Available versions




Raritan PDU

Overview

Works with Raritan PDU PX2 / PX3 and ATS PX3 products

Discovery rules:

With advanced power function (See https://www.zabbix.com/forum/zabbix-help/385574 for more info)

Author

eric_at_2037

Macros used

There are no macros links in this template.

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Overcurrent Protectors <p>-</p> SNMP agent overCurrentProtector<p>Update: 3600</p>
Outlets <p>-</p> SNMP agent pduOutlet<p>Update: 3600</p>
Inlets <p>-</p> SNMP agent pduInlet<p>Update: 3600</p>
Sensors <p>-</p> SNMP agent externalSensor<p>Update: 3600</p>

Items collected

Name Description Type Key and additional info
Overcurrent Protector number <p>-</p> SNMP agent overCurrentProtectorCount<p>Update: 3600</p>
Device reachability using ICMP <p>-</p> Simple check icmpping<p>Update: 3600</p>
Outlet Controller number <p>-</p> SNMP agent outletControllerCount<p>Update: 3600</p>
Contact <p>-</p> SNMP agent sysContact<p>Update: 3600</p>
Inlet Controller number <p>-</p> SNMP agent inletControllerCount<p>Update: 3600</p>
Device Frequency <p>-</p> SNMP agent pduRatedFrequency<p>Update: 3600</p>
Device Model Name <p>-</p> SNMP agent pduBasicIdentModel<p>Update: 3600</p>
Uptime <p>-</p> SNMP agent sysUpTime<p>Update: 300</p>
Device Manufacter Name <p>-</p> SNMP agent Manufacturer.PDU<p>Update: 3600</p>
Device Name <p>-</p> SNMP agent sysName<p>Update: 3600</p>
Device Current <p>-</p> SNMP agent pduRatedCurrent<p>Update: 3600</p>
Inlet number <p>-</p> SNMP agent inletCount<p>Update: 3600</p>
Software version (full) <p>-</p> SNMP agent sysDescr<p>Update: 3600</p>
Device Location <p>-</p> SNMP agent sysLocation<p>Update: 3600</p>
Device Serial Number <p>-</p> SNMP agent pduSerialNumber<p>Update: 3600</p>
Device Power Capability <p>-</p> SNMP agent pduRatedVA<p>Update: 3600</p>
Outlet number <p>-</p> SNMP agent outletCount<p>Update: 3600</p>
Device Voltage <p>-</p> SNMP agent pduRatedVoltage<p>Update: 3600</p>
State of Overcurrent Protector $1 <p>-</p> SNMP agent measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current of Overcurrent Protector $1 <p>-</p> SNMP agent measurementsOverCurrentProtectorSensorValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Name of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Capability of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorRatedCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorType[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
OnOff Status of Outlet $1 <p>-</p> SNMP agent OnOffStatus[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Current Capability of Outlet $1 <p>-</p> SNMP agent OutletCurrent[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Name of Outlet $1 <p>-</p> SNMP agent OutletName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of Outlet $1 <p>-</p> SNMP agent outletReceptacleDescriptor[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Voltage Capability of Outlet $1 <p>-</p> SNMP agent OutletVolts[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Name of Inlet $1 <p>-</p> SNMP agent InletName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
State of powerFactor on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
powerFactor of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermspowerFactor[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
apparentPower of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsapparentPower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
activePower of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsactivePower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
activeEnergy of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsactiveEnergy[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Frequency of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValueFrequency[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current of Inlet $1 <p>-</p> Calculated measurementsInletSensorUsableValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Voltage on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsVoltage[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Current on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Type of Inlet $1 <p>-</p> SNMP agent inletPlugDescriptor[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
State of apparentPower on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of activePower on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsactivePower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of activeEnergy on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Frequency on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStateFrequency[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
RAW Current of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorRAWValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current DecimalDigits of Inlet $1 <p>-</p> SNMP agent inletSensorDecimalDigitsrmsCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Volatage Capability of Inlet $1 <p>-</p> SNMP agent inletRatedVoltage[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Current Capability of Inlet $1 <p>-</p> SNMP agent inletRatedCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Voltage of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsVoltage[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Sensor DecimalDigits of External Sensor $1 <p>-</p> SNMP agent externalSensorDecimalDigits[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Serial Number of External Sensor $1 <p>-</p> SNMP agent externalSensorSerialNumber[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of External Sensor $1 <p>-</p> SNMP agent externalSensorType[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Unit of External Sensor $1 <p>-</p> SNMP agent externalSensorUnits[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
RAW Value of Sensor $1 <p>-</p> SNMP agent measurementsExternalSensorRAWValue[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of External Sensor $1 <p>-</p> SNMP agent measurementsExternalSensorState[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Value of Sensor {#SNMPVALUE} <p>-</p> Calculated measurementsExternalSensorUsableValue[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>

Triggers

Name Description Expression Priority
Sensor problem on {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsExternalSensorState[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Sensor problem on {#SNMPVALUE} is too high <p>-</p> <p>Expression: {Raritan PDU:measurementsExternalSensorState[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} is too low <p>-</p> <p>Expression: {Raritan PDU:measurementsExternalSensorState[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
Current problem too high on Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Current problem too low on Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
State of Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
activeEnergy problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
activePower problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsactivePower[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
apparentPower problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Current problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsCurrent[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Current problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsCurrent[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Current problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsCurrent[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
Frequency problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStateFrequency[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Frequency problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStateFrequency[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Frequency problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStateFrequency[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
powerFactor problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Voltage problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsVoltage[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Voltage problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsVoltage[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Voltage problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsVoltage[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
Current problem too high on Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Current problem too low on Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
State of Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
activeEnergy problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
activePower problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsactivePower[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
apparentPower problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Current problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsCurrent[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Current problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsCurrent[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Current problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsCurrent[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
Frequency problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStateFrequency[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Frequency problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStateFrequency[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Frequency problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStateFrequency[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
powerFactor problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Voltage problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsVoltage[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Voltage problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsVoltage[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Voltage problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsInletSensorStatermsVoltage[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsExternalSensorState[{#SNMPVALUE}].last()}<>4</p><p>Recovery expression: </p> average
Sensor problem on {#SNMPVALUE} is too high (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsExternalSensorState[{#SNMPVALUE}].last()}=6</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} is too low (LLD) <p>-</p> <p>Expression: {Raritan PDU:measurementsExternalSensorState[{#SNMPVALUE}].last()}=2</p><p>Recovery expression: </p> high

Raritan PDU

Overview

Works with Raritan PDU PX2 / PX3 and ATS PX3 products

Discovery rules:

With advanced power function (See https://www.zabbix.com/forum/zabbix-help/385574 for more info)

Author

eric_at_2037

Macros used

There are no macros links in this template.

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Outlets <p>-</p> SNMP agent pduOutlet<p>Update: 3600</p>
Inlets <p>-</p> SNMP agent pduInlet<p>Update: 3600</p>
Sensors <p>-</p> SNMP agent externalSensor<p>Update: 3600</p>
Overcurrent Protectors <p>-</p> SNMP agent overCurrentProtector<p>Update: 3600</p>

Items collected

Name Description Type Key and additional info
Device Manufacter Name <p>-</p> SNMP agent Manufacturer.PDU<p>Update: 3600</p>
Device Serial Number <p>-</p> SNMP agent pduSerialNumber<p>Update: 3600</p>
Inlet number <p>-</p> SNMP agent inletCount<p>Update: 3600</p>
Device reachability using ICMP <p>-</p> Simple check icmpping<p>Update: 3600</p>
Device Name <p>-</p> SNMP agent sysName<p>Update: 3600</p>
Software version (full) <p>-</p> SNMP agent sysDescr<p>Update: 3600</p>
Device Power Capability <p>-</p> SNMP agent pduRatedVA<p>Update: 3600</p>
Device Voltage <p>-</p> SNMP agent pduRatedVoltage<p>Update: 3600</p>
Overcurrent Protector number <p>-</p> SNMP agent overCurrentProtectorCount<p>Update: 3600</p>
Device Current <p>-</p> SNMP agent pduRatedCurrent<p>Update: 3600</p>
Inlet Controller number <p>-</p> SNMP agent inletControllerCount<p>Update: 3600</p>
Outlet number <p>-</p> SNMP agent outletCount<p>Update: 3600</p>
Device Location <p>-</p> SNMP agent sysLocation<p>Update: 3600</p>
Device Model Name <p>-</p> SNMP agent pduBasicIdentModel<p>Update: 3600</p>
Uptime <p>-</p> SNMP agent sysUpTime<p>Update: 300</p>
Outlet Controller number <p>-</p> SNMP agent outletControllerCount<p>Update: 3600</p>
Device Frequency <p>-</p> SNMP agent pduRatedFrequency<p>Update: 3600</p>
Contact <p>-</p> SNMP agent sysContact<p>Update: 3600</p>
OnOff Status of Outlet $1 <p>-</p> SNMP agent OnOffStatus[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Current Capability of Outlet $1 <p>-</p> SNMP agent OutletCurrent[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Name of Outlet $1 <p>-</p> SNMP agent OutletName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of Outlet $1 <p>-</p> SNMP agent outletReceptacleDescriptor[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Voltage Capability of Outlet $1 <p>-</p> SNMP agent OutletVolts[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Name of Inlet $1 <p>-</p> SNMP agent InletName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
State of powerFactor on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
powerFactor of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermspowerFactor[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
apparentPower of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsapparentPower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
activePower of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsactivePower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
activeEnergy of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsactiveEnergy[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Frequency of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValueFrequency[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current of Inlet $1 <p>-</p> Calculated measurementsInletSensorUsableValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Voltage on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsVoltage[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Current on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Type of Inlet $1 <p>-</p> SNMP agent inletPlugDescriptor[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
State of apparentPower on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of activePower on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsactivePower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of activeEnergy on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Frequency on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStateFrequency[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
RAW Current of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorRAWValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current DecimalDigits of Inlet $1 <p>-</p> SNMP agent inletSensorDecimalDigitsrmsCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Volatage Capability of Inlet $1 <p>-</p> SNMP agent inletRatedVoltage[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Current Capability of Inlet $1 <p>-</p> SNMP agent inletRatedCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Voltage of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsVoltage[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Sensor DecimalDigits of External Sensor $1 <p>-</p> SNMP agent externalSensorDecimalDigits[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Serial Number of External Sensor $1 <p>-</p> SNMP agent externalSensorSerialNumber[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of External Sensor $1 <p>-</p> SNMP agent externalSensorType[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Unit of External Sensor $1 <p>-</p> SNMP agent externalSensorUnits[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
RAW Value of Sensor $1 <p>-</p> SNMP agent measurementsExternalSensorRAWValue[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of External Sensor $1 <p>-</p> SNMP agent measurementsExternalSensorState[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Value of Sensor {#SNMPVALUE} <p>-</p> Calculated measurementsExternalSensorUsableValue[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Overcurrent Protector $1 <p>-</p> SNMP agent measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current of Overcurrent Protector $1 <p>-</p> SNMP agent measurementsOverCurrentProtectorSensorValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Name of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Capability of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorRatedCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorType[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>

Triggers

Name Description Expression Priority
Sensor problem on {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Sensor problem on {#SNMPVALUE} is too high <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} is too low <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Current problem too high on Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
State of Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
activeEnergy problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
activePower problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactivePower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
apparentPower problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Frequency problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Frequency problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Frequency problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
powerFactor problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Voltage problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
activeEnergy problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
activePower problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactivePower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
apparentPower problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Frequency problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Frequency problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Frequency problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
powerFactor problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Voltage problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Sensor problem on {#SNMPVALUE} is too high (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} is too low (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Current problem too high on Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
State of Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average

Raritan PDU

Overview

Works with Raritan PDU PX2 / PX3 and ATS PX3 products

Discovery rules:

With advanced power function (See https://www.zabbix.com/forum/zabbix-help/385574 for more info)

Author

eric_at_2037

Macros used

There are no macros links in this template.

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Outlets <p>-</p> SNMP agent pduOutlet<p>Update: 3600</p>
Inlets <p>-</p> SNMP agent pduInlet<p>Update: 3600</p>
Sensors <p>-</p> SNMP agent externalSensor<p>Update: 3600</p>
Overcurrent Protectors <p>-</p> SNMP agent overCurrentProtector<p>Update: 3600</p>

Items collected

Name Description Type Key and additional info
Device Manufacter Name <p>-</p> SNMP agent Manufacturer.PDU<p>Update: 3600</p>
Device Serial Number <p>-</p> SNMP agent pduSerialNumber<p>Update: 3600</p>
Inlet number <p>-</p> SNMP agent inletCount<p>Update: 3600</p>
Device reachability using ICMP <p>-</p> Simple check icmpping<p>Update: 3600</p>
Device Name <p>-</p> SNMP agent sysName<p>Update: 3600</p>
Software version (full) <p>-</p> SNMP agent sysDescr<p>Update: 3600</p>
Device Power Capability <p>-</p> SNMP agent pduRatedVA<p>Update: 3600</p>
Device Voltage <p>-</p> SNMP agent pduRatedVoltage<p>Update: 3600</p>
Overcurrent Protector number <p>-</p> SNMP agent overCurrentProtectorCount<p>Update: 3600</p>
Device Current <p>-</p> SNMP agent pduRatedCurrent<p>Update: 3600</p>
Inlet Controller number <p>-</p> SNMP agent inletControllerCount<p>Update: 3600</p>
Outlet number <p>-</p> SNMP agent outletCount<p>Update: 3600</p>
Device Location <p>-</p> SNMP agent sysLocation<p>Update: 3600</p>
Device Model Name <p>-</p> SNMP agent pduBasicIdentModel<p>Update: 3600</p>
Uptime <p>-</p> SNMP agent sysUpTime<p>Update: 300</p>
Outlet Controller number <p>-</p> SNMP agent outletControllerCount<p>Update: 3600</p>
Device Frequency <p>-</p> SNMP agent pduRatedFrequency<p>Update: 3600</p>
Contact <p>-</p> SNMP agent sysContact<p>Update: 3600</p>
OnOff Status of Outlet $1 <p>-</p> SNMP agent OnOffStatus[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Current Capability of Outlet $1 <p>-</p> SNMP agent OutletCurrent[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Name of Outlet $1 <p>-</p> SNMP agent OutletName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of Outlet $1 <p>-</p> SNMP agent outletReceptacleDescriptor[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Voltage Capability of Outlet $1 <p>-</p> SNMP agent OutletVolts[{#SNMPVALUE}]<p>Update: 300</p><p>LLD</p>
Name of Inlet $1 <p>-</p> SNMP agent InletName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
State of powerFactor on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
powerFactor of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermspowerFactor[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
apparentPower of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsapparentPower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
activePower of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsactivePower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
activeEnergy of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsactiveEnergy[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Frequency of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValueFrequency[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current of Inlet $1 <p>-</p> Calculated measurementsInletSensorUsableValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Voltage on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsVoltage[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Current on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Type of Inlet $1 <p>-</p> SNMP agent inletPlugDescriptor[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
State of apparentPower on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of activePower on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsactivePower[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of activeEnergy on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Frequency on Inlet $1 <p>-</p> SNMP agent measurementsInletSensorStateFrequency[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
RAW Current of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorRAWValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current DecimalDigits of Inlet $1 <p>-</p> SNMP agent inletSensorDecimalDigitsrmsCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Volatage Capability of Inlet $1 <p>-</p> SNMP agent inletRatedVoltage[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Current Capability of Inlet $1 <p>-</p> SNMP agent inletRatedCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Voltage of Inlet $1 <p>-</p> SNMP agent measurementsInletSensorValuermsVoltage[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Sensor DecimalDigits of External Sensor $1 <p>-</p> SNMP agent externalSensorDecimalDigits[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Serial Number of External Sensor $1 <p>-</p> SNMP agent externalSensorSerialNumber[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of External Sensor $1 <p>-</p> SNMP agent externalSensorType[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Unit of External Sensor $1 <p>-</p> SNMP agent externalSensorUnits[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
RAW Value of Sensor $1 <p>-</p> SNMP agent measurementsExternalSensorRAWValue[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of External Sensor $1 <p>-</p> SNMP agent measurementsExternalSensorState[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Value of Sensor {#SNMPVALUE} <p>-</p> Calculated measurementsExternalSensorUsableValue[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
State of Overcurrent Protector $1 <p>-</p> SNMP agent measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Current of Overcurrent Protector $1 <p>-</p> SNMP agent measurementsOverCurrentProtectorSensorValuermsCurrent[{#SNMPVALUE}]<p>Update: 60</p><p>LLD</p>
Name of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorName[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Capability of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorRatedCurrent[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>
Type of Overcurrent Protector $1 <p>-</p> SNMP agent overCurrentProtectorType[{#SNMPVALUE}]<p>Update: 3600</p><p>LLD</p>

Triggers

Name Description Expression Priority
Sensor problem on {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Sensor problem on {#SNMPVALUE} is too high <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} is too low <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Current problem too high on Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
State of Overcurrent Protector {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
activeEnergy problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
activePower problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactivePower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
apparentPower problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Frequency problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Frequency problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Frequency problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
powerFactor problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem too high on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Voltage problem too low on Inlet {#SNMPVALUE} <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
activeEnergy problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactiveEnergy[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
activePower problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsactivePower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
apparentPower problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsapparentPower[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Current problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Frequency problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Frequency problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Frequency problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStateFrequency[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
powerFactor problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermspowerFactor[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Voltage problem too high on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Voltage problem too low on Inlet {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsInletSensorStatermsVoltage[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average
Sensor problem on {#SNMPVALUE} is too high (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Sensor problem on {#SNMPVALUE} is too low (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsExternalSensorState[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
Current problem too high on Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=6</p><p>Recovery expression: </p> high
Current problem too low on Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])=2</p><p>Recovery expression: </p> high
State of Overcurrent Protector {#SNMPVALUE} (LLD) <p>-</p> <p>Expression: last(/Raritan PDU/measurementsOverCurrentProtectorSensorStatermsCurrent[{#SNMPVALUE}])<>4</p><p>Recovery expression: </p> average