914 lines
33 KiB
Plaintext
914 lines
33 KiB
Plaintext
CTRON-POWER-SUPPLY-MIB DEFINITIONS ::= BEGIN
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-- ctron-power-supply-mib.txt The power supply MIB
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-- Revision: 1.01.02
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-- Part Number:
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-- Date: March 26, 1997
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-- Cabletron Systems, Inc.
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-- 35 Industrial Way, P.O. Box 5005
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-- Rochester, NH 03867-0505
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-- (603) 332-9400
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-- support@ctron.com
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-- This module provides authoritative definitions for Cabletron's
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-- enterprise-specific chassis MIB.
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--
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-- This module will be extended, as needed.
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--
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-- Cabletron Systems reserves the right to make changes in
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-- specification and other information contained in this document
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-- without prior notice. The reader should consult Cabletron Systems
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-- to determine whether any such changes have been made.
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--
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-- In no event shall Cabletron Systems be liable for any incidental,
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-- indirect, special, or consequential damages whatsoever (including
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-- but not limited to lost profits) arising out of or related to this
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-- document or the information contained in it, even if Cabletron
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-- Systems has been advised of, known, or should have known, the
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-- possibility of such damages.
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--
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-- Cabletron grants vendors, end-users, and other interested parties
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-- a non-exclusive license to use this Specification in connection
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-- with the management of Cabletron products.
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-- Copyright August 95 Cabletron Systems
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-- This MIB describes objects for MMAC+ style power supplies.
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IMPORTS
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ctps
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FROM CTRON-MIB-NAMES
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OBJECT-TYPE
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FROM RFC-1212;
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--=============== group definitions ===================
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chPower OBJECT IDENTIFIER ::= { ctps 1 }
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boardPower OBJECT IDENTIFIER ::= { ctps 2 }
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psPower OBJECT IDENTIFIER ::= { ctps 3 }
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bbuPower OBJECT IDENTIFIER ::= { ctps 4 }
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termPower OBJECT IDENTIFIER ::= { ctps 5 }
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--=============== chPower group ====================
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-- Chassis Power Group
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-- Implementation of the Chassis Power group is optional.
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-- It needs to be supported when an EM is present and operational
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-- in the chassis.
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-- This group covers information on the chassis power available.
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chPowerOperationalStatus OBJECT-TYPE
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SYNTAX INTEGER {
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powerAC(1),
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powerACRedundant(2),
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powerDC(3),
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powerDCRedundant(4),
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battery(5)
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}
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"This object reflects the overall status of the chassis's
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power supply in terms of how the power is being delivered
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to the chassis."
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::= { chPower 1 }
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chPowerMainVoltageStatus OBJECT-TYPE
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SYNTAX INTEGER {
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powerOK(1),
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overCurrent(2),
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overVoltage(3),
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underVoltage(4)
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}
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"This object reflects the state of the main voltage
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rail within the chassis. The power on this rail may
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be delivered by AC supplies, DC supplies or battery
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supplies."
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::= { chPower 2 }
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chPowerMainVoltage OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The voltage of the chassis's main voltage rail. This rail
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carries power to all the modules in the chassis. It has
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an allowable range of 40 volts to 60 volts DC. The value
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of this object is the actual voltage * 10."
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::= { chPower 3 }
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chPowerTotalSupply OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The total power being supplied by the chassis's power
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supplies to the chassis. The value of this object is the
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actual watts."
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::= { chPower 4 }
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chPowerTotalLoad OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The total load being presented by the chassis to the
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chassis's power supplies. The value of
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this object is the actual watts."
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::= { chPower 5 }
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chPowerMaxSupply OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum power that could de supplied by the chassis's power
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supplies to the chassis. The value of this object is the
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actual watts."
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::= { chPower 6 }
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chPowerMaxLoad OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum load that could be presented by the chassis to the
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chassis's power supplies. The value of
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this object is the actual watts."
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::= { chPower 7 }
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chPowerTable OBJECT-TYPE
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SYNTAX SEQUENCE OF ChPowerEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A list of power lines or busses on the chassis's backplane."
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::= { chPower 8 }
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chPowerEntry OBJECT-TYPE
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SYNTAX ChPowerEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A slot entry containing objects for a particular
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module and associated power line."
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INDEX { chPowerLineID }
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::= { chPowerTable 1 }
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ChPowerEntry ::=
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SEQUENCE {
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chPowerLineID
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INTEGER,
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chPowerLineType
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OBJECT IDENTIFIER,
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chPowerLineTotalSupply
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INTEGER,
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chPowerLineTotalLoad
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INTEGER,
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chPowerLineMaxSupply
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INTEGER,
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chPowerLineMaxLoad
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INTEGER
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}
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chPowerLineID OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"A unique value used to identify a particular power line on
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the chassis's backplane."
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::= { chPowerEntry 1 }
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chPowerLineType OBJECT-TYPE
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SYNTAX OBJECT IDENTIFIER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The type of power. For example, a power line that supplies
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DC current at a nominal voltage of 40 to 57 volts or a
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power line that supplies AC current at a nominal volatge of
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110v."
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::= { chPowerEntry 2 }
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chPowerLineTotalSupply OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The total power being supplied by the chassis's power
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supplies to the chassis on this power line. The value
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of this object is the actual watts."
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::= { chPowerEntry 3 }
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chPowerLineTotalLoad OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The total load being presented by the chassis to the
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chassis's power supplies on this power line. This value
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will be zero if unknown The value of this object is the
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actual watts."
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::= { chPowerEntry 4 }
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chPowerLineMaxSupply OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum power that could de supplied by the chassis's power
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supplies to the chassison this power line. The value of
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this object is the actual watts."
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::= { chPowerEntry 5 }
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chPowerLineMaxLoad OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum load that could be presented by the chassis to the
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chassis's power supplies on this power line. The value of
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this object is the actual watts."
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::= { chPowerEntry 6 }
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chPowerDiagVoltageStatus OBJECT-TYPE
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SYNTAX INTEGER {
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powerOK(1),
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overCurrent(2),
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overVoltage(3),
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underVoltage(4)
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}
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"This object reflects the state of the diag voltage
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rail within the chassis."
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::= { chPower 9 }
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chPowerDiagVoltage OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The voltage of the chassis's diag voltage rail. This rail
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carries power to all the modules in the chassis. It has
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an allowable range of 4.75 volts to 5.25 volts DC. The value
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of this object is the actual voltage * 10."
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::= { chPower 10 }
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--=============== boardPower group ====================
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-- Board Power Group
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-- This group covers information on the use of power within the
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-- chassis by the networking boards.
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boardPowerSlotStatusTable OBJECT-TYPE
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SYNTAX SEQUENCE OF BoardPowerSlotStatusEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A list of networking modules installed in this chassis."
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::= { boardPower 1 }
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boardPowerSlotStatusEntry OBJECT-TYPE
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SYNTAX BoardPowerSlotStatusEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A slot entry containing objects for a particular
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module."
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INDEX { boardPowerSlotStatusID }
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::= { boardPowerSlotStatusTable 1 }
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BoardPowerSlotStatusEntry ::=
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SEQUENCE {
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boardPowerSlotStatusID
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INTEGER,
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boardPowerOperationalStatus
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INTEGER,
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boardPowerAdminStatus
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INTEGER,
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boardPowerLocalAdminStatus
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INTEGER,
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boardPowerLocalStatus
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INTEGER,
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boardPowerShutdownAdmin
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INTEGER,
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boardPowerPriority
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INTEGER,
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boardPowerMaxInputPower
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INTEGER,
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boardPowerManagement
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INTEGER
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}
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boardPowerSlotStatusID OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The slot number of a chassis slot in which this board is
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installed. This object is similiar to chSlotID in the
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Chassis MIB."
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::= { boardPowerSlotStatusEntry 1 }
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boardPowerOperationalStatus OBJECT-TYPE
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SYNTAX INTEGER {
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powerOn(1),
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powerOff(2),
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reset(3),
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overVoltage(4),
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underVoltage(5),
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overCurrent(6),
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overCurrentShutdown(7),
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temperatureShutdown(8),
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remotePowerOff(9),
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powerConservationShutdown(10),
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frontPanelPowerOff(11)
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}
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"This object reflects the status of the module's
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DC-DC converter power supply."
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::= { boardPowerSlotStatusEntry 2 }
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boardPowerAdminStatus OBJECT-TYPE
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SYNTAX INTEGER {
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powerOn(1),
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powerOff(2),
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reset(3)
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}
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ACCESS read-write
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STATUS mandatory
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DESCRIPTION
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"This object controls the operation of the module's
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DC-DC power supply. If the value 3 is written to
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this object then the value of the object will be
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set to 1 after the reset is performed."
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DEFVAL { powerOn }
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::= { boardPowerSlotStatusEntry 3 }
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boardPowerLocalAdminStatus OBJECT-TYPE
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SYNTAX INTEGER {
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localMode(1),
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secureMode(2)
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}
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ACCESS read-write
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STATUS mandatory
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DESCRIPTION
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"This object controls the operation of the module's
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front panel button. In local mode this button may
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be used to locally control the operation of the
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DC-DC converter, i.e. power on, power off and
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reset. In secure mode a request the state of the
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front panel button is reflected in the object
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boardPowerOperationalStatus. In secure mode
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the front panel button has no effect locally."
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DEFVAL { localMode }
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::= { boardPowerSlotStatusEntry 4 }
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boardPowerLocalStatus OBJECT-TYPE
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SYNTAX INTEGER {
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resetRequest(1),
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powerDownRequest(2),
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powerOnRequest(3),
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normal(4)
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}
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"This object reflects the state of the module's front
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panel button."
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::= { boardPowerSlotStatusEntry 5 }
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boardPowerShutdownAdmin OBJECT-TYPE
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SYNTAX INTEGER {
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enabled(1),
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disabled(2)
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}
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ACCESS read-write
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STATUS mandatory
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DESCRIPTION
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"This object controls whether or not the module should
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auto power down due to an fault condition."
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DEFVAL { disabled }
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::= { boardPowerSlotStatusEntry 6 }
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boardPowerPriority OBJECT-TYPE
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SYNTAX INTEGER (1..14)
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ACCESS read-write
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STATUS mandatory
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DESCRIPTION
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"The module's power-up and power down priority. This is a
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value of 1 to 14 and is used to decide which modules are
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allowed to power on in the event that power demand of the
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chassis is greater than the total power supply. The default
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value is 14, highest priority. When two modules have equal
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priority then the module in the lowest slot wins."
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DEFVAL { 14 }
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::= { boardPowerSlotStatusEntry 7 }
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boardPowerMaxInputPower OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum input power that this module is allowed
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to consume. The value of this object is actual
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watts."
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::= { boardPowerSlotStatusEntry 8 }
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boardPowerManagement OBJECT-TYPE
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SYNTAX INTEGER {
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disabled(1),
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enabled(2),
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not-supported(7)
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}
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ACCESS read-write
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STATUS mandatory
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DESCRIPTION
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"Module power management status."
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DEFVAL { not-supported }
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::= { boardPowerSlotStatusEntry 9 }
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boardPowerSlotTable OBJECT-TYPE
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SYNTAX SEQUENCE OF BoardPowerSlotEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A list of networking modules and associated power lines
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installed in this chassis."
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::= { boardPower 2 }
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boardPowerSlotEntry OBJECT-TYPE
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SYNTAX BoardPowerSlotEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A slot entry containing objects for a particular
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module and associated power line."
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INDEX { boardPowerSlotID, boardPowerID }
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::= { boardPowerSlotTable 1 }
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BoardPowerSlotEntry ::=
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SEQUENCE {
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boardPowerSlotID
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INTEGER,
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boardPowerID
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INTEGER,
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boardPowerType
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OBJECT IDENTIFIER,
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boardPowerStatus
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INTEGER,
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boardPowerVoltage
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INTEGER,
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boardPowerCurrent
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INTEGER,
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boardPowerMaxVoltage
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INTEGER,
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boardPowerMinVoltage
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INTEGER,
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boardPowerMaxPower
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INTEGER
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}
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boardPowerSlotID OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The slot number of a chassis slot in which this board is
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installed. This object is similiar to chSlotID in the
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Chassis MIB."
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::= { boardPowerSlotEntry 1 }
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boardPowerID OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"A unique value used to identify a particular power line."
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::= { boardPowerSlotEntry 2 }
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boardPowerType OBJECT-TYPE
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SYNTAX OBJECT IDENTIFIER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The type of power. For example, a power line that supplies
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DC current at a nominal voltage of 40 to 57 volts or a
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power line that supplies AC current at a nominal volatge of
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110v."
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::= { boardPowerSlotEntry 3 }
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boardPowerStatus OBJECT-TYPE
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SYNTAX INTEGER {
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powerOK(1),
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powerOff(2),
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overCurrent(3),
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overVoltage(4),
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underVoltage(5)
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}
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"This object reflects the status of this power line."
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::= { boardPowerSlotEntry 4 }
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boardPowerVoltage OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The voltage reading for the power line. The value of this
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object is actual voltage * 100."
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::= { boardPowerSlotEntry 5 }
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boardPowerCurrent OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The current reading for the power line. The value of this
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object is the actual amperage * 100. If this reading is not
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implemented then value will be zero."
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::= { boardPowerSlotEntry 6 }
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boardPowerMaxVoltage OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum voltage for this power line. If the voltage
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reading for this power line is greater than this value
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then the power line is considered to be in an overvolatge
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condition. The value of this object is in voltage * 100."
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::= { boardPowerSlotEntry 7 }
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boardPowerMinVoltage OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The minimum voltage for this power line. If the voltage
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reading for this power line is less than this value
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then the power line is considered to be in an undervolatge
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condition. The value of this object is voltage * 100."
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::= { boardPowerSlotEntry 8 }
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boardPowerMaxPower OBJECT-TYPE
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SYNTAX INTEGER
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ACCESS read-only
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STATUS mandatory
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DESCRIPTION
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"The maximum power for this power line. If the power calculated
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for this power line is greater than this value then the
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power line is considered to be in an overload condition.
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The value of this object is in watts."
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::= { boardPowerSlotEntry 9 }
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--=============== psPower group ====================
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-- AC and DC Power Supply Power Group
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-- This group covers information on the use of power within the
|
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-- chassis by the networking boards.
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psPowerSlotStatusTable OBJECT-TYPE
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SYNTAX SEQUENCE OF PsPowerSlotStatusEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
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"A list of AC & DC power supplies installed in this chassis."
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::= { psPower 1 }
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psPowerSlotStatusEntry OBJECT-TYPE
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SYNTAX PsPowerSlotStatusEntry
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ACCESS not-accessible
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STATUS mandatory
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DESCRIPTION
|
|
"A slot entry containing objects for a particular
|
|
power supply."
|
|
INDEX { psPowerSlotStatusID }
|
|
::= { psPowerSlotStatusTable 1 }
|
|
|
|
PsPowerSlotStatusEntry ::=
|
|
SEQUENCE {
|
|
psPowerSlotStatusID
|
|
INTEGER,
|
|
psPowerOperationalStatus
|
|
INTEGER,
|
|
psPowerAdminStatus
|
|
INTEGER,
|
|
psPowerMaxOutputPower
|
|
INTEGER
|
|
}
|
|
|
|
psPowerSlotStatusID OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The slot number of a chassis slot in which this AC power
|
|
supply is installed. This object is similiar
|
|
to chSlotID in the Chassis MIB."
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|
::= { psPowerSlotStatusEntry 1 }
|
|
|
|
psPowerOperationalStatus OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
powerOn(1),
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|
powerOff(2),
|
|
reset(3),
|
|
overVoltage(4),
|
|
underVoltage(5),
|
|
overCurrent(6),
|
|
overCurrentShutdown(7),
|
|
temperatureShutdown(8),
|
|
remotePowerOff(9)
|
|
}
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object reflects the status of the module's
|
|
DC-DC converter power supply."
|
|
::= { psPowerSlotStatusEntry 2 }
|
|
|
|
psPowerAdminStatus OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
powerOn(1),
|
|
powerOff(2)
|
|
}
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|
ACCESS read-write
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object controls the operation of power supply."
|
|
DEFVAL { powerOn }
|
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::= { psPowerSlotStatusEntry 3 }
|
|
|
|
psPowerMaxOutputPower OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The maximum power that this power supply is allowed
|
|
to ouput. The value of this object is watts."
|
|
::= { psPowerSlotStatusEntry 4 }
|
|
|
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psPowerSlotTable OBJECT-TYPE
|
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SYNTAX SEQUENCE OF PsPowerSlotEntry
|
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ACCESS not-accessible
|
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STATUS mandatory
|
|
DESCRIPTION
|
|
"A list of power supplies and associated power lines
|
|
installed in this chassis."
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::= { psPower 2 }
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|
|
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psPowerSlotEntry OBJECT-TYPE
|
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SYNTAX PsPowerSlotEntry
|
|
ACCESS not-accessible
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"A slot entry containing objects for a particular
|
|
power line on a particular power supply."
|
|
INDEX { psPowerSlotID, psPowerID }
|
|
::= { psPowerSlotTable 1 }
|
|
|
|
PsPowerSlotEntry ::=
|
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SEQUENCE {
|
|
psPowerSlotID
|
|
INTEGER,
|
|
psPowerID
|
|
INTEGER,
|
|
psPowerType
|
|
OBJECT IDENTIFIER,
|
|
psPowerStatus
|
|
INTEGER,
|
|
psPowerAdmin
|
|
INTEGER,
|
|
psPowerVoltage
|
|
INTEGER,
|
|
psPowerCurrent
|
|
INTEGER,
|
|
psPowerLineFrequency
|
|
INTEGER,
|
|
psPowerMaxVoltage
|
|
INTEGER,
|
|
psPowerMinVoltage
|
|
INTEGER,
|
|
psPowerMaxPower
|
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INTEGER
|
|
}
|
|
|
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psPowerSlotID OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The slot number of a chassis slot in which this Power
|
|
supply is installed. This object is similiar to
|
|
chSlotID in the Chassis MIB."
|
|
::= { psPowerSlotEntry 1 }
|
|
|
|
psPowerID OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"A unique value used to identify a particular power line."
|
|
::= { psPowerSlotEntry 2 }
|
|
|
|
psPowerType OBJECT-TYPE
|
|
SYNTAX OBJECT IDENTIFIER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The type of power. For example, a power line that supplies
|
|
DC current at a nominal voltage of 40 to 57 volts or a
|
|
power line that supplies AC current at a nominal volatge of
|
|
110v."
|
|
::= { psPowerSlotEntry 3 }
|
|
|
|
psPowerStatus OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
powerOK(1),
|
|
powerOff(2),
|
|
overCurrent(3),
|
|
overVoltage(4),
|
|
underVoltage(5)
|
|
}
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object reflects the status of the power line."
|
|
::= { psPowerSlotEntry 4 }
|
|
|
|
psPowerAdmin OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
powerOn(1),
|
|
powerOff(2)
|
|
}
|
|
ACCESS read-write
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object controls the operation of power supply."
|
|
DEFVAL { powerOn }
|
|
::= { psPowerSlotEntry 5 }
|
|
|
|
psPowerVoltage OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The voltage reading for the power line. The value of this
|
|
object is the actual voltage * 100."
|
|
::= { psPowerSlotEntry 6 }
|
|
|
|
psPowerCurrent OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The current reading for the power line. The value of this
|
|
object is amperage * 100. If this reading is not implemented
|
|
then value will be zero."
|
|
::= { psPowerSlotEntry 7 }
|
|
|
|
psPowerLineFrequency OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The line frequency for the power line. The value of this
|
|
object is the actual frequency in Hertz * 10. If this
|
|
reading is not implemented then value will be zero."
|
|
::= { psPowerSlotEntry 8 }
|
|
|
|
psPowerMaxVoltage OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The maximum voltage for this power line. If the voltage
|
|
reading for this power line is greater than this value
|
|
then the power line is considered to be in an over volatge
|
|
condition. The value of this object is voltage * 100."
|
|
::= { psPowerSlotEntry 9 }
|
|
|
|
psPowerMinVoltage OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The minimum voltage for this power line. If the voltage
|
|
reading for this power line is greater than this value
|
|
then the power line is considered to be in an over volatge
|
|
condition. The value of this object is voltage * 100."
|
|
::= { psPowerSlotEntry 10 }
|
|
|
|
psPowerMaxPower OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The maximum power for this power line. If the power calculated
|
|
for this power line is greater than this value then the
|
|
power line is considered to be in an overload condition.
|
|
The value of this object is watts."
|
|
::= { psPowerSlotEntry 11 }
|
|
|
|
--=============== bbuPower group ====================
|
|
|
|
-- Battery Backup Unit Power Group
|
|
-- This group covers information on the use of power within the
|
|
-- chassis by the battery backup unit.
|
|
|
|
--=============== termPower group ====================
|
|
|
|
-- INB Termination Module Power Group
|
|
-- This group covers information on the use of power within the
|
|
-- chassis by the INB termination modules.
|
|
|
|
termPowerStatus OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
powerOK(1),
|
|
overCurrent(2),
|
|
overVoltage(3),
|
|
underVolatge(4),
|
|
overPower(5)
|
|
}
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object reflects the status of the chassis's termination
|
|
voltage rail."
|
|
::= { termPower 1 }
|
|
|
|
termPowerVoltage OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The voltage of the chassis's termination voltage rail.
|
|
This rail carries power to INB terminator cards in the
|
|
chassis. It has an allowalble range of 3.3 Volt + or -
|
|
5%.The value of this object is voltage * 100."
|
|
::= { termPower 2 }
|
|
|
|
termPowerCurrent OBJECT-TYPE
|
|
SYNTAX INTEGER
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"The current on the chassis's termination voltage rail.
|
|
The value of this object is the actual amperage * 100.
|
|
If this reading is not implemented then the value will
|
|
be zero."
|
|
::= { termPower 3 }
|
|
|
|
termPowerModule1Status OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
normal(1),
|
|
iNBaFault(2),
|
|
iNBbFault(3),
|
|
fault(4),
|
|
termModuleNotInstalled(5),
|
|
unknown(6)
|
|
}
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object reflects the state of the INB termination
|
|
module number 1. A value of normal(1) reflects that
|
|
both busses are normal. A value of fault(4) reflects
|
|
that both busses are in a fault condition."
|
|
::= { termPower 4 }
|
|
|
|
termPowerModule2Status OBJECT-TYPE
|
|
SYNTAX INTEGER {
|
|
normal(1),
|
|
iNBaFault(2),
|
|
iNBbFault(3),
|
|
fault(4),
|
|
termModuleNotInstalled(5),
|
|
unknown(6)
|
|
}
|
|
ACCESS read-only
|
|
STATUS mandatory
|
|
DESCRIPTION
|
|
"This object reflects the state of the INB termination
|
|
module number 2. A value of normal(1) reflects that
|
|
both busses are normal. A value of fault(4) reflects
|
|
that both busses are in a fault condition."
|
|
::= { termPower 5 }
|
|
|
|
END
|