Setting this OID to immediateAllRebootMSP (6) will reboot all outlets
immediately.
Setting this OID to gracefulAllShutdownMSP (7) will shutdown all outlets
(after the device running PowerChute confirms shutdown) as defined
by each outlet's sPDUOutletConfigMSPPowerOffDelay OID time value. Each
outlet will then turn on after the sum of its
sPDUOutletConfigMSPRestartDelay and sPDUOutletConfigMSPPowerOnDelay OID
values.
Setting this OID to overrideAllBatCapThreshMSP (8) will cause the
outlet to ignore the Battery Capacity Threshold and proceed turning on
the outlets as defined by each outlet's sPDUOutletConfigMSPPowerOnDelay
OID value.
Setting this OID to cancelAllPendingCommandsMSP (9) will cause all pending
commands on the MasterSwitch plus to be cancelled.
Setting this OID to restoreFactoryDefaultsMSP (10) will cause the settings of
the MasterSwitch plus to be restored to the factory defaults.
Getting this OID will return the noCommandAllMSP (1) value."
::= { sPDUMasterControlMSPEntry 3 }
-- the sPDUMasterConfigMSP group
sPDUMasterConfigMSPTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of MasterSwitch pluses configurable
by this IP address."
::= { sPDUMasterConfigMSP 1 }
sPDUMasterConfigMSPTable OBJECT-TYPE
SYNTAX SEQUENCE OF MasterConfigMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for configuration of the individual MasterSwitch pluses.
The number of entries is contained in the
sPDUMasterConfigMSPTableSize OID."
::= { sPDUMasterConfigMSP 2 }
sPDUMasterConfigMSPEntry OBJECT-TYPE
SYNTAX MasterConfigMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The MasterSwitch pluses to configure."
INDEX { sPDUMasterConfigMSPIndex}
::= { sPDUMasterConfigMSPTable 1 }
MasterConfigMSPEntry ::=
SEQUENCE {
sPDUMasterConfigMSPIndex INTEGER,
sPDUMasterConfigMSPName DisplayString,
sPDUMasterConfigMSPPowerOnTimeDelay INTEGER,
sPDUMasterConfigMSPManualButton INTEGER
}
sPDUMasterConfigMSPIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus entry."
::= { sPDUMasterConfigMSPEntry 1 }
sPDUMasterConfigMSPName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. Maximum size is 23 characters."
::= { sPDUMasterConfigMSPEntry 2 }
sPDUMasterConfigMSPPowerOnTimeDelay OBJECT-TYPE
SYNTAX INTEGER (0..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of delay, in seconds, between when
power is provided to the MasterSwitch plus and
when the MasterSwitch plus provides basic master
power to the outlets.
Allowed values are:
0 - 9999 seconds (0 - 2hrs, 46 mins, 39 secs).
0 indicates to apply power immediately."
::= { sPDUMasterConfigMSPEntry 3 }
sPDUMasterConfigMSPManualButton OBJECT-TYPE
SYNTAX INTEGER {
manualButtonDisabled (1),
manualButtonEnabled (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to manualButtonDisabled (1) will disable
the manual button on the MasterSwitch plus.
Setting this OID to manualButtonEnabled (2) will enable
the manual button on the MasterSwitch plus."
::= { sPDUMasterConfigMSPEntry 4 }
-- the sPDUMasterStatusMSP group
sPDUMasterStatusMSPTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of MasterSwitch pluses at
this IP address."
::= { sPDUMasterStatusMSP 1 }
sPDUMasterStatusMSPTable OBJECT-TYPE
SYNTAX SEQUENCE OF MasterStatusMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for gathering of status from the individual
MasterSwitch pluses. The number of entries is contained
in the sPDUMasterStatusMSPTableSize OID."
::= { sPDUMasterStatusMSP 2 }
sPDUMasterStatusMSPEntry OBJECT-TYPE
SYNTAX MasterStatusMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The MasterSwitch pluses to gather status from."
INDEX { sPDUMasterStatusMSPIndex}
::= { sPDUMasterStatusMSPTable 1 }
MasterStatusMSPEntry ::=
SEQUENCE {
sPDUMasterStatusMSPIndex INTEGER,
sPDUMasterStatusMSPName DisplayString,
sPDUMasterStatusMSPOutletCount INTEGER
}
sPDUMasterStatusMSPIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus entry."
::= { sPDUMasterStatusMSPEntry 1 }
sPDUMasterStatusMSPName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUMasterStatusMSPEntry 2 }
sPDUMasterStatusMSPOutletCount OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return the number of controllable
outlets for this MasterSwitch plus."
::= { sPDUMasterStatusMSPEntry 3 }
-- the sPDUOutletControlMSP group
sPDUOutletControlMSPTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletControlMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for control of individual outlet switches. The number of
entries is contained in the sPDUMasterStatusMSPOutletCount OID."
::= { sPDUOutletControlMSP 1 }
sPDUOutletControlMSPEntry OBJECT-TYPE
SYNTAX OutletControlMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to control."
INDEX { sPDUOutletControlMSPIndex, sPDUOutletControlMSPOutletIndex }
::= { sPDUOutletControlMSPTable 1 }
OutletControlMSPEntry ::=
SEQUENCE {
sPDUOutletControlMSPIndex INTEGER,
sPDUOutletControlMSPName DisplayString,
sPDUOutletControlMSPOutletIndex INTEGER,
sPDUOutletControlMSPOutletName DisplayString,
sPDUOutletControlMSPOutletCommand INTEGER
}
sPDUOutletControlMSPIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus."
::= { sPDUOutletControlMSPEntry 1 }
sPDUOutletControlMSPName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUOutletControlMSPEntry 2 }
sPDUOutletControlMSPOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletControlMSPEntry 3 }
sPDUOutletControlMSPOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the outlet. The maximum size is
23 characters. The name is set by using the
sPDUOutletConfigMSPallOutletName OID.
This OID is provided for informational purposes only."
::= { sPDUOutletControlMSPEntry 4 }
sPDUOutletControlMSPOutletCommand OBJECT-TYPE
SYNTAX INTEGER {
immediateOnMSP (1),
delayedOnMSP (2),
immediateOffMSP (3),
gracefulRebootMSP (4),
immediateRebootMSP (5),
gracefulshutdownMSP (6),
overrideBatCapThreshMSP (7),
cancelPendingCommandMSP (8)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Getting this variable will return the outlet state. If
the outlet is on, the immediateOnMSP (1) value will be returned.
If the outlet is off, the immediateOffMSP (3) value will be
returned.
Setting this variable to immediateOnMSP (1) will immediately turn the outlet on.
Setting this variable to delayedOnMSP (2) will turn the outlet on
after the sPDUOutletConfigMSPPowerOnDelay OID time has elapsed.
Setting this variable to immediateOffMSP (3) will immediately turn the outlet off.
Setting this variable to gracefulRebootMSP (4) will cause the outlet to wait for
device confirmation (if applicable) and then turn the outlet off after the
sPDUOutletConfigMSPPowerOffDelay OID time has elapsed. The outlet will then turn
on after the sPDUOutletConfigMSPRebootDuration OID time has elapsed.
Setting this variable to immediateRebootMSP (5) will immediately reboot the outlet.
Setting this variable to gracefulshutdownMSP (6) will cause the outlet to wait for
device confirmation (if applicable) and then turn the outlet off after the
sPDUOutletConfigMSPPowerOffDelay OID time has elapsed. The outlet will then turn
on after the sum of the sPDUOutletConfigMSPRestartTime OID time and the
sPDUOutletConfigMSPPowerOnDelay OID time has elapsed.
Setting this variable to overrideBatCapThreshMSP (7) will cause the outlet to
ignore the Battery Capacity Threshold and proceed waiting on the
sPDUOutletConfigMSPPowerOnDelay OID time before turning the outlet on.
Setting this variable to cancelPendingCommandMSP (8) will cause any
pending command to this outlet to be cancelled."
::= { sPDUOutletControlMSPEntry 5 }
-- the sPDUOutletConfigMSPall group
sPDUOutletConfigMSPallTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletConfigMSPallEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for configuration of individual outlets. The number of
entries is contained in the sPDUMasterStatusMSPOutletCount OID."
::= { sPDUOutletConfigMSPall 1 }
sPDUOutletConfigMSPallEntry OBJECT-TYPE
SYNTAX OutletConfigMSPallEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to configure."
INDEX { sPDUOutletConfigMSPallIndex, sPDUOutletConfigMSPallOutletIndex }
::= { sPDUOutletConfigMSPallTable 1 }
OutletConfigMSPallEntry ::=
SEQUENCE {
sPDUOutletConfigMSPallIndex INTEGER,
sPDUOutletConfigMSPallName DisplayString,
sPDUOutletConfigMSPallOutletIndex INTEGER,
sPDUOutletConfigMSPallOutletName DisplayString,
sPDUOutletConfigMSPallOutletCtrlMode INTEGER
}
sPDUOutletConfigMSPallIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus."
::= { sPDUOutletConfigMSPallEntry 1 }
sPDUOutletConfigMSPallName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUOutletConfigMSPallEntry 2 }
sPDUOutletConfigMSPallOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletConfigMSPallEntry 3 }
sPDUOutletConfigMSPallOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the outlet. Maximum size is 23 characters."
::= { sPDUOutletConfigMSPallEntry 4 }
sPDUOutletConfigMSPallOutletCtrlMode OBJECT-TYPE
SYNTAX INTEGER {
modeGracefulShutdown (1),
modeAnnunciator (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to modeGracefulShutdown (1) will put this
outlet into the Graceful Shutdown control mode.
Setting this OID to modeAnnunciator (2) will put this outlet
into the Annunciator control mode."
::= { sPDUOutletConfigMSPallEntry 5 }
-- the sPDUOutConfigMSPgs group
sPDUOutletConfigMSPgsTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletConfigMSPgsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for configuration of individual outlets. The number of
entries is contained in the sPDUMasterStatusMSPOutletCount OID."
::= { sPDUOutletConfigMSPgs 1 }
sPDUOutletConfigMSPgsEntry OBJECT-TYPE
SYNTAX OutletConfigMSPgsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to configure."
INDEX { sPDUOutletConfigMSPgsIndex, sPDUOutletConfigMSPgsOutletIndex }
::= { sPDUOutletConfigMSPgsTable 1 }
OutletConfigMSPgsEntry ::=
SEQUENCE {
sPDUOutletConfigMSPgsIndex INTEGER,
sPDUOutletConfigMSPgsName DisplayString,
sPDUOutletConfigMSPgsOutletIndex INTEGER,
sPDUOutletConfigMSPgsOutletName DisplayString,
sPDUOutletConfigMSPgsOutletCtrlMode INTEGER,
sPDUOutletConfigMSPgsDeviceConfirm INTEGER,
sPDUOutletConfigMSPgsLowBattWarning INTEGER,
sPDUOutletConfigMSPgsLowBattMult INTEGER,
sPDUOutletConfigMSPgsRestartDelay INTEGER,
sPDUOutletConfigMSPgsPowerOnDelay INTEGER,
sPDUOutletConfigMSPgsPowerOffDelay INTEGER,
sPDUOutletConfigMSPgsBattCapThresh INTEGER,
sPDUOutletConfigMSPgsRebootDuration INTEGER
}
sPDUOutletConfigMSPgsIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus."
::= { sPDUOutletConfigMSPgsEntry 1 }
sPDUOutletConfigMSPgsName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUOutletConfigMSPgsEntry 2 }
sPDUOutletConfigMSPgsOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletConfigMSPgsEntry 3 }
sPDUOutletConfigMSPgsOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the outlet. The maximum size is
23 characters. The name is set by using the
sPDUOutletConfigMSPallOutletName OID.
This OID is provided for informational purposes only."
::= { sPDUOutletConfigMSPgsEntry 4 }
sPDUOutletConfigMSPgsOutletCtrlMode OBJECT-TYPE
SYNTAX INTEGER {
modeGracefulShutdown (1),
modeAnnunciator (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Contrl Mode of the outlet.
This OID is provided for informational purposes only."
::= { sPDUOutletConfigMSPgsEntry 5 }
sPDUOutletConfigMSPgsDeviceConfirm OBJECT-TYPE
SYNTAX INTEGER {
deviceConfirmNo (1),
deviceConfirmYes (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to deviceConfirmNo (1) cause the outlet to
NOT wait for device confirmation while performing graceful
operations.
Setting this OID to deviceConfirmYes (2) cause the outlet to
wait for device confirmation while performing graceful
operations."
::= { sPDUOutletConfigMSPgsEntry 6 }
sPDUOutletConfigMSPgsLowBattWarning OBJECT-TYPE
SYNTAX INTEGER (-2..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of delay, in 6 second intervals, between
when the UPS goes on battery and the power down sequence for
the outlet is initiated.
Allowed values are:
-2 - Never initiate the power down sequence on low battery warning.
-1 - Initiate power down sequence based on remaining runtime.
1 - 9999 six second intervals (6 secs - 16hrs, 39 mins, 54 secs).
0 indicates to immediately initiate power down sequence on low
battery warning."
::= { sPDUOutletConfigMSPgsEntry 7 }
sPDUOutletConfigMSPgsLowBattMult OBJECT-TYPE
SYNTAX INTEGER (1..7)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" Only applicable if sPDUOutletConfigMSPgsLowBattWarning OID is
set to -1 (On Runtime Remaining).
Allows you to set the value to stagger the shutdown sequence of the outlets.
1 provides the longest delay (the outlet to shutoff first), and 7 would
provide the shortest delay (the outlet to shut off last).
Allowed values are:
1 - 7."
::= { sPDUOutletConfigMSPgsEntry 8 }
sPDUOutletConfigMSPgsRestartDelay OBJECT-TYPE
SYNTAX INTEGER (-1..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of delay, in 6 minute intervals, between
when the outlet is turned off and the outlet is turned back on
when performing a Graceful Shutdown.
Allowed values are:
-1 - Never turn outlet back on after a Graceful shutdown.
0 - 9999 six minute intervals (0 - 999hrs, 54 mins)."
::= { sPDUOutletConfigMSPgsEntry 9 }
sPDUOutletConfigMSPgsPowerOnDelay OBJECT-TYPE
SYNTAX INTEGER (-1..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of delay, in seconds, between the UPS entering
normal (on-line) state and the outlet being powered on.
Allowed values are:
-1 - Remain Off when the UPS enters the on-line state.
0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
::= { sPDUOutletConfigMSPgsEntry 10 }
sPDUOutletConfigMSPgsPowerOffDelay OBJECT-TYPE
SYNTAX INTEGER (0..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of delay, in seconds, between when the server
shuts down and the outlet is powered off.
Allowed values are:
0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
::= { sPDUOutletConfigMSPgsEntry 11 }
sPDUOutletConfigMSPgsBattCapThresh OBJECT-TYPE
SYNTAX INTEGER (0..100)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The minimum battery capacity, as a percent (0-100%), required
of the UPS before an outlet will be allowed to power on.
Allowed values are:
0 - 100 percent."
::= { sPDUOutletConfigMSPgsEntry 12 }
sPDUOutletConfigMSPgsRebootDuration OBJECT-TYPE
SYNTAX INTEGER (0..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of delay, in seconds, from outlet off until
outlet on during a reboot.
Allowed values are:
0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
::= { sPDUOutletConfigMSPgsEntry 13 }
-- the sPDUOutConfigMSPannun group
sPDUOutletConfigMSPannunTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletConfigMSPannunEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for configuration of individual outlets. The number of
entries is contained in the sPDUMasterStatusMSPOutletCount OID."
::= { sPDUOutletConfigMSPannun 1 }
sPDUOutletConfigMSPannunEntry OBJECT-TYPE
SYNTAX OutletConfigMSPannunEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to configure."
INDEX { sPDUOutletConfigMSPannunIndex, sPDUOutletConfigMSPannunOutletIndex }
::= { sPDUOutletConfigMSPannunTable 1 }
OutletConfigMSPannunEntry ::=
SEQUENCE {
sPDUOutletConfigMSPannunIndex INTEGER,
sPDUOutletConfigMSPannunName DisplayString,
sPDUOutletConfigMSPannunOutletIndex INTEGER,
sPDUOutletConfigMSPannunOutletName DisplayString,
sPDUOutletConfigMSPannunOutletCtrlMode INTEGER,
sPDUOutletConfigMSPannunInitialState INTEGER,
sPDUOutletConfigMSPannunAlarmActionDly INTEGER
}
sPDUOutletConfigMSPannunIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus."
::= { sPDUOutletConfigMSPannunEntry 1 }
sPDUOutletConfigMSPannunName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUOutletConfigMSPannunEntry 2 }
sPDUOutletConfigMSPannunOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletConfigMSPannunEntry 3 }
sPDUOutletConfigMSPannunOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the outlet. The maximum size is
23 characters. The name is set by using the
sPDUOutletConfigMSPallOutletName OID.
This OID is provided for informational purposes only."
::= { sPDUOutletConfigMSPannunEntry 4 }
sPDUOutletConfigMSPannunOutletCtrlMode OBJECT-TYPE
SYNTAX INTEGER {
modeGracefulShutdown (1),
modeAnnunciator (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Contrl Mode of the outlet.
This OID is provided for informational purposes only."
::= { sPDUOutletConfigMSPannunEntry 5 }
sPDUOutletConfigMSPannunInitialState OBJECT-TYPE
SYNTAX INTEGER {
initialStateOff (1),
initialStateOn (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to initialStateOff (1) causes the outlet
to default to off when in the non-alarmed condition.
Setting this OID to initialStateOn (2) causes the outlet
to default to on when in the non-alarmed condition."
::= { sPDUOutletConfigMSPannunEntry 6 }
sPDUOutletConfigMSPannunAlarmActionDly OBJECT-TYPE
SYNTAX INTEGER (0..9999)
ACCESS read-write
STATUS mandatory
DESCRIPTION
" The amount of time, in seconds, that an enabled Measure-UPS
alarm must be asserted before an alarm condition is recognized.
Allowed values are:
0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
::= { sPDUOutletConfigMSPannunEntry 7 }
-- the sPDUOutConfigMSPmups group
sPDUOutletConfigMSPmupsTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletConfigMSPmupsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for configuration of individual outlets. The number of
entries is contained in the sPDUMasterStatusMSPOutletCount OID."
::= { sPDUOutletConfigMSPmups 1 }
sPDUOutletConfigMSPmupsEntry OBJECT-TYPE
SYNTAX OutletConfigMSPmupsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to configure."
INDEX { sPDUOutletConfigMSPmupsIndex, sPDUOutletConfigMSPmupsOutletIndex }
::= { sPDUOutletConfigMSPmupsTable 1 }
OutletConfigMSPmupsEntry ::=
SEQUENCE {
sPDUOutletConfigMSPmupsIndex INTEGER,
sPDUOutletConfigMSPmupsName DisplayString,
sPDUOutletConfigMSPmupsOutletIndex INTEGER,
sPDUOutletConfigMSPmupsOutletName DisplayString,
sPDUOutletConfigMSPmupsZone1 INTEGER,
sPDUOutletConfigMSPmupsZone2 INTEGER,
sPDUOutletConfigMSPmupsZone3 INTEGER,
sPDUOutletConfigMSPmupsZone4 INTEGER,
sPDUOutletConfigMSPmupsP1LowHum INTEGER,
sPDUOutletConfigMSPmupsP1HiHum INTEGER,
sPDUOutletConfigMSPmupsP1LowTemp INTEGER,
sPDUOutletConfigMSPmupsP1HiTemp INTEGER,
sPDUOutletConfigMSPmupsP2LowHum INTEGER,
sPDUOutletConfigMSPmupsP2HiHum INTEGER,
sPDUOutletConfigMSPmupsP2LowTemp INTEGER,
sPDUOutletConfigMSPmupsP2HiTemp INTEGER
}
sPDUOutletConfigMSPmupsIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch plus."
::= { sPDUOutletConfigMSPmupsEntry 1 }
sPDUOutletConfigMSPmupsName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUOutletConfigMSPmupsEntry 2 }
sPDUOutletConfigMSPmupsOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletConfigMSPmupsEntry 3 }
sPDUOutletConfigMSPmupsOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the outlet. The maximum size is
23 characters. The name is set by using the
sPDUOutletConfigMSPallOutletName OID.
This OID is provided for informational purposes only."
::= { sPDUOutletConfigMSPmupsEntry 4 }
sPDUOutletConfigMSPmupsZone1 OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Zone 1 alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Zone 1 alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 5 }
sPDUOutletConfigMSPmupsZone2 OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Zone 2 alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Zone 2 alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 6 }
sPDUOutletConfigMSPmupsZone3 OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Zone 3 alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Zone 3 alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 7 }
sPDUOutletConfigMSPmupsZone4 OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Zone 4 alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Zone 4 alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 8 }
sPDUOutletConfigMSPmupsP1LowHum OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 1 low humidity alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 1 low humidity alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 9 }
sPDUOutletConfigMSPmupsP1HiHum OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 1 high humidity alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 1 high humidity alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 10 }
sPDUOutletConfigMSPmupsP1LowTemp OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 1 low temperature alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 1 low temperature alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 11 }
sPDUOutletConfigMSPmupsP1HiTemp OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 1 high temperature alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 1 high temperature alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 12 }
sPDUOutletConfigMSPmupsP2LowHum OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 2 low humidity alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 2 low humidity alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 13 }
sPDUOutletConfigMSPmupsP2HiHum OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 2 high humidity alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 2 high humidity alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 14 }
sPDUOutletConfigMSPmupsP2LowTemp OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 2 low temperature alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 2 low temperature alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 15 }
sPDUOutletConfigMSPmupsP2HiTemp OBJECT-TYPE
SYNTAX INTEGER {
disableAlarm (1),
enableAlarm (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this OID to disableAlarm (1) disables the
Probe 2 high temperature alarm for this outlet.
Setting this OID to enableAlarm (2) enables the
Probe 2 high temperature alarm for this outlet."
::= { sPDUOutletConfigMSPmupsEntry 16 }
-- the sPDUOutletStatusMSP group
sPDUOutletStatusMSPTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutletStatusMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for getting of status of individual outlets. The number of
entries is contained in the sPDUMasterStatusOutletCount OID."
::= { sPDUOutletStatusMSP 1 }
sPDUOutletStatusMSPEntry OBJECT-TYPE
SYNTAX OutletStatusMSPEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The outlets to gather status from."
INDEX { sPDUOutletStatusMSPIndex, sPDUOutletStatusMSPOutletIndex }
::= { sPDUOutletStatusMSPTable 1 }
OutletStatusMSPEntry ::=
SEQUENCE {
sPDUOutletStatusMSPIndex INTEGER,
sPDUOutletStatusMSPName DisplayString,
sPDUOutletStatusMSPOutletIndex INTEGER,
sPDUOutletStatusMSPOutletName DisplayString,
sPDUOutletStatusMSPOutletState INTEGER,
sPDUOutletStatusMSPCommandPending INTEGER,
sPDUOutletStatusMSPOutletCtrlMode INTEGER
}
sPDUOutletStatusMSPIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the MasterSwitch MSP."
::= { sPDUOutletStatusMSPEntry 1 }
sPDUOutletStatusMSPName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the MasterSwitch plus. The maximum
value is 23 characters. The name is set by
using the sPDUMasterConfigMSPName OID."
::= { sPDUOutletStatusMSPEntry 2 }
sPDUOutletStatusMSPOutletIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the outlet entry."
::= { sPDUOutletStatusMSPEntry 3 }
sPDUOutletStatusMSPOutletName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the outlet. The maximum size is
23 characters. The name is set by using the
sPDUOutletConfigMSPallOutletName OID.
This OID is provided for informational purposes only."
::= { sPDUOutletStatusMSPEntry 4 }
sPDUOutletStatusMSPOutletState OBJECT-TYPE
SYNTAX INTEGER {
outletStatusMSPOn (1),
outletStatusMSPOff (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this variable will return the outlet state. If
the outlet is on, the outletStatusMSPOn (1) value will be returned.
If the outlet is off, the outletStatusMSPOff (2) value will be
returned. "
::= { sPDUOutletStatusMSPEntry 5 }
sPDUOutletStatusMSPCommandPending OBJECT-TYPE
SYNTAX INTEGER {
outletStatusMSPCommandPending (1),
outletStatusMSPNoCommandPending (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this variable will return the command pending
state of the outlet. If a command is pending on the
outlet, the outletStatusMSPCommandPending (1) value
will be returned. If there is not a command pending
on the outlet, the outletStatusMSPNoCommandPending (2)
will be returned."
::= { sPDUOutletStatusMSPEntry 6 }
sPDUOutletStatusMSPOutletCtrlMode OBJECT-TYPE
SYNTAX INTEGER {
modeGracefulShutdown (1),
modeAnnunciator (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Contrl Mode of the outlet.
This OID is provided for informational purposes only."
::= { sPDUOutletStatusMSPEntry 7 }
-- the dm3IdentSystem group
dm3IdentSysDescriptionTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC description records."
::= { dm3IdentSystem 1 }
dm3IdentSysDescriptionTable OBJECT-TYPE
SYNTAX SEQUENCE OF IdentSysDescriptionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing description records of the powerplant. The number of
entries is contained in the dm3IdentSysDescriptionTableSize OID."
::= { dm3IdentSystem 2 }
dm3IdentSysDescriptionEntry OBJECT-TYPE
SYNTAX IdentSysDescriptionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The powerplant description record to reference."
INDEX { dm3IdentSysDescriptionIndex }
::= { dm3IdentSysDescriptionTable 1 }
IdentSysDescriptionEntry ::=
SEQUENCE {
dm3IdentSysDescriptionIndex INTEGER,
dm3IdentSysDescriptionText DisplayString
}
dm3IdentSysDescriptionIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant description record."
::= { dm3IdentSysDescriptionEntry 1 }
dm3IdentSysDescriptionText OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 16 character text field describing the DC power plant device.
This field can be configured from the dm3ConfigSysDescriptionText OID."
::= { dm3IdentSysDescriptionEntry 2 }
dm3IdentSysModel OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Model type of the DC power plant."
::= { dm3IdentSystem 3 }
dm3IdentSysCntrlRev OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Integer representation of the hardware revision of the Master Controller board."
::= { dm3IdentSystem 4 }
dm3IdentSysFWVersion OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Integer representation of the power plant Master Controller firmware revision."
::= { dm3IdentSystem 5 }
-- the dm3ConfigSystem group
dm3ConfigSysDescriptionTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC description records."
::= { dm3ConfigSystem 1 }
dm3ConfigSysDescriptionTable OBJECT-TYPE
SYNTAX SEQUENCE OF ConfigSysDescriptionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing description records of the powerplant. The number of
entries is contained in the dm3ConfigSysDescriptionTableSize OID."
::= { dm3ConfigSystem 2 }
dm3ConfigSysDescriptionEntry OBJECT-TYPE
SYNTAX ConfigSysDescriptionEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The powerplant description record to reference."
INDEX { dm3ConfigSysDescriptionIndex }
::= { dm3ConfigSysDescriptionTable 1 }
ConfigSysDescriptionEntry ::=
SEQUENCE {
dm3ConfigSysDescriptionIndex INTEGER,
dm3ConfigSysDescriptionText DisplayString
}
dm3ConfigSysDescriptionIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant description record."
::= { dm3ConfigSysDescriptionEntry 1 }
dm3ConfigSysDescriptionText OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"16 character text field describing the DC power plant device."
::= { dm3ConfigSysDescriptionEntry 2 }
dm3ConfigSysHighTempThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Ambient high temperature threshold. Temperature sensor located on Master
Controller board.
Values are represented in thousandths of a degree Celcius (mdegC).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigSystem 3 }
dm3ConfigSysHighTempAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the System High Temperature Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigSystem 4 }
dm3ConfigSysLowTempThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Ambient low temperature threshold. Temperature sensor located on Master
Controller board.
Values are represented in thousandths of a degree Celcius (mdegC)
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigSystem 5 }
dm3ConfigSysLowTempAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the System Low Temperature Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigSystem 6 }
dm3ConfigSysHardwareTempAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the System Hardware Temperature Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigSystem 7 }
dm3ConfigSysRemoteAccess OBJECT-TYPE
SYNTAX INTEGER {
accessEnabled (1),
accessDisabled (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"
This OID is used to disable remote write access to the power plant.
Setting this OID to accessEnabled (1) will have no affect.
Setting this OID to accessDisabled (2) will disable the ability to
remotely configure the DC powerplant.
Once remote access is disabled, it can only be restored from the front
panel of the DC power plant."
::= { dm3ConfigSystem 8 }
-- the dm3ConfigLVD group
dm3ConfigLVDTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant LVDs controllable
by this IP address."
::= { dm3ConfigLVD 1 }
dm3ConfigLVDTable OBJECT-TYPE
SYNTAX SEQUENCE OF ConfigLVDEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the LVDs. The number of
entries is contained in the dm3ConfigLVDTableSize OID."
::= { dm3ConfigLVD 2 }
dm3ConfigLVDEntry OBJECT-TYPE
SYNTAX ConfigLVDEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The LVD to configure."
INDEX { dm3ConfigLVDIndex }
::= { dm3ConfigLVDTable 1 }
ConfigLVDEntry ::=
SEQUENCE {
dm3ConfigLVDIndex INTEGER,
dm3ConfigLVDName DisplayString,
dm3ConfigLVDEnable INTEGER,
dm3ConfigLVDTripThresh INTEGER,
dm3ConfigLVDResetThresh INTEGER,
dm3ConfigLVDOpenAlarm INTEGER,
dm3ConfigLVDHWAlarm INTEGER
}
dm3ConfigLVDIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant LVD."
::= { dm3ConfigLVDEntry 1 }
dm3ConfigLVDName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the LVD. The maximum value is 16 characters."
::= { dm3ConfigLVDEntry 2 }
dm3ConfigLVDEnable OBJECT-TYPE
SYNTAX INTEGER {
enabledYes (1),
enabledNo (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This OID is used to control and indicate if the LVD is on or off.
Setting this OID to enabledYes (1) will enable (turn on) the LVD.
Setting this OID to enabledNo (2) will disable (turn off) the LVD."
::= { dm3ConfigLVDEntry 3 }
dm3ConfigLVDTripThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"LVD Trip threshold. If voltage exceeds threshold, the LVD will trip.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigLVDEntry 4 }
dm3ConfigLVDResetThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"LVD Reset threshold. If voltage exceeds threshold, the LVD will reset.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigLVDEntry 5 }
dm3ConfigLVDOpenAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the LVD Open Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigLVDEntry 6 }
dm3ConfigLVDHWAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the LVD Hardware Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigLVDEntry 7 }
-- the dm3ConfigBattery group
dm3ConfigBattFloatVolt OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery Float Voltage. This setting controls the power plant voltage.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 1 }
dm3ConfigBattMaxRecharge OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery Maximum Recharge Rate. This setting controls the battery max
recharge rate. The value is based on C/20 for 240 AHr battery string.
Values are represented in thousandths of Amps (mA).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 2 }
dm3ConfigBattDischargeThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery discharge threshold. If battery output current exceeds threshold
a battery discharge alarm will occur.
Values are represented in thousandths of Amps (mA).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 3 }
dm3ConfigBattDischargeAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery Discharge Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 4 }
dm3ConfigBattHighVoltThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery high voltage threshold. If system battery voltage exceeds threshold
a battery high voltage alarm will occur.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 5 }
dm3ConfigBattHighVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery High Voltage Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 6 }
dm3ConfigBattLowVoltThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery low voltage threshold. If system battery voltage is under threshold
a battery low voltage alarm will occur.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 7 }
dm3ConfigBattLowVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery Low Voltage Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 8 }
dm3ConfigBattHighTempThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery high temperature threshold. If system battery temperature exceeds threshold
a battery high temperature alarm will occur.
Values are represented in thousandths of degrees Celcius (mdegC).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 9 }
dm3ConfigBattHighTempAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery High Temperature Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 10 }
dm3ConfigBattLowTempThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery low temperature threshold. If system battery temperature is under threshold
a battery low temperature alarm will occur.
Values are represented in thousandths of degrees Celcius (mdegC).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 11 }
dm3ConfigBattLowTempAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery Low Temperature Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 12 }
dm3ConfigBattAmpHour OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery Amp-Hour Size. Units are thousandths of Amp hours (mAHr).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 13 }
dm3ConfigCompMethod OBJECT-TYPE
SYNTAX INTEGER {
tempcompOn (1),
tempcompOff (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This OID is used to configure and get the state of the battery
temperature compensation.
Setting this OID to tempcompOn (1) will enable/turn on the battery temperature compensation.
Setting this OID to tempcompOff (2) will disable/turn off the battery temperature compensation."
::= { dm3ConfigBattery 14 }
dm3ConfigCompTempCoeff OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Compensation Temperature Coefficient. (uV/degC/cell).
Units are presented in microvolts.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 15 }
dm3ConfigHighKneeTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"High Knee for temperature compensation: Compensation temperature coefficient
becomes 0mV/degC/cell.
Values are represented in thousandths of degrees Celcius.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 16 }
dm3ConfigLowKneeTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Low Knee for temperature compensation: Compensation temperature coefficient
becomes 0mV/degC/cell.
Values are represented in thousandths of degrees Celcius.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigBattery 17 }
dm3ConfigBattHwCurrentAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery Current Hardware Alarm (indicating current is outside realistic
limits, or a possible measurement fault;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 18 }
dm3ConfigBattHwTempAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Battery Temperature Hardware Alarm (indicating temperature is outside realistic
limits, or a possible measurement fault;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBattery 19 }
-- the dm3ConfigRectThresh group
dm3ConfigRectHighVoltThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier high voltage threshold. If rectifier voltage exceeds threshold
a rectifier high voltage alarm will occur.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigRectThresh 1 }
dm3ConfigRectLowVoltThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier low voltage threshold. If rectifier voltage is under threshold
a rectifier low voltage alarm will occur.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigRectThresh 2 }
dm3ConfigRectFailSafe OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier Fail Safe point. This OID represents the value sent to rectifier controllers
to use in the event of communications loss with the Master Controller or Master Controller
board failure.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigRectThresh 3 }
dm3ConfigRectFailComm OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier Communication Fail timeout. This OID represents the time interval in which there is no
communication between the rectifier and the master controller at which the rectifier will reset
all its values to default.
Values are represented in hundredths of Seconds.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigRectThresh 4 }
-- the dm3ConfigRectAlarms group
dm3ConfigRectHighVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier High Voltage Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 1 }
dm3ConfigRectLowVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Low Voltage Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 2 }
dm3ConfigRectConfigAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This alarm is activated when a new rectifier is detected;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 3 }
dm3ConfigRect1ofNAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This setting indicates the action if ONE rectifier of a N+1 system has failed;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 4 }
dm3ConfigRect2ofNAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This setting indicates the action if TWO OR MORE rectifiers of a N+1 system have failed;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 5 }
dm3ConfigRectDiagAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Controller Diagnostics Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
::= { dm3ConfigRectAlarms 6 }
dm3ConfigRectImbalanceAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Imbalance Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 7 }
dm3ConfigRectCurrLimitAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Current Limit Alarm (indicating rectifier in the Current Limit state);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
::= { dm3ConfigRectAlarms 8 }
dm3ConfigRectStandbyAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Standby Alarm (indicating output DC has ben turned off);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
::= { dm3ConfigRectAlarms 9 }
dm3ConfigRectFanFailAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Fan Fail Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
::= { dm3ConfigRectAlarms 10 }
dm3ConfigRectFailAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Fail Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
::= { dm3ConfigRectAlarms 11 }
dm3ConfigRectHwVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Rectifier Hardware Voltage Alarm (indicating voltage outside realistic limits,
or a possible measurement fault);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigRectAlarms 12 }
-- the dm3ConfigConvThresh group
dm3ConfigConvHighVoltThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter high voltage threshold. If converter voltage exceeds threshold
a converter high voltage alarm will occur.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 1 }
dm3ConfigConvLowVoltThresh OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter low voltage threshold. If converter voltage exceeds threshold
a converter low voltage alarm will occur.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 2 }
dm3ConfigConvFailSafe OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter Fail Safe point. This OID represents the value sent to converter controllers
to use in the event of communications loss with the Master Controller or Master Controller
board failure.
Values are represented in thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 3 }
dm3ConfigConvSetPoint OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter Set point. This OID represents the initial set point used in the
voltage control loop.
Units are thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 4 }
dm3ConfigConvFailMax OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter Fail Maximum limit. This OID represents the value sent to the converter
controllers to define the maximum set point allowed.
Units are thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 5 }
dm3ConfigConvFailMin OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter Fail Minimum limit. This OID represents the value sent to the converter
controllers to define the minimum set point allowed.
Units are thousandths of Volts (mV).
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 6 }
dm3ConfigConvFailComm OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Converter Communication Fail timeout. This OID represents the time interval in which there is no
communication between the converter and the master controller at which the converter will reset
all its values to default.
Values are represented in hundredths of Seconds.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigConvThresh 7 }
-- the dm3ConfigConvAlarms group
dm3ConfigConvHighVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter High Voltage Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigConvAlarms 1 }
dm3ConfigConvLowVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Low Voltage Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigConvAlarms 2 }
dm3ConfigConvConfigAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Configuration Alarm (indicating a new converter has been detected);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigConvAlarms 3 }
dm3ConfigConv1ofNAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter 1ofN Alarm (indicating action if ONE converter of a N+1 system has failed);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigConvAlarms 4 }
dm3ConfigConv2ofNAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter 2ofN Alarm (indicating action if TWO OR MORE converters of a N+1 system has failed);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigConvAlarms 5 }
dm3ConfigConvDiagAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Diagnostics Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 6 }
dm3ConfigConvImbalanceAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Imbalance Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 7 }
dm3ConfigConvCurrLimitAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Current Limit Alarm (indicating the converter is in the Current Limit state);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 8 }
dm3ConfigConvStandbyAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Standby Alarm (indicating the converter is in the Standby state);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 9 }
dm3ConfigConvFanFailAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Fan Fail Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 10 }
dm3ConfigConvFailAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Fail Alarm;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 11 }
dm3ConfigConvHwVoltAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9),
alarmNofN (10)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"For the Converter Voltage Alarm (indicating voltage outside realistic limits, or a
possible measurement fault);
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
::= { dm3ConfigConvAlarms 12 }
-- the dm3ConfigOutputRelays group
dm3ConfigOutRlyTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant Output Relays controllable
by this IP address."
::= { dm3ConfigOutputRelays 1 }
dm3ConfigOutRlyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ConfigOutRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the Output Relays. The number of
entries is contained in the dm3ConfigOutRlyTableSize OID."
::= { dm3ConfigOutputRelays 2 }
dm3ConfigOutRlyEntry OBJECT-TYPE
SYNTAX ConfigOutRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The output relay to configure."
INDEX { dm3ConfigOutRlyIndex }
::= { dm3ConfigOutRlyTable 1 }
ConfigOutRlyEntry ::=
SEQUENCE {
dm3ConfigOutRlyIndex INTEGER,
dm3ConfigOutRlyName DisplayString,
dm3ConfigOutRlyDelay INTEGER,
dm3ConfigOutRlyAlarm INTEGER
}
dm3ConfigOutRlyIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant output relay."
::= { dm3ConfigOutRlyEntry 1 }
dm3ConfigOutRlyName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the output relay. The maximum value is 16 characters."
::= { dm3ConfigOutRlyEntry 2 }
dm3ConfigOutRlyDelay OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Output Relay Delay. This OID represents the time delay from the initiation of an
output relay action to when the output relay action does occur. If the alarm condition
disappears before the end of the delay, no action will occur. Delay for Major
and Minor alarms is not configurable and is always set to 0.
Values are represented in hundredths of seconds.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigOutRlyEntry 3 }
dm3ConfigOutRlyAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Output Relay Alarm. This setting indiates what action to perform in the event of
an output relay alarm condition;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition.
Relay Alarm for Major and Minor alarms is not configurable and is always set to
alarmMajor and alarmMinor respectively."
::= { dm3ConfigOutRlyEntry 4 }
-- the dm3ConfigInputRelays group
dm3ConfigInRlyTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant Input Relays controllable
by this IP address."
::= { dm3ConfigInputRelays 1 }
dm3ConfigInRlyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ConfigInRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the Input Relays. The number of
entries is contained in the dm3ConfigInRlyTableSize OID."
::= { dm3ConfigInputRelays 2 }
dm3ConfigInRlyEntry OBJECT-TYPE
SYNTAX ConfigInRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The input relay to configure."
INDEX { dm3ConfigInRlyIndex }
::= { dm3ConfigInRlyTable 1 }
ConfigInRlyEntry ::=
SEQUENCE {
dm3ConfigInRlyIndex INTEGER,
dm3ConfigInRlyName DisplayString,
dm3ConfigInRlyDelay INTEGER,
dm3ConfigInRlyAlarm INTEGER
}
dm3ConfigInRlyIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant input relay."
::= { dm3ConfigInRlyEntry 1 }
dm3ConfigInRlyName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the input relay. The maximum value is 16 characters."
::= { dm3ConfigInRlyEntry 2 }
dm3ConfigInRlyDelay OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Input Relay Delay. This OID represents the time delay from the initiation of an
input relay action to when the input relay action does occur. If the alarm condition
disappears before the end of the delay, no action will occur.
Values are represented in hundredths of seconds.
Attempts to set the value above or below the acceptable range of the powerplant
will cause the value to be set at the high or low point of the range respectively."
::= { dm3ConfigInRlyEntry 3 }
dm3ConfigInRlyAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Input Relay Alarm. This setting indiates what action to perform in the event of
an input relay alarm condition;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigInRlyEntry 4 }
-- the dm3ConfigBreakers group
dm3ConfigBreakersTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant circuit breakers controllable
by this IP address."
::= { dm3ConfigBreakers 1 }
dm3ConfigBreakersTable OBJECT-TYPE
SYNTAX SEQUENCE OF ConfigBreakersEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the circuit breakers. The number of
entries is contained in the dm3ConfigBreakersTableSize OID."
::= { dm3ConfigBreakers 2 }
dm3ConfigBreakersEntry OBJECT-TYPE
SYNTAX ConfigBreakersEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The circuit breaker to configure."
INDEX { dm3ConfigBreakersIndex }
::= { dm3ConfigBreakersTable 1 }
ConfigBreakersEntry ::=
SEQUENCE {
dm3ConfigBreakersIndex INTEGER,
dm3ConfigBreakersName DisplayString,
dm3ConfigBreakersAlarm INTEGER
}
dm3ConfigBreakersIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant circuit breaker."
::= { dm3ConfigBreakersEntry 1 }
dm3ConfigBreakersName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the circuit breaker. The maximum value is 16 characters."
::= { dm3ConfigBreakersEntry 2 }
dm3ConfigBreakersAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Circuit Breaker Alarm. This setting indiates what action to perform in the event of
a circuit breaker alarm condition;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigBreakersEntry 3 }
-- the dm3ConfigFuses group
dm3ConfigFusesTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant Fuses controllable
by this IP address."
::= { dm3ConfigFuses 1 }
dm3ConfigFusesTable OBJECT-TYPE
SYNTAX SEQUENCE OF ConfigFusesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the Fuses. The number of
entries is contained in the dm3ConfigFusesTableSize OID."
::= { dm3ConfigFuses 2 }
dm3ConfigFusesEntry OBJECT-TYPE
SYNTAX ConfigFusesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The fuse to configure."
INDEX { dm3ConfigFusesIndex }
::= { dm3ConfigFusesTable 1 }
ConfigFusesEntry ::=
SEQUENCE {
dm3ConfigFusesIndex INTEGER,
dm3ConfigFusesName DisplayString,
dm3ConfigFusesAlarm INTEGER
}
dm3ConfigFusesIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant fuse."
::= { dm3ConfigFusesEntry 1 }
dm3ConfigFusesName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The name of the fuse. The maximum value is 16 characters."
::= { dm3ConfigFusesEntry 2 }
dm3ConfigFusesAlarm OBJECT-TYPE
SYNTAX INTEGER {
alarmIgnore (1),
alarmRelay1 (2),
alarmRelay2 (3),
alarmRelay3 (4),
alarmRelay4 (5),
alarmRelay5 (6),
alarmRelay6 (7),
alarmMinor (8),
alarmMajor (9)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Fuses Alarm. This setting indiates what action to perform in the event of
a Fuse alarm condition;
Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
alarm condition.
Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
alarm condition.
Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
alarm condition.
Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
alarm condition.
Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
alarm condition.
Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
alarm condition.
Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
alarm condition."
::= { dm3ConfigFusesEntry 3 }
-- the dm3StatusSystem group
dm3StatusSystemTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"System temperature based on sensor on Master Controller PCB.
Units are thousandths of degrees, Celcius (mdegC)"
::= { dm3StatusSystem 1 }
dm3StatusSystemStart OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Time stamp at DC powerplant initialization.
The time is represented as MMM,DD,YYYY,HH:MM:SS."
::= { dm3StatusSystem 2 }
dm3StatusSysRemoteAccess OBJECT-TYPE
SYNTAX INTEGER {
accessEnabled (1),
accessDisabled (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Remote Access indicator
This setting indicates if configuration (write) access to the powerplant is enabled or
disabled at the powerplant level.
This value will be accessEnabled (1) if remote configuration is enabled, and
accessDisabled (2) if remote configuration is disabled."
::= { dm3StatusSystem 3 }
dm3StatusSysSecurityLevel OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable shows the current active security access level of controller. This
can only be changed directly from the front panel."
::= { dm3StatusSystem 4 }
dm3StatusSysTempSanity OBJECT-TYPE
SYNTAX INTEGER{
saneYES (1),
saneNO (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"System temperature sanity indicator. Indicates if the system temperature is
reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
indicates temperature is reasonable, a value of saneNo (2) indicates it is not."
::= { dm3StatusSystem 5 }
dm3StatusSysAlarmState OBJECT-TYPE
SYNTAX INTEGER{
alarmMinor (1),
alarmMajor (2),
alarmBoth (3),
alarmNone (4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"System Alarm State. Reflects the alarm status of the overall DC system.
If a minor alarm is present, the value will be alarmMinor(1).
If a major alarm is present, the value will be alarmMajor(2).
If both minor and a major alarm is present, the value will be alarmBoth(3).
If no alarm is present, the value will be alarmNone(4)."
::= { dm3StatusSystem 6 }
-- the dm3StatusAlarms group
dm3StatusAlarmsTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant alarms viewable
by this IP address."
::= { dm3StatusAlarms 1 }
dm3StatusAlarmsTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusAlarmsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing system alarms. The number of
entries is contained in the dm3StatusAlarmsTableSize OID."
::= { dm3StatusAlarms 2 }
dm3StatusAlarmsEntry OBJECT-TYPE
SYNTAX StatusAlarmsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The alarm to display."
INDEX { dm3StatusAlarmsIndex }
::= { dm3StatusAlarmsTable 1 }
StatusAlarmsEntry ::=
SEQUENCE {
dm3StatusAlarmsIndex INTEGER,
dm3StatusAlarmsText DisplayString
}
dm3StatusAlarmsIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of the system alarm."
::= { dm3StatusAlarmsEntry 1 }
dm3StatusAlarmsText OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The 16 character text describing the active alarm condition."
::= { dm3StatusAlarmsEntry 2 }
-- the dm3StatusBattery group
dm3StatusBattCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery Current: This OID shows the battery current in thousandths of Amps (mA)."
::= { dm3StatusBattery 1 }
dm3StatusBattTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery Temperature: This OID shows the battery temperature in thousandths of degrees Celcius (mdegC)."
::= { dm3StatusBattery 2 }
dm3StatusBattCurrentSanity OBJECT-TYPE
SYNTAX INTEGER{
saneYES (1),
saneNO (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery current sanity indicator. Indicates if the battery current is
reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
indicates current is reasonable, a value of saneNo (2) indicates it is not."
::= { dm3StatusBattery 3 }
dm3StatusBattTempSanity OBJECT-TYPE
SYNTAX INTEGER{
saneYES (1),
saneNO (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery temperature sanity indicator. Indicates if the battery temperature is
reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
indicates temperature is reasonable, a value of saneNo (2) indicates it is not."
::= { dm3StatusBattery 4 }
-- the dm3StatusOEM group
dm3StatusOEMrectOffset OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier offset value in thousandths of Volts (mV)."
::= { dm3StatusOEM 1 }
dm3StatusOEMrectGain OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier gain value in thousandths of Volts (mV/V)."
::= { dm3StatusOEM 2 }
dm3StatusOEMconvOffset OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter offset value in thousandths of Volts (mV)."
::= { dm3StatusOEM 3 }
dm3StatusOEMconvGain OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter gain value in thousandths of Volts (mV/V)."
::= { dm3StatusOEM 4 }
dm3StatusOEMshuntOffset OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the shunt offset value in thousandths of Amps (mA)."
::= { dm3StatusOEM 5 }
dm3StatusOEMshuntGain OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the shunt gain value in thousandths of Amps (mA/A)."
::= { dm3StatusOEM 6 }
-- the dm3StatusLVD group
dm3StatusLVDTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant LVDs viewable
by this IP address."
::= { dm3StatusLVD 1 }
dm3StatusLVDTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusLVDEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the LVDs. The number of
entries is contained in the dm3StatusLVDTableSize OID."
::= { dm3StatusLVD 2 }
dm3StatusLVDEntry OBJECT-TYPE
SYNTAX StatusLVDEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The LVD to gather status from."
INDEX { dm3StatusLVDIndex }
::= { dm3StatusLVDTable 1 }
StatusLVDEntry ::=
SEQUENCE {
dm3StatusLVDIndex INTEGER,
dm3StatusLVDName DisplayString,
dm3StatusLVDState INTEGER,
dm3StatusLVDHwFault INTEGER
}
dm3StatusLVDIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant LVD."
::= { dm3StatusLVDEntry 1 }
dm3StatusLVDName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the LVD. The maximum size is
16 characters. The name is set by using the
dm3ConfigLVDName OID.
This OID is provided for informational purposes only."
::= { dm3StatusLVDEntry 2 }
dm3StatusLVDState OBJECT-TYPE
SYNTAX INTEGER {
statusClosed (1),
statusOpened (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusClosed (1) if the LVD is closed.
statusOpened (2) will be returned if the LVD is opened."
::= { dm3StatusLVDEntry 3 }
dm3StatusLVDHwFault OBJECT-TYPE
SYNTAX INTEGER {
statusFault (1),
statusNofault (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusFault (1) if the LVD is faulted.
statusNofault (2) will be returned if the LVD is not faulted."
::= { dm3StatusLVDEntry 4 }
-- the dm3StatusRectifier group
dm3StatusRectTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant rectifiers viewable
by this IP address."
::= { dm3StatusRectifier 1 }
dm3StatusRectTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusRectEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for accessing settings of the rectifiers. The number of
entries is contained in the dm3StatusRectTableSize OID."
::= { dm3StatusRectifier 2 }
dm3StatusRectEntry OBJECT-TYPE
SYNTAX StatusRectEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The rectifier to gather status from."
INDEX { dm3StatusRectIndex }
::= { dm3StatusRectTable 1 }
StatusRectEntry ::=
SEQUENCE {
dm3StatusRectIndex INTEGER,
dm3StatusRectID INTEGER,
dm3StatusRectDesc DisplayString,
dm3StatusRectCurrent INTEGER,
dm3StatusRectCurrentLimit INTEGER,
dm3StatusRectStandby INTEGER,
dm3StatusRectFanFail INTEGER,
dm3StatusRectFail INTEGER,
dm3StatusRectDevType INTEGER,
dm3StatusRectPhyAddr INTEGER,
dm3StatusRectCfg INTEGER,
dm3StatusRectPcbRev INTEGER,
dm3StatusRectFwVer INTEGER,
dm3StatusRectPresent INTEGER,
dm3StatusRectDiagPass INTEGER,
dm3StatusRectState INTEGER
}
dm3StatusRectIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant rectifier."
::= { dm3StatusRectEntry 1 }
dm3StatusRectID OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier ID. This enumerates the number of the rectifier within
a group of rectifiers."
::= { dm3StatusRectEntry 2 }
dm3StatusRectDesc OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the 16-character rectifier description."
::= { dm3StatusRectEntry 3 }
dm3StatusRectCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier current in thousandths of Amps (mA)."
::= { dm3StatusRectEntry 4 }
dm3StatusRectCurrentLimit OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier is in the Current Limit state.
statusFalse (2) will be returned if the rectifier is not in the Current Limit state."
::= { dm3StatusRectEntry 5 }
dm3StatusRectStandby OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier is in the Standby state.
statusFalse (2) will be returned if the rectifier is not in the Standby state."
::= { dm3StatusRectEntry 6 }
dm3StatusRectFanFail OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier Fan has failed.
statusFalse (2) will be returned if the rectifier Fan has not failed."
::= { dm3StatusRectEntry 7 }
dm3StatusRectFail OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier has failed.
statusFalse (2) will be returned if the rectifier has not failed."
::= { dm3StatusRectEntry 8 }
dm3StatusRectDevType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier device type."
::= { dm3StatusRectEntry 9 }
dm3StatusRectPhyAddr OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier physical address (the address on the bus)."
::= { dm3StatusRectEntry 10 }
dm3StatusRectCfg OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier is present after
power-up or set-configuration.
statusFalse (2) will be returned if the rectifier is not configured."
::= { dm3StatusRectEntry 11 }
dm3StatusRectPcbRev OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier device PCB serial number."
::= { dm3StatusRectEntry 12 }
dm3StatusRectFwVer OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier device firmware revision."
::= { dm3StatusRectEntry 13 }
dm3StatusRectPresent OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier is present.
statusFalse (2) will be returned if the rectifier is not present."
::= { dm3StatusRectEntry 14 }
dm3StatusRectDiagPass OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier diagnostics have passed.
statusFalse (2) will be returned if the rectifier diagnostics have not passed."
::= { dm3StatusRectEntry 15 }
dm3StatusRectState OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the rectifier device state as defined by the device status register."
::= { dm3StatusRectEntry 16 }
dm3StatusSysRectVoltSanity OBJECT-TYPE
SYNTAX INTEGER {
saneYES (1),
saneNO (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Rectifier voltage sanity indicator. Indicates if the rectifier voltage is
reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
indicates voltage is reasonable, a value of saneNo (2) indicates it is not."
::= { dm3StatusRectifier 3 }
dm3StatusSysRectAvailable OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the rectifier is available.
statusFalse (2) will be returned if the rectifier is not available."
::= { dm3StatusRectifier 4 }
dm3StatusSysRectType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the type of rectifier the system has. There can only be a single type of
rectifier in the power plant"
::= { dm3StatusRectifier 5 }
dm3StatusSysRectVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the system level rectifier voltage in thousandths of Volts (mV)."
::= { dm3StatusRectifier 6 }
dm3StatusSysRectCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the system level rectifier current in thousandths of Amps (mA)."
::= { dm3StatusRectifier 7 }
-- the dm3StatusConverter group
dm3StatusConvTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant converters viewable
by this IP address."
::= { dm3StatusConverter 1 }
dm3StatusConvTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusConvEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for viewing status of the converters. The number of
entries is contained in the dm3StatusConvTableSize OID."
::= { dm3StatusConverter 2 }
dm3StatusConvEntry OBJECT-TYPE
SYNTAX StatusConvEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The converter to gather status from."
INDEX { dm3StatusConvIndex }
::= { dm3StatusConvTable 1 }
StatusConvEntry ::=
SEQUENCE {
dm3StatusConvIndex INTEGER,
dm3StatusConvID INTEGER,
dm3StatusConvDesc DisplayString,
dm3StatusConvCurrent INTEGER,
dm3StatusConvCurrentLimit INTEGER,
dm3StatusConvStandby INTEGER,
dm3StatusConvFanFail INTEGER,
dm3StatusConvFail INTEGER,
dm3StatusConvDevType INTEGER,
dm3StatusConvPhyAddr INTEGER,
dm3StatusConvCfg INTEGER,
dm3StatusConvPcbRev INTEGER,
dm3StatusConvFwVer INTEGER,
dm3StatusConvPresent INTEGER,
dm3StatusConvDiagPass INTEGER,
dm3StatusConvState INTEGER
}
dm3StatusConvIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant converter."
::= { dm3StatusConvEntry 1 }
dm3StatusConvID OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter ID. This enumerates the number of the converter within
a group of converters."
::= { dm3StatusConvEntry 2 }
dm3StatusConvDesc OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the 16 character converter description."
::= { dm3StatusConvEntry 3 }
dm3StatusConvCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter current in thousandths of Amps (mA)."
::= { dm3StatusConvEntry 4 }
dm3StatusConvCurrentLimit OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter is in the Current Limit state.
statusFalse (2) will be returned if the converter is not in the Current Limit state."
::= { dm3StatusConvEntry 5 }
dm3StatusConvStandby OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter is in the Standby state.
statusFalse (2) will be returned if the converter is not in the Standby state."
::= { dm3StatusConvEntry 6 }
dm3StatusConvFanFail OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter Fan has failed.
statusFalse (2) will be returned if the converter Fan has not failed."
::= { dm3StatusConvEntry 7 }
dm3StatusConvFail OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter has failed.
statusFalse (2) will be returned if the converter has not failed."
::= { dm3StatusConvEntry 8 }
dm3StatusConvDevType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter device type."
::= { dm3StatusConvEntry 9 }
dm3StatusConvPhyAddr OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter physical address (the address on the bus)."
::= { dm3StatusConvEntry 10 }
dm3StatusConvCfg OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter is present after
power-up or set-configuration.
statusFalse (2) will be returned if the converter is not configured."
::= { dm3StatusConvEntry 11 }
dm3StatusConvPcbRev OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter device PCB serial number."
::= { dm3StatusConvEntry 12 }
dm3StatusConvFwVer OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter device firmware version."
::= { dm3StatusConvEntry 13 }
dm3StatusConvPresent OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter is present.
statusFalse (2) will be returned if the converter is not present."
::= { dm3StatusConvEntry 14 }
dm3StatusConvDiagPass OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter diagnostics have passed.
statusFalse (2) will be returned if the converter diagnostics have not passed."
::= { dm3StatusConvEntry 15 }
dm3StatusConvState OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter state as defined by the device status register."
::= { dm3StatusConvEntry 16 }
dm3StatusSysConvVoltSanity OBJECT-TYPE
SYNTAX INTEGER{
saneYES (1),
saneNO (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Converter voltage sanity indicator. Indicates if the converter voltage is
reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
indicates voltage is reasonable, a value of saneNo (2) indicates it is not."
::= { dm3StatusConverter 3 }
dm3StatusSysConvAvailable OBJECT-TYPE
SYNTAX INTEGER {
statusTrue (1),
statusFalse (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusTrue (1) if the converter is available.
statusFalse (2) will be returned if the converter is not available."
::= { dm3StatusConverter 4 }
dm3StatusSysConvType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the converter type."
::= { dm3StatusConverter 5 }
dm3StatusSysConvVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the system level converter voltage in thousandths of volts (mV)."
::= { dm3StatusConverter 6 }
dm3StatusSysConvCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This OID shows the system level converter current in thousandths of Amps (mA)."
::= { dm3StatusConverter 7 }
-- the dm3StatusOutputRelays group
dm3StatusOutRlyTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant output relays viewable
by this IP address."
::= { dm3StatusOutputRelays 1 }
dm3StatusOutRlyTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusOutRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for viewing status of the output relays. The number of
entries is contained in the dm3StatusOutRlyTableSize OID."
::= { dm3StatusOutputRelays 2 }
dm3StatusOutRlyEntry OBJECT-TYPE
SYNTAX StatusOutRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The output relay to gather status from."
INDEX { dm3StatusOutRlyIndex }
::= { dm3StatusOutRlyTable 1 }
StatusOutRlyEntry ::=
SEQUENCE {
dm3StatusOutRlyIndex INTEGER,
dm3StatusOutRlyName DisplayString,
dm3StatusOutRlyStatus INTEGER
}
dm3StatusOutRlyIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant output relay."
::= { dm3StatusOutRlyEntry 1 }
dm3StatusOutRlyName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the output relay. The maximum size is
16 characters. The name is set by using the
dm3ConfigOutRlyName OID.
This OID is provided for informational purposes only."
::= { dm3StatusOutRlyEntry 2 }
dm3StatusOutRlyStatus OBJECT-TYPE
SYNTAX INTEGER {
statusOn (1),
statusOff (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusOn (1) if the output relay is enabled/on.
statusOff (2) will be returned if the output relay is disabled/off."
::= { dm3StatusOutRlyEntry 3 }
-- the dm3StatusInputRelays group
dm3StatusInRlyTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant input relays viewable
by this IP address."
::= { dm3StatusInputRelays 1 }
dm3StatusInRlyTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusInRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for viewing status of the input relays. The number of
entries is contained in the dm3StatusInRlyTableSize OID."
::= { dm3StatusInputRelays 2 }
dm3StatusInRlyEntry OBJECT-TYPE
SYNTAX StatusInRlyEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The input relays to gather status from."
INDEX { dm3StatusInRlyIndex }
::= { dm3StatusInRlyTable 1 }
StatusInRlyEntry ::=
SEQUENCE {
dm3StatusInRlyIndex INTEGER,
dm3StatusInRlyName DisplayString,
dm3StatusInRlyStatus INTEGER
}
dm3StatusInRlyIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant input relay."
::= { dm3StatusInRlyEntry 1 }
dm3StatusInRlyName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the input relay. The maximum size is
16 characters. The name is set by using the
dm3ConfigInRlyName OID.
This OID is provided for informational purposes only."
::= { dm3StatusInRlyEntry 2 }
dm3StatusInRlyStatus OBJECT-TYPE
SYNTAX INTEGER {
statusOn (1),
statusOff (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusOn (1) if the input relay is enabled/on.
statusOff (2) will be returned if the input relay is disabled/off."
::= { dm3StatusInRlyEntry 3 }
-- the dm3StatusBreakers group
dm3StatusBreakersTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant circuit breakers viewable
by this IP address."
::= { dm3StatusBreakers 1 }
dm3StatusBreakersTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusBreakersEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for viewing status of the circuit breakers. The number of
entries is contained in the dm3StatusBreakersTableSize OID."
::= { dm3StatusBreakers 2 }
dm3StatusBreakersEntry OBJECT-TYPE
SYNTAX StatusBreakersEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The circuit breaker to gather status from."
INDEX { dm3StatusBreakersIndex }
::= { dm3StatusBreakersTable 1 }
StatusBreakersEntry ::=
SEQUENCE {
dm3StatusBreakersIndex INTEGER,
dm3StatusBreakersName DisplayString,
dm3StatusBreakersStatus INTEGER
}
dm3StatusBreakersIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant circuit breaker."
::= { dm3StatusBreakersEntry 1 }
dm3StatusBreakersName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the circuit breaker. The maximum size is
16 characters. The name is set by using the
dm3ConfigBreakersName OID.
This OID is provided for informational purposes only."
::= { dm3StatusBreakersEntry 2 }
dm3StatusBreakersStatus OBJECT-TYPE
SYNTAX INTEGER {
statusClosed (1),
statusOpen (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusClosed (1) if the circuit breaker is closed.
statusOpen (2) will be returned if the circuit breaker is open."
::= { dm3StatusBreakersEntry 3 }
-- the dm3StatusFuses group
dm3StatusFusesTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant fuses controllable
by this IP address."
::= { dm3StatusFuses 1 }
dm3StatusFusesTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusFusesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for viewing status of the fuses. The number of
entries is contained in the dm3StatusFusesTableSize OID."
::= { dm3StatusFuses 2 }
dm3StatusFusesEntry OBJECT-TYPE
SYNTAX StatusFusesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The fuse to gather status from."
INDEX { dm3StatusFusesIndex }
::= { dm3StatusFusesTable 1 }
StatusFusesEntry ::=
SEQUENCE {
dm3StatusFusesIndex INTEGER,
dm3StatusFusesName DisplayString,
dm3StatusFusesStatus INTEGER
}
dm3StatusFusesIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant fuse."
::= { dm3StatusFusesEntry 1 }
dm3StatusFusesName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The name of the fuse. The maximum size is
16 characters. The name is set by using the
dm3ConfigFuseName OID.
This OID is provided for informational purposes only."
::= { dm3StatusFusesEntry 2 }
dm3StatusFusesStatus OBJECT-TYPE
SYNTAX INTEGER {
statusClosed (1),
statusOpen (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Getting this OID will return statusClosed (1) if the fuse is closed.
statusOpen (2) will be returned if the fuse is open."
::= { dm3StatusFusesEntry 3 }
-- the atsIdent group
atsIdentHardwareRev OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The hardware version of the Automatic Transfer Switch.
This value is set at the factory."
::= { atsIdent 1 }
atsIdentFirmwareRev OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A string identifying the Automatic Transfer Switch
firmware version."
::= { atsIdent 2 }
atsIdentFirmwareDate OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The date of release for this Automatic Transfer Switch
firmware version. "
::= { atsIdent 3 }
atsIdentDateOfManufacture OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The date when the Automatic Transfer Switch was manufactured in mm/dd/yyyy format.
This value is set at the factory. "
::= { atsIdent 4 }
atsIdentModelNumber OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A string identifying the model number of the Automatic Transfer Switch.
This value is set at the factory."
::= { atsIdent 5 }
atsIdentSerialNumber OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A string identifying the serial number of
the Automatic Transfer Switch. This value is set at the factory."
::= { atsIdent 6 }
atsIdentNominalLineVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"RMS Utility Voltage measured in V."
::= { atsIdent 7 }
atsIdentNominalLineFrequency OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Utility Power Frequency measured in Hz."
::= { atsIdent 8 }
-- the atsCalibration group
-- Input Voltage Calibration Factor table
atsCalibrationNumInputs OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of inputs to this device."
::= { atsCalibrationInput 1 }
atsCalibrationNumInputPhases OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of phases per input for this device."
::= { atsCalibrationInput 2 }
atsCalibrationInputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSCalibrationInputPhaseEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The number of phases per input line to this device."
::= { atsCalibrationInput 3 }
atsCalibrationInputPhaseEntry OBJECT-TYPE
SYNTAX ATSCalibrationInputPhaseEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing calibration information applicable to a
particular input phase."
INDEX { atsCalibrationInputTableIndex, atsCalibrationInputPhaseTableIndex }
::= { atsCalibrationInputTable 1 }
ATSCalibrationInputPhaseEntry ::= SEQUENCE {
atsCalibrationInputTableIndex INTEGER,
atsCalibrationInputPhaseTableIndex INTEGER,
atsLineVoltageCalibrationFactor INTEGER
}
atsCalibrationInputTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input identifier."
::= { atsCalibrationInputPhaseEntry 1 }
atsCalibrationInputPhaseTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input phase identifier."
::= { atsCalibrationInputPhaseEntry 2 }
atsLineVoltageCalibrationFactor OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Line Voltage Calibration factor.
This value is set at the factory."
::= { atsCalibrationInputPhaseEntry 3 }
-- Power Supply Voltage Calibration table
atsCalibrationPowerSupplyVoltages OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of power supply voltages supported by this device.
This variable indicates the number of rows in the
atsCalibrationPowerSupplyTable. There is one entry per
supported voltage: 24V, 12V and 5V"
::= { atsCalibrationPowerSupply 1 }
atsCalibrationPowerSupplyVoltageTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSCalibrationPowerSupplyVoltageEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of Power Supply table entries."
::= { atsCalibrationPowerSupply 2 }
atsCalibrationPowerSupplyVoltageEntry OBJECT-TYPE
SYNTAX ATSCalibrationPowerSupplyVoltageEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing information applicable to a
particular Power Supply Voltage."
INDEX { atsCalibrationPowerSupplyVoltageTableIndex }
::= { atsCalibrationPowerSupplyVoltageTable 1 }
ATSCalibrationPowerSupplyVoltageEntry ::= SEQUENCE {
atsCalibrationPowerSupplyVoltageTableIndex INTEGER,
atsCalibrationPowerSupplyVoltage INTEGER,
atsPowerSupplyVoltageCalibrationFactor INTEGER
}
atsCalibrationPowerSupplyVoltageTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The power supply voltage identifier.
Three power supply voltages are supported by the ATS:
24V , 12V and 5V .
The value of this index indicates the power supply voltage:
1 = 24V
2 = 12V
3 = 5V"
::= { atsCalibrationPowerSupplyVoltageEntry 1 }
atsCalibrationPowerSupplyVoltage OBJECT-TYPE
SYNTAX INTEGER {
powerSupply24V(1),
powerSupply12V(2),
powerSupply(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This value describes the power supply voltage."
::= { atsCalibrationPowerSupplyVoltageEntry 2 }
atsPowerSupplyVoltageCalibrationFactor OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Line Voltage Calibration factor.
This value is set at the factory."
::= { atsCalibrationPowerSupplyVoltageEntry 3 }
-- Output Current Calibration table
atsCalibrationNumOutputs OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of output lines from this device.
This variable indicates the number of rows in the
atsCalibrationOutputTable."
::= { atsCalibrationOutput 1 }
atsCalibrationNumOutputPhases OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of output phases utilized in this
device."
::= { atsCalibrationOutput 2 }
atsCalibrationOutputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSCalibrationOutputEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of output table entries."
::= { atsCalibrationOutput 3 }
atsCalibrationOutputEntry OBJECT-TYPE
SYNTAX ATSCalibrationOutputEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing information applicable to a
particular output."
INDEX { atsCalibrationOutputTableIndex, atsCalibrationOutputPhasesTableIndex }
::= { atsCalibrationOutputTable 1 }
ATSCalibrationOutputEntry ::= SEQUENCE {
atsCalibrationOutputTableIndex INTEGER,
atsCalibrationOutputPhasesTableIndex INTEGER,
atsOutputCurrentCalibrationFactor INTEGER
}
atsCalibrationOutputTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output identifier."
::= { atsCalibrationOutputEntry 1 }
atsCalibrationOutputPhasesTableIndex OBJECT-TYPE
SYNTAX INTEGER{
phase1(1),
phase2(2),
phase3(3),
neutral(4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Description of each calibration factor for each
output phase utilized in this device and one for neutral. "
::= { atsCalibrationOutputEntry 2 }
atsOutputCurrentCalibrationFactor OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output current calibration factor measured in Amps."
::= { atsCalibrationOutputEntry 3 }
-- the atsControl group
atsControlResetATS OBJECT-TYPE
SYNTAX INTEGER {
none(1),
reset(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this variable will cause the Automatic Transfer Switch to
perform a power-on reset."
::= { atsControl 1 }
atsControlClearAllAlarms OBJECT-TYPE
SYNTAX INTEGER {
none(1),
clear(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this variable will clear all alarms in the Automatic Transfer Switch."
::= { atsControl 2 }
-- the atsConfig group
atsConfigProductName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A configurable character string."
::= { atsConfig 1 }
atsConfigPreferredSource OBJECT-TYPE
SYNTAX INTEGER {
sourceA(1),
sourceB(2),
none(3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This variable returns the preferred source of power when both sources are OK."
::= { atsConfig 2 }
atsConfigFrontPanelLockout OBJECT-TYPE
SYNTAX INTEGER {
disableFrontPanel(1),
enableFrontPanel(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Setting this variable to disableFrontPanel(1) will disallow source
preference configuration of the Automatic Transfer Switch via the
Front Panel. Once this value is set, it can only be re-enabled through
the serial interface of the ATS.
When this variable is set to enableFrontPanel(2), source preference
configuration of the Automatic Transfer Switch via the Front Panel
is allowed."
::= { atsConfig 3 }
atsConfigVoltageSensitivity OBJECT-TYPE
SYNTAX INTEGER {
high(1),
low(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This variable defines the sensitivity to changes in voltage:
high(1) for best protection, low(2) for frequent small line
voltage changes."
::= { atsConfig 4 }
atsConfigTransferVoltageRange OBJECT-TYPE
SYNTAX INTEGER {
wide(1),
medium(2),
narrow(3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This variable defines the range of acceptable voltage from a power source.
If the voltage measured from the selected input source is not within this
range, the Automatic Transfer Switch will switch over (transfer) to the
alternate power source."
::= { atsConfig 5 }
atsConfigCurrentLimit OBJECT-TYPE
SYNTAX INTEGER (0..20)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The threshold (in Amps) at which an Over Current Alarm will be generated."
::= { atsConfig 6 }
atsConfigResetValues OBJECT-TYPE
SYNTAX INTEGER {
none(1),
reset(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Resets the ATS configuration to its default values."
::= { atsConfig 7 }
-- the atsStatus group
atsStatusCommStatus OBJECT-TYPE
SYNTAX INTEGER {
atsNeverDiscovered(1),
atsCommEstablished(2),
atsCommLost(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable returns the current communication status
of the Automatic Transfer Switch. "
::= { atsStatusDeviceStatus 1 }
atsStatusSelectedSource OBJECT-TYPE
SYNTAX INTEGER {
sourceA(1),
sourceB(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable returns the current source of power. "
::= { atsStatusDeviceStatus 2 }
atsStatusRedundancyState OBJECT-TYPE
SYNTAX INTEGER {
atsRedundancyLost(1),
atsFullyRedundant(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable returns the current redundancy state of the ATS.
atsRedundancyLost(1) indicates that the ATS is unable to
switch over to the alternate power source if the current source fails.
atsFullyRedundant(2) indicates that the ATS will switch over to
the alternate power source if the current source fails."
::= { atsStatusDeviceStatus 3 }
atsStatusOverCurrentState OBJECT-TYPE
SYNTAX INTEGER {
atsOverCurrent(1),
atsCurrentOK(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable returns the output current state of the ATS.
atsOverCurrent(1) indicates that the ATS has exceeded the output
current threshold and will not allow a switch over to the alternate power
source if the current source fails.
atsCurrentOK(2) indicates that the output current is below the
output current threshold."
::= { atsStatusDeviceStatus 4 }
atsStatus5VPowerSupply OBJECT-TYPE
SYNTAX INTEGER {
atsPowerSupplyFailure(1),
atsPowerSupplyOK(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable returns the current state of the ATS 5-volt power supply.
atsPowerSupplyFailure(1) indicates the 5-volt power supply has failed
and that the ATS serial port Configuration Menu is not accessible .
atsPowerSupplyOK(2) indicates that the ATS 5-volt power supply
is operating within tolerance."
::= { atsStatusDeviceStatus 5 }
atsStatus24VPowerSupply OBJECT-TYPE
SYNTAX INTEGER {
atsPowerSupplyFailure(1),
atsPowerSupplyOK(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This variable returns the current state of the ATS 24-volt power supply.
atsPowerSupplyFailure(1) indicates the 24-volt power supply has failed
and the ATS is unable to switch over to the alternate power source if
the current source fails.
atsPowerSupplyOK(2) indicates that the ATS 24-volt power supply
is operating within tolerance."
::= { atsStatusDeviceStatus 6 }
atsStatusResetMaxMinValues OBJECT-TYPE
SYNTAX INTEGER {
none(1),
reset(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Resets the maximum and minimum ATS values:
atsInputMaxVoltage, atsInputMinVoltage,
atsInputMaxCurrent, atsInputMinCurrent,
atsInputMaxPower, atsInputMinPower,
atsOutputMaxCurrent, atsOutputMinCurrent,
atsOutputMaxLoad, atsOutputMinLoad,
atsOutputMaxPercentLoad, atsOutputMinPercentLoad,
atsOutputMaxPower, atsOutputMinPower,
atsOutputMaxPercentPower, atsOutputMinPercentPower.
These variables represent the maximum and minimum ATS values
since the last time they were read or reset (atsResetMaxMinValues).
Values unsupported by this ATS will return (-1)."
::= { atsStatusResetValues 1 }
--
-- Input Group
--
-- Number of Inputs
atsNumInputs OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of input feeds to this device.
This variable indicates the number of rows in the
input table."
::= { atsStatusInput 1 }
-- Input Table
atsInputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSPhaseInputEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of input table entries. The number of entries
is given by the value of atsNumInputs."
::= { atsStatusInput 2 }
atsInputEntry OBJECT-TYPE
SYNTAX ATSPhaseInputEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing information applicable to a
particular input."
INDEX { atsInputTableIndex }
::= { atsInputTable 1 }
ATSPhaseInputEntry ::= SEQUENCE {
atsInputTableIndex INTEGER,
atsNumInputPhases INTEGER,
atsInputVoltageOrientation INTEGER,
atsInputFrequency INTEGER,
atsInputType INTEGER,
atsInputName DisplayString
}
atsInputTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input identifier."
::= { atsInputEntry 1 }
atsNumInputPhases OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of input phases utilized in this
device. The sum of all the atsNumInputPhases
variable indicates the number of rows in the
input phase table."
::= { atsInputEntry 2 }
atsInputVoltageOrientation OBJECT-TYPE
SYNTAX INTEGER {
unknown(1),
singlePhase(2),
splitPhase(3),
threePhasePhaseToNeutral(4),
threePhasePhaseToPhase(5)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input voltage orientation:
1: unknown for this Source
2: singlePhase - phase 1 voltage is between Phase 1
and Neutral.
3: splitPhase - phase 1 voltage is between Phase 1 and
Neutral; phase 2 voltage is between Phase 2 and Neutral;
phase 3 voltage is between Phase 1 and 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."
::= { atsInputEntry 3 }
atsInputFrequency OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input frequency in Hertz, or -1 if it's unsupported
by this Source."
::= { atsInputEntry 4 }
atsInputType OBJECT-TYPE
SYNTAX INTEGER {
unknown(1),
main(2),
bypass(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input type."
::= { atsInputEntry 5 }
atsInputName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A name given to a particular input."
::= { atsInputEntry 6 }
-- Input Phase Table
atsInputPhaseTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSPhaseInputPhaseEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of input table entries. The number of entries
is given by the sum of the atsNumInputPhases."
::= { atsStatusInput 3 }
atsInputPhaseEntry OBJECT-TYPE
SYNTAX ATSPhaseInputPhaseEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing information applicable to a
particular input phase."
INDEX { atsInputPhaseTableIndex, atsInputPhaseIndex }
::= { atsInputPhaseTable 1 }
ATSPhaseInputPhaseEntry ::= SEQUENCE {
atsInputPhaseTableIndex INTEGER,
atsInputPhaseIndex INTEGER,
atsInputVoltage INTEGER,
atsInputMaxVoltage INTEGER,
atsInputMinVoltage INTEGER,
atsInputCurrent INTEGER,
atsInputMaxCurrent INTEGER,
atsInputMinCurrent INTEGER,
atsInputPower INTEGER,
atsInputMaxPower INTEGER,
atsInputMinPower INTEGER
}
atsInputPhaseTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input identifier."
::= { atsInputPhaseEntry 1 }
atsInputPhaseIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input phase identifier."
::= { atsInputPhaseEntry 2 }
atsInputVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input voltage in VAC, or -1 if it's unsupported
by this Source."
::= { atsInputPhaseEntry 3 }
atsInputMaxVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum input voltage in VAC measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsInputPhaseEntry 4 }
atsInputMinVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum input voltage in VAC measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsInputPhaseEntry 5 }
atsInputCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input current in amperes, or -1 if it's
unsupported by this Source."
::= { atsInputPhaseEntry 6 }
atsInputMaxCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum input current in amperes measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsInputPhaseEntry 7 }
atsInputMinCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum input current in amperes measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsInputPhaseEntry 8 }
atsInputPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The input power in Watts, or -1 if it's unsupported
by this Source."
::= { atsInputPhaseEntry 9 }
atsInputMaxPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum input power in Watts measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsInputPhaseEntry 10 }
atsInputMinPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum input power in Watts measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsInputPhaseEntry 11 }
--
-- The Output group.
--
-- Number of Outputs
atsNumOutputs OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of output feeds to this device.
This variable indicates the number of rows in the
output table."
::= { atsStatusOutput 1 }
-- Output Table
atsOutputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSPhaseOutputEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of output table entries. The number of entries
is given by the value of atsOutputNumPhases."
::= { atsStatusOutput 2 }
atsOutputEntry OBJECT-TYPE
SYNTAX ATSPhaseOutputEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing information applicable to a
particular output."
INDEX { atsOutputTableIndex }
::= { atsOutputTable 1 }
ATSPhaseOutputEntry ::= SEQUENCE {
atsOutputTableIndex INTEGER,
atsNumOutputPhases INTEGER,
atsOutputVoltageOrientation INTEGER,
atsOutputFrequency INTEGER
}
atsOutputTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output identifier."
::= { atsOutputEntry 1 }
atsNumOutputPhases OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of output phases utilized in this
device. The sum of all the atsNumOutputPhases
variable indicates the number of rows in the
output phase table."
::= { atsOutputEntry 2 }
atsOutputVoltageOrientation OBJECT-TYPE
SYNTAX INTEGER {
unknown(1),
singlePhase(2),
splitPhase(3),
threePhasePhaseToNeutral(4),
threePhasePhaseToPhase(5)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output voltage orientation:
1: unknown for this ATS
2: singlePhase - phase 1 voltage is between Phase 1
and Neutral.
3: splitPhase - phase 1 voltage is between Phase 1 and
Neutral; phase 2 voltage is between Phase 2 and Neutral;
phase 3 voltage is between Phase 1 and 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."
::= { atsOutputEntry 3 }
atsOutputFrequency OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output frequency in Hertz, or -1 if it's
unsupported by this ATS."
::= { atsOutputEntry 4 }
-- Output Phase Table
atsOutputPhaseTable OBJECT-TYPE
SYNTAX SEQUENCE OF ATSPhaseOutputPhaseEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of output table entries. The number of
entries is given by the sum of the atsNumOutputPhases."
::= { atsStatusOutput 3 }
atsOutputPhaseEntry OBJECT-TYPE
SYNTAX ATSPhaseOutputPhaseEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry containing information applicable to a
particular output phase."
INDEX { atsOutputPhaseTableIndex, atsOutputPhaseIndex }
::= { atsOutputPhaseTable 1 }
ATSPhaseOutputPhaseEntry ::= SEQUENCE {
atsOutputPhaseTableIndex INTEGER,
atsOutputPhaseIndex INTEGER,
atsOutputVoltage INTEGER,
atsOutputCurrent INTEGER,
atsOutputMaxCurrent INTEGER,
atsOutputMinCurrent INTEGER,
atsOutputLoad INTEGER,
atsOutputMaxLoad INTEGER,
atsOutputMinLoad INTEGER,
atsOutputPercentLoad INTEGER,
atsOutputMaxPercentLoad INTEGER,
atsOutputMinPercentLoad INTEGER,
atsOutputPower INTEGER,
atsOutputMaxPower INTEGER,
atsOutputMinPower INTEGER,
atsOutputPercentPower INTEGER,
atsOutputMaxPercentPower INTEGER,
atsOutputMinPercentPower INTEGER
}
atsOutputPhaseTableIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output identifier."
::= { atsOutputPhaseEntry 1 }
atsOutputPhaseIndex OBJECT-TYPE
SYNTAX INTEGER{
phase1(1),
phase2(2),
phase3(3),
neutral(4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Description of each each output phase utilized in
this device and one for neutral. "
::= { atsOutputPhaseEntry 2 }
atsOutputVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output voltage in VAC, or -1 if it's unsupported
by this ATS."
::= { atsOutputPhaseEntry 3 }
atsOutputCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output current in 0.1 amperes drawn
by the load on the ATS, or -1 if it's unsupported
by this ATS."
::= { atsOutputPhaseEntry 4 }
atsOutputMaxCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum output current in 0.1 amperes measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 5 }
atsOutputMinCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum output current in 0.1 amperes measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 6 }
atsOutputLoad OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output load in VA, or -1 if it's unsupported
by this ATS."
::= { atsOutputPhaseEntry 7 }
atsOutputMaxLoad OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum output load in VA measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 8 }
atsOutputMinLoad OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum output load in VA measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 9 }
atsOutputPercentLoad OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The percentage of the ATS load capacity in VA at
redundency @ (n + x) presently being used on this
output phase, or -1 if it's unsupported by this ATS."
::= { atsOutputPhaseEntry 10 }
atsOutputMaxPercentLoad OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum percentage of the ATS load capacity in
VA measured at redundency @ (n + x) presently
being used on this output phase since the last time
this variable was read or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 11 }
atsOutputMinPercentLoad OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum percentage of the ATS load capacity in
VA measured at redundency @ (n + x) presently
being used on this output phase since the last time
this variable was read or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 12 }
atsOutputPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The output power in Watts, or -1 if it's
unsupported by this ATS."
::= { atsOutputPhaseEntry 13 }
atsOutputMaxPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum output power in Watts measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 14 }
atsOutputMinPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The minimum output power in Watts measured
since the last time this variable was read
or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 15 }
atsOutputPercentPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The percentage of the ATSpower capacity in Watts at
redundency @ (n + x) presently being used on this
output phase, or -1 if it's unsupported by this ATS."
::= { atsOutputPhaseEntry 16 }
atsOutputMaxPercentPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum percentage of the ATSpower capacity
in Watts measured at redundency @ (n + x) presently
being used on this output phase since the last time
this variable was read or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 17 }
atsOutputMinPercentPower OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The maximum percentage of the ATSpower capacity
in Watts measured at redundency @ (n + x) presently
being used on this output phase since the last time
this variable was read or reset (atsResetMaxMinValues).
Returns (-1) if unsupported."
::= { atsOutputPhaseEntry 18 }
-- the dm6IdentSystem group
dm6IdentDeviceMajorNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Device ID revision major number."
::= { dm6IdentSystem 1 }
dm6IdentDeviceMinorNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Device ID revision minor number."
::= { dm6IdentSystem 2 }
dm6IdentDeviceCategory OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Device category number used to identify this product in the range of APC DC products."
::= { dm6IdentSystem 3 }
dm6IdentDeviceType OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Device type. This number in conjunction with the Device Product Code
identifies the product."
::= { dm6IdentSystem 4 }
dm6IdentDeviceCode OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 32 character text field describing the Device product code. This is used in conjunction
with the Device Type to identify the product."
::= { dm6IdentSystem 5 }
dm6IdentDeviceDescription OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 32 character text field with the Device Description."
::= { dm6IdentSystem 6 }
dm6IdentDeviceManufacturer OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 32 character text field describing the Device manufacturer."
::= { dm6IdentSystem 7 }
dm6IdentDeviceSerialNum OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 32 character text field describing the Device serial number."
::= { dm6IdentSystem 8 }
dm6IdentBBFirmwareMajorNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Bridging Board firmware revision major number."
::= { dm6IdentSystem 9 }
dm6IdentBBFirmwareMinorNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Bridging Board firmware revision minor number."
::= { dm6IdentSystem 10 }
-- the dm6ControlSystem group
dm6ControlRunBatteryTest OBJECT-TYPE
SYNTAX INTEGER {
battTestOff (1),
battTestOn (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Getting this OID will return the battery test state. If
the battery test is off, the battTestOff (1) value will be returned.
If the battery test is on, the battTestOn (2) value will be
returned.
Setting this OID to battTestOff (1) will turn the battery test off.
Setting this OID to battTestOn (2) will turn the battery test on."
::= { dm6ControlSystem 1 }
dm6ControlBoostStrVol OBJECT-TYPE
SYNTAX INTEGER {
battBoostOff (1),
battBoostOn (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Getting this OID will return the state of the battery boost used
to equilise the string voltages. If the battery boost is off, the battBoostOff (1)
value will be returned. If the battery boost is on, the battBoostOn (2) value will be
returned.
Setting this OID to battBoostOff (1) will turn the battery boost off.
Setting this OID to battBoostOn (2) will turn the battery boost on."
::= { dm6ControlSystem 2 }
dm6ControlBatteryConn OBJECT-TYPE
SYNTAX INTEGER {
battDisconnect (1),
battConnect (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Getting this OID will return the battery connection command state.
If the battery connection command is off, the battDisconnect (1) value
will be returned. If the battery connection command is on, the
battConnect (2) value will be returned.
Setting this OID to battDisconnect (1) will turn the battery connection command off.
Setting this OID to battConnect (2) will turn the battery connection command on.
This control only works with the system in Manual Mode (see OID dm6SystemMode)."
::= { dm6ControlSystem 3 }
dm6ControlDisableEnableRectifier OBJECT-TYPE
SYNTAX INTEGER {
rectDisable (1),
rectEnable (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Getting this OID will return the state of the rectifier control used
to enable and disable rectifiers. If the rectifier control is off, the rectDisable (1)
value will be returned. If the rectifier control is on, the battBoostOn (2) value will be
returned.
Setting this OID to rectDisable (1) will disable the rectifer(s).
Setting this OID to rectEnable (2) will enable the rectifer(s).
This control only works with the system in Manual Mode (see OID dm6SystemMode)."
::= { dm6ControlSystem 4 }
-- the dm6ConfigSystem group
dm6ConfigSystemUnitNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Device unit number which uniquely identifies this DC powerplant."
::= { dm6ConfigSystem 1 }
dm6ConfigSystemNumberRectifiers OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Number of rectifiers installed in the system."
::= { dm6ConfigSystem 2 }
dm6ConfigSystemThermalCompensation OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Thermal Compensation. (uV/degC/cell).
Units are presented in microvolts.
The number of the selected Compensation Slope Curve. This is used to
select the millivolts per degree C per cell for the battery temperature
compensation. This is to accommodate for differing battery technologies."
::= { dm6ConfigSystem 3 }
dm6ConfigSystemVoltageGain OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"System voltage gain."
::= { dm6ConfigSystem 4 }
dm6ConfigSystemTempProbeType OBJECT-TYPE
SYNTAX INTEGER {
tempProbeNone (1),
tempProbeLM34 (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates/selects the type of Temperature probe.
Setting this OID to tempProbeNone (1) indicates no temperature probe.
Setting this OID to tempProbeLM34 (2) indicates an LM34 temperature probe."
::= { dm6ConfigSystem 5 }
dm6ConfigSystemMode OBJECT-TYPE
SYNTAX INTEGER {
sysModeController (1),
sysModeManual (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Getting this OID will return the device system Mode.
Setting this OID to sysModeController (1) puts the device in Controller Mode.
Setting this OID to SysModeManual (2) puts the device in Manual Mode."
::= { dm6ConfigSystem 6 }
dm6ConfigSystemRemoteConfigure OBJECT-TYPE
SYNTAX INTEGER {
accessReadWrite (1),
accessReadOnly (2),
accessConsoleWrite (3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
" This OID is used to restrict/disable remote access to the power plant.
When this OID is set to accessReadWrite (1) full control of the power plant
is available from all enabled interfaces.
When this OID is set to accessReadOnly (2) all commands to the power plant
will be blocked (No write access).
When this OID is set to accessConsoleWrite (3) control of the DC will only
be permitted when logged in via the CONSOLE.
Once remote access is restricted/disabled, it can only be restored from a
direct local connection to the DC power plant via the CONSOLE interface."
::= { dm6ConfigSystem 7 }
-- the dm6ConfigBattery group
dm6BatteryBoostDuration OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery boost duration in minutes."
::= { dm6ConfigBattery 1 }
dm6BatteryBoostVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery boost voltage (in tenths of volts)."
::= { dm6ConfigBattery 2 }
dm6BatteryCapacity OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery capacity in amp hours."
::= { dm6ConfigBattery 3 }
dm6BatteryTestVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Voltage (in tenths of volts) at which battery test ends."
::= { dm6ConfigBattery 4 }
dm6BatteryTestDuration OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Duration of battery test in minutes."
::= { dm6ConfigBattery 5 }
dm6BatteryVoltageSensing OBJECT-TYPE
SYNTAX INTEGER {
battVoltSenseInstalled (1),
battVoltSenseNotInstalled (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates/configures state of Battery Voltage Sensing capability.
battVoltSenseInstalled (1) indicates that Battery Voltage Sensing is installed
battVoltSenseNotInstalled (2) indicates that Battery Voltage Sensing is not installed."
::= { dm6ConfigBattery 6 }
-- the dm6ConfigLVD group
dm6LVDLevel OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Low Voltage Disconnect level (in tenths of volts).
This OID is used to set the level at which batteries are disconnected to
protect them from deep discharge."
::= { dm6ConfigLVD 1 }
dm6LVDImminentLevel OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Low Voltage Disconnect Imminent (in tenths of volts). This OID is used
to set the level at which the LVD Imminent Alarm will become active."
::= { dm6ConfigLVD 2 }
-- the dm6ConfigLoadShunt group
dm6LoadShuntPresent OBJECT-TYPE
SYNTAX INTEGER {
loadShuntPresent (1),
loadShuntNotPresent (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates presense/absense of Load shunt.
loadShuntPresent (1) indicates that load shunt is present.
loadShuntNotPresent (2) indicates that load shunt is not present."
::= { dm6ConfigLoadShunt 1 }
dm6LoadShuntOffset OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Load shunt offset."
::= { dm6ConfigLoadShunt 2 }
dm6LoadShuntGain OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Load shunt Gain."
::= { dm6ConfigLoadShunt 3 }
-- the dm6ConfigBatteryShunt group
dm6BatteryShuntPresent OBJECT-TYPE
SYNTAX INTEGER {
battShuntPresent (1),
battShuntNotPresent (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates presense/absense of Battery current shunt.
battShuntPresent (1) indicates that battery current shunt is present.
battShuntNotPresent (2) indicates that battery current shunt is not present."
::= { dm6ConfigBatteryShunt 1 }
dm6BatteryShuntOffset OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery shunt offset."
::= { dm6ConfigBatteryShunt 2 }
dm6BatteryShuntGain OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery shunt gain."
::= { dm6ConfigBatteryShunt 3 }
dm6BatteryShuntRechargeCurLimit OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Recharge current limit (in tenths of Amps) when battery shunt fitted."
::= { dm6ConfigBatteryShunt 4 }
-- the dm6ConfigSystemAlarm group
dm6SysAlmMainsFailure OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Mains failure alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 1 }
dm6SysAlmFanFailure OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Fan failure alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 2 }
dm6SysAlmRectifierOverTemp OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier Over Temperature alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 3 }
dm6SysAlmCurrentLimit OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Current Limit alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 4 }
dm6SysAlmRectifier1ofNFail OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier 1 of N failure alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 5 }
dm6SysAlmRectifier2ofNFail OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Rectifier 2 of N failure alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 6 }
dm6SysAlmGMTFuseBreakerTrip OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"GMT Fuse Trip or Curcuit Breaker Trip alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 7 }
dm6SysAlmBatteryBreakerTrip OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery Breaker Trip alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 8 }
dm6SysAlmLVDImminent OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"LVD Imminent alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 9 }
dm6SysAlmBattTestFail OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Battery Test Fail alarm output relay mapping.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6ConfigSystemAlarm 10 }
-- the dm6ConfigUserAlarm group
dm6UsrAlmConfigTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of user input alarms."
::= { dm6ConfigUserAlarm 1 }
dm6UsrAlmConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF UsrAlmConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The number of entries is contained in the dm6UsrAlmConfigTableSize OID."
::= { dm6ConfigUserAlarm 2 }
dm6UsrAlmConfigEntry OBJECT-TYPE
SYNTAX UsrAlmConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Description/characteristics of each of the user alarms in the table."
INDEX { dm6InputAlarmIndex }
::= { dm6UsrAlmConfigTable 1 }
UsrAlmConfigEntry ::=
SEQUENCE {
dm6InputAlarmIndex INTEGER,
dm6InputAlarmName DisplayString,
dm6InputAlarmActiveState INTEGER,
dm6InputAlarmMap INTEGER
}
dm6InputAlarmIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the User Input Alarm."
::= { dm6UsrAlmConfigEntry 1 }
dm6InputAlarmName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"32 character text description of user input alarm."
::= { dm6UsrAlmConfigEntry 2 }
dm6InputAlarmActiveState OBJECT-TYPE
SYNTAX INTEGER {
alarmActiveLow (1),
alarmActiveHigh (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"OID used to indicate/set the state in which the input user alarm is active.
alarmActiveLow (1) indicates the alarm is active in the Low state.
alarmActiveHigh (2) indicates the alarm is active in the High state."
::= { dm6UsrAlmConfigEntry 3 }
dm6InputAlarmMap OBJECT-TYPE
SYNTAX INTEGER {
alarmMapNone (1),
alarmMapMajor (2),
alarmMapMinor (3),
alarmMapUser1 (4),
alarmMapUser2 (5),
alarmMapUser3 (6)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"User alarm priority.
This OID is used to indicate/set the output relay which is mapped
to activate if this condition is present.
Setting this OID to alarmMapNone (1) results in the alarm condition being ignored.
Setting this OID to alarmMapMajor (2) causes the Major relay to be activated for an
alarm condition.
Setting this OID to alarmMapMinor (3) causes the Minor relay to be activated for an
alarm condition.
Setting this OID to alarmMapUser1 (4) causes User relay 1 to be activated for an
alarm condition.
Setting this OID to alarmMapUser2 (5) causes User relay 2 to be activated for an
alarm condition.
Setting this OID to alarmMapUser3 (6) causes User relay 3 to be activated for an
alarm condition."
::= { dm6UsrAlmConfigEntry 4 }
-- the dm6StatusSystem group
dm6StatusSystemCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"System current in tenths of Amps."
::= { dm6StatusSystem 1 }
dm6StatusLoadCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Load current in tenths of Amps."
::= { dm6StatusSystem 2 }
dm6StatusBatteryCurrent OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery current in tenths Amps."
::= { dm6StatusSystem 3 }
dm6StatusAmbientTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Ambient Temperature in tenths of degrees (Celsius)."
::= { dm6StatusSystem 4 }
dm6StatusBatteryTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Battery Temperature in tenths of degrees (Celsius)."
::= { dm6StatusSystem 5 }
dm6StatusSystemBusVoltage OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"System bus voltage in tenths of volts."
::= { dm6StatusSystem 6 }
dm6StatusSystemRelHumidity OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Ambient Relative Humidity (Percent RH)."
::= { dm6StatusSystem 7 }
-- the dm6StatusAlarms group
dm6StatusAlarmsTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of DC powerplant alarms visable
by this IP address."
::= { dm6StatusAlarms 1 }
dm6StatusAlarmsTable OBJECT-TYPE
SYNTAX SEQUENCE OF StatusAlarmsEntryDm6
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Allows for viewing status of the alarms. The number of
entries is contained in the dm6StatusAlarmsTableSize OID."
::= { dm6StatusAlarms 2 }
dm6StatusAlarmsEntry OBJECT-TYPE
SYNTAX StatusAlarmsEntryDm6
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The alarm to gather status from."
INDEX { dm6StatusAlarmsIndex }
::= { dm6StatusAlarmsTable 1 }
StatusAlarmsEntryDm6 ::=
SEQUENCE {
dm6StatusAlarmsIndex INTEGER,
dm6StatusAlarmsDescription DisplayString,
dm6StatusAlarmsStatus INTEGER,
dm6StatusAlarmsData INTEGER
}
dm6StatusAlarmsIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to the DC powerplant alarm."
::= { dm6StatusAlarmsEntry 1 }
dm6StatusAlarmsDescription OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 32 character description of the alarm."
::= { dm6StatusAlarmsEntry 2 }
dm6StatusAlarmsStatus OBJECT-TYPE
SYNTAX INTEGER {
statusNoAlarm (1),
statusAlarm (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Alarm Status. Getting this OID will return statusNoAlarm (1)
if this alarm is not present. statusAlarm (2) will be returned
if this alarm is present."
::= { dm6StatusAlarmsEntry 3 }
dm6StatusAlarmsData OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Alarm Data. This OID contains miscellaneous data pertaining to the
alarm. The meaning of this data for this alarm will be included in
the dm6StatusAlarmsDescription OID."
::= { dm6StatusAlarmsEntry 4 }
-- External Environmental Monitor
emIdentFirmwareRevision OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The firmware revision of the Environmental Monitor."
::= { emIdent 1 }
emConfigProbesNumProbes OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of temperature and humidity probes available."
::= { emConfig 1 }
emConfigProbesTable OBJECT-TYPE
SYNTAX SEQUENCE OF EmConfigProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of probes supported by the Environmental Monitor
and their configurations."
::= { emConfig 2 }
emConfigProbesEntry OBJECT-TYPE
SYNTAX EmConfigProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The Environmental Monitor probe configurations."
INDEX { emConfigProbeNumber }
::= { emConfigProbesTable 1 }
EmConfigProbesEntry ::=
SEQUENCE {
emConfigProbeNumber
INTEGER,
emConfigProbeName
DisplayString,
emConfigProbeHighTempThreshold
INTEGER,
emConfigProbeLowTempThreshold
INTEGER,
emConfigProbeTempUnits
INTEGER,
emConfigProbeHighHumidThreshold
INTEGER,
emConfigProbeLowHumidThreshold
INTEGER,
emConfigProbeHighTempEnable
INTEGER,
emConfigProbeLowTempEnable
INTEGER,
emConfigProbeHighHumidEnable
INTEGER,
emConfigProbeLowHumidEnable
INTEGER
}
emConfigProbeNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index into an Environmental Monitor probe entry."
::= { emConfigProbesEntry 1 }
emConfigProbeName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A descriptive name of the probe set by the user,
possibly denoting its location or purpose."
::= { emConfigProbesEntry 2 }
emConfigProbeHighTempThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high temperature alarm threshold for the probe.
Units are displayed in the scale selected in
the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
::= { emConfigProbesEntry 3 }
emConfigProbeLowTempThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low temperature alarm threshold for the probe.
Units are displayed in the scale selected in
the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
::= { emConfigProbesEntry 4 }
emConfigProbeTempUnits OBJECT-TYPE
SYNTAX INTEGER {
celsius(1),
fahrenheit(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The temperature scale used to display the temperature
thresholds of the probe, Celsius(1) or Fahrenheit(2).
This setting is based on the system preferences
configuration in the agent."
::= { emConfigProbesEntry 5 }
emConfigProbeHighHumidThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high humidity alarm threshold for the probe in
percent relative humidity."
::= { emConfigProbesEntry 6 }
emConfigProbeLowHumidThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low humidity alarm threshold for the probe in
percent relative humidity."
::= { emConfigProbesEntry 7 }
emConfigProbeHighTempEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high temperature alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { emConfigProbesEntry 8 }
emConfigProbeLowTempEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low temperature alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { emConfigProbesEntry 9 }
emConfigProbeHighHumidEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high humidity alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { emConfigProbesEntry 10 }
emConfigProbeLowHumidEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low humidity alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { emConfigProbesEntry 11 }
emConfigContactsNumContacts OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of contacts supported by the Environmental
Monitor."
::= { emConfig 3 }
emConfigContactsTable OBJECT-TYPE
SYNTAX SEQUENCE OF EmConfigContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of contacts supported by the Environmental Monitor
and their configurations."
::= { emConfig 4 }
emConfigContactsEntry OBJECT-TYPE
SYNTAX EmConfigContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The Environmental Monitor contact configurations."
INDEX { emConfigContactNumber }
::= { emConfigContactsTable 1 }
EmConfigContactsEntry ::=
SEQUENCE {
emConfigContactNumber
INTEGER,
emConfigContactName
DisplayString,
emConfigContactEnable
INTEGER
}
emConfigContactNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of an Environmental Monitor contact."
::= { emConfigContactsEntry 1 }
emConfigContactName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A descriptive name for an Environmental Monitor
contact set by the user, possibly denoting its
location or purpose."
::= { emConfigContactsEntry 2 }
emConfigContactEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"An Environmental Monitor contact alarm enable/disable.
No alarm will be generated if the contact is disabled(1).
An alarm will be generated if the contact is enabled(2)
and the contact has been faulted."
::= { emConfigContactsEntry 3 }
emStatusCommStatus OBJECT-TYPE
SYNTAX INTEGER {
noComm(1),
comm(2),
commLost(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The communication status between the agent
and the Environmental Monitor.
noComm(1), Communication has never been established.
comm(2), Communication has been established.
commLost(3), Communication was established, but was lost."
::= { emStatus 1 }
emStatusProbesNumProbes OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of available probes on the Environmental
Monitor."
::= { emStatus 2 }
emStatusProbesTable OBJECT-TYPE
SYNTAX SEQUENCE OF EmStatusProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of probes supported by the Environmental Monitor
and their status."
::= { emStatus 3 }
emStatusProbesEntry OBJECT-TYPE
SYNTAX EmStatusProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The status of the probe."
INDEX { emStatusProbeNumber }
::= { emStatusProbesTable 1 }
EmStatusProbesEntry ::=
SEQUENCE {
emStatusProbeNumber
INTEGER,
emStatusProbeName
DisplayString,
emStatusProbeStatus
INTEGER,
emStatusProbeCurrentTemp
INTEGER,
emStatusProbeTempUnits
INTEGER,
emStatusProbeCurrentHumid
INTEGER,
emStatusProbeHighTempViolation
INTEGER,
emStatusProbeLowTempViolation
INTEGER,
emStatusProbeHighHumidViolation
INTEGER,
emStatusProbeLowHumidViolation
INTEGER
}
emStatusProbeNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of the probe."
::= { emStatusProbesEntry 1 }
emStatusProbeName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A descriptive name for the probe set by the user,
possibly denoting its location or purpose."
::= { emStatusProbesEntry 2 }
emStatusProbeStatus OBJECT-TYPE
SYNTAX INTEGER {
disconnected(1),
connected(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The connected status of the probe, either
disconnected(1) or connected(2)."
::= { emStatusProbesEntry 3 }
emStatusProbeCurrentTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current temperature reading from the probe displayed
in the units shown in the 'emStatusProbeTempUnits' OID
(Celsius or Fahrenheit)."
::= { emStatusProbesEntry 4 }
emStatusProbeTempUnits OBJECT-TYPE
SYNTAX INTEGER {
celsius(1),
fahrenheit(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The temperature scale used to display the temperature
thresholds of the probe, Celsius(1) or Fahrenheit(2).
This setting is based on the system preferences
configuration in the agent."
::= { emStatusProbesEntry 5 }
emStatusProbeCurrentHumid OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current humidity reading from the probe in
percent relative humidity."
::= { emStatusProbesEntry 6 }
emStatusProbeHighTempViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
highTempViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The high temperature violation status of the probe
temperature reading. This OID will show a highTempViolation(2)
if the current temperature reading shown in the
'emStatusProbeCurrentTemp' OID is greater than or equal to
the high temperature threshold value, the
'emConfigProbeHighTempThreshold' OID, and the value of the
'emConfigProbeHighTempEnable' OID is enabled. Otherwise it will show
noViolation(1). If the 'emConfigProbeHighTempEnable' OID is disabled,
this OID will show disabled(3)."
::= { emStatusProbesEntry 7 }
emStatusProbeLowTempViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
lowTempViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The high temperature violation status of the probe
temperature reading. This OID will show a lowTempViolation(2)
if the current temperature reading shown in the
'emStatusProbeCurrentTemp' OID is less than or equal to
the low temperature threshold value, the
'emConfigProbeLowTempThreshold' OID, and the value of the
'emConfigProbeLowTempEnable' OID is enabled. Otherwise it will show
noViolation(1). If the 'emConfigProbeLowTempEnable' OID is disabled,
this OID will show disabled(3)."
::= { emStatusProbesEntry 8 }
emStatusProbeHighHumidViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
highHumidViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The high humidity violation status of the probe humidity
reading. This OID will show a highTempViolation(2)
if the current humidity reading shown in the
'emStatusProbeCurrentHumid' OID is greater than or equal to
the high humidity threshold value, the
'emConfigProbeHighHumidThreshold' OID, and the value of the
'emConfigProbeHighHumidEnable' OID is enabled. Otherwise it will
show noViolation(1). If the 'emConfigProbeHighHumidEnable' OID is
disabled, this OID will show disabled(3)"
::= { emStatusProbesEntry 9 }
emStatusProbeLowHumidViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
lowHumidViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The low humidity violation status of the probe humidity
reading. This OID will show a lowTempViolation(2)
if the current humidity reading shown in the
'emStatusProbeCurrentHumid' OID is less than or equal to
the low humidity threshold value, the
'emConfigProbeLowHumidThreshold' OID, and the value of the
'emConfigProbeLowHumidEnable' OID is enabled. Otherwise it will
show noViolation(1). If the 'emConfigProbeLowHumidEnable' OID is
disabled, this OID will show disabled(3)."
::= { emStatusProbesEntry 10 }
emStatusContactsNumContacts OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of contacts supported by the
Environmental Monitor."
::= { emStatus 4 }
emStatusContactsTable OBJECT-TYPE
SYNTAX SEQUENCE OF EmStatusContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of contacts supported by the Environmental Monitor
and their status."
::= { emStatus 5 }
emStatusContactsEntry OBJECT-TYPE
SYNTAX EmStatusContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The status of the contact."
INDEX { emStatusContactNumber }
::= { emStatusContactsTable 1 }
EmStatusContactsEntry ::=
SEQUENCE {
emStatusContactNumber
INTEGER,
emStatusContactName
DisplayString,
emStatusContactStatus
INTEGER
}
emStatusContactNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of the Environmental Monitor contact."
::= { emStatusContactsEntry 1 }
emStatusContactName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A descriptive name for the Environmental Monitor contact
set by the user, possibly denoting its location or purpose."
::= { emStatusContactsEntry 2 }
emStatusContactStatus OBJECT-TYPE
SYNTAX INTEGER {
noFault(1),
fault(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The status of the Environmental Monitor contact. The status
will show noFault(1) if the contact is in the normal state
and the 'emConfigContactEnable' OID is enabled. The status will
show a fault(2) if the contact is faulted and the
'emContactEnable' OID is enabled. If the 'emConfigContactEnable'
OID is disabled, the status will show disabled(3)."
::= { emStatusContactsEntry 3 }
-- Integrated Environmental Monitor (IEM)
iemIdentHardwareRevision OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The hardware revision of the Integrated Environmental
Monitor."
::= { iemIdent 1 }
iemConfigProbesNumProbes OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of temperature and humidity probes available."
::= { iemConfig 1 }
iemConfigProbesTable OBJECT-TYPE
SYNTAX SEQUENCE OF IemConfigProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of probes supported by the Environmental Monitor
and their configurations."
::= { iemConfig 2 }
iemConfigProbesEntry OBJECT-TYPE
SYNTAX IemConfigProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The Environmental Monitor probe configurations."
INDEX { iemConfigProbeNumber }
::= { iemConfigProbesTable 1 }
IemConfigProbesEntry ::=
SEQUENCE {
iemConfigProbeNumber
INTEGER,
iemConfigProbeName
DisplayString,
iemConfigProbeHighTempThreshold
INTEGER,
iemConfigProbeLowTempThreshold
INTEGER,
iemConfigProbeTempUnits
INTEGER,
iemConfigProbeHighHumidThreshold
INTEGER,
iemConfigProbeLowHumidThreshold
INTEGER,
iemConfigProbeHighTempEnable
INTEGER,
iemConfigProbeLowTempEnable
INTEGER,
iemConfigProbeHighHumidEnable
INTEGER,
iemConfigProbeLowHumidEnable
INTEGER
}
iemConfigProbeNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index to a Environmental Monitor probe entry."
::= { iemConfigProbesEntry 1 }
iemConfigProbeName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A descriptive name for the probe set by the user,
possibly denoting its location or purpose."
::= { iemConfigProbesEntry 2 }
iemConfigProbeHighTempThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high temperature alarm threshold for the probe.
Units are displayed in the scale selected in the
'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
::= { iemConfigProbesEntry 3 }
iemConfigProbeLowTempThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low temperature alarm threshold for the probe.
Units are displayed in the scale selected in the
'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
::= { iemConfigProbesEntry 4 }
iemConfigProbeTempUnits OBJECT-TYPE
SYNTAX INTEGER {
celsius(1),
fahrenheit(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The temperature scale used to display the temperature
thresholds of the probe, Celsius(1) or Fahrenheit(2).
This setting is based on the system preferences
configuration in the agent."
::= { iemConfigProbesEntry 5 }
iemConfigProbeHighHumidThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high humidity alarm threshold for the probe in
percent relative humidity."
::= { iemConfigProbesEntry 6 }
iemConfigProbeLowHumidThreshold OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low humidity alarm threshold for the probe in
percent relative humidity."
::= { iemConfigProbesEntry 7 }
iemConfigProbeHighTempEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high temperature alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { iemConfigProbesEntry 8 }
iemConfigProbeLowTempEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low temperature alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { iemConfigProbesEntry 9 }
iemConfigProbeHighHumidEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The high humidity alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { iemConfigProbesEntry 10 }
iemConfigProbeLowHumidEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The low humidity alarm enable/disable for the
probe. No alarm will be generated if this value
is set to disabled(1). The alarm will be
generated if this value is set to enabled(2) and
the threshold has been violated."
::= { iemConfigProbesEntry 11 }
iemConfigContactsNumContacts OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of contacts available on the Environmental
Monitor."
::= { iemConfig 3 }
iemConfigContactsTable OBJECT-TYPE
SYNTAX SEQUENCE OF IemConfigContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of contacts supported by the Environmental Monitor
and their configurations."
::= { iemConfig 4 }
iemConfigContactsEntry OBJECT-TYPE
SYNTAX IemConfigContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The Environmental Monitor contact configurations."
INDEX { iemConfigContactNumber }
::= { iemConfigContactsTable 1 }
IemConfigContactsEntry ::=
SEQUENCE {
iemConfigContactNumber
INTEGER,
iemConfigContactName
DisplayString,
iemConfigContactEnable
INTEGER
}
iemConfigContactNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of an Environmental Monitor contact."
::= { iemConfigContactsEntry 1 }
iemConfigContactName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A descriptive name for the Environmental Monitor contact
set by the user, possibly denoting its location or purpose."
::= { iemConfigContactsEntry 2 }
iemConfigContactEnable OBJECT-TYPE
SYNTAX INTEGER {
disabled(1),
enabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"An Environmental Monitor contact alarm enable/disable."
::= { iemConfigContactsEntry 3 }
iemStatusProbesNumProbes OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of available probes on the Environmental
Monitor."
::= { iemStatus 1 }
iemStatusProbesTable OBJECT-TYPE
SYNTAX SEQUENCE OF IemStatusProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of probes supported by the Environmental Monitor
and their status."
::= { iemStatus 2 }
iemStatusProbesEntry OBJECT-TYPE
SYNTAX IemStatusProbesEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The status of the probe."
INDEX { iemStatusProbeNumber }
::= { iemStatusProbesTable 1 }
IemStatusProbesEntry ::=
SEQUENCE {
iemStatusProbeNumber
INTEGER,
iemStatusProbeName
DisplayString,
iemStatusProbeStatus
INTEGER,
iemStatusProbeCurrentTemp
INTEGER,
iemStatusProbeTempUnits
INTEGER,
iemStatusProbeCurrentHumid
INTEGER,
iemStatusProbeHighTempViolation
INTEGER,
iemStatusProbeLowTempViolation
INTEGER,
iemStatusProbeHighHumidViolation
INTEGER,
iemStatusProbeLowHumidViolation
INTEGER
}
iemStatusProbeNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of the probe."
::= { iemStatusProbesEntry 1 }
iemStatusProbeName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A descriptive name for the probe set by the user,
denoting its location or purpose."
::= { iemStatusProbesEntry 2 }
iemStatusProbeStatus OBJECT-TYPE
SYNTAX INTEGER {
disconnected(1),
connected(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The connected status of the probe, either
disconnected(1) or connected(2)."
::= { iemStatusProbesEntry 3 }
iemStatusProbeCurrentTemp OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current temperature reading from the probe displayed
in the units shown in the 'iemStatusProbeTempUnits' OID
(Celsius or Fahrenheit)."
::= { iemStatusProbesEntry 4 }
iemStatusProbeTempUnits OBJECT-TYPE
SYNTAX INTEGER {
celsius(1),
fahrenheit(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The temperature scale used to display the temperature
thresholds of the probe, Celsius(1) or Fahrenheit(2).
This setting is based on the system preferences
configuration in the agent."
::= { iemStatusProbesEntry 5 }
iemStatusProbeCurrentHumid OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current humidity reading from the probe in percent
relative humidity."
::= { iemStatusProbesEntry 6 }
iemStatusProbeHighTempViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
highTempViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The high temperature violation status of the probe
temperature reading. This OID will show a highTempViolation(2)
if the current temperature reading shown in the
'iemStatusProbeCurrentTemp' OID is greater than or equal to
the high temperature threshold value, the
'iemConfigProbeHighTempThreshold' OID, and the value of the
'iemConfigProbeHighTempEnable' OID is enabled. Otherwise it will show
noViolation(1). If the 'iemConfigProbeHighTempEnable' OID is disabled,
this OID will show disabled(3)."
::= { iemStatusProbesEntry 7 }
iemStatusProbeLowTempViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
lowTempViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The high temperature violation status of the probe
temperature reading. This OID will show a lowTempViolation(2)
if the current temperature reading shown in the
'iemStatusProbeCurrentTemp' OID is less than or equal to
the low temperature threshold value, the
'iemConfigProbeLowTempThreshold' OID, and the value of the
'iemPConfigrobeLowTempEnable' OID is enabled. Otherwise it will show
noViolation(1). If the 'iemConfigProbeLowTempEnable' OID is disabled,
this OID will show disabled(3)."
::= { iemStatusProbesEntry 8 }
iemStatusProbeHighHumidViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
highHumidViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The high humidity violation status of the probe humidity
reading. This OID will show a highTempViolation(2)
if the current humidity reading shown in the
'iemStatusProbeCurrentHumid' OID is greater than or equal to
the high humidity threshold value, the
'iemConfigProbeHighHumidThreshold' OID, and the value of the
'iemConfigProbeHighHumidEnable' OID is enabled. Otherwise it will
show noViolation(1). If the 'iemConfigProbeHighHumidEnable' OID is
disabled, this OID will show disabled(3)."
::= { iemStatusProbesEntry 9 }
iemStatusProbeLowHumidViolation OBJECT-TYPE
SYNTAX INTEGER {
noViolation(1),
lowHumidViolation(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The low humidity violation status of the probe humidity
reading. This OID will show a lowTempViolation(2)
if the current humidity reading shown in the
'iemStatusProbeCurrentHumid' OID is less than or equal to
the low humidity threshold value, the
'iemConfigProbeLowHumidThreshold' OID, and the value of the
'iemConfigProbeLowHumidEnable' OID is enabled. Otherwise it will
show noViolation(1). If the 'iemConfigProbeLowHumidEnable' OID is
disabled, this OID will show disabled(3)."
::= { iemStatusProbesEntry 10 }
iemStatusContactsNumContacts OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of contacts supported on the
Environmental Monitor."
::= { iemStatus 3 }
iemStatusContactsTable OBJECT-TYPE
SYNTAX SEQUENCE OF IemStatusContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of contacts supported by the Environmental Monitor
and their status."
::= { iemStatus 4 }
iemStatusContactsEntry OBJECT-TYPE
SYNTAX IemStatusContactsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The status of the contact."
INDEX { iemStatusContactNumber }
::= { iemStatusContactsTable 1 }
IemStatusContactsEntry ::=
SEQUENCE {
iemStatusContactNumber
INTEGER,
iemStatusContactName
DisplayString,
iemStatusContactStatus
INTEGER
}
iemStatusContactNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of the Environmental Monitor contact."
::= { iemStatusContactsEntry 1 }
iemStatusContactName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A descriptive name for the Environmental Monitor contact
set by the user, denoting its location or purpose."
::= { iemStatusContactsEntry 2 }
iemStatusContactStatus OBJECT-TYPE
SYNTAX INTEGER {
noFault(1),
fault(2),
disabled(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The status of the Environmental Monitor contact. The status
will show noFault(1) if the contact is in the normal state
and the 'iemConfigContactEnable' OID is enabled. The status will
show a fault(2) if the contact is faulted and the
'iemConfigContactEnable' OID is enabled. If the
'iemConfigContactEnable' OID is disabled, the status will show
disabled(3)."
::= { iemStatusContactsEntry 3 }
iemStatusRelaysNumRelays OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of output relays supported on the
Environmental Monitor."
::= { iemStatus 6 }
iemStatusRelaysTable OBJECT-TYPE
SYNTAX SEQUENCE OF IemStatusRelaysEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A list of output relays supported by the
Environmental Monitor and their status."
::= { iemStatus 7 }
iemStatusRelaysEntry OBJECT-TYPE
SYNTAX IemStatusRelaysEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"The status of the relay."
INDEX { iemStatusRelayNumber }
::= { iemStatusRelaysTable 1 }
IemStatusRelaysEntry ::=
SEQUENCE {
iemStatusRelayNumber
INTEGER,
iemStatusRelayName
DisplayString,
iemStatusRelayStatus
INTEGER
}
iemStatusRelayNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The index of the output relay."
::= { iemStatusRelaysEntry 1 }
iemStatusRelayName OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A descriptive name for the output relay set by the
user, denoting its location or purpose."
::= { iemStatusRelaysEntry 2 }
iemStatusRelayStatus OBJECT-TYPE
SYNTAX INTEGER {
faultState(1),
normalState(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The status of the output relay, either faultState(1) or
normalState(2)."
::= { iemStatusRelaysEntry 3 }
-- Traps
-- Annotations are provided for Novell's NMS product
--
-- Each trap has at least one variable (mtrapargsString) which always appears
-- as the last variable in the list. This variable contains either a static
-- or dynamically-constructed string which provides an enhanced description of
-- the trap's purpose and any pertinent information about the trap.
communicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Communication to the UPS has been lost. Steps
to reestablish communication are in progress."
--#TYPE "APC UPS: Communication lost"
--#SUMMARY "Communication lost between the agent and the UPS."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 1
upsOverload TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: The UPS has sensed a load greater than 100 percent
of its rated capacity."
--#TYPE "APC UPS: Overload"
--#SUMMARY "The UPS has sensed a load greater than 100 percent of its rated capacity."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 2
upsDiagnosticsFailed TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: The UPS failed its internal diagnostic self-test."
--#TYPE "APC UPS: Failed self-test"
--#SUMMARY "The UPS has failed its internal self-test."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 3
upsDischarged TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: The UPS batteries are discharged; if utility power fails
an immediate low battery condition will exist. Sufficient runtime
for necessary action cannot be guaranteed."
--#TYPE "APC UPS: batteries are discharged"
--#SUMMARY "The UPS batteries are discharged."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 4
upsOnBattery TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS has switched to battery backup power."
--#TYPE "APC UPS: On battery"
--#SUMMARY "The UPS has switched to battery backup power."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 5
smartBoostOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS has enabled SmartBoost(TM)."
--#TYPE "APC UPS: SmartBoost(TM)"
--#SUMMARY "The UPS has enabled SmartBoost(TM); low incoming line voltage."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 6
lowBattery TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: The UPS batteries are low and will soon be exhausted.
If utility power is not restored the UPS will put itself
to 'sleep' and immediately cut power to the load."
--#TYPE "APC UPS: Low battery"
--#SUMMARY "The UPS system's batteries are low and will soon be exhausted."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 7
communicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communication with the UPS has been established."
--#TYPE "APC UPS: Communication established"
--#SUMMARY "UPS communication has been established."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 8
powerRestored TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Utility power has been restored."
--#TYPE "APC UPS: Utility power restored"
--#SUMMARY "Returned from battery backup power; utility power restored."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 9
upsDiagnosticsPassed TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The UPS passed its internal self-test."
--#TYPE "APC UPS: Passed self-test"
--#SUMMARY "The UPS passed internal self-test."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 10
returnFromLowBattery TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The UPS has returned from a low battery
condition."
--#TYPE "APC UPS: Returned from Low-Battery condition"
--#SUMMARY "The UPS has returned from a Low-Battery condition."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 11
upsTurnedOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS has been turned 'off' by the management station."
--#TYPE "APC UPS: Turned off"
--#SUMMARY "The UPS has been switched off by a management station."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE NONOPERATIONAL
::= 12
upsSleeping TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS is entering 'sleep' mode. Power
to the load will be cut off."
--#TYPE "APC UPS: Entered sleep mode"
--#SUMMARY "The UPS entered sleep mode. Power to the load will be cut off."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE NONOPERATIONAL
::= 13
upsWokeUp TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATION: The UPS has returned from 'sleep' mode. Power
to the load has been restored."
--#TYPE "APC UPS: Wake up"
--#SUMMARY "The UPS has returned from sleep mode. Power to the load has been restored."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 14
upsRebootStarted TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS has started its reboot sequence.
The UPS will reboot itself at this time."
--#TYPE "APC UPS: Starting reboot"
--#SUMMARY "The UPS has started its reboot sequence."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE NONOPERATIONAL
::= 15
upsDipSwitchChanged TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The dip switch settings on the UPS have been
changed, possibly altering UPS performance."
--#TYPE "APC UPS: DIP switch altered"
--#SUMMARY "The DIP switch settings on the UPS have been changed."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 16
upsBatteryNeedsReplacement TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: The batteries of the UPS need immediate replacement."
--#TYPE "APC UPS: UPS batteries need replacement"
--#SUMMARY "The UPS batteries require immediate replacement."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 17
-- the Environmental Monitor traps
contactFault TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: One of the contacts on the Environmental Monitor has
changed from its default position. The first variable is
the contact number that is faulted."
--#TYPE "APC Environment: Contact fault"
--#SUMMARY "An Environment contact closure has faulted."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 18
contactFaultResolved TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A fault on one of the Environmental Monitor contacts
has been resolved. The first variable is
the contact number that has been resolved."
--#TYPE "APC Environment: Contact fault cleared."
--#SUMMARY "A Environment contact closure has returned to it's default state."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 19
-- the Matrix-UPS traps
hardwareFailureBypass TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: UPS on bypass due to internal fault"
--#TYPE "APC UPS: On bypass due to internal fault"
--#SUMMARY "The UPS is on bypass due to an internal fault."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 20
softwareBypass TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: UPS on bypass - user set via software or panel"
--#TYPE "APC UPS: On bypass by user via software or panel"
--#SUMMARY "UPS put on bypass by user via software or front UPS panel."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 21
switchedBypass TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: UPS on bypass - initiated by user"
--#TYPE "APC UPS: On bypass initiated by user"
--#SUMMARY "UPS put on bypass by user."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 22
returnFromBypass TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: UPS has returned from bypass"
--#TYPE "APC UPS: UPS has returned from bypass"
--#SUMMARY "The UPS has returned from bypass mode."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 23
bypassPowerSupplyFailure TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Base module bypass power supply needs repair"
--#TYPE "APC UPS: Base module bypass power supply needs repair"
--#SUMMARY "The base module bypass power supply needs repair."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE NONOPERATIONAL
::= 24
baseFanFailure TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Base module fan needs repair"
--#TYPE "APC UPS: Base module fan needs repair"
--#SUMMARY "The base module fan needs repair."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE NONOPERATIONAL
::= 25
batteryPackCommLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Check installation of external battery packs signal cable"
--#TYPE "APC UPS: Communication lost with battery packs"
--#SUMMARY "Communication lost with external battery packs, check battery signal cable."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 26
batteryPackCommEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: UPS is communicating with the external battery packs."
--#TYPE "APC UPS: Communication established with battery packs"
--#SUMMARY "Communication established with external battery packs."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 27
calibrationStart TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A battery calibration test has been initiated on the UPS."
--#TYPE "APC UPS: Calibration initiated"
--#SUMMARY "A battery run time calibration test has been initiated."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 28
-- Misc. Traps
restartAgent TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Agent restarting as commanded by manager."
--#TYPE "APC SNMP Agent: Agent restarting"
--#SUMMARY "Agent restarting as commanded by manager."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 29
upsTurnedOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A UPS is turned on."
--#TYPE "APC UPS: A UPS is turned on."
--#SUMMARY " A UPS is turned on."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 30
smartAvrReducing TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS is reducing the line voltage via SmartTrim(TM)."
--#TYPE "APC UPS: SmartTrim(TM) reducing"
--#SUMMARY "The UPS has enabled SmartTrim(TM) voltage reduction."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 31
codeAuthenticationDone TRAP-TYPE
ENTERPRISE apc
VARIABLES { mconfigTFTPServerIP, newCodeAuthentViaTFTP }
DESCRIPTION
"INFORMATIONAL: Authentication on agent code image is done."
--#TYPE "APC CODE: Authentication on agent code image is done."
--#SUMMARY "Authentication on agent code image is done."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 32
upsOverloadCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The overload condition has been cleared."
--#TYPE "APC UPS: Overload cleared."
--#SUMMARY "The overload condition has been cleared. ."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 33
smartBoostOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The UPS has returned from SmartBoost(TM)."
--#TYPE "APC UPS: SmartBoost(TM) off."
--#SUMMARY "The UPS has returned from SmartBoost(TM)."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 34
smartAvrReducingOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The UPS has returned from SmartTrim(TM)."
--#TYPE "APC UPS: SmartTrim(TM) reducing off"
--#SUMMARY "The UPS has returned from SmartTrim(TM) voltage reduction."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 35
upsBatteryReplaced TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A bad battery fault has been cleared."
--#TYPE "APC UPS: Bad battery replaced"
--#SUMMARY "The UPS has returned from a bad battery fault."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 36
calibrationEnd TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The UPS has finished calibrating."
--#TYPE "APC UPS: Calibration end"
--#SUMMARY "The UPS has finished calibrating"
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 37
dischargeCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A UPS discharge condition has been cleared."
--#TYPE "APC UPS: Discharge cleared."
--#SUMMARY "The UPS discharge condition has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 38
gracefullShutdown TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A graceful shutdown has been initiated."
--#TYPE "APC UPS: A graceful shutdown has been initiated."
--#SUMMARY "A graceful shutdown has been initiated."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 39
outletOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUOutletControlIndex }
DESCRIPTION
"WARNING: The specified PDU outlet has turned on.
If sPDUOutletControlIndex equals zero, then all outlets have
turned on."
--#TYPE "APC PDU: Outlet has been turned on."
--#SUMMARY "Outlet has been turned on"
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 41
outletOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUOutletControlIndex }
DESCRIPTION
"WARNING: The specified PDU outlet has turned off.
If sPDUOutletControlIndex equals zero, then all outlets
have turned off."
--#TYPE "APC PDU: Outlet has turned off."
--#SUMMARY "Outlet has turned off."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 42
outletReboot TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUOutletControlIndex }
DESCRIPTION
"WARNING: The specified PDU outlet has rebooted.
If sPDUOutletControlIndex equals zero, then all outlets
have rebooted."
--#TYPE "APC PDU: Outlet has rebooted."
--#SUMMARY "Outlet has rebooted."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 43
configChangeSNMP TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The SNMP configuration has been changed."
--#TYPE "APC: The SNMP configuration has been changed."
--#SUMMARY "The SNMP configuration has been changed."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 44
configChangeOutlet TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUOutletConfigIndex }
DESCRIPTION
"WARNING: The specified PDU outlet has changed configuration.
If sPDUOutletConfigIndex equals zero, then the Master outlet
has changed configuration."
--#TYPE "APC PDU: Outlet configuration has been changed."
--#SUMMARY "Outlet configuration has been changed."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 45
accessViolationConsole TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: Someone has attempted to login via the console with the incorrect password."
--#TYPE "APC: Access violation via the console."
--#SUMMARY "Three unsuccessful logins have been attempted via the console."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 46
accessViolationHTTP TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: Someone has attempted to login via HTTP with the incorrect password."
--#TYPE "APC: Access violation via HTTP."
--#SUMMARY "An unsuccessful attempt to login via HTTP."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 47
passwordChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The password for the device has been changed."
--#TYPE "APC: Password change for the device."
--#SUMMARY "Someone has changed the password on the device."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 48
badVoltage TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The output voltage is not within acceptable range."
--#TYPE "APC UPS: Bad output voltage."
--#SUMMARY "The output voltage is not within acceptable range."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 49
badVoltageCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The output voltage has returned to an acceptable level."
--#TYPE "APC UPS: The bad voltage output condition has been cleared."
--#SUMMARY "The output voltage has returned to an acceptable level."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 50
chargerFailure TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The battery charger has failed."
--#TYPE "APC UPS: The battery charger has failed."
--#SUMMARY "The battery charger has failed."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 51
chargerFailureCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The battery charger failure condition has been cleared."
--#TYPE "APC UPS: The battery charger failure condition cleared"
--#SUMMARY "The battery charger failure condition has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 52
batteryOverTemperature TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The battery temperature threshold has been violated."
--#TYPE "APC UPS: The battery temperature threshold has been violated."
--#SUMMARY "The battery temperature threshold has been violated."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 53
batteryOverTemperatureCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The battery over temperature has been cleared."
--#TYPE "APC UPS: The battery over temperature has been cleared."
--#SUMMARY "The battery over temperature has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 54
smartRelayFault TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: SmartBoost(TM) or SmartTrim(TM) relay fault."
--#TYPE "APC UPS: SmartBoost(TM) or SmartTrim(TM) relay fault."
--#SUMMARY "SmartBoost(TM) or SmartTrim(TM) relay fault."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 55
smartRelayFaultCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: SmartBoost(TM) or SmartTrim(TM) relay fault has been cleared."
--#TYPE "APC UPS: SmartBoost(TM) or SmartTrim(TM) relay fault cleared."
--#SUMMARY "SmartBoost(TM) or SmartTrim(TM) relay fault has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 56
humidityThresholdViolation1 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: Probe 1 humidity threshold violated. The
first variable is the current humidity."
--#TYPE "APC Environmental Monitor: Probe 1 humidity threshold violation"
--#SUMMARY "A humidity threshold has been violated on probe 1."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 57
humidityThresholdViolationCleared1 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An Environmental Monitor humidity threshold violation has been cleared on probe 1."
--#TYPE "APC Environmental Monitor: Probe 1 humidity violation cleared"
--#SUMMARY "A humidity threshold violation has been cleared on probe 1."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 58
temperatureThresholdViolation1 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: An Environmental Monitor temperature threshold has been violated on probe 1.
The first variable is the current temperature."
--#TYPE "APC Environmental Monitor: Probe 1 temperature violation"
--#SUMMARY "A temperature threshold has been violated on probe 1."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 59
temperatureThresholdViolationCleared1 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An Environmental Monitor temperature threshold violation has been cleared on probe 1."
--#TYPE "APC Environmental Monitor: Probe 1 temperature violation cleared"
--#SUMMARY "A temperature threshold violation has been cleared on probe 1."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 60
humidityThresholdViolation2 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: An Environmental Monitor humidity threshold has been violated on probe 2.
The first variable is the current humidity."
--#TYPE "APC Environmental Monitor: Probe 2 humidity violation"
--#SUMMARY "A humidity threshold has been violated on probe 2."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 61
humidityThresholdViolationCleared2 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An Environmental Monitor humidity threshold violation has been cleared on probe 2."
--#TYPE "APC Environmental Monitor: Probe 2 humidity violation cleared"
--#SUMMARY "A humidity threshold violation has been cleared on probe 2."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 62
temperatureThresholdViolation2 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: An Environmental Monitor temperature threshold has been violated on probe 2.
The first variable is the current temperature."
--#TYPE "APC Environmental Monitor: Probe 2 temperature violation"
--#SUMMARY "A temperature threshold has been violated on probe 2."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 63
temperatureThresholdViolationCleared2 TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An Environmental Monitor temperature threshold violation has been cleared on probe 2."
--#TYPE "APC Environmental Monitor: Probe 2 temperature violation cleared"
--#SUMMARY "A temperature threshold violation has been cleared on probe 2."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 64
mupsCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communication with the Environmental Monitor has been established."
--#TYPE "APC Environmental Monitor: Communication established"
--#SUMMARY "Communication established between the agent and the Environmental Monitor."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 65
mupsCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Communication to the Environmental Monitor has been lost. Steps
to reestablish communication are in progress."
--#TYPE "APC Environmental Monitor: Communication failure"
--#SUMMARY "Communication lost between the agent and the Environmental Monitor."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 66
batteryIncrease TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The number of batteries has increased."
--#TYPE "APC UPS: The number of batteries has increased."
--#SUMMARY "The number of batteries has increased."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 67
batteryDecrease TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The number of batteries has decreased."
--#TYPE "APC UPS: The number of batteries has decreased."
--#SUMMARY "The number of batteries has decreased."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 68
powerModuleIncrease TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The number of power modules has increased."
--#TYPE "APC UPS: The number of power modules has increased."
--#SUMMARY "The number of power modules has increased."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 69
powerModuleDecrease TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The number of power modules has decreased."
--#TYPE "APC UPS: The number of power modules has decreased."
--#SUMMARY "The number of power modules has decreased."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 70
intelligenceModuleInserted TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An intelligence module has been inserted."
--#TYPE "APC UPS: An intelligence module has been inserted."
--#SUMMARY "An intelligence module has been inserted."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 71
intelligenceModuleRemoved TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An intelligence module has been removed."
--#TYPE "APC UPS: An intelligence module has been removed."
--#SUMMARY "An intelligence module has been removed."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 72
rintelligenceModuleInserted TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A redundant intelligence module has been inserted."
--#TYPE "APC UPS: A redundant intelligence module has been inserted."
--#SUMMARY "A redundant intelligence module has been inserted."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 73
rintelligenceModuleRemoved TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A redundant intelligence module has been removed."
--#TYPE "APC UPS: A redundant intelligence module has been removed."
--#SUMMARY "A redundant intelligence module has been removed."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 74
extBatteryFrameIncease TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An external battery frame has been added."
--#TYPE "APC UPS: An external battery frame has been added."
--#SUMMARY "An external battery frame has been added."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 75
extBatteryFrameDecrease TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An external battery frame has been removed."
--#TYPE "APC UPS: An external battery frame has been removed."
--#SUMMARY "An external battery frame has been removed."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 76
abnormalCondition TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: An abnormal condition has been detected.
The first variable is the fault condition."
--#TYPE "APC: An abnormal condition has been detected."
--#SUMMARY "An abnormal condition has been detected."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 77
abnormalConditionCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An abnormal condition has been cleared.
The first variable is the fault condition."
--#TYPE "APC: An abnormal condition has been cleared."
--#SUMMARY "An abnormal condition has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 78
deviceStatusChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString}
DESCRIPTION
"INFORMATIONAL: The status of the device being monitored has changed."
--#TYPE "APC : The status of the device being monitored has changed."
--#SUMMARY "The status of the device being monitored has changed."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 79
noBatteries TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The UPS has no batteries attached."
--#TYPE "APC UPS: No batteries attached."
--#SUMMARY "The UPS has no batteries attached."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 80
noBatteriesCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The UPS's batteries have been attached."
--#TYPE "APC UPS: The no batteries attached condition has been cleared."
--#SUMMARY "The UPS's batteries have been attached."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 81
userAdded TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A new user has been added."
--#TYPE "APC: A new user has been added."
--#SUMMARY "A new user has been added."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 82
userDeleted TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A user has been deleted."
--#TYPE "APC: A user has been deleted."
--#SUMMARY "A user has been deleted."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 83
userModified TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A user has been modified."
--#TYPE "APC: A user has been modified."
--#SUMMARY "A user has been modified."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 84
-- MasterSwitch Vm Traps
msvmCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communications with the MasterSwitch VM has been established."
--#TYPE "APC: Communications established with the MasterSwitch VM."
--#SUMMARY "Communications with the MasterSwitch VM has been established."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 85
msvmCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"SEVERE: Communications with the MasterSwitch VM has been lost."
--#TYPE "APC: Communications lost with the MasterSwitch VM."
--#SUMMARY "Communications with the MasterSwitch VM has been lost."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 86
msvmOverload TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"SEVERE: The MasterSwitch VM in an overload condition."
--#TYPE "APC: The MasterSwitch VM is near or at an overload condition."
--#SUMMARY "The MasterSwitch VM is near or at an overload condition."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 87
msvmOverloadCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The overload condition on the MasterSwitch VM has been cleared."
--#TYPE "APC: The overload condition cleared on the MasterSwitch VM."
--#SUMMARY "The overload condition on the MasterSwitch VM has been cleared."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 88
msvmOutletOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName,
sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An outlet on the MasterSwitch VM has turned on."
--#TYPE "APC: An outlet on the MasterSwitch VM has turned on."
--#SUMMARY "An outlet on the MasterSwitch VM has turned on."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 89
msvmOutletOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName,
sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An outlet on the MasterSwitch VM has turned off."
--#TYPE "APC: An outlet on the MasterSwitch VM has turned off."
--#SUMMARY "An outlet on the MasterSwitch VM has turned off."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 90
msvmDeviceConfigChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A device configuration change has been made on a MasterSwitch VM."
--#TYPE "APC: A device configuration change on a MasterSwitch VM."
--#SUMMARY "A device configuration change has been made on a MasterSwitch VM."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 91
msvmOutletConfigChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName,
sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An outlet configuration change has been made on a MasterSwitch VM."
--#TYPE "APC: An outlet configuration change on a MasterSwitch VM."
--#SUMMARY "An outlet configuration change has been made on a MasterSwitch VM."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 92
msvmLowLoad TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The MasterSwitch VM has violated the low load threshold."
--#TYPE "APC: The MasterSwitch VM has violated the low load threshold."
--#SUMMARY "The MasterSwitch VM has violated the low load threshold."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 93
msvmLowLoadCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The low load condition on the MasterSwitch VM has been cleared."
--#TYPE "APC: The low load condition cleared on the MasterSwitch VM."
--#SUMMARY "The low load condition on the MasterSwitch VM has been cleared."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 94
msvmNearOverload TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"SEVERE: The MasterSwitch VM is approaching an overload condition."
--#TYPE "APC: The MasterSwitch VM is near or at an overload condition."
--#SUMMARY "The MasterSwitch VM is near or at an overload condition."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 95
msvmNearOverloadCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The near overload condition on the MasterSwitch VM has been cleared."
--#TYPE "APC: The overload condition cleared on the MasterSwitch VM."
--#SUMMARY "The overload condition on the MasterSwitch VM has been cleared."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 96
msvmPowerSupplyStatusChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsInteger, mtrapargsString }
DESCRIPTION
"WARNING: The power supply status of the MasterSwitch VM has changed."
--#TYPE "APC: The power supply status changed on MasterSwitch VM"
--#SUMMARY "The power supply status of the MasterSwitch VM has changed."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 97
-- MasterSwitch plus (MSP) Traps
mspCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communications with the MasterSwitch plus has been established."
--#TYPE "APC: Communications established with the MasterSwitch plus."
--#SUMMARY "Communications with the MasterSwitch plus has been established."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 98
mspCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString }
DESCRIPTION
"SEVERE: Communications with the MasterSwitch plus has been lost."
--#TYPE "APC: Communications lost with the MasterSwitch plus."
--#SUMMARY "Communications with the MasterSwitch plus has been lost."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 99
mspOutletOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName,
sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An outlet on the MasterSwitch plus has turned on."
--#TYPE "APC: An outlet on the MasterSwitch plus has turned on."
--#SUMMARY "An outlet on the MasterSwitch plus has turned on."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 100
mspOutletOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName,
sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An outlet on the MasterSwitch plus has turned off."
--#TYPE "APC: An outlet on the MasterSwitch plus has turned off."
--#SUMMARY "An outlet on the MasterSwitch plus has turned off."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 101
mspDeviceConfigChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A device configuration change has been made on a MasterSwitch plus."
--#TYPE "APC: A device configuration change on a MasterSwitch plus."
--#SUMMARY "A device configuration change has been made on a MasterSwitch plus."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 102
mspOutletConfigChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An outlet configuration change has been made on a MasterSwitch plus."
--#TYPE "APC: An outlet configuration change on a MasterSwitch plus."
--#SUMMARY "An outlet configuration change has been made on a MasterSwitch plus."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 103
rsSourceSwitched TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger02, mtrapargsString03, mtrapargsInteger, mtrapargsString02, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The Redundant Switch has switched source.
The first variable is an integer representing the current source: 0=A, 1=B.
The second variable is the 32-character name of the current source.
The third variable is an integer representing the transfer cause:
0=No Transfers Recorded, 1=Due to user action or preferred switching,
3=Due to line notch or spike, 5=Due to low line voltage,
7=Transfer due to high line voltage,
9=Transfer due to frequency out of range.
The fourth variable is a character string listing the transfer cause."
--#TYPE "APC Redundant Switch: The Redundant Switch has switched source"
--#SUMMARY "The Redundant Switch has switched source."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 104
rsLostRedundancy TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
DESCRIPTION
"SEVERE: The Redundant Switch has lost redundancy.
The first variable is an integer representing the source which is no longer available: 0=A, 1=B.
The second variable is the 32-character name of the source which is no longer available."
--#TYPE "APC Redundant Switch: The Redundant Switch has lost redundancy"
--#SUMMARY "The Redundant Switch has has lost redundancy."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 105
rsRedundancyRestored TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Redundancy has been restored to the Redundant Switch .
The first variable is an integer representing the source which has been restored: 0=A, 1=B.
The second variable is the 32-character name of the source which has been restored."
--#TYPE "APC Redundant Switch: Redundancy has been restored."
--#SUMMARY "Redundancy has been restored to the Redundant Switch ."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 106
rsConfigChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A configuration change has been made on a Redundant Switch."
--#TYPE "APC: A configuration change on a Redundant Switch."
--#SUMMARY "A configuration change has been made on a Redundant Switch."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 107
rsCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communications with the Redundant Switch has been established."
--#TYPE "APC: Communications established with the Redundant Switch."
--#SUMMARY "Communications with the Redundant Switch has been established."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 108
rsCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Communications with the Redundant Switch has been lost."
--#TYPE "APC: Communications lost with the Redundant Switch."
--#SUMMARY "Communications with the Redundant Switch has been lost."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 109
dcCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communications with the DC power plant has been established."
--#TYPE "APC: Communications established with the DC power plant."
--#SUMMARY "Communications with the DC power plant has been established."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 110
dcCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Communications with the DC power plant has been lost."
--#TYPE "APC: Communications lost with the DC power plant."
--#SUMMARY "Communications with the DC power plant has been lost."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 111
dcActivePINChanged TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The active PIN on the DC controller has been changed."
--#TYPE "APC: The active PIN on the DC controller has been changed."
--#SUMMARY "The active PIN on the DC controller has been changed."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 112
dcMajorAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: A Major alarm is active in the DC power plant."
--#TYPE "APC: A Major alarm is active in the DC power plant."
--#SUMMARY "A Major alarm is active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 113
dcMajorAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Major alarm is no longer active in the DC power plant."
--#TYPE "APC: A Major alarm is no longer active in the DC power plant."
--#SUMMARY "A Major alarm is no longer active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 114
dcMinorAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Minor alarm is active in the DC power plant."
--#TYPE "APC: A Minor alarm is active in the DC power plant."
--#SUMMARY "A Minor alarm is active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 115
dcMinorAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Minor alarm is no longer active in the DC power plant."
--#TYPE "APC: A Minor alarm is no longer active in the DC power plant."
--#SUMMARY "A Minor alarm is no longer active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 116
dcOutputRelayOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { dm3StatusOutRlyIndex, dm3StatusOutRlyName, mtrapargsString }
DESCRIPTION
"WARNING: An output relay for the powerplant has been activated (state changed to on).
The first variable is an integer representing the output relay number that has gone on.
The second variable is the 16-character name of the output relay."
--#TYPE "APC: An output relay has gone on."
--#SUMMARY "An output relay has gone on in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 117
dcOutputRelayOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { dm3StatusOutRlyIndex, dm3StatusOutRlyName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An output relay for the powerplant has been deactivated (state changed to off).
The first variable is an integer representing the output relay number that has gone off.
The second variable is the 16-character name of the output relay."
--#TYPE "APC: An output relay has gone off."
--#SUMMARY "An output relay has gone off in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 118
dcInputRelayOn TRAP-TYPE
ENTERPRISE apc
VARIABLES { dm3StatusInRlyIndex, dm3StatusInRlyName, mtrapargsString }
DESCRIPTION
"WARNING: An input relay for the powerplant has been activated (state changed to on).
The first variable is an integer representing the input relay number that has gone on.
The second variable is the 16-character name of the input relay."
--#TYPE "APC: An input relay has gone on."
--#SUMMARY "An input relay has gone on in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 119
dcInputRelayOff TRAP-TYPE
ENTERPRISE apc
VARIABLES { dm3StatusInRlyIndex, dm3StatusInRlyName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: An input relay for the powerplant has been deactivated (state changed to off).
The first variable is an integer representing the input relay number that has gone off.
The second variable is the 16-character name of the input relay."
--#TYPE "APC: An input relay has gone off."
--#SUMMARY "An input relay has gone off in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 120
logicPowerSuppliesIncreased TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The number of system power supplies has increased."
--#TYPE "APC UPS: The number of system power supplies has increased."
--#SUMMARY "The number of system power supplies has increased."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 121
logicPowerSuppliesDecreased TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The number of system power supplies has decreased."
--#TYPE "APC UPS: The number of system power supplies has decreased."
--#SUMMARY "The number of system power supplies has decreased."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 122
externalSwitchGearClosed TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString02, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: External Switch Gear closed."
--#TYPE "APC UPS: External Switch Gear closed."
--#SUMMARY "External Switch Gear closed."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 123
externalSwitchGearOpened TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString02, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: External Switch Gear opened."
--#TYPE "APC UPS: External Switch Gear opened."
--#SUMMARY "External Switch Gear opened."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 124
generalDeviceEvent TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: APC Device event."
--#TYPE "APC Device event"
--#SUMMARY "APC Device event."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 125
atsSourceSwitched TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The Automatic Transfer Switch has switched source.
The first variable is an integer representing the current source: 0=A, 1=B.
The second variable is the 32-character name of the current source."
--#TYPE "APC Automatic Transfer Switch: The ATS has switched source"
--#SUMMARY "The Automatic Transfer Switch has switched source."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 126
atsLostRedundancy TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
DESCRIPTION
"SEVERE: The Automatic Transfer Switch has lost redundancy.
The first variable is an integer representing the source which is no longer available: 0=A, 1=B.
The second variable is the 32-character name of the source which is no longer available."
--#TYPE "APC Automatic Transfer Switch: The ATS has lost redundancy. "
--#SUMMARY "The Automatic Transfer Switch has has lost redundancy."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 127
atsRedundancyRestored TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Redundancy has been restored to the Automatic Transfer Switch .
The first variable is an integer representing the source which has been restored: 0=A, 1=B.
The second variable is the 32-character name of the source which has been restored."
--#TYPE "APC Automatic Transfer Switch: Redundancy has been restored."
--#SUMMARY "Redundancy has been restored to the Automatic Transfer Switch ."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 128
atsConfigChange TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A configuration change has been made on the Automatic Transfer Switch.
The first variable is an integer representing the configuration setting which changed:
0=Transfer Voltage Range, 1=Sensitivity 2=Preferred Source
3=Front Panel Lockout 4=Current Limit"
--#TYPE "APC Automatic Transfer Switch: ATS configuration changed."
--#SUMMARY "A configuration change has been made on a Automatic Transfer Switch."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 129
atsCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Communications with the Automatic Transfer Switch has been established."
--#TYPE "APC Automatic Transfer Switch: Communications established."
--#SUMMARY "Communications with the Automatic Transfer Switch has been established."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 130
atsCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Communications with the Automatic Transfer Switch has been lost."
--#TYPE "APC Automatic Transfer Switch: Communications lost."
--#SUMMARY "Communications with the Automatic Transfer Switch has been lost."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 131
atsOverCurrent TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Output Current has exceeded threshold."
--#TYPE "APC Automatic Transfer Switch: Output Current exceeded threshold"
--#SUMMARY "Output Current has exceeded Threshold. "
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 132
atsOverCurrentCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Output Current has returned below threshold."
--#TYPE "APC Automatic Transfer Switch: Output Current below threshold."
--#SUMMARY "Output Current has returned below threshold."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 133
atsPowerSupplyFailure TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"SEVERE: The Automatic Transfer Switch Power Supply has failed.
The first variable is an integer representing the Power Supply which
has failed: 0=24V, 1=12V 2=5V."
--#TYPE "APC Automatic Transfer Switch: The ATS Power Supply has failed."
--#SUMMARY "The Automatic Transfer Switch Power Supply has failed."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 134
atsPowerSupplyFailureCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsInteger, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The Automatic Transfer Power Supply Failure Cleared.
The first variable is an integer representing the Power Supply which
has cleared: 0=24V, 1=12V 2=5V."
--#TYPE "APC Automatic Transfer Switch: Power Supply Failure Cleared."
--#SUMMARY "The Automatic Transfer Switch Power Supply Failure Cleared."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 135
dcMainsFailAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Mains Fail alarm is active in the DC power plant."
--#TYPE "APC: A Mains Fail alarm is active in the DC power plant."
--#SUMMARY "A Mains Fail alarm is active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 136
dcMainsFailAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Mains Fail alarm is no longer active in the DC power plant."
--#TYPE "APC: Mains Fail alarm is no longer active in the DC power plant."
--#SUMMARY "Mains Fail alarm is no longer active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 137
dcFanFailAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Fan Fail alarm is active in the DC power plant."
--#TYPE "APC: A Fan Fail alarm is active in the DC power plant."
--#SUMMARY "A Fan Fail alarm is active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 138
dcFanFailAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Fan Fail alarm is no longer active in the DC power plant."
--#TYPE "APC: A Fan Fail alarm is no longer active in the DC power plant."
--#SUMMARY "A Fan Fail alarm is no longer active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 139
dcRectifierOvertempAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: Rect. Overtemp alarm is active in the power plant."
--#TYPE "APC: Rect. Overtemp alarm is active in the power plant."
--#SUMMARY "Rect. Overtemp alarm is active in the power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 140
dcRectifierOvertempAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Rect. Overtmp alarm is no longer active in the power plant."
--#TYPE "APC: Rect. Overtmp alarm is no longer active in the power plant."
--#SUMMARY "Rect. Overtmp alarm is no longer active in the power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 141
dcCurrentLimitAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Current Limit alarm is active in the power plant."
--#TYPE "APC: A Current Limit alarm is active in the power plant."
--#SUMMARY "A Current Limit alarm is active in the power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 142
dcCurrentLimitAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Current Limit alarm is no longer active in the power plant."
--#TYPE "APC: Current Limit alarm is no longer active in the power plant."
--#SUMMARY "Current Limit alarm is no longer active in the power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 143
dcRectifierFailAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Rect. Fail alarm is active in the power plant."
--#TYPE "APC: A Rect. Fail alarm is active in the power plant."
--#SUMMARY "A Rect. Fail alarm is active in the power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 144
dcRectifierFailAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Rect. Fail alarm is no longer active in the power plant."
--#TYPE "APC: Rect. Fail alarm is no longer active in the power plant."
--#SUMMARY "Rect. Fail alarm is no longer active in the power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 145
dcMultRectFailAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: Multiple Rect. Fail alarm is active in the powerplant."
--#TYPE "APC: Multiple Rect. Fail alarm is active in the powerplant."
--#SUMMARY "Multiple Rect. Fail alarm is active in the powerplant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 146
dcMultRectFailAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Mult Rect Fail alarm is no longer active in the powerplant."
--#TYPE "APC: Mult Rect Fail alarm is no longer active in the powerplant."
--#SUMMARY "Mult Rect Fail alarm is no longer active in the powerplant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 147
dcBatteryBreakerAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: Batt. Breaker alarm is active in the power plant."
--#TYPE "APC: Batt. Breaker alarm is active in the power plant."
--#SUMMARY "Batt. Breaker alarm is active in the power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 148
dcBatteryBreakerAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Batt. Breaker alarm is no longer active in the power plant."
--#TYPE "APC: Batt. Breaker alarm is no longer active in the power plant."
--#SUMMARY "Batt. Breaker alarm is no longer active in the power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 149
dcRectifierOVPAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Rect. OVP alarm is active in the power plant."
--#TYPE "APC: A Rect. OVP alarm is active in the power plant."
--#SUMMARY "A Rect. OVP alarm is active in the power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 150
dcRectifierOVPAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Rect. OVP alarm is no longer active in the power plant."
--#TYPE "APC: A Rect. OVP alarm is no longer active in the power plant."
--#SUMMARY "A Rect. OVP alarm is no longer active in the power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 151
dcLVDImminentAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A LVD Imminent alarm is active in the powerplant."
--#TYPE "APC: A LVD Imminent alarm is active in the powerplant."
--#SUMMARY "A LVD Imminent alarm is active in the powerplant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 152
dcLVDImminentAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A LVD Imminent alarm is no longer active in the powerplant."
--#TYPE "APC: A LVD Imminent alarm is no longer active in the powerplant."
--#SUMMARY "A LVD Imminent alarm is no longer active in the powerplant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 153
dcFuseCBAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Fuse/CB alarm is active in the DC power plant."
--#TYPE "APC: A Fuse/CB alarm alarm is active in the DC power plant."
--#SUMMARY "A Fuse/CB alarm is active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 154
dcFuseCBAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Fuse/CB alarm is no longer active in the DC power plant."
--#TYPE "APC: A Fuse/CB alarm is no longer active in the DC power plant."
--#SUMMARY "A Fuse/CB alarm is no longer active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 155
dcBatteryTestFail TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Battery Test failed in the DC power plant."
--#TYPE "APC: A Battery Test failed in the DC power plant."
--#SUMMARY "A Battery Test failed in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 156
dcTemperatureAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Temperature is active in the power plant."
--#TYPE "APC: A Temperature alarm is active in the power plant."
--#SUMMARY "A Temperature alarm is active in the power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 157
dcTemperatureAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Temperature alarm is no longer active in the power plant."
--#TYPE "APC: A Temperature alarm is no longer active in the power plant."
--#SUMMARY "A Temperature alarm is no longer active in the power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 158
dcHumidityAlarm TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: A Humidity alarm is active in the DC power plant."
--#TYPE "APC: A Humidity alarm is active in the DC power plant."
--#SUMMARY "A Humidity alarm is active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 159
dcHumidityAlarmCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: A Humidity alarm is no longer active in the DC power plant."
--#TYPE "APC: A Humidity alarm is no longer active in the DC power plant."
--#SUMMARY "A Humidity alarm is no longer active in the DC power plant."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 160
dcBBCommunicationEstablished TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Power plant bridging board communications established."
--#TYPE "APC: Power plant bridging board communications established."
--#SUMMARY "Power plant bridging board communications established."
--#ARGUMENTS { }
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 161
dcBBCommunicationLost TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"SEVERE: Power plant bridging board communications lost."
--#TYPE "APC: Power plant bridging board communications lost."
--#SUMMARY "Power plant bridging board communications lost."
--#ARGUMENTS { }
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE DEGRADED
::= 162
iemHighTempThresholdViolation TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeCurrentTemp, iemStatusProbeTempUnits, iemStatusProbeNumber,
iemStatusProbeName, mtrapargsString }
DESCRIPTION
"SEVERE: High temperature threshold violated on Integrated
Environmental Monitor probe. The first variable is the
current temperature. The second variable is the temperature
scale. The third variable is the probe number. The fourth
variable is the probe name."
--#TYPE "APC IEM: High temperature threshold violation."
--#SUMMARY "High temperature threshold violation."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 163
iemHighTempThresholdViolationCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: High temperature threshold violated on Integrated
Environmental Monitor probe has been cleared. The first variable
is the probe number. The second variable is the probe name."
--#TYPE "APC IEM: High temperature threshold violation cleared."
--#SUMMARY "High temperature threshold violation has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 164
iemLowTempThresholdViolation TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeCurrentTemp, iemStatusProbeTempUnits, iemStatusProbeNumber,
iemStatusProbeName, mtrapargsString }
DESCRIPTION
"SEVERE: Low temperature threshold violated on integrated
probe. The first variable is the current temperature. The
second variable is the temperature scale. The third
variable is the probe number. The fourth variable is the
probe name."
--#TYPE "APC IEM: Low temperature threshold violation."
--#SUMMARY "Low temperature threshold violation."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 165
iemLowTempThresholdViolationCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Low temperature threshold violated on integrated
probe has been cleared. The first variable is the probe number.
The second variable is the probe name."
--#TYPE "APC IEM: Low temperature threshold violation cleared."
--#SUMMARY "Low temperature threshold violation has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 166
iemHighHumidThresholdViolation TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeCurrentHumid, iemStatusProbeNumber, iemStatusProbeName,
mtrapargsString }
DESCRIPTION
"SEVERE: High humidity threshold violated on integrated
probe. The first variable is the current humidity. The
second variable is the probe number. The third variable
is the probe name."
--#TYPE "APC IEM: High humidity threshold violation."
--#SUMMARY "High humidity threshold violation."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 167
iemHighHumidThresholdViolationCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: High humidity threshold violated on integrated
probe cleared. The first variable is the probe number. The second
variable is the probe name."
--#TYPE "APC IEM: High humidity threshold violation cleared."
--#SUMMARY "High humidity threshold violation has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 168
iemLowHumidThresholdViolation TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeCurrentHumid, iemStatusProbeNumber, iemStatusProbeName,
mtrapargsString }
DESCRIPTION
"SEVERE: Low humidity threshold violated on integrated
probe. The first variable is the current humidity. The
second variable is the probe number. The third variable
is the probe name."
--#TYPE "APC IEM: Low humidity threshold violation."
--#SUMMARY "Low humidity threshold violation."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 169
iemLowHumidThresholdViolationCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusProbeNumber, iemStatusProbeName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: Low humidity threshold violated on integrated
probe cleared. The first variable is the probe number. The second
variable is the probe name."
--#TYPE "APC IEM: Low humidity threshold violation cleared."
--#SUMMARY "Low humidity threshold violation has been cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 170
iemProbeDisconnected TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"WARNING: The temperature/humidity probe on the Integrated
Environmental Monitor has been disconnected. This trap is
generated when a probe that has been in communication with
the Environmental Monitor has been disconnected or can no
longer communicate."
--#TYPE "APC IEM: Probe disconnected."
--#SUMMARY "Probe has been disconnected."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 171
iemProbeConnected TRAP-TYPE
ENTERPRISE apc
VARIABLES { mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The temperature/humidity probe on the Integrated
Environmental Monitor has been connected. This trap is generated
when the Environmental Monitor establishes communication with a
probe that had previously not been connected."
--#TYPE "APC IEM: Probe Connected."
--#SUMMARY "Probe has been connected."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 172
iemContactFault TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusContactNumber, iemStatusContactName, mtrapargsString }
DESCRIPTION
"SEVERE: There is a contact fault on the Integrated
Environmental Monitor. The first argument is the number
of the contact. The second argument is the name of the
contact."
--#TYPE "APC IEM: Contact fault."
--#SUMMARY "Contact fault."
--#SEVERITY SEVERE
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 173
iemContactFaultCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusContactNumber, iemStatusContactName, mtrapargsString }
DESCRIPTION
"INFORMATIONAL: The contact fault on the Integrated
Environmental Monitor has been cleared. The first
argument is the number of the contact. The second
argument is the name of the contact."
--#TYPE "APC IEM: Contact fault."
--#SUMMARY "Contact fault cleared."
--#SEVERITY INFORMATIONAL
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 174
iemRelayFault TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusRelayNumber, iemStatusRelayName, mtrapargsString02, mtrapargsString }
DESCRIPTION
"WARNING: The output relay on the Integrated Environmental
Monitor has switched to the fault state. The first
argument is the number of the output relay. The second
argument is the name of the output relay. The third
argument is the event that caused the fault."
--#TYPE "APC IEM: Output relay fault."
--#SUMMARY "Output relay has faulted."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 175
iemRelayFaultCleared TRAP-TYPE
ENTERPRISE apc
VARIABLES { iemStatusRelayNumber, iemStatusRelayName, mtrapargsString }
DESCRIPTION
"WARNING: The fault condition on the output relay on the
Integrated Environmental Monitor has cleared. The first
argument is the number of the output relay. The second
argument is the name of the output relay."
--#TYPE "APC IEM: Output relay fault condition cleared."
--#SUMMARY "Output relay fault cleared."
--#SEVERITY WARNING
--#TIMEINDEX 1
--#HELP ""
--#HELPTAG 0
--#STATE OPERATIONAL
::= 176
END
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