// Copyright (c) 2005 DMTF. All rights reserved. [Version ( "2.10.0" ), UMLPackagePath ( "CIM::Device::CoolingAndPower" ), Description ( "Capabilities and management of an UninterruptiblePowerSupply. " "The properties of the UPS Device indicate when incoming power " "is trimmed or boosted, and the aggregated information of the " "batteries, generators, and so on that comprise the Device. " "These individual components (for example, multiple batteries) " "can also be independently modeled and associated with the UPS." )] class CIM_UninterruptiblePowerSupply : CIM_PowerSupply { [Override ( "Range1InputVoltageLow" ), Description ( "If the voltage (in millivolts) drops below the value " "specified by Range1InputVoltageLow, the UPS will " "compensate by boosting the voltage using its power " "sources. A value of 0 indicates that the voltage at " "which boosting occurs is \'unknown\'." ), Units ( "MilliVolts" ), PUnit ( "volt * 10^-3" )] uint32 Range1InputVoltageLow; [Override ( "Range1InputVoltageHigh" ), Description ( "If the voltage (in millivolts) rises above the value " "specified by Range1InputVoltageHigh, the UPS will " "compensate by trimming the voltage. A value of 0 " "indicates that the voltage at which trimming occurs is " "\'unknown\'." ), Units ( "MilliVolts" ), PUnit ( "volt * 10^-3" )] uint32 Range1InputVoltageHigh; [Override ( "Range2InputVoltageLow" ), Description ( "If the voltage (in millivolts) drops below the value " "specified by Range2InputVoltageLow, the UPS will " "compensate by boosting the voltage using its power " "sources. A value of 0 indicates that the voltage at " "which boosting occurs is \'unknown\'." ), Units ( "MilliVolts" ), PUnit ( "volt * 10^-3" )] uint32 Range2InputVoltageLow; [Override ( "Range2InputVoltageHigh" ), Description ( "If the voltage (in millivolts) rises above the value " "specified by Range2InputVoltageHigh, the UPS will " "compensate by trimming the voltage. A value of 0 " "indicates that the voltage at which trimming occurs is " "\'unknown\'." ), Units ( "MilliVolts" ), PUnit ( "volt * 10^-3" )] uint32 Range2InputVoltageHigh; [Description ( "The indication of the capacity that remains in the UPS " "batteries, generator, and so on. A value of \"Normal\" " "(2) indicates that the remaining estimated minutes of " "run-time are greater than the \'low power\' state " "defined for the UPS (typically two minutes). A value of " "\"Low\" (3) indicates that the remaining estimated " "minutes of run-time are less than or equal to the " "defined \'low power\' state of the device. A value of " "\"Depleted\" (4) indicates that the UPS will be unable " "to sustain the present load when and if the utility " "power is lost (including the possibility that the " "utility power is currently absent)." ), ValueMap { "1", "2", "3", "4" }, Values { "Unknown", "Normal", "Low", "Depleted" }, MappingStrings { "MIF.DMTF|UPS Battery|001.1" }] uint16 RemainingCapacityStatus; [Description ( "TimeOnBackup indicates the elapsed time in seconds since " "the UPS last switched to battery power, generator, or so " "on or the time since the UPS was last restarted, " "whichever is less. 0 is returned if the UPS is \'on " "line\'." ), Units ( "Seconds" ), MappingStrings { "MIF.DMTF|UPS Battery|001.2" }, PUnit ( "second" )] uint32 TimeOnBackup; [Description ( "EstimatedRunTime is an estimate in minutes of the time " "that depletion of the battery, generator, or other " "device, will occur under the present load conditions if " "the utility power is off or is lost and remains off." ), Units ( "Minutes" ), MappingStrings { "MIF.DMTF|UPS Battery|001.3" }, PUnit ( "minute" )] uint32 EstimatedRunTime; [Description ( "An estimate of the percentage of full charge remaining " "for a UPS (that uses battery technology)." ), Units ( "Percent" ), Gauge, MappingStrings { "MIF.DMTF|UPS Battery|001.4" }, PUnit ( "percent" )] uint16 EstimatedChargeRemaining; };