Imported Objects. Steps to reestablish communication are in progress. The second variable is the character name of the current source. The fourth variable is a character string listing the transfer cause. The second variable is the character источник of the source which is no longer available. The second variable apc power mib download the character name of the source which has been restored. The first variable is apc power mib download integer representing the output relay number that has gone on.

The second variable is the character name of the output relay. The first variable is an integer dowload the output relay number that has gone off.

The first apc power mib download is an integer representing the input relay number that has gone on. The second variable is the character name of the input relay.

The first variable is an integer representing the input relay number that has gone off. Power to the load will be cut off. Power to the load has been restored. Overtemp alarm is active in the power plant. Overtemp alarm is no longer active in the power plant. Fail alarm is active in the power plant.

Fail alarm is no longer active in the power plant. Fail alarm is active in the powerplant. Download cafe bazar for pc alarm is active in the power plant.

Breaker alarm is no longer active in the power plant. The UPS will reboot itself apc power mib download this time. OVP alarm is active in the power plant. OVP alarm is no longer active in the power plant. The first variable is the current temperature. The second variable is the temperature scale. The third variable is the probe number. The fourth variable is the probe name. The first variable is the probe number. The second variable apc power mib download the probe name.

The first variable is the current humidity. The second variable is the probe number. The third variable is the probe name. This trap is generated when a probe that has been in communication with the Environmental Monitor has been disconnected downlosd can no longer communicate. This trap is generated when the Environmental Monitor establishes communication with a probe that apc power mib download previously not been connected.

The first argument is the apc power mib download of the contact. The second argument is the name of the contact. The first argument is the number of the output relay. The second argument is the name of the output relay.

The third argument is apc power mib download event that caused http://replace.me/6912.txt fault. The first variable is the contact number that is faulted. The first argument is the serial number.

The second argument is the device name. The first variable нажмите сюда the contact number that has been resolved.

The third argument is the phase number. The third argument is the number of the contact. The third argument is the bank number 0 if this downloaad phase data. The fourth argument is the phase number 0 if this is bank data. The first argument is the host device serial number. The second argument is the host device name. The third argument is the ARU number.

The fourth argument is the ARU name. The third argument is the probe number. The fourth argument ещё prototype 2009 pc game download Вами the probe name. The third powwer is the sensor http://replace.me/5441.txt. The kib argument is the sensor name. The apc power mib download argument is the EMS serial number.

The second argument is the EMS name. The third argument is the outlet number. The fourth argument is apc power mib download outlet name. The third argument is the input contact number. The fourth argument is the input contact name. The third argument is the output relay number.

The fourth argument is the output relay name. The third argument is the current temperature. The fourth argument is the temperature scale. The fifth argument is the probe number. The sixth argument is the probe name. The third argument is the current humidity The fourth argument is the probe number.

The fifth argument is the probe name. The third argument is the http://replace.me/5687.txt humidity.

The fourth argument is the probe number. The third argument is the outlet index number. The third argument is poqer phase index number. The third argument is the outlet index number 0 indicates all outlets.

The fourth argument is the outlet name or device name if all outlets. The ARU is unable to control the temperature within the rack The first argument is the host device dowmload number. The first variable is the fault condition. The first variable is the error condition text message.

The second ссылка на подробности is the error number. The fourth argument is the measured voltage in tenths of Volts.

The fifth argument is the threshold, in tenths of Volts, from ,ib the alarm was generated. The fifth argument is the threshold, in tenths of Volts, above which the alarm was generated. The fourth argument is the measured current in tenths of Amps. The fifth argument is the threshold, in tenths of Amps, from which the alarm was generated. The fifth argument is the threshold, in tenths of Amps, above which the alarm was generated.

The third apc power mib download is the frequency deviation from the nominal in powe of Hertz. The third argument is the measured current in tenths детальнее на этой странице Amps. The fourth argument is the threshold, in tenths of Amps, above which the alarm was generated.

The third argument downlosd the panel position of the branch circuit 1-based index. This can be caused by improper devices being connected to the EMS ports or Alink Current limit detection. The first variable is the custom event text message. The second variable is the custom event number. The fifth argument is the threshold, in tenths of Volts, above which the alarm is generated. The fourth argument is the measured current in Amps.

The fifth argument is the threshold, in Amps, from apc power mib download the alarm was generated. The fourth argument is the frequency deviation threshold in tenths of Hertz, from which the alarm was generated. This is typically the result of mismatches between firmware revisions of the transfer switch controller and the Network Management interface.

The third argument is the mode in which the switch is operating.

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POWERNET-MIB (APC UPS): View SNMP OID List / Download MIB

 
The fourth argument is the measured voltage in tenths of Volts. This will put the PDU in a consistent state. Getting this variable will return the device state. A descriptive name of the probe set by the user, possibly denoting its location or purpose.

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Apc power mib download

 
The APC PowerNet MIB can be downloaded here: replace.me, It can also be found by searching the. Download: PowerNet MIB v – Galaxy VS. APC UPS Data Center & Enterprise Solutions Forum You can download the MIB from replace.me replace.me POWERNET-MIB: View SNMP OID List / Download MIB. VENDOR: AMERICAN POWER CONVERSION CORP. Object Name, OID, Type, Access, Info. apc, American Power Conversion Corp SNMP PowerNet-MIB file. Title: APC TOP LEVEL PowerNet MIB — Date: May 7, — By: Pete Yoest.❿
 
 

PowerNet MIB v Firmware | Schneider Electric

 
 

Matrix units configured for V input allow settings of , , , and If a value other than a supported value is provided in a set request, the UPS interprets it as the next lower acceptable value. Allowable values depend on the UPS used: volt units allow settings of 81, 83, 85, Matrix Notes: Matrix units configured for V input have a fixed low transfer voltage of volts. Matrix units configured for V input have a fixed low transfer voltage of volts.

If a value other than a supported value is provided in a set request, the UPS interprets it as a the next higher acceptable value.

If the provided value is higher than the highest acceptable value, the highest acceptable value is used. This timer is observerd only if the value of extControlAlarm is timed 2.

Allowed values are 0 or 30 seconds. If a value other than a supported value is provided in a set request, the UPS interprets it as a the next lower acceptable value.

In other words, the UPS will not re-energize the output until the battery has charged so that its’ capacity is equal to this value. Allowed values are 0, 10, 25, or 90 percent. If a value other than a supported value is provided in a set request, the UPS interprets the value as the next higher acceptable value.

Allowed values are , , , or seconds. During this time the UPS will produce a constant warning tone which can not be disabled. Allowed values are 0, 60, and seconds.

Allowed values are 20, , , and seconds. When in sleep mode, the UPS will not provide output power regardless of the input line state. Once the specified time has elapsed, output power will be restored. This is a configuration setting. The UPS will not go to sleep until told to do so by the manager from a management station. Allows for control of individual outlet groups. If the outlet group is on, the upsOutletGroupImmediateOn 1 value will be returned.

If the outlet group is off, the upsOutletGroupImmediateOff 2 value will be returned. If the state of the outlet group cannot be determined, the upsOutletGroupControlUnknown 8 value will be returned. Setting this variable to upsOutletGroupImmediateOn 1 will turn the outlet group on immediately.

Setting this variable to upsOutletGroupImmediateOff 2 will turn the outlet group off immediately. Setting this variable to upsOutletGroupCancelPendingCommand 7 will cause any pending command to this outlet group to be canceled. In systems with a main outlet group, commands to the main outlet group must be performed with caution. It may be clearer to use the ups control commands available from upsAdvControl If any command is made to the main outlet group that will turn it off, one of two things will happen: 1 If any switched outlet group is in a state that prevents this command from occurring on the main outlet group, the command will be rejected.

Note that a switched outlet group being on without a command in progress is not a state that normally prevents the command. There is one additional special case for systems with a main outlet group. If the main outlet group is off and a switched outlet group is commanded to turn on, the on command will be applied to both the main outlet group and that switched outlet group.

Allows for diagnostics of individual Intelligence Modules. The type of the Intelligence Module. The status of the Intelligence Module. Allows for diagnostics of Individual Power modules. The status of the Power Module. Allows for diagnostics of individual batteries. The index to the battery frame entry. Frame 0 indicates the Main frame. Extended Run XR frames start from index 1. The status of the battery. Enumeration: ‘lowCapacity’: 7, ‘ok’: 3, ‘unknown’: 1, ‘notInstalled’: 2, ‘failed’: 4, ‘replaceImmediately’: 6, ‘highTemperature’: 5.

The type of Frame. The Internal Bypass Switch status. The status of the Battery Monitor Board. The status of the External Switch Gear.

The status of the Display Interface Card. The status of the DC Circuit Breaker. Enumeration: ‘unknown’: 1, ‘notInstalled’: 2, ‘opened’: 3, ‘closed’: 4. The status of the System Power Supply.

The status of the XR Communication Card. The status of the External Power Frame Board. The status of the Charger. The status of the Inverter. The status of the Power Factor Correction. Allows for getting diagnostics information of an individual Network Communication Card.

A character string identifying the model number of the UPS network and display interface communication card. This value is set at the factory. A character string identifying the serial number of the UPS network and display interface communication card.

The hardware revision of the UPS network and display interface communication card. An ID string identifying the application firmware revision of the UPS network and display interface communication card. An ID string identifying the application operating system firmware revision of the UPS network and display interface communication card.

The status of the Switch Gear. Enumeration: ‘lostComm’: 5, ‘ok’: 3, ‘overtemp’: 6, ‘unknown’: 1, ‘notInstalled’: 2, ‘fail’: 4. The status of the Switch Gear Input Switch. The status of the Switch Gear Output Switch. The status of the Switch Gear Bypass Switch. Indicates if the switchgear breaker is present. Enumeration: ‘notPresent’: 1, ‘present’: 2. Indicates if the subfeed breaker is present. The maximum acceptable load before warning is issued.

Expressed as percent of the subfeed breaker rating. The maximum load before a critical alarm occurs. The status of the External Transformer. Enumeration: ‘lostComm’: 5, ‘ok’: 3, ‘opened’: 7, ‘overtemp’: 6, ‘unknown’: 1, ‘notInstalled’: 2, ‘closed’: 8, ‘fail’: 4.

The status of the internal MIM communication bus. Enumeration: ‘lostComm’: 4, ‘ok’: 3, ‘unknown’: 1, ‘notInstalled’: 2, ‘rxFailure’: 5, ‘txFailure’: 6. The status of the internal RIM communication bus.

The status of the external MIM communication bus. The status of the external RIM communication bus. The redundancy warning level for paralleled UPS nplus0 1 indicates that there are no redundant units. Enumeration: ‘nplus0’: 1, ‘nplus1’: 2, ‘nplus2’: 3, ‘nplus3’: 4, ‘nplus4’: 5, ‘nplus5’: 6. The peak input current in amperes measured since last reset, or -1 if it’s unsupported by this UPS.

The status of the Circuit Breaker. Enumeration: ‘sourceB’: 4, ‘noSourceSelected’: 1, ‘sourceA’: 3, ‘unknown’: 2. The preferred source of power when both sources are OK. When mulitple UPSes are in use from a single source, each UPS can have a unique delay value, which will reduce inrush by preventing all UPSes from transferring at the same time.

Allows for getting status and settings for the ATS input sources. The name of the input source. Getting this variable will return the input source status. The delay between a selected input source becoming bad, and the ATS switching away from that source.

This delay is used to make sure that the line has truly failed before the ATS will be switched. Specified in seconds. The delay between an unselected input source becoming good, and the ATS switching to that source. This delay is used to make sure that the line has truly returned before the ATS will be switched. The normal operating position of the contact. If the normal operating position cannot be set then it is controlled via the dip switch on the Measure-UPS and is therefore read-only.

Enumeration: ‘unknown’: 1, ‘open’: 2, ‘closed’: 3. A flag indicating whether this contact is monitored, or not. Enumeration: ‘disabled’: 3, ‘unknown’: 1, ‘enabled’: 2. This value indicates the current state of the contact. If the contact is not in its normal state. This value is set to fault 2. Enumeration: ‘unknown’: 1, ‘noFault’: 2, ‘fault’: 3. Setting this variable to passthrough will enable mini’s port2 behave like a UPS port.

Choosing localConsole will enable the port to be used as local console. Enumeration: ‘passthrough’: 2, ‘localConsole’: 1.

The duration in the prototype implementation will be 1 second. The year will be represented by A character string identifying the model number of the PDU internal. A character string identifying the serial number of the PDU internal microprocessor.

For MasterSwitch firmware version 1. For MasterSwitch firmware version 2. Getting this OID will return the noCommand 6 value. Getting this OID will cause the status of all outlets to be returned. The format of the data returned is a character string consisting of the word ‘On’ if the outlet is on or ‘Off’ if the outlet is off.

At least one space will delimit each outlet entry in the string. If the outlet states are unknown, the character string ‘Unknown’ will be returned. This signifies that there is an inconsistency in the PDU. In the rare case that this should happen, the user is advised to shut down all equipment powered by the PDU and then cycle the PDU’s power. This will put the PDU in a consistent state. Getting this OID will cause the command pending status of all outlets to be returned.

The format of the data returned is a character string consisting of the word ‘Yes’ if a command is pending for the outlet or ‘No’ if there is no command pending for the outlet. If the pending states are unknown, the character string ‘Unknown’ will be returned. The amount of delay, in seconds, between when power is provided to the PDU and when the PDU provides basic master power to the outlets.

Allowed values are: -1 never apply power automatically. If a value other than a supported value is provided in a set request, the PDU interprets it as the next lower acceptable value. This OID defines the amount of time to wait, in seconds, after turning the power off, at the start of the sequence, before turning power back on, at the end of the reboot sequence. Allows for control of individual outlet switches. Reports whether the current outlet has a pending command.

If the commandPendingUnknown 3 value is returned, all devices powered by the PDU should be shut down. The PDU’s power should then be cycled to clear this condition. Getting this variable will return the outlet state.

If the outlet is on, the outletOn 1 value will be returned. If the outlet is off, the outletOff 2 value will be returned. If the state of the outlet cannot be determined, the outletUnknown 4 value will be returned.

If the outletUnknown condition should occur, all devices powered by the PDU should be shut down. Setting this variable to outletOn 1 will turn the outlet on. Setting this variable to outletOff 2 will turn the outlet off. Setting this variable to outletReboot 3 will reboot the outlet.

This option is not valid for MasterSwitch firmware version 1. The name of the outlet. Maximum size is 20 characters. The list of outlets to configure. The amount of time in seconds the outlet will delay powering on when the MasterSwitch is powered on. Allowed values are: -1 never power on automatically. The amount of time in seconds the outlet will delay powering off. Allowed values are: -1 never power off automatically.

Allows for query of the individual MasterSwitch VMs. The hardware version of the MasterSwitch VM. A character string identifying the model number of the MasterSwitch VM. A character string identifying the serial number of the MasterSwitch VM.

Allows for control of the individual MasterSwitch VMs. The name of the MasterSwitch VM. The maximum value is 23 characters. Setting this OID to audioAlarmMute 11 will temporarily silence the audible alarm for the duration of the current overload condition. The audible alarm will be activated on subsequent overload alarms.

Allows for configuration of the individual MasterSwitch VMs. The amount of delay, in seconds, between when power is provided to the MasterSwitch VM and when the MasterSwitch VM provides basic master power to the outlets. If a value other than a supported value is provided in a set request, the MasterSwitch VM interprets it as the next lower acceptable value. A threshold that indicates the power consumption of the load is nearing an overload condition. It is represented as a percentage of full load.

A threshold that indicates the power consumption of the load is nearing a low consumption condition. This OID controls the behavior of the MasterSwitch VM when an overload condition is possible and additional outlets are requested to be turned on. Allows for gathering of status from the individual MasterSwitch VMs. Getting this OID will return the total amount of power being consumed by the load. It is represented in Amps. Maximum size is 23 characters.

If the outlet is on, the immediateOnVM 1 value will be returned. If the outlet is off, the immediateOffVM 2 value will be returned. Setting this variable to immediateOnVM 1 will immediately turn the outlet on. Setting this variable to immediateOffVM 2 will immediately turn the outlet off.

Setting this variable to immediateRebootVM 3 will immediately reboot the outlet. Setting this variable to cancelPendingCommandVM 7 will cause any pending command to this outlet to be canceled.

Allows for configuration of individual outlets. The amount of time in seconds the outlet will delay powering on at coldstart or when a command that requires a turn-on delay is issued. Allowed values are: -1 never power on. The amount of time in seconds the outlet will delay powering off when a command that requires a turn-off delay is issued.

Allows for getting of status of individual outlets. If the outlet is on, the outletStatusOnVM 1 value will be returned. If the outlet is off, the outletStatusOffVM 2 value will be returned. Getting this variable will return the command pending state of the outlet. Allows for query of the individual MasterSwitch pluses. The name of the MasterSwitch plus. The hardware version of the MasterSwitch plus.

An 6-character ID string identifying the MasterSwitch plus firmware version. A character string identifying the model number of the MasterSwitch plus. A character string identifying the serial number of the MasterSwitch plus. Allows for control of the individual MasterSwitch pluses. Allows for configuration of the individual MasterSwitch pluses. The amount of delay, in seconds, between when power is provided to the MasterSwitch plus and when the MasterSwitch plus provides basic master power to the outlets.

Allowed values are: 0 – seconds 0 – 2hrs, 46 mins, 39 secs. Enumeration: ‘manualButtonEnabled’: 2, ‘manualButtonDisabled’: 1. Allows for gathering of status from the individual MasterSwitch pluses.

The maximum size is 23 characters. If the outlet is on, the immediateOnMSP 1 value will be returned. If the outlet is off, the immediateOffMSP 3 value will be returned. Setting this variable to immediateOnMSP 1 will immediately turn the outlet on.

Setting this variable to immediateOffMSP 3 will immediately turn the outlet off. Setting this variable to immediateRebootMSP 5 will immediately reboot the outlet. Setting this variable to cancelPendingCommandMSP 8 will cause any pending command to this outlet to be canceled.

Enumeration: ‘modeAnnunciator’: 2, ‘modeGracefulShutdown’: 1. The Control Mode of the outlet. Setting this OID to deviceConfirmYes 2 cause the outlet to wait for device confirmation while performing graceful operations. Enumeration: ‘deviceConfirmNo’: 1, ‘deviceConfirmYes’: 2. The amount of delay, in 6 second intervals, between when the UPS goes on battery and the power down sequence for the outlet is initiated. Allowed values are: -2 – Never initiate the power down sequence on low battery warning.

Allows you to set the value to stagger the shutdown sequence of the outlets. Allowed values are: 1 – 7. The amount of delay, in 6 minute intervals, between when the outlet is turned off and the outlet is turned back on when performing a Graceful Shutdown. Allowed values are: -1 – Never turn outlet back on after a Graceful shutdown. The amount of delay, in seconds, between the UPS entering normal on-line state and the outlet being powered on.

The amount of delay, in seconds, between when the server shuts down and the outlet is powered off. Allowed values are: 0 – seconds 0 – 2 hrs, 46 mins, 39 secs. Allowed values are: 0 – percent.

The amount of delay, in seconds, from outlet off until outlet on during a reboot. Setting this OID to initialStateOff 1 causes the outlet to default to off when in the non-alarmed condition. Setting this OID to initialStateOn 2 causes the outlet to default to on when in the non-alarmed condition. Enumeration: ‘initialStateOn’: 2, ‘initialStateOff’: 1.

The amount of time, in seconds, that an enabled Measure-UPS alarm must be asserted before an alarm condition is recognized.

Enumeration: ‘enableAlarm’: 2, ‘disableAlarm’: 1. Allows for accessing description records of the powerplant. A 16 character text field describing the DC power plant device.

Integer representation of the hardware revision of the Master Controller board. Integer representation of the power plant Master Controller firmware revision. Ambient high temperature threshold. Temperature sensor located on Master Controller board. Values are represented in thousandths of a degree. Attempts to set the value above or below the acceptable range of the powerplant will cause the value to be set at the high or low point of the range respectively.

Setting this OID to alarmRelay1 2 causes relay 1 to be activated for an alarm condition. Setting this OID to alarmRelay2 3 causes relay 2 to be activated for an alarm condition.

Setting this OID to alarmRelay3 4 causes relay 3 to be activated for an alarm condition. Setting this OID to alarmRelay4 5 causes relay 4 to be activated for an alarm condition. Setting this OID to alarmRelay5 6 causes relay 5 to be activated for an alarm condition. Setting this OID to alarmRelay6 7 causes relay 6 to be activated for an alarm condition. Enumeration: ‘alarmRelay1’: 2, ‘alarmRelay3’: 4, ‘alarmRelay2’: 3, ‘alarmRelay5’: 6, ‘alarmRelay4’: 5, ‘alarmRelay6’: 7, ‘alarmMinor’: 8, ‘alarmIgnore’: 1, ‘alarmMajor’: 9.

Ambient low temperature threshold. This OID is used to disable remote write access to the power plant. Setting this OID to accessEnabled 1 will have no affect. Once remote access is disabled, it can only be restored from the front panel of the DC power plant. Enumeration: ‘accessEnabled’: 1, ‘accessDisabled’: 2. Allows for accessing settings of the LVDs.

Enumeration: ‘enabledNo’: 2, ‘enabledYes’: 1. LVD Trip threshold. If voltage exceeds threshold, the LVD will trip. Values are represented in thousandths of Volts mV. LVD Reset threshold. If voltage exceeds threshold, the LVD will reset.

Battery Float Voltage. This setting controls the power plant voltage. Battery Maximum Recharge Rate. This setting controls the battery max recharge rate. Values are represented in thousandths of Amps mA. Battery discharge threshold. If battery output current exceeds threshold a battery discharge alarm will occur.

Battery high voltage threshold. If system battery voltage exceeds threshold a battery high voltage alarm will occur. Battery low voltage threshold. If system battery voltage is under threshold a battery low voltage alarm will occur. Battery high temperature threshold. If system battery temperature exceeds threshold a battery high temperature alarm will occur. Battery low temperature threshold. If system battery temperature is under threshold a battery low temperature alarm will occur. Battery Amp-Hour Size.

Units are thousandths of Amp hours mAHr. This OID is used to configure and get the state of the battery temperature compensation.

Enumeration: ‘tempcompOn’: 1, ‘tempcompOff’: 2. Compensation Temperature Coefficient. The usage state of the Device Group instance. The availability status of the Device Group instance. The administrative state of the Device Group instance. The accumulated Fatal or Non-recoverable error count for this DeviceGroup instance. The accumulated Major or Critical error count for this Device Groupinstance.

This attribute presents the current error status for this Device Groupinstance. This group defines the diagnostic functions that are provided by thiscomponent for analyzing potential failures within the component. A unique identifier for this specific diagnostic function. A specific descriptive name of the diagnostic function, includin versioninformation, if relevant. A description of what this diagnostic function does. Indicates whether this diagnostic function requires exclusive access tothe device or component, implying that the user or management applicati n must takesome action within the operating system to ensure that the device or component cannotbe used by any other function.

Indicates what conditions must be met before this diagnostic functioncan be run. If non-0, this specifies the ID of another diagnostic function that must berun immediately prior to this one. This group defines the attributes which a management application usesto request an actual diagnostic analysis. Indicates whether the interface to this component’s diagnostic functionsis reserved.

The ID of the specific diagnostic function which is being requested. The integer-based result code of the last diagnostic function run. This group defines the attributes for interpreting diagnostic functionresult codes. The unique ID for a specific diagnostic function. An integer-based result code of the diagnostic function. A description of what this result code for this diagnostic functionmeans, including suggested corrective actions, where possible. The list of outlet groups to configure.

The outlet groups to configure. Configures whether the outlet group will load shed turn off when the UPS is in an overload condition. Returns -1 if not supported by this outlet group. Allowed values vary by UPS model. The amount of time seconds the outlet group will delay powering on when the delayed on, reboot, or shutdown command is applied.

The value of -1 is used for Never if supported by the UPS and the outlet group. The amount of time seconds the outlet group will delay powering off when the delayed off, reboot, or shutdown command is applied. During a reboot sequence, power is turned off and then back on. This OID defines the amount of time to wait seconds after turning the power off, at the start of the sequence, before initiating the power on sequence. In an Outlet Group shutdown sequence, the Outlet Group cycles power off then on.

Configures whether the outlet group’s off delay setting upsOutletGroupConfigPowerOffDelay will be used in a load shedding situation, where applicable. Configures whether the outlet group will automatically restart after a load shedding situation, where applicable. Allows for control of individual outlet groups. The outlet group to control. If the outlet group is on, the upsOutletGroupImmediateOn 1 value will be returned.

If the outlet group is off, the upsOutletGroupImmediateOff 2 value will be returned. If the state of the outlet group cannot be determined, the upsOutletGroupControlUnknown 8 value will be returned. Setting this variable to upsOutletGroupImmediateOn 1 will turn the outlet group on immediately.

Setting this variable to upsOutletGroupImmediateOff 2 will turn the outlet group off immediately. Setting this variable to upsOutletGroupCancelPendingCommand 7 will cause any pending command to this outlet group to be canceled.

In systems with a main outlet group, commands to the main outlet group must be performed with caution. It may be clearer to use the ups control commands available from upsAdvControl If any command is made to the main outlet group that will turn it off, one of two things will happen: 1 If any switched outlet group is in a state that prevents this command from occurring on the main outlet group, the command will be rejected.

Note that a switched outlet group being on without a command in progress is not a state that normally prevents the command. There is one additional special case for systems with a main outlet group. If the main outlet group is off and a switched outlet group is commanded to turn on, the on command will be applied to both the main outlet group and that switched outlet group.

Allows for diagnostics of individual Intelligence Modules. The diagnostics and information of an Intelligence Module. The index to the Intelligence Module entry. The type of the Intelligence Module. The status of the Intelligence Module. The firmware revision of the Intelligence Module. The slave firmware revision of the Intelligence Module. The hardware revision of the Intelligence Module. The serial number of the Intelligence Module. The manufacture date of the Intelligence Module.

The Intelligence Module state. The hardware revision of the System Level Controller. The serial number of the System Level Controller.

The firmware revision of the System Level Controller. The Model number of the System Level Controller. The System Level Controller Status. The ambient temperature in tenths of degrees Celsius. If not available, this variable is set to Allows for diagnostics of Individual Power modules. The diagnostics of an Power Module. The index to the Power Module entry. The status of the Power Module. The firmware revision of the Power Module. The hardware revision of the Power Module.

The serial number of the Power Module. The manufacture date of the Power Module. The model number of the Power Module.

Allows for diagnostics of individual power module’s lifetime information. The diagnostics of a Power Module lifetime information. The index to the Power Module lifetime information entry. The status of the Power Module lifetime information. Displays the time remaining for the module before it should be replaced. Measured in months. This value is set when you originally install the module.

Displays the percentage of the total lifetime remaining for the module before it should be replaced. The status of the Power Module Fan lifetime information. Displays the time remaining, measured in months, before the module’s fan should be replaced.

It is reset by the field service engineer when a new fan is installed. Displays the percentage of the total lifetime remaining before the module’s fan should be replaced. The maximum number of power module enclosures attached to the UPS. Allows for the diagnostics of individual power module enclosure door filters. Power module door filter diagnostics info. The index to the power module enclosure entry.

Enclosure 0 indicates the Power enclosure 1. Enclosure 1 indicates the Power enclosure 2. Door filter replacement time interval, based on the installation enivironment. Indicates the current status of the door filter. Displays the time remaining, measured in days, before the module door filter should be replaced.

Displays the percentage of the total lifetime remaining for the module door filter before it should be replaced. The maximum number of batteries supported by the UPS. Allows for diagnostics of individual batteries. The diagnostics of a battery. The index to the battery frame entry. Frame 0 indicates the Main frame. Extended Run XR frames start from index 1.

The index to the battery entry. The status of the battery. The serial number of the battery. The firmware revision of the battery. The manufacture date of the battery. The battery type or rating for the battery. The maximum number of battery frames supported by the UPS. Allows for diagnostics of individual battery frame.

The diagnostics of a battery frame. The battery positive voltage, in Volts. The battery negative voltage, in Volts. The number of frames attached to the UPS including the Main frame. Allows for diagnostics of individual Display Interface Cards. The diagnostics of a Display Interface Card. The frame index entry. The index of the Display Interface Card.

The status of the Display Interface Card. Allows for diagnostics of individual DC Circuit Breakers. The diagnostics of a DC Circuit Breaker. The index of the DC Circuit Breaker. The status of the DC Circuit Breaker. Allows for diagnostics of individual System Power Supplies. The diagnostics of a System Power Supply.

The index of a System Power Supply. The status of the System Power Supply. The firmware revision of the System Power Supply monitor card.

The hardware revision of the System Power Supply monitor card. The serial number of the System Power Supply monitor card. The date of the manufacture for the System Power Supply monitor card. Allows for diagnostics of individual XR Communication Cards. The diagnostics of an XR Communication Card. The index of an XR Communication Card. The status of the XR Communication Card. The firmware revision of the XR Communication card. The serial number of the XR Communication card.

Allows for diagnostics of individual External Power Frame Boards. The diagnostics of an External Power Frame Board. The index of an External Power Frame Board.

The status of the External Power Frame Board. The number of Chargers attached to the UPS. Allows for diagnostics of individual XR Frames. The diagnostics of an XR Frame. The type of Frame. The firmware revision of the frame. The hardware revision of the frame. The serial number of the frame.

The manufacture date of the frame. Allows for diagnostics of individual chargers. The diagnostics of a charger. The index of a charger. The status of the Charger. The number of Inverters attached to the UPS. Allows for diagnostics of individual Inverters.

The diagnostics of an Inverter. The index of an Inverter. The status of the Inverter. The firmware revision of the Inverter monitor. The hardware revision of the Inverter monitor. The serial number of the Inverter monitor. The date of manufacture for the Inverter monitor. Allows for diagnostics of individual PowerFactorCorrections. The diagnostics of a Power Factor Correction. The index of a Power Factor Correction. The status of the Power Factor Correction. The firmware revision of the Power Factor Correction monitor.

The hardware revision of the Power Factor Correction monitor. The serial number of the Power Factor Correction monitor. The date of the manufacture for the Power Factor Correction monitor. Allows for getting diagnostics information of an individual Network Communication Card. The diagnostics of a Network Communication Card. The UPS network and display interface communication card index entry.

A character string identifying the model number of the UPS network and display interface communication card. This value is set at the factory. A character string identifying the serial number of the UPS network and display interface communication card.

The hardware revision of the UPS network and display interface communication card. An ID string identifying the application firmware revision of the UPS network and display interface communication card. An ID string identifying the application operating system firmware revision of the UPS network and display interface communication card.

Allows for diagnostics of the user supplied Battery Monitor Board. The diagnostics of the user supplied Battery Monitor Board. The index of the user supplied Battery Monitor Board. The status of the user supplied Battery Monitor Board. The firmware revision of the user supplied Battery Monitor Board. The hardware revision of the user supplied Battery Monitor Board. The serial number of the user supplied Battery Monitor Board. The temperature of the air around the user supplied Battery Monitor Board in tenths of degrees Celsius.

The status of the user supplied Battery Breaker. Allows for diagnostics of individual Power Supply Units. The diagnostics information of a Power Supply Unit. The index to the Power Supply Unit entry. The status of the Power Supply Unit. The status of the external connector board.

The number of backfeed protection contactor attached to the UPS. Backfeed protection contactor table. A list of backfeed protection contactors. The index of the backfeed protection contactor. The name of the backfeed protection contactor. Indicates the backfeed protection contactor types available in the UPS system.

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