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Revision: 1.1, Thu Feb 17 00:09:56 2005 UTC (19 years, 4 months ago) by a.dunfey Branch: MAIN CVS Tags: preBug9676, postBug9676, TASK_PEP328_SOLARIS_NEVADA_PORT, TASK_PEP317_1JUNE_2013, TASK_PEP233_EmbeddedInstSupport-merge_out_trunk, TASK_BUG_5314_IPC_REFACTORING_ROOT, TASK_BUG_5314_IPC_REFACTORING_BRANCH, TASK_BUG_5314_IPC_REFACTORING-V1, TASK_BUG_5191_QUEUE_CONSOLIDATION_ROOT, TASK_BUG_5191_QUEUE_CONSOLIDATION_BRANCH, TASK-TASK_PEP362_RestfulService_branch-root, TASK-TASK_PEP362_RestfulService_branch-merged_out_from_trunk, TASK-TASK_PEP362_RestfulService_branch-merged_in_to_trunk, TASK-TASK_PEP362_RestfulService_branch-merged_in_from_branch, TASK-TASK_PEP362_RestfulService_branch-branch, TASK-TASK-BUG4011_WinLocalConnect-branch-New-root, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_out_to_branch, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_out_from_trunk, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_in_to_trunk, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_in_from_branch, TASK-TASK-BUG4011_WinLocalConnect-branch-New-branch, TASK-PEP362_RestfulService-root, TASK-PEP362_RestfulService-merged_out_to_branch, TASK-PEP362_RestfulService-merged_out_from_trunk, TASK-PEP362_RestfulService-merged_in_to_trunk, TASK-PEP362_RestfulService-merged_in_from_branch, TASK-PEP362_RestfulService-branch, TASK-PEP348_SCMO-root, TASK-PEP348_SCMO-merged_out_to_branch, TASK-PEP348_SCMO-merged_out_from_trunk, TASK-PEP348_SCMO-merged_in_to_trunk, TASK-PEP348_SCMO-merged_in_from_branch, TASK-PEP348_SCMO-branch, TASK-PEP328_SOLARIS_NEVADA_PORT_v2-root, TASK-PEP328_SOLARIS_NEVADA_PORT_v2-branch, TASK-PEP328_SOLARIS_NEVADA_PORT-root, TASK-PEP328_SOLARIS_NEVADA_PORT-branch, TASK-PEP328_SOLARIS_IX86_CC_PORT-root, TASK-PEP328_SOLARIS_IX86_CC_PORT-branch-v2, TASK-PEP328_SOLARIS_IX86_CC_PORT-branch, TASK-PEP317_pullop-root, TASK-PEP317_pullop-merged_out_to_branch, TASK-PEP317_pullop-merged_out_from_trunk, 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TASK-PEP268_SSLClientCertificatePropagation-merged_in_from_branch, TASK-PEP268_SSLClientCertificatePropagation-branch, TASK-PEP267_SLPReregistrationSupport-root, TASK-PEP267_SLPReregistrationSupport-merging_out_to_branch, TASK-PEP267_SLPReregistrationSupport-merging_out_from_trunk, TASK-PEP267_SLPReregistrationSupport-merged_out_to_branch, TASK-PEP267_SLPReregistrationSupport-merged_out_from_trunk, TASK-PEP267_SLPReregistrationSupport-merged_in_to_trunk, TASK-PEP267_SLPReregistrationSupport-merged_in_from_branch, TASK-PEP267_SLPReregistrationSupport-branch, TASK-PEP250_RPMProvider-root, TASK-PEP250_RPMProvider-merged_out_to_branch, TASK-PEP250_RPMProvider-merged_out_from_trunk, TASK-PEP250_RPMProvider-merged_in_to_trunk, TASK-PEP250_RPMProvider-merged_in_from_branch, TASK-PEP250_RPMProvider-branch, TASK-PEP245_CimErrorInfrastructure-root, TASK-PEP245_CimErrorInfrastructure-merged_out_to_branch, TASK-PEP245_CimErrorInfrastructure-merged_out_from_trunk, TASK-PEP245_CimErrorInfrastructure-merged_in_to_trunk, TASK-PEP245_CimErrorInfrastructure-merged_in_from_branch, TASK-PEP245_CimErrorInfrastructure-branch, TASK-PEP241_OpenPegasusStressTests-root, TASK-PEP241_OpenPegasusStressTests-merged_out_to_branch, TASK-PEP241_OpenPegasusStressTests-merged_out_from_trunk, TASK-PEP241_OpenPegasusStressTests-merged_in_to_trunk, TASK-PEP241_OpenPegasusStressTests-merged_in_from_branch, TASK-PEP241_OpenPegasusStressTests-branch, TASK-Bugs5690_3913_RemoteCMPI-root, TASK-Bugs5690_3913_RemoteCMPI-merged_out_to_branch, TASK-Bugs5690_3913_RemoteCMPI-merged_out_from_trunk, TASK-Bugs5690_3913_RemoteCMPI-merged_in_to_trunk, TASK-Bugs5690_3913_RemoteCMPI-merged_in_from_branch, TASK-Bugs5690_3913_RemoteCMPI-branch, TASK-Bug2102_RCMPIWindows-root, TASK-Bug2102_RCMPIWindows-merged_out_to_branch, TASK-Bug2102_RCMPIWindows-merged_out_from_trunk, TASK-Bug2102_RCMPIWindows-merged_in_to_trunk, TASK-Bug2102_RCMPIWindows-merged_in_from_branch, TASK-Bug2102_RCMPIWindows-branch, TASK-Bug2102Final-root, TASK-Bug2102Final-merged_out_to_branch, TASK-Bug2102Final-merged_out_from_trunk, TASK-Bug2102Final-merged_in_to_trunk, TASK-Bug2102Final-merged_in_from_branch, TASK-Bug2102Final-branch, TASK-Bug2021_RemoteCMPIonWindows-root, TASK-Bug2021_RemoteCMPIonWindows-merged_out_to_branch, TASK-Bug2021_RemoteCMPIonWindows-merged_out_from_trunk, TASK-Bug2021_RemoteCMPIonWindows-merged_in_to_trunk, TASK-Bug2021_RemoteCMPIonWindows-merged_in_from_branch, TASK-Bug2021_RemoteCMPIonWindows-branch, TASK-Bug2021_RCMPIonWindows-root, TASK-Bug2021_RCMPIonWindows-merged_out_to_branch, TASK-Bug2021_RCMPIonWindows-merged_out_from_trunk, TASK-Bug2021_RCMPIonWindows-merged_in_to_trunk, TASK-Bug2021_RCMPIonWindows-merged_in_from_branch, TASK-Bug2021_RCMPIonWindows-branch, TASK-BUG7240-root, TASK-BUG7240-branch, TASK-BUG7146_SqlRepositoryPrototype-root, TASK-BUG7146_SqlRepositoryPrototype-merged_out_to_branch, 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PEGASUS_2_5_0_PerformanceDev-AtomicInt-branch, PEG25_IBM_5_16_05, NPEGASUS_2_5_0_PerformanceDev-String-root, NNPEGASUS_2_5_0_PerformanceDev-String-branch, Makefile, HPUX_TEST, HEAD, CIMRS_WORK_20130824, BeforeUpdateToHeadOct82011, BUG_4225_PERFORMANCE_VERSION_1_DONE PEP#: 215 TITLE: Adding CIM29 to Repository DESCRIPTION: I added CIM 2.9 Final to the Pegasus Repository. I did NOT make any build changes. This just makes the CIM29 schema available for testing until a time is designated for switching the default schema from 2.8 to 2.9. |
// =================================================================== // Title: Device_CoolingAndPower // $State: Exp $ // $Date: 2005/02/17 00:09:56 $ // $RCSfile: Device_CoolingAndPower.mof,v $ // $Revision: 1.1 $ // =================================================================== //#pragma inLine ("Includes/copyright.inc") // Copyright 1998-2005 Distributed Management Task Force, Inc. (DMTF). // All rights reserved. // DMTF is a not-for-profit association of industry members dedicated // to promoting enterprise and systems management and interoperability. // DMTF specifications and documents may be reproduced for uses // consistent with this purpose by members and non-members, // provided that correct attribution is given. // As DMTF specifications may be revised from time to time, // the particular version and release date should always be noted. // // Implementation of certain elements of this standard or proposed // standard may be subject to third party patent rights, including // provisional patent rights (herein "patent rights"). DMTF makes // no representations to users of the standard as to the existence // of such rights, and is not responsible to recognize, disclose, or // identify any or all such third party patent right, owners or // claimants, nor for any incomplete or inaccurate identification or // disclosure of such rights, owners or claimants. DMTF shall have no // liability to any party, in any manner or circumstance, under any // legal theory whatsoever, for failure to recognize, disclose, or // identify any such third party patent rights, or for such party's // reliance on the standard or incorporation thereof in its product, // protocols or testing procedures. DMTF shall have no liability to // any party implementing such standard, whether such implementation // is foreseeable or not, nor to any patent owner or claimant, and shall // have no liability or responsibility for costs or losses incurred if // a standard is withdrawn or modified after publication, and shall be // indemnified and held harmless by any party implementing the // standard from any and all claims of infringement by a patent owner // for such implementations. // // For information about patents held by third-parties which have // notified the DMTF that, in their opinion, such patent may relate to // or impact implementations of DMTF standards, visit // http://www.dmtf.org/about/policies/disclosures.php. //#pragma inLine // =================================================================== // Description: The Device Model extends the management concepts that // are related to LogicalDevices. This file defines // the concepts and classes to manage cooling and // supply power to devices. // // The object classes below are listed in an order that // avoids forward references. Required objects, defined // by other working groups, are omitted. // ================================================================== // Change log for 2.8 Final. // CR1223 - SysDev Omnibus CR - Minor MOF corrections. // // Change Log for v2.7 // CR621 - Deprecate PackageCooling // CR622 - Fix the DMI mapping string to include the attribute number // for Battery.BatteryStatus, .EstimatedRunTime, .Chemistry, // .DesignCapacity, .FullChargeCapacity, .DesignVoltage, // .SmartBatteryVersion, & .TimeToFullCharge, // PowerSupply.Range1InputVoltageLow, .Range1InputVoltageHigh, // .Range1InputFrequencyLow, .Range1InputFrequencyHigh, // .Range2InputVoltageLow, .Range2InputVoltageHigh, // .Range2InputFrequencyLow, .Range2InputFrequencyHigh, // .ActiveInputVoltage, .TypeOfRangeSwitching, & // .TotalOutputPower // ================================================================== #pragma locale ("en_US") // =================================================================== // CoolingDevice // =================================================================== [Version ( "2.6.0" ), Description ( "Capabilities and management of CoolingDevices.")] class CIM_CoolingDevice : CIM_LogicalDevice { [Description ( "ActiveCooling is a boolean indicating that the Cooling " "Device provides active (as opposed to passive) cooling.")] boolean ActiveCooling; }; // =================================================================== // Refrigeration // =================================================================== [Version ( "2.6.0" ), Description ( "Capabilities and management of a Refrigeration CoolingDevice.")] class CIM_Refrigeration : CIM_CoolingDevice { }; // =================================================================== // HeatPipe // =================================================================== [Version ( "2.6.0" ), Description ( "Capabilities and management of a HeatPipe CoolingDevice.")] class CIM_HeatPipe : CIM_CoolingDevice { }; // =================================================================== // Fan // =================================================================== [Version ( "2.6.0" ), Description ( "Capabilities and management of a Fan CoolingDevice.")] class CIM_Fan : CIM_CoolingDevice { [Description ( "Indication of whether the fan supports variable speeds.")] boolean VariableSpeed; [Description ( "DesiredSpeed is the currently requested fan speed, defined " "in Revolutions per Minute, when a variable speed fan is " "supported (VariableSpeed boolean = TRUE). The current speed " "is determined via a sensor (CIM_Tachometer) that is " "associated with the Fan using the CIM_AssociatedSensor " "relationship."), Units ( "Revolutions per Minute" )] uint64 DesiredSpeed; [Description ( "Requests that the Fan speed be set to the value specified " "in the method's input parameter. The return value should be " "0 if the request was successfully executed, 1 if the " "request is not supported and some other value if an error " "occurred. In a subclass, the set of possible return codes " "could be specified, using a ValueMap qualifier on the " "method. The strings to which the ValueMap contents are " "'translated' may also be specified in the subclass as a " "Values array qualifier.")] uint32 SetSpeed ( [IN, Description ( "The desired speed for the fan.")] uint64 DesiredSpeed); }; // =================================================================== // AssociatedCooling // =================================================================== [Association, Version ( "2.6.0" ), Description ( "Many Devices, such as processors or power supplies, require " "their own cooling devices. This association indicates where " "fans or other CoolingDevices are specific to a Device, versus " "providing enclosure or cabinet cooling.")] class CIM_AssociatedCooling : CIM_Dependency { [Override ( "Antecedent" ), Description ( "The CoolingDevice.")] CIM_CoolingDevice REF Antecedent; [Override ( "Dependent" ), Description ( "The LogicalDevice being cooled.")] CIM_LogicalDevice REF Dependent; }; // =================================================================== // Battery // =================================================================== [Version ( "2.7.0" ), Description ( "Capabilities and management of the Battery LogicalDevice. This " "class applies to both batteries in Laptop Systems and other " "internal/external batteries, such as used in, or as UPSs.")] class CIM_Battery : CIM_LogicalDevice { [Description ( "Description of the Battery's charge status. Values such as " "\"Fully Charged\" (value=3) or \"Partially Charged\" (11) " "can be specified. The value, 10, is not valid in the CIM " "Schema since in DMI it represents that no battery is " "installed. In this case, this object should not be " "instantiated."), ValueMap { "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11" }, Values { "Other", "Unknown", "Fully Charged", "Low", "Critical", "Charging", "Charging and High", "Charging and Low", "Charging and Critical", // 10 "Undefined", "Partially Charged" }, MappingStrings { "MIF.DMTF|Portable Battery|003.14" }] uint16 BatteryStatus; [Description ( "TimeOnBattery indicates the elapsed time in seconds since " "the ComputerSystem, UPS, ... last switched to battery " "power, or the time since the System or UPS was last " "restarted, whichever is less. Zero shall be returned if the " "Battery is 'on line'."), Units ( "Seconds" )] uint32 TimeOnBattery; [Description ( "EstimatedRunTime is an estimate in minutes of the time to " "battery charge depletion under the present load conditions " "if the utility power is off, or lost and remains off, or a " "Laptop is disconnected from a power source."), Units ( "Minutes" ), MappingStrings { "MIF.DMTF|Portable Battery|003.15" }] uint32 EstimatedRunTime; [Description ( "An estimate of the percentage of full charge remaining."), Units ( "Percent" ), Gauge] uint16 EstimatedChargeRemaining; [Description ( "An enumeration that describes the Battery's chemistry."), ValueMap { "1", "2", "3", "4", "5", "6", "7", "8" }, Values { "Other", "Unknown", "Lead Acid", "Nickel Cadmium", "Nickel Metal Hydride", "Lithium-ion", "Zinc air", "Lithium Polymer" }, MappingStrings { "MIF.DMTF|Portable Battery|003.7" }] uint16 Chemistry; [Description ( "The design capacity of the battery in mWatt-hours. If this " "property is not supported, enter 0."), Units ( "MilliWattHours" ), MappingStrings { "MIF.DMTF|Portable Battery|003.8" }] uint32 DesignCapacity; [Description ( "The full charge capacity of the battery in mWatt-hours. " "Comparison of this value to the Battery DesignCapacity " "determines when the Battery requires replacement. A " "Battery's end of life is typically when the FullCharge " "Capacity falls below 80% of the DesignCapacity. If this " "property is not supported, enter 0."), Units ( "MilliWattHours" ), MappingStrings { "MIF.DMTF|Portable Battery|003.11" }] uint32 FullChargeCapacity; [Description ( "The design voltage of the battery in mVolts. If this " "attribute is not supported, enter 0."), Units ( "MilliVolts" ), MappingStrings { "MIF.DMTF|Portable Battery|003.9" }] uint64 DesignVoltage; [Description ( "The Smart Battery Data Specification version number " "supported by this Battery. If the Battery does not support " "this function, the value should be left blank."), MaxLen ( 64 ), MappingStrings { "MIF.DMTF|Portable Battery|003.10" }] string SmartBatteryVersion; [Description ( "The remaining time to charge the battery fully in minutes " "at the current charging rate and usage."), Units ( "Minutes" ), MappingStrings { "MIF.DMTF|Portable Battery|003.16" }] uint32 TimeToFullCharge; [Description ( "Indicates the Battery's expected lifetime in minutes, " "assuming that the Battery is fully charged. This property " "represents the total expected life of the Battery, not its " "current remaining life, which is indicated by the " "EstimatedRunTime property."), Units ( "Minutes" )] uint32 ExpectedLife; [Description ( "MaxRechargeTime indicates the maximum time, in minutes, to " "fully charge the Battery. This property represents the time " "to recharge a fully depleted Battery, not the current " "remaining charging time, which is indicated in the " "TimeToFullCharge property."), Units ( "Minutes" )] uint32 MaxRechargeTime; }; // =================================================================== // AssociatedBattery // =================================================================== [Association, Version ( "2.6.0" ), Description ( "A LogicalDevice may use or require one or more Batteries. This " "relationship is described by the AssociatedBattery dependency. " "It is also possible to model the individual Batteries that " "comprise a UPS, using this association.")] class CIM_AssociatedBattery : CIM_Dependency { [Override ( "Antecedent" ), Description ( "The Battery.")] CIM_Battery REF Antecedent; [Override ( "Dependent" ), Description ( "The LogicalDevice needing or associated with the Battery.")] CIM_LogicalDevice REF Dependent; }; // =================================================================== // PowerSupply // =================================================================== [Version ( "2.7.0" ), Description ( "Capabilities and management of the PowerSupply LogicalDevice.")] class CIM_PowerSupply : CIM_LogicalDevice { [Description ( "Boolean indicating that the PowerSupply is a switching (vs " "linear) supply.")] boolean IsSwitchingSupply; [Description ( "The low voltage of Input Voltage Range 1 for this Power " "Supply, in millivolts. A value of 0 denotes 'unknown'."), Units ( "MilliVolts" ), MappingStrings { "MIF.DMTF|Power Supply|004.7" }] uint32 Range1InputVoltageLow; [Description ( "The high voltage of Input Voltage Range 1 for this Power " "Supply, in millivolts. A value of 0 denotes 'unknown'."), Units ( "MilliVolts" ), MappingStrings { "MIF.DMTF|Power Supply|004.8" }] uint32 Range1InputVoltageHigh; [Description ( "The frequency (in Hertz) at the low end of this Power " "Supply's Input Frequency Range 1. A value of zero implies " "DC."), Units ( "Hertz" ), MappingStrings { "MIF.DMTF|Power Supply|004.17" }] uint32 Range1InputFrequencyLow; [Description ( "The frequency (in Hertz) at the high end of this Power " "Supply's Input Frequency Range 1. A value of zero implies " "DC."), Units ( "Hertz" ), MappingStrings { "MIF.DMTF|Power Supply|004.18" }] uint32 Range1InputFrequencyHigh; [Description ( "The low voltage of Input Voltage Range 2 for this Power " "Supply, in millivolts. A value of 0 denotes 'unknown'."), Units ( "MilliVolts" ), MappingStrings { "MIF.DMTF|Power Supply|004.11" }] uint32 Range2InputVoltageLow; [Description ( "The high voltage of Input Voltage Range 2 for this Power " "Supply, in millivolts. A value of 0 denotes 'unknown'."), Units ( "MilliVolts" ), MappingStrings { "MIF.DMTF|Power Supply|004.12" }] uint32 Range2InputVoltageHigh; [Description ( "The frequency (in Hertz) at the low end of this Power " "Supply's Input Frequency Range 2. A value of zero implies " "DC."), Units ( "Hertz" ), MappingStrings { "MIF.DMTF|Power Supply|004.19" }] uint32 Range2InputFrequencyLow; [Description ( "The frequency (in Hertz) at the high end of this Power " "Supply's Input Frequency Range 2. A value of zero implies " "DC."), Units ( "Hertz" ), MappingStrings { "MIF.DMTF|Power Supply|004.20" }] uint32 Range2InputFrequencyHigh; [Description ( "ActiveInputVoltage indicates which input voltage range is " "currently in use. Range 1, 2 or both can be specified using " "the values 3, 4 or 5, respectively. If the Supply is not " "currently drawing power, the value 6 (\"Neither\") can be " "specified. This information is necessary in the case of a " "UPS, a subclass of PowerSupply."), ValueMap { "1", "2", "3", "4", "5", "6" }, Values { "Other", "Unknown", "Range 1", "Range 2", "Both", "Neither" }, MappingStrings { "MIF.DMTF|Power Supply|004.15" }] uint16 ActiveInputVoltage; [Description ( "TypeOfRangeSwitching describes the kind of input voltage " "range switching implemented in this PowerSupply. For " "example, autoswitching can be specified (value=4)."), ValueMap { "1", "2", "3", "4", "5", "6" }, Values { "Other", "Unknown", "Manual", "Autoswitch", "Wide Range", "Not Applicable" }, MappingStrings { "MIF.DMTF|Power Supply|004.16" }] uint16 TypeOfRangeSwitching; [Description ( "Represents the total output power of the PowerSupply in " "milliWatts. 0 denotes 'unknown'."), Units ( "MilliWatts" ), MappingStrings { "MIF.DMTF|Power Supply|004.21" }] uint32 TotalOutputPower; }; // =================================================================== // SuppliesPower // =================================================================== [Association, Version ( "2.6.0" ), Description ( "The SuppliesPower relationship indicates that a Device is in " "the power domain of the referenced PowerSupply or UPS. It " "indicates which Device(s) are dependent on the PowerSupply, " "and hence, which Devices are affected if the Supply is lost.")] class CIM_SuppliesPower : CIM_Dependency { [Override ( "Antecedent" ), Description ( "The Supply providing power.")] CIM_PowerSupply REF Antecedent; [Override ( "Dependent" ), Description ( "A LogicalDevice in the power domain of the Supply.")] CIM_LogicalDevice REF Dependent; }; // =================================================================== // UninterruptiblePowerSupply // =================================================================== [Version ( "2.6.0" ), 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, etc. 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 source(s). A value " "of 0 indicates that the voltage at which boosting occurs is " "'unknown'."), Units ( "MilliVolts" )] 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" )] 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 source(s). A value " "of 0 indicates that the voltage at which boosting occurs is " "'unknown'."), Units ( "MilliVolts" )] 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" )] uint32 Range2InputVoltageHigh; [Description ( "The indication of the capacity remaining in the UPS' " "batteries, generator, ... A value of \"Normal\" (2) " "indicates that the remaining estimated minutes of run-time " "is greater than the UPS' defined 'low power' state " "(typically two minutes). A value of \"Low\" (3) indicates " "that the remaining estimated minutes of run-time is less " "than or equal to the UPS' defined 'low power' state. 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, " "the time since the UPS was last restarted, whichever is " "less. Zero shall be returned if the UPS is 'on line'."), Units ( "Seconds" ), MappingStrings { "MIF.DMTF|UPS Battery|001.2" }] uint32 TimeOnBackup; [Description ( "EstimatedRunTime is an estimate in minutes of the time to " "battery, generator, ... depletion under the present load " "conditions if the utility power is off, or lost and remains " "off."), Units ( "Minutes" ), MappingStrings { "MIF.DMTF|UPS Battery|001.3" }] 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" }] uint16 EstimatedChargeRemaining; }; // ================================================================== // PackageCooling // ================================================================== [Association, Deprecated { "CIM_PackageDependency" }, Version ( "2.7.0" ), Description ( "Often, a CoolingDevice is installed in a Package such as a " "Chassis or a Rack, not for a specific Device, but to assist in " "the cooling of the Package in general. The use of this " "association has been deprecated. Instead, the more generic " "PackageDependency relationship should be used.")] class CIM_PackageCooling : CIM_PackageDependency { [Deprecated { "CIM_PackageDependency.Antecedent" }, Override ( "Antecedent" ), Description ( "The CoolingDevice for the Package.")] CIM_CoolingDevice REF Antecedent; [Deprecated { "CIM_PackageDependency.Dependent" }, Override ( "Dependent" ), Description ( "The PhysicalPackage whose environment is cooled.")] CIM_PhysicalPackage REF Dependent; }; // =================================================================== // end of file // ===================================================================
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