Available versions




SNMP Reillo UPS

Overview

SNMP Template for REILLLO UPS, tested with Zabbix 3.4 (should work in older versions) Battery Status, Input/output load, Alarms. This template requires Reillo MIB files (RFC1628A.MIB ) to be import into Zabbix server.

Author

Sing Kingdavong

Macros used

Name Description Default Type
{$NOMINAL_FREQUENCY} <p>-</p> 50 Text macro
{$NOMINAL_VOLTAGE} <p>-</p> 230 Text macro

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Output lines <p>-</p> SNMP agent upsOutputLineIndex<p>Update: 15s</p>
Input Lines <p>-</p> SNMP agent upsInputLineIndex<p>Update: 15s</p>
Bypass lines <p>-</p> SNMP agent upsBypassNumLines<p>Update: 15s</p>

Items collected

Name Description Type Key and additional info
Estimated Charge Remaining <p>-</p> SNMP agent upsEstimatedChargeRemaining<p>Update: 60s</p>
Software version <p>-</p> SNMP agent upsIdentUPSSoftwareVersion<p>Update: 86400</p>
Output frequency <p>-</p> SNMP agent upsOutputFrequency<p>Update: 60s</p>
Model name <p>-</p> SNMP agent upsIdentModel<p>Update: 86400</p>
Seconds on Battery <p>-</p> SNMP agent upsSecondsOnBattery<p>Update: 60s</p>
Estimated Minutes Remaining <p>-</p> SNMP agent upsEstimatedMinutesRemaining<p>Update: 60s</p>
Output source <p>-</p> SNMP agent upsOutputSource<p>Update: 60s</p>
Bypass frequency <p>-</p> SNMP agent upsBypassFrequency<p>Update: 60s</p>
Battery Status <p>-</p> SNMP agent upsBatteryStatus<p>Update: 60s</p>
Ups Agent Version <p>-</p> SNMP agent upsIdentAgentSoftwareVersion<p>Update: 86400</p>
Input Line Bads <p>-</p> SNMP agent upsInputLineBads<p>Update: 60s</p>
Battery Current <p>-</p> SNMP agent upsBatteryCurrent<p>Update: 60s</p>
Battery Temperature <p>-</p> SNMP agent upsBatteryTemperature<p>Update: 60s</p>
Alarms Present <p>-</p> SNMP agent upsAlarmsPresent<p>Update: 60s</p>
Agent availability <p>The agent always returns 1 for this item. It could be used in combination with nodata() for availability check.</p> Zabbix internal zabbix[host,snmp,available]<p>Update: 30s</p>
Battery Voltage <p>-</p> SNMP agent upsBatteryVoltage<p>Update: 60s</p>
Line {#SNMPVALUE} Output Current <p>-</p> SNMP agent upsOutputCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Load <p>-</p> SNMP agent upsOutputPercentLoad[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Power <p>-</p> SNMP agent upsOutputPower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Voltage <p>-</p> SNMP agent upsOutputVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Current <p>-</p> SNMP agent upsInputCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Frequency <p>-</p> SNMP agent upsInputFrequency[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} True Power <p>-</p> SNMP agent upsInputTruePower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Voltage <p>-</p> SNMP agent upsInputVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Current <p>-</p> SNMP agent upsBypassCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Power <p>-</p> SNMP agent upsBypassPower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Voltage <p>-</p> SNMP agent upsBypassVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>

Triggers

Name Description Expression Priority
Bypass voltage on line {#SNMPVALUE} below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: {SNMP Reillo UPS:upsBypassVoltage[{#SNMPVALUE}].max(#2)}<(230*0.9)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} frequency not {$NOMINAL_FREQUENCY} <p>-</p> <p>Expression: {SNMP Reillo UPS:upsInputFrequency[{#SNMPVALUE}].min(#2)}>50+1 or {SNMP Reillo UPS:upsInputFrequency[{#SNMPVALUE}].max(#2)}<(50-1)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: {SNMP Reillo UPS:upsInputVoltage[{#SNMPVALUE}].max(#2)}<(230*0.9)</p><p>Recovery expression: </p> high
Load of output line {#SNMPVALUE} is over 80% <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}>80 and {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}<=90</p><p>Recovery expression: </p> warning
Load of output line {#SNMPVALUE} is over 90% <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}>90 and {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}<=95</p><p>Recovery expression: </p> average
Load of output line {#SNMPVALUE} is over 95% <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}>95</p><p>Recovery expression: </p> high
Output line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputVoltage[{#SNMPVALUE}].max(#2)}<(230*0.9)</p><p>Recovery expression: </p> high
Load of output line {#SNMPVALUE} is over 80% (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}>80 and {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}<=90</p><p>Recovery expression: </p> warning
Load of output line {#SNMPVALUE} is over 90% (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}>90 and {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}<=95</p><p>Recovery expression: </p> average
Load of output line {#SNMPVALUE} is over 95% (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputPercentLoad[{#SNMPVALUE}].min(300)}>95</p><p>Recovery expression: </p> high
Output line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsOutputVoltage[{#SNMPVALUE}].max(#2)}<(230*0.9)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} frequency not {$NOMINAL_FREQUENCY} (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsInputFrequency[{#SNMPVALUE}].min(#2)}>50+1 or {SNMP Reillo UPS:upsInputFrequency[{#SNMPVALUE}].max(#2)}<(50-1)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsInputVoltage[{#SNMPVALUE}].max(#2)}<(230*0.9)</p><p>Recovery expression: </p> high
Bypass voltage on line {#SNMPVALUE} below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: {SNMP Reillo UPS:upsBypassVoltage[{#SNMPVALUE}].max(#2)}<(230*0.9)</p><p>Recovery expression: </p> high

SNMP Reillo UPS

Overview

SNMP Template for REILLLO UPS, tested with Zabbix 3.4 (should work in older versions) Battery Status, Input/output load, Alarms. This template requires Reillo MIB files (RFC1628A.MIB ) to be import into Zabbix server.

Author

Sing Kingdavong

Macros used

Name Description Default Type
{$NOMINAL_FREQUENCY} <p>-</p> 50 Text macro
{$NOMINAL_VOLTAGE} <p>-</p> 230 Text macro

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Input Lines <p>-</p> SNMP agent upsInputLineIndex<p>Update: 15s</p>
Output lines <p>-</p> SNMP agent upsOutputLineIndex<p>Update: 15s</p>
Bypass lines <p>-</p> SNMP agent upsBypassNumLines<p>Update: 15s</p>

Items collected

Name Description Type Key and additional info
Bypass frequency <p>-</p> SNMP agent upsBypassFrequency<p>Update: 60s</p>
Agent availability <p>The agent always returns 1 for this item. It could be used in combination with nodata() for availability check.</p> Zabbix internal zabbix[host,snmp,available]<p>Update: 30s</p>
Alarms Present <p>-</p> SNMP agent upsAlarmsPresent<p>Update: 60s</p>
Software version <p>-</p> SNMP agent upsIdentUPSSoftwareVersion<p>Update: 86400</p>
Output frequency <p>-</p> SNMP agent upsOutputFrequency<p>Update: 60s</p>
Model name <p>-</p> SNMP agent upsIdentModel<p>Update: 86400</p>
Battery Temperature <p>-</p> SNMP agent upsBatteryTemperature<p>Update: 60s</p>
Battery Current <p>-</p> SNMP agent upsBatteryCurrent<p>Update: 60s</p>
Estimated Minutes Remaining <p>-</p> SNMP agent upsEstimatedMinutesRemaining<p>Update: 60s</p>
Estimated Charge Remaining <p>-</p> SNMP agent upsEstimatedChargeRemaining<p>Update: 60s</p>
Seconds on Battery <p>-</p> SNMP agent upsSecondsOnBattery<p>Update: 60s</p>
Battery Voltage <p>-</p> SNMP agent upsBatteryVoltage<p>Update: 60s</p>
Battery Status <p>-</p> SNMP agent upsBatteryStatus<p>Update: 60s</p>
Output source <p>-</p> SNMP agent upsOutputSource<p>Update: 60s</p>
Input Line Bads <p>-</p> SNMP agent upsInputLineBads<p>Update: 60s</p>
Ups Agent Version <p>-</p> SNMP agent upsIdentAgentSoftwareVersion<p>Update: 86400</p>
Line {#SNMPVALUE} Input Current <p>-</p> SNMP agent upsInputCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Frequency <p>-</p> SNMP agent upsInputFrequency[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} True Power <p>-</p> SNMP agent upsInputTruePower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Voltage <p>-</p> SNMP agent upsInputVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Current <p>-</p> SNMP agent upsOutputCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Load <p>-</p> SNMP agent upsOutputPercentLoad[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Power <p>-</p> SNMP agent upsOutputPower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Voltage <p>-</p> SNMP agent upsOutputVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Current <p>-</p> SNMP agent upsBypassCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Power <p>-</p> SNMP agent upsBypassPower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Voltage <p>-</p> SNMP agent upsBypassVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>

Triggers

Name Description Expression Priority
Bypass voltage on line {#SNMPVALUE} below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsBypassVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} frequency not {$NOMINAL_FREQUENCY} <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)>50+1 or max(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)<(50-1)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsInputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Load of output line {#SNMPVALUE} is over 80% <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>80 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=90</p><p>Recovery expression: </p> warning
Load of output line {#SNMPVALUE} is over 90% <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>90 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=95</p><p>Recovery expression: </p> average
Load of output line {#SNMPVALUE} is over 95% <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>95</p><p>Recovery expression: </p> high
Output line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsOutputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} frequency not {$NOMINAL_FREQUENCY} (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)>50+1 or max(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)<(50-1)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsInputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Load of output line {#SNMPVALUE} is over 80% (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>80 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=90</p><p>Recovery expression: </p> warning
Load of output line {#SNMPVALUE} is over 90% (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>90 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=95</p><p>Recovery expression: </p> average
Load of output line {#SNMPVALUE} is over 95% (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>95</p><p>Recovery expression: </p> high
Output line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsOutputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Bypass voltage on line {#SNMPVALUE} below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsBypassVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high

SNMP Reillo UPS

Overview

SNMP Template for REILLLO UPS, tested with Zabbix 3.4 (should work in older versions) Battery Status, Input/output load, Alarms. This template requires Reillo MIB files (RFC1628A.MIB ) to be import into Zabbix server.

Author

Sing Kingdavong

Macros used

Name Description Default Type
{$NOMINAL_FREQUENCY} <p>-</p> 50 Text macro
{$NOMINAL_VOLTAGE} <p>-</p> 230 Text macro

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Input Lines <p>-</p> SNMP agent upsInputLineIndex<p>Update: 15s</p>
Output lines <p>-</p> SNMP agent upsOutputLineIndex<p>Update: 15s</p>
Bypass lines <p>-</p> SNMP agent upsBypassNumLines<p>Update: 15s</p>

Items collected

Name Description Type Key and additional info
Bypass frequency <p>-</p> SNMP agent upsBypassFrequency<p>Update: 60s</p>
Agent availability <p>The agent always returns 1 for this item. It could be used in combination with nodata() for availability check.</p> Zabbix internal zabbix[host,snmp,available]<p>Update: 30s</p>
Alarms Present <p>-</p> SNMP agent upsAlarmsPresent<p>Update: 60s</p>
Software version <p>-</p> SNMP agent upsIdentUPSSoftwareVersion<p>Update: 86400</p>
Output frequency <p>-</p> SNMP agent upsOutputFrequency<p>Update: 60s</p>
Model name <p>-</p> SNMP agent upsIdentModel<p>Update: 86400</p>
Battery Temperature <p>-</p> SNMP agent upsBatteryTemperature<p>Update: 60s</p>
Battery Current <p>-</p> SNMP agent upsBatteryCurrent<p>Update: 60s</p>
Estimated Minutes Remaining <p>-</p> SNMP agent upsEstimatedMinutesRemaining<p>Update: 60s</p>
Estimated Charge Remaining <p>-</p> SNMP agent upsEstimatedChargeRemaining<p>Update: 60s</p>
Seconds on Battery <p>-</p> SNMP agent upsSecondsOnBattery<p>Update: 60s</p>
Battery Voltage <p>-</p> SNMP agent upsBatteryVoltage<p>Update: 60s</p>
Battery Status <p>-</p> SNMP agent upsBatteryStatus<p>Update: 60s</p>
Output source <p>-</p> SNMP agent upsOutputSource<p>Update: 60s</p>
Input Line Bads <p>-</p> SNMP agent upsInputLineBads<p>Update: 60s</p>
Ups Agent Version <p>-</p> SNMP agent upsIdentAgentSoftwareVersion<p>Update: 86400</p>
Line {#SNMPVALUE} Input Current <p>-</p> SNMP agent upsInputCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Frequency <p>-</p> SNMP agent upsInputFrequency[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} True Power <p>-</p> SNMP agent upsInputTruePower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Input Voltage <p>-</p> SNMP agent upsInputVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Current <p>-</p> SNMP agent upsOutputCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Load <p>-</p> SNMP agent upsOutputPercentLoad[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Power <p>-</p> SNMP agent upsOutputPower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Output Voltage <p>-</p> SNMP agent upsOutputVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Current <p>-</p> SNMP agent upsBypassCurrent[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Power <p>-</p> SNMP agent upsBypassPower[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>
Line {#SNMPVALUE} Bypass Voltage <p>-</p> SNMP agent upsBypassVoltage[{#SNMPVALUE}]<p>Update: 60s</p><p>LLD</p>

Triggers

Name Description Expression Priority
Bypass voltage on line {#SNMPVALUE} below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsBypassVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} frequency not {$NOMINAL_FREQUENCY} <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)>50+1 or max(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)<(50-1)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsInputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Load of output line {#SNMPVALUE} is over 80% <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>80 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=90</p><p>Recovery expression: </p> warning
Load of output line {#SNMPVALUE} is over 90% <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>90 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=95</p><p>Recovery expression: </p> average
Load of output line {#SNMPVALUE} is over 95% <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>95</p><p>Recovery expression: </p> high
Output line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsOutputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} frequency not {$NOMINAL_FREQUENCY} (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)>50+1 or max(/SNMP Reillo UPS/upsInputFrequency[{#SNMPVALUE}],#2)<(50-1)</p><p>Recovery expression: </p> high
Input line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsInputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Load of output line {#SNMPVALUE} is over 80% (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>80 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=90</p><p>Recovery expression: </p> warning
Load of output line {#SNMPVALUE} is over 90% (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>90 and min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)<=95</p><p>Recovery expression: </p> average
Load of output line {#SNMPVALUE} is over 95% (LLD) <p>-</p> <p>Expression: min(/SNMP Reillo UPS/upsOutputPercentLoad[{#SNMPVALUE}],300s)>95</p><p>Recovery expression: </p> high
Output line {#SNMPVALUE} voltage below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsOutputVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high
Bypass voltage on line {#SNMPVALUE} below {$NOMINAL_VOLTAGE} (LLD) <p>-</p> <p>Expression: max(/SNMP Reillo UPS/upsBypassVoltage[{#SNMPVALUE}],#2)<(230*0.9)</p><p>Recovery expression: </p> high