BATTERY-MIB: View SNMP OID List / Download MIB

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Object Name OID Type Access Info
 batteryMIB 1.3.6.1.2.1.233
This MIB module defines a set of objects for monitoring batteries of networked devices and of their components. Copyright (c) 2015 IETF Trust and the persons identified as authors of the code. All rights reserved. Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info). This version of this MIB module is part of RFC 7577; see the RFC itself for full legal notices.
         batteryNotifications 1.3.6.1.2.1.233.0
             batteryChargingStateNotification 1.3.6.1.2.1.233.0.1
This notification can be generated when a charging state of the battery (indicated by the value of object batteryChargingOperState) is triggered by an event other than a write action to object batteryChargingAdminState. Such an event may, for example, be triggered by a local battery controller.
             batteryLowNotification 1.3.6.1.2.1.233.0.2
This notification can be generated when the current charge (batteryActualCharge) or the current voltage (batteryActualVoltage) of the battery falls below a threshold defined by object batteryAlarmLowCharge or object batteryAlarmLowVoltage, respectively. Note that, typically, this notification is generated in a state where the battery is still sufficiently charged to keep the device(s) that it powers operational for some time. If the charging state of the battery has become critical, i.e., the device(s) powered by the battery must go to a 'sleep' or 'off' state, then the batteryCriticalNotification should be used instead. If the low charge or voltage has been detected for a single cell or a set of cells of the battery and not for the entire battery, then object batteryCellIdentifier should be set to a value that identifies the cell or set of cells. Otherwise, the value of object batteryCellIdentifier should be set to the empty string when this notification is generated. The notification should not be sent again for the same battery or cell before either (a) the current voltage or the current charge, respectively, has become higher than the corresponding threshold through charging or (b) an indication of a maintenance action has been detected, such as a battery disconnection event or a reinitialization of the battery monitoring system. This notification should not be sent when the battery is in a charging mode, i.e., the value of object batteryChargingOperState is charging(2).
             batteryCriticalNotification 1.3.6.1.2.1.233.0.3
This notification can be generated when the current charge of the battery falls so low that it cannot provide a sufficient power supply function for regular operation of the powered device(s). The battery needs to be charged before it can be used for regular power supply again. The battery may still provide sufficient power for a 'sleep' mode of a powered device(s) or for a transition into an 'off' mode. If the critical state is caused by a single cell or a set of cells of the battery, then object batteryCellIdentifier should be set to a value that identifies the cell or set of cells. Otherwise, the value of object batteryCellIdentifier should be set to the empty string when this notification is generated. The notification should not be sent again for the same battery before either the battery charge has increased through charging to a non-critical value or an indication of a maintenance action has been detected, such as a battery disconnection event or a reinitialization of the battery monitoring system. This notification should not be sent when the battery is in a charging mode, i.e., the value of object batteryChargingOperState is charging(2).
             batteryTemperatureNotification 1.3.6.1.2.1.233.0.4
This notification can be generated when the measured temperature (batteryTemperature) rises above the threshold defined by object batteryAlarmHighTemperature or falls below the threshold defined by object batteryAlarmLowTemperature. If the low or high temperature has been detected for a single cell or a set of cells of the battery and not for the entire battery, then object batteryCellIdentifier should be set to a value that identifies the cell or set of cells. Otherwise, the value of object batteryCellIdentifier should be set to the empty string when this notification is generated. It may occur that the temperature alternates between values slightly below and slightly above a threshold. For limiting the notification rate in such a case, this notification should not be sent again for the same battery or cell, respectively, within a time interval of 10 minutes. An exception to the rate limitations occurs immediately after the reinitialization of the battery monitoring system. At this point in time, if the battery temperature is above the threshold defined by object batteryAlarmHighTemperature or below the threshold defined by object batteryAlarmLowTemperature, respectively, then this notification should be sent, independent of the time at which previous notifications for the same battery or cell, respectively, had been sent.
             batteryAgingNotification 1.3.6.1.2.1.233.0.5
This notification can be generated when the actual capacity (batteryActualCapacity) falls below a threshold defined by object batteryAlarmLowCapacity or when the charging cycle count of the battery (batteryChargingCycleCount) exceeds the threshold defined by object batteryAlarmHighCycleCount. If the aging has been detected for a single cell or a set of cells of the battery and not for the entire battery, then object batteryCellIdentifier should be set to a value that identifies the cell or set of cells. Otherwise, the value of object batteryCellIdentifier should be set to the empty string when this notification is generated. This notification should not be sent again for the same battery or cell, respectively, before an indication of a maintenance action has been detected, such as a battery disconnection event or a reinitialization of the battery monitoring system.
             batteryConnectedNotification 1.3.6.1.2.1.233.0.6
This notification can be generated when it has been detected that a battery has been connected. The battery can be identified by the value of object batteryIdentifier as well as by the value of index entPhysicalIndex that is contained in the OID of object batteryIdentifier.
             batteryDisconnectedNotification 1.3.6.1.2.1.233.0.7
This notification can be generated when it has been detected that one or more batteries have been disconnected.
         batteryObjects 1.3.6.1.2.1.233.1
             batteryTable 1.3.6.1.2.1.233.1.1 no-access
This table provides information on batteries. It contains one conceptual row per battery in a managed entity. Batteries are indexed by the entPhysicalIndex of the entPhysicalTable defined in the ENTITY-MIB (RFC 6933). For implementations of the BATTERY-MIB, an implementation of the ENTITY-MIB complying with the entity4CRCompliance MODULE-COMPLIANCE statement of the ENTITY-MIB is required. If batteries are replaced, and the replacing battery uses the same physical connector as the replaced battery, then the replacing battery SHOULD be indexed with the same value of object entPhysicalIndex as the replaced battery.
                 batteryEntry 1.3.6.1.2.1.233.1.1.1 no-access
An entry providing information on a battery.
                     batteryIdentifier 1.3.6.1.2.1.233.1.1.1.1 snmpadminstring read-only
This object contains an identifier for the battery. Many manufacturers deliver not only simple batteries but battery packages including additional hardware and firmware. Typically, these modules include an identifier that can be retrieved by a device in which a battery has been installed. The identifier is useful when batteries are removed and reinstalled in the same or other devices. Then, the device or the network management system can trace batteries and achieve continuity of battery monitoring. If the battery is identified by more than one value, for example, by a model number and a serial number, then the value of this object is a concatenation of these values, separated by the colon symbol ':'. The values should be ordered so that a more significant value comes before a less significant one. In the example above, the (more significant) model number would be first, and the serial number would follow: ':'. If the battery identifier cannot be represented using the ISO/IEC IS 10646-1 character set, then a hexadecimal encoding of a binary representation of the entire battery identifier must be used. The value of this object must be an empty string if there is no battery identifier or if the battery identifier is unknown.
                     batteryFirmwareVersion 1.3.6.1.2.1.233.1.1.1.2 snmpadminstring read-only
This object indicates the version number of the firmware that is included in a battery module. Many manufacturers deliver not pure batteries but battery packages including additional hardware and firmware. Since the behavior of the battery may change with the firmware, it may be useful to retrieve the firmware version number. The value of this object must be an empty string if there is no firmware or if the version number of the firmware is unknown.
                     batteryType 1.3.6.1.2.1.233.1.1.1.3 integer read-only
This object indicates the type of battery. It distinguishes between primary (not rechargeable) batteries, rechargeable (secondary) batteries, and capacitors. Capacitors are not really batteries but are often used in the same way as a battery. The value other(2) can be used if the battery type is known but is none of the ones above. Value unknown(1) is to be used if the type of battery cannot be determined. Enumeration: 'unknown': 1, 'capacitor': 5, 'other': 2, 'primary': 3, 'rechargeable': 4.
                     batteryTechnology 1.3.6.1.2.1.233.1.1.1.4 unsigned32 read-only
This object indicates the technology used by the battery. Numbers identifying battery technologies are registered at IANA. A current list of assignments can be found at . Value unknown(1) MUST be used if the technology of the battery cannot be determined. Value other(2) can be used if the battery technology is known but is not one of the types already registered at IANA.
                     batteryDesignVoltage 1.3.6.1.2.1.233.1.1.1.5 unsigned32 read-only
This object provides the design (or nominal) voltage of the battery in units of millivolt (mV). Note that the design voltage is a constant value and typically different from the actual voltage of the battery. A value of 0 indicates that the design voltage is unknown.
                     batteryNumberOfCells 1.3.6.1.2.1.233.1.1.1.6 unsigned32 read-only
This object indicates the number of cells contained in the battery. A value of 0 indicates that the number of cells is unknown.
                     batteryDesignCapacity 1.3.6.1.2.1.233.1.1.1.7 unsigned32 read-only
This object provides the design (or nominal) capacity of the battery in units of milliampere hours (mAh). Note that the design capacity is a constant value and typically different from the actual capacity of the battery. Usually, this is a value provided by the manufacturer of the battery. A value of 0 indicates that the design capacity is unknown.
                     batteryMaxChargingCurrent 1.3.6.1.2.1.233.1.1.1.8 unsigned32 read-only
This object provides the maximum current to be used for charging the battery in units of milliampere (mA). Note that the maximum charging current may not lead to optimal charge of the battery and that some batteries can only be charged with the maximum current for a limited amount of time. A value of 0 indicates that the maximum charging current is unknown.
                     batteryTrickleChargingCurrent 1.3.6.1.2.1.233.1.1.1.9 unsigned32 read-only
This object provides the recommended average current to be used for trickle charging the battery in units of mA. Typically, this is a value recommended by the manufacturer of the battery or by the manufacturer of the charging circuit. A value of 0 indicates that the recommended trickle charging current is unknown.
                     batteryActualCapacity 1.3.6.1.2.1.233.1.1.1.10 unsigned32 read-only
This object provides the actual capacity of the battery in units of mAh. Typically, the actual capacity of a battery decreases with time and with usage of the battery. It is usually lower than the design capacity. Note that the actual capacity needs to be measured and is typically an estimate based on observed discharging and charging cycles of the battery. A value of 'ffffffff'H indicates that the actual capacity cannot be determined.
                     batteryChargingCycleCount 1.3.6.1.2.1.233.1.1.1.11 unsigned32 read-only
This object indicates the number of completed charging cycles that the battery underwent. In line with the Smart Battery Data Specification Revision 1.1, a charging cycle is defined as the process of discharging the battery by a total amount equal to the battery design capacity as given by object batteryDesignCapacity. A charging cycle may include several steps of charging and discharging the battery until the discharging amount given by batteryDesignCapacity has been reached. As soon as a charging cycle has been completed, the next one starts immediately, independent of the battery's current charge at the end of the cycle. For batteries of type primary(3), the value of this object is always 0. A value of 'ffffffff'H indicates that the number of charging cycles cannot be determined.
                     batteryLastChargingCycleTime 1.3.6.1.2.1.233.1.1.1.12 dateandtime read-only
The date and time of the last charging cycle. The value '0000000000000000'H is returned if the battery has not been charged yet or if the last charging time cannot be determined. For batteries of type primary(1), the value of this object is always '0000000000000000'H.
                     batteryChargingOperState 1.3.6.1.2.1.233.1.1.1.13 integer read-only
This object indicates the current charging state of the battery. Value unknown(1) indicates that the charging state of the battery cannot be determined. Value charging(2) indicates that the battery is being charged in a way such that the charge of the battery increases. Value maintainingCharge(3) indicates that the battery is being charged with a low-average current that compensates self-discharging. This includes trickle charging, float charging, and other methods for maintaining the current charge of a battery. In typical implementations of charging controllers, state maintainingCharge(3) is only applied if the battery is fully charged or almost fully charged. Value noCharging(4) indicates that the battery is not being charged or discharged by electric current between the battery and electric circuits external to the battery. Note that the battery may still be subject to self-discharging. Value discharging(5) indicates that the battery is either used as the power source for electric circuits external to the battery or discharged intentionally by the charging controller, e.g., for the purpose of battery maintenance. In any case, the charge of the battery decreases. Enumeration: 'unknown': 1, 'noCharging': 4, 'maintainingCharge': 3, 'charging': 2, 'discharging': 5.
                     batteryChargingAdminState 1.3.6.1.2.1.233.1.1.1.14 integer read-write
The value of this object indicates the desired charging state of the battery. The real state is indicated by object batteryChargingOperState. See the definition of object batteryChargingOperState for a description of the values. When this object is initialized by an implementation of the BATTERY-MIB module, its value is set to notSet(1). In this case, the charging controller is free to choose which operational state is suitable. When the batteryChargingAdminState object is set, then the BATTERY-MIB implementation must try to set the battery to the indicated state. The result will be indicated by object batteryChargingOperState. Setting object batteryChargingAdminState to value notSet(1) is a request to the charging controller to operate autonomously and choose the operational state that is suitable. Setting object batteryChargingAdminState to value charge(2) is a request to enter the operational state charging(2) until the battery is fully charged. When the battery is fully charged, or if the battery was already fully charged or almost fully charged at the time of the request, the operational state will change to maintainingCharge(3) if the charging controller and the battery support the functionality of maintaining the charge, or it will change to noCharging(4) otherwise. Setting object batteryChargingAdminState to value doNotCharge(3) is a request for entering operational state noCharging(4). Setting object batteryChargingAdminState to value discharge(4) is a request for entering operational state discharging(5). Discharging can be accomplished by ordinary use, applying a dedicated load, or any other means. An example for applying this state is battery maintenance. If the battery is empty or almost empty, the operational state will change to noCharging(4). The charging controller will decide which charge condition will be considered empty dependent on the battery technology used. This is done to avoid damage on the battery due to deep discharge. Due to operational conditions and limitations of the implementation of the BATTERY-MIB module, changing the battery status according to a set value of object batteryChargingAdminState may not be possible. Setting the value of object batteryChargingAdminState may result in not changing the state of the battery to this value or even in setting the charging state to another value than the requested one. For example, the charging controller might at any time decide to enter state discharging(5), if there is an operational need to use the battery for supplying power. Enumeration: 'doNotCharge': 3, 'charge': 2, 'notSet': 1, 'discharge': 4.
                     batteryActualCharge 1.3.6.1.2.1.233.1.1.1.15 unsigned32 read-only
This object provides the actual charge of the battery in units of mAh. Note that the actual charge needs to be measured and is typically an estimate based on observed discharging and charging cycles of the battery. A value of 'ffffffff'H indicates that the actual charge cannot be determined.
                     batteryActualVoltage 1.3.6.1.2.1.233.1.1.1.16 unsigned32 read-only
This object provides the actual voltage of the battery in units of mV. A value of 'ffffffff'H indicates that the actual voltage cannot be determined.
                     batteryActualCurrent 1.3.6.1.2.1.233.1.1.1.17 integer32 read-only
This object provides the actual charging or discharging current of the battery in units of mA. The charging current is represented by positive values, and the discharging current is represented by negative values. A value of '7fffffff'H indicates that the actual current cannot be determined.
                     batteryTemperature 1.3.6.1.2.1.233.1.1.1.18 integer32 read-only
The ambient temperature at or within close proximity of the battery. A value of '7fffffff'H indicates that the temperature cannot be determined.
                     batteryAlarmLowCharge 1.3.6.1.2.1.233.1.1.1.19 unsigned32 read-write
This object provides the lower-threshold value for object batteryActualCharge. If the value of object batteryActualCharge falls below this threshold, a low-battery alarm will be raised. The alarm procedure may include generating a batteryLowNotification. This object should be set to a value such that when the batteryLowNotification is generated, the battery is still sufficiently charged to keep the device(s) that it powers operational for a time long enough to take actions before the powered device(s) enters a 'sleep' or 'off' state. A value of 0 indicates that no alarm will be raised for any value of object batteryActualVoltage.
                     batteryAlarmLowVoltage 1.3.6.1.2.1.233.1.1.1.20 unsigned32 read-write
This object provides the lower-threshold value for object batteryActualVoltage. If the value of object batteryActualVoltage falls below this threshold, a low-battery alarm will be raised. The alarm procedure may include generating a batteryLowNotification. This object should be set to a value such that when the batteryLowNotification is generated, the battery is still sufficiently charged to keep the device(s) that it powers operational for a time long enough to take actions before the powered device(s) enters a 'sleep' or 'off' state. A value of 0 indicates that no alarm will be raised for any value of object batteryActualVoltage.
                     batteryAlarmLowCapacity 1.3.6.1.2.1.233.1.1.1.21 unsigned32 read-write
This object provides the lower-threshold value for object batteryActualCapacity. If the value of object batteryActualCapacity falls below this threshold, a battery aging alarm will be raised. The alarm procedure may include generating a batteryAgingNotification. A value of 0 indicates that no alarm will be raised for any value of object batteryActualCapacity.
                     batteryAlarmHighCycleCount 1.3.6.1.2.1.233.1.1.1.22 unsigned32 read-write
This object provides the upper-threshold value for object batteryChargingCycleCount. If the value of object batteryChargingCycleCount rises above this threshold, a battery aging alarm will be raised. The alarm procedure may include generating a batteryAgingNotification. A value of 0 indicates that no alarm will be raised for any value of object batteryChargingCycleCount.
                     batteryAlarmHighTemperature 1.3.6.1.2.1.233.1.1.1.23 integer32 read-write
This object provides the upper-threshold value for object batteryTemperature. If the value of object batteryTemperature rises above this threshold, a battery high temperature alarm will be raised. The alarm procedure may include generating a batteryTemperatureNotification. A value of '7fffffff'H indicates that no alarm will be raised for any value of object batteryTemperature.
                     batteryAlarmLowTemperature 1.3.6.1.2.1.233.1.1.1.24 integer32 read-write
This object provides the lower-threshold value for object batteryTemperature. If the value of object batteryTemperature falls below this threshold, a battery low temperature alarm will be raised. The alarm procedure may include generating a batteryTemperatureNotification. A value of '7fffffff'H indicates that no alarm will be raised for any value of object batteryTemperature.
                     batteryCellIdentifier 1.3.6.1.2.1.233.1.1.1.25 snmpadminstring read-only
The value of this object identifies one or more cells of a battery. The format of the cell identifier may vary between different implementations. It should uniquely identify one or more cells of the indexed battery. This object can be used for batteries, such as lithium polymer batteries for which battery controllers monitor cells individually. This object is used by notifications of types batteryLowNotification, batteryTemperatureNotification, batteryCriticalNotification, and batteryAgingNotification. These notifications can use the value of this object to indicate the event that triggered the generation of the notification in more detail by specifying a single cell or a set of cells within the battery that is specifically addressed by the notification. An example use case for this object is a single cell in a battery that exceeds the temperature indicated by object batteryAlarmHighTemperature. In such a case, a batteryTemperatureNotification can be generated that not only indicates the battery for which the temperature limit has been exceeded but also the particular cell. The initial value of this object is the empty string. The value of this object is set each time a batteryLowNotification, batteryTemperatureNotification, batteryCriticalNotification, or batteryAgingNotification is generated. When a notification is generated that does not indicate a specific cell or set of cells, the value of this object is set to the empty string.
         batteryConformance 1.3.6.1.2.1.233.2
             batteryCompliances 1.3.6.1.2.1.233.2.1
                 batteryCompliance 1.3.6.1.2.1.233.2.1.1
The compliance statement for implementations of the BATTERY-MIB module. A compliant implementation MUST implement the objects defined in the mandatory groups batteryDescriptionGroup and batteryStatusGroup. Note that this compliance statement requires compliance with the entity4CRCompliance MODULE-COMPLIANCE statement of the ENTITY-MIB (RFC 6933).
             batteryGroups 1.3.6.1.2.1.233.2.2
                 batteryDescriptionGroup 1.3.6.1.2.1.233.2.2.1
A compliant implementation MUST implement the objects contained in this group.
                 batteryStatusGroup 1.3.6.1.2.1.233.2.2.2
A compliant implementation MUST implement the objects contained in this group.
                 batteryAdminGroup 1.3.6.1.2.1.233.2.2.3
A compliant implementation does not have to implement the object contained in this group.
                 batteryAlarmThresholdsGroup 1.3.6.1.2.1.233.2.2.4
A compliant implementation does not have to implement the objects contained in this group.
                 batteryNotificationsGroup 1.3.6.1.2.1.233.2.2.5
A compliant implementation does not have to implement the notifications contained in this group.
                 batteryPerCellNotificationsGroup 1.3.6.1.2.1.233.2.2.6
A compliant implementation does not have to implement the object contained in this group.