Available versions

ver. 5.0
ver. 6.0
ver. 5.4

Raritan PDU

Overview

Works with Raritan PDU PX2 / PX3 and ATS PX3 products

Discovery rules:

Inlets
Outlets
Overcurrent Protectors
Sensors

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.

Template links

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:

Inlets
Outlets
Overcurrent Protectors
Sensors

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.

Template links

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:

Inlets
Outlets
Overcurrent Protectors
Sensors

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.

Template links

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