mibs/MIBS/eaton/TELECOM-MIB

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2023-12-05 12:25:34 +01:00
-- Telecom MIB
-- ===============================================================================
-- Revision History
-- v0.01 2014-06-10 Lilinhua
--
-- enterprise id: .1.3.6.1.4.1.935.10(device).2(matAgent).2(matTraps)
--
-- ===============================================================================
TELECOM-MIB DEFINITIONS ::= BEGIN
IMPORTS
TRAP-TYPE
FROM RFC-1215
DisplayString
FROM SNMPv2-TC
OBJECT-TYPE
FROM RFC-1212
enterprises,Counter, IpAddress
FROM RFC1155-SMI;
PositiveInteger ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"This data type is a non-zero and non-negative value."
SYNTAX INTEGER (1..2147483647)
NonNegativeInteger ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"This data type is a non-negative value."
SYNTAX INTEGER (0..2147483647)
ppc OBJECT IDENTIFIER ::= { enterprises 935 }
device OBJECT IDENTIFIER ::= { ppc 10 }
matAgent OBJECT IDENTIFIER ::= { device 2 }
matObjects OBJECT IDENTIFIER ::= { matAgent 1 }
matTraps OBJECT IDENTIFIER ::= { matAgent 2 }
matController OBJECT IDENTIFIER ::= { matObjects 1 }
matInverter OBJECT IDENTIFIER ::= { matObjects 2 }
matSts OBJECT IDENTIFIER ::= { matObjects 3 }
matDryContact OBJECT IDENTIFIER ::= { matObjects 4 }
matConfig OBJECT IDENTIFIER ::= { matObjects 5 }
matTrapTargets OBJECT IDENTIFIER ::= { matObjects 6 }
-- ========================================================================
-- matController
-- ========================================================================
matConSerialNum OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 15 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Controller serial number."
::= { matController 1 }
matConName OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 31 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Power system name."
::= { matController 2 }
matConWarningState OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 31 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "The values indicate the unrestored traps.
For example,
if 'Controller Battery Low' and 'Controller temperature High'
the agent send
the trap 85 and trap 87 to
NMS,
so the value of matConWarningState should be '85,87'.
And then the two events restored, the value of matConWarningState
should change to empty."
::= { matController 3 }
matConTemperature OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "Temperature of the controller, the unit is 0.1 degree."
::= { matController 4 }
matAgentSoftwareVerison OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 31 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "The Network Management Card software/firmware version."
::= { matController 5 }
-- ========================================================================
-- matInverter
-- ========================================================================
matInvModuleNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "The number of Inverter modules."
::= { matInverter 1 }
matInvTable OBJECT-TYPE
SYNTAX SEQUENCE OF MATInvEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "This table list Inverter message."
::= { matInverter 2 }
matInvEntry OBJECT-TYPE
SYNTAX MATInvEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "An entry containing information applicable to a particular Inverter module."
INDEX { matInvModuleIndex }
::= { matInvTable 1 }
MATInvEntry::= SEQUENCE {
matInvModuleIndex PositiveInteger,
matInvSerialNum DisplayString,
matInvFirmwareVersion DisplayString,
matInvHardwareVersion DisplayString,
matInvWarningState DisplayString,
matInvOutputVoltage NonNegativeInteger,
matInvOutputCurrent NonNegativeInteger,
matInvBatteryVoltage NonNegativeInteger,
matInvOutputFreq NonNegativeInteger,
matInvOutputPower NonNegativeInteger,
matInvPowerLimit NonNegativeInteger,
matInvRunTime NonNegativeInteger,
matInvTemperature INTEGER,
matInvLineVoltage NonNegativeInteger,
matInvLineFreq NonNegativeInteger,
matInvMbsPosition INTEGER,
matInvRunMode INTEGER,
matInvPriority INTEGER,
matConfInvOutputVoltage NonNegativeInteger,
matConfInvInputVoltage NonNegativeInteger,
matConfInvOutputVoltHighLoss NonNegativeInteger,
matConfInvOutputVoltLowLoss NonNegativeInteger,
matConfInvOutputPower NonNegativeInteger,
matConfInvOutputFreq NonNegativeInteger,
matInvPhaseType INTEGER,
matInvOnOffStatus INTEGER
}
matInvModuleIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "The index of Inverter module."
::= { matInvEntry 1 }
matInvSerialNum OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 15 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Module serial number."
::= { matInvEntry 2 }
matInvFirmwareVersion OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 7 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Firmware version."
::= { matInvEntry 3 }
matInvHardwareVersion OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 7 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Hardware version."
::= { matInvEntry 4 }
matInvWarningState OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 63 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "The values indicate the unrestored traps.
For example,
if 'Inverter fault' and 'Inverter Over-loading'
the agent send
the trap 1 and trap 3 to
NMS,
so the value of matConWarningState should be '1,3'.
And then the two events restored, the value of matConWarningState
should change to empty."
::= { matInvEntry 5 }
matInvOutputVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Inverter Output Voltage, the unit is 0.1 Volt."
::= { matInvEntry 6 }
matInvOutputCurrent OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Inverter Output Current, unit is 0.1 amp."
::= { matInvEntry 7 }
matInvBatteryVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Inverter Battery voltage, the unit is 0.1 Volt."
::= { matInvEntry 8 }
matInvOutputFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Output frequency, the unit is 0.1 Hz."
::= { matInvEntry 9 }
matInvOutputPower OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Output power, the unit is VA."
::= { matInvEntry 10 }
matInvPowerLimit OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Power Limit Status of Inverter module, the unit is percent."
::= { matInvEntry 11 }
matInvRunTime OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Run time, the unit is Hour."
::= { matInvEntry 12 }
matInvTemperature OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "Temperature of the inverter, the unit is 0.1 degree."
::= { matInvEntry 13 }
matInvLineVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Line voltage of 3.5K, the unit is 0.1 Volt."
::= { matInvEntry 14 }
matInvLineFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Line frequency of 3.5K, the unit is 0.1 Hz."
::= { matInvEntry 15 }
matInvMbsPosition OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-3) command
transfer(1),
normal(2),
bypass(3),
invalid(4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "MBS position of 3.5K."
::= { matInvEntry 16 }
matInvRunMode OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-5) command
powerOn(1),
standby(2),
bypass(3),
line(4),
battery(5),
fault(6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "Currently run mode of 3.5K."
::= { matInvEntry 17 }
matInvPriority OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
batteryMode(1),
lineMode(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "Priority of 3.5K."
::= { matInvEntry 18 }
matConfInvOutputVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Rating Output voltage, the unit is 0.1 Volt."
::= { matInvEntry 19 }
matConfInvInputVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Rating Input voltage, the unit is 0.1 Volt."
::= { matInvEntry 20 }
matConfInvOutputVoltHighLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Output High Loss voltage, the unit is 0.1 Volt."
::= { matInvEntry 21 }
matConfInvOutputVoltLowLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Output Low loss voltage, the unit is 0.1 Volt."
::= { matInvEntry 22 }
matConfInvOutputPower OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Rating output power, the unit is VA."
::= { matInvEntry 23 }
matConfInvOutputFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "Rating output frequency, the unit is 0.1 Hz."
::= { matInvEntry 24 }
matInvPhaseType OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
singlePhase(1),
threePhase(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "Phase type."
::= { matInvEntry 25 }
matInvOnOffStatus OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
shutdown(1),
start(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION "Inverter module On/Off status."
::= { matInvEntry 26 }
-- ========================================================================
-- matSts
-- ========================================================================
matStsModuleNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "The number of STS modules."
::= { matSts 1 }
matStsTable OBJECT-TYPE
SYNTAX SEQUENCE OF MATStsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "This table list STS message."
::= { matSts 2 }
matStsEntry OBJECT-TYPE
SYNTAX MATStsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "An entry containing information applicable to a particular STS module."
INDEX { matStsModuleIndex }
::= { matStsTable 1 }
MATStsEntry::= SEQUENCE {
matStsModuleIndex PositiveInteger,
matStsModuleType DisplayString,
matStsSerialNum DisplayString,
matStsFirmwareVersion DisplayString,
matStsHardwareVersion DisplayString,
matStsWarningState DisplayString,
matStsMainInputVoltage NonNegativeInteger,
matStsMainInputFreq NonNegativeInteger,
matStsInvInputVoltage NonNegativeInteger,
matStsInvInputFreq NonNegativeInteger,
matStsOutputVoltage NonNegativeInteger,
matStsOutputCurrent NonNegativeInteger,
matStsOutputPower NonNegativeInteger,
matStsOutputFreq NonNegativeInteger,
matStsRuntime NonNegativeInteger,
matStsTemperature INTEGER,
matStsMbsStatus INTEGER,
matStsStatus INTEGER,
matStsRunningMode INTEGER,
matStsMainHighLossVoltage NonNegativeInteger,
matStsMainLowLossVoltage NonNegativeInteger,
matStsInvHighLossVoltage NonNegativeInteger,
matStsInvLosLossVoltage NonNegativeInteger
}
matStsModuleIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "The index of STS module."
::= { matStsEntry 1 }
matStsModuleType OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 3 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Module type, 050 represent 50A, 100 represent 100A."
::= { matStsEntry 2 }
matStsSerialNum OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 15 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Module serial number."
::= { matStsEntry 3 }
matStsFirmwareVersion OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 7 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Firmware version."
::= { matStsEntry 4 }
matStsHardwareVersion OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 7 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "Hardware version."
::= { matStsEntry 5 }
matStsWarningState OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 63 ) )
ACCESS read-only
STATUS mandatory
DESCRIPTION "The values indicate the unrestored traps.
For example,
if 'STS running in fault mode' and 'STS fan fault'
the agent send
the trap 59 and trap 61 to
NMS,
so the value of matConWarningState should be '59,61'.
And then the two events restored, the value of matConWarningState
should change to empty."
::= { matStsEntry 6 }
matStsMainInputVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Mains I/P voltage, the unit is 0.1 Volts."
::= { matStsEntry 7 }
matStsMainInputFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Mains I/P frequency, the unit is 0.1 Hz."
::= { matStsEntry 8 }
matStsInvInputVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS INV I/P voltage, the unit is 0.1 volts."
::= { matStsEntry 9 }
matStsInvInputFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS INV I/P frequency, the unit is 0.1 Hz."
::= { matStsEntry 10 }
matStsOutputVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS O/P voltage, the unit is 0.1 volts."
::= { matStsEntry 11 }
matStsOutputCurrent OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS O/P Current, the unit is 0.1 amp."
::= { matStsEntry 12 }
matStsOutputPower OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS O/P Power, the unit is VA."
::= { matStsEntry 13 }
matStsOutputFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS O/P frequency, the unit is 0.1 Hz."
::= { matStsEntry 14 }
matStsRuntime OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Runtime, the unit is Hour."
::= { matStsEntry 15 }
matStsTemperature OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS module's Temperature, the unit is 0.1 degree."
::= { matStsEntry 16 }
matStsMbsStatus OBJECT-TYPE
SYNTAX INTEGER {
-- QS: 0 1 2 3 4 5 6 other
-- matStsMbsStatus: 1 2 6(err) 3 4 6(err) 5 6(err)
normalPosition(1),
issPosition(2),
ibpPosition(3),
mssPosition(4),
mbpPosition(5),
mbsError(6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS MBS status."
::= { matStsEntry 17 }
matStsStatus OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
onLine(1),
offLine(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS status."
::= { matStsEntry 18 }
matStsRunningMode OBJECT-TYPE
SYNTAX INTEGER {
inverter(1),
mains(2),
noOutput(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Running Mode."
::= { matStsEntry 19 }
matStsMainHighLossVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Main high loss voltage, the unit is 0.1 volts."
::= { matStsEntry 20 }
matStsMainLowLossVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Main low loss voltag, the unit is 0.1 volts."
::= { matStsEntry 21 }
matStsInvHighLossVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Inverter high loss voltage, the unit is 0.1 volts."
::= { matStsEntry 22 }
matStsInvLosLossVoltage OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-only
STATUS mandatory
DESCRIPTION "STS Inverter low loss voltage, the unit is 0.1 volts."
::= { matStsEntry 23 }
-- ========================================================================
-- matDryContact
-- ========================================================================
matDryContactNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "The number of dry contact."
::= { matDryContact 1 }
matDryContactTable OBJECT-TYPE
SYNTAX SEQUENCE OF MATDryContactEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "This table list dry contact message."
::= { matDryContact 2 }
matDryContactEntry OBJECT-TYPE
SYNTAX MATDryContactEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "An entry containing information of one dry contact."
INDEX { matDryContactIndex }
::= { matDryContactTable 1 }
MATDryContactEntry::= SEQUENCE {
matDryContactIndex PositiveInteger,
matDryContactString DisplayString
}
matDryContactIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "The index of dry contact."
::= { matDryContactEntry 1 }
matDryContactString OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 29 ) )
ACCESS read-write
STATUS mandatory
DESCRIPTION "format: xx xx xx xx xx xx xx xx xx xx,
xx: alarm code. If the configured alarm is less than 10, then fill the position with '--' to instead 'xx'.
Alarm code:
Inverter fault 0x01(for 3.5Kva system and 1.5Kva system),
Inverter over load 0x02(for 3.5Kva system and 1.5Kva system),
Inverter fan fault 0x03(for 3.5Kva system and 1.5Kva system),
Inverter power limit 0x04(for 3.5Kva system and 1.5Kva system),
Inverter DC input Abnormal 0x05(for 3.5Kva system and 1.5Kva system),
Inverter low volt off 0x06(for 3.5Kva system and 1.5Kva system),
Inverter lost 0x07(for 3.5Kva system and 1.5Kva system),
Inverter Mains unavailable 0x19(for 3.5Kva system),
Inverter Maintenance Bypass 0x1A(for 3.5Kva system),
Inverter Output 0x1B(for 3.5Kva system),
STS Inv unavailable 0x2A(for 1.5Kva system),
STS Main unavailable 0x2B(for 1.5Kva system),
STS Output overload 0x2C(for 1.5Kva system),
STS OP Short circuit 0x2D(for 1.5Kva system),
STS K1 Relay open 0x23(for 1.5Kva system),
STS SCR1 short 0x24(for 1.5Kva system),
STS SCR2 short 0x25(for 1.5Kva system),
STS INV Bypass Mode 0x2F(for 1.5Kva system),
STS Over temperature 0x30(for 1.5Kva system),
STS MBS Abnormal 0x31(for 1.5Kva system),
STS Fan Lock 0x27(for 1.5Kva system),
STS Fault Mode 0x26(for 1.5Kva system),
STS Eeprom Fault 0x28(for 1.5Kva system),
SPS Power Fail 0x32(for 1.5Kva system),
STS Output abnormal 0x34(for 1.5Kva system),
STS Maintenance Bypass 0x35(for 1.5Kva system),
STS Output 0x36(for 1.5Kva system),
Controller temperature high 0x42(for 3.5Kva system and 1.5Kva system),
Controller eeprom fail 0x43(for 3.5Kva system and 1.5Kva system),
Controller CAN Bus Off 0x45(for 3.5Kva system and 1.5Kva system)"
::= { matDryContactEntry 2 }
-- ========================================================================
-- matConfig
-- ========================================================================
matConfInvSysOutputFreq OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Inverter system output frequency, can be 500 or 600, the unit is 0.1 Hz."
::= { matConfig 1 }
matConfInvSysOutputVolt OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Inverter system output voltage, can be 1100, 1150,1200,2080,2200,2300,2400.
The unit is 0.1 Volt."
::= { matConfig 2 }
matConfInvSysOutputVoltHighLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Output voltage high loss of Inverter System, the unit is 0.1 Volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
1100 1170-1270,
1150 1220-1320,
1200 1270-1380,
2080 2200-2400,
2200 2330-2520,
2300 2440-2640,
2400 2540-2760"
::= { matConfig 3 }
matConfInvSysOutputVoltLowLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Output Voltage Low Loss of inverter System, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
1100 890-1050,
1150 930-1100,
1200 1000-1140,
2080 1760-1980,
2200 1760-2090,
2300 1850-2180,
2400 1930-2280"
::= { matConfig 4 }
matConfInvSysInputVolt OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Inverter System Input Voltage, the unit is 0.1 Volt.
This value depends on matConfInvInputVoltage:
matConfInvInputVoltage(0.1V)=480: Range(400-440),
matConfInvInputVoltage(0.1V)=600: Range(500-550)"
::= { matConfig 5 }
matConfInvSysPowerLimit OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Inverter System Power Limited level, format: xxx, range: 50 to 100, the unit is percent."
::= { matConfig 6 }
matConfInvSysLineVoltHighLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "High loss for line voltage of 3.5k inverter module, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
2080 2180-2650,
2200 2300-2650,
2300 2400-2650,
2400 2500-2650"
::= { matConfig 7 }
matConfInvSysLineVoltLowLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "Low loss for line voltage of 3.5k inverter module, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
2080 1850-1980,
2200 1850-2100,
2300 1850-2200,
2400 1850-2300"
::= { matConfig 8 }
matConfInvSysPriority OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
batteryMode(1),
lineMode(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION "Priority for 3.5K inverter module."
::= { matConfig 9 }
matConfInvSysFanSpeed OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
normalSpeed(1),
fullSpeed(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION "Inverter System fan speed."
::= { matConfig 10 }
matConfStsAcVoltHighLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "STS Module AC Voltage High Loss Volt, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
1100 1170-1270,
1150 1220-1320,
1200 1270-1380,
2080 2200-2400,
2200 2330-2520,
2300 2440-2640,
2400 2540-2760"
::= { matConfig 11 }
matConfStsAcVoltLowLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "STS Module AC Voltage Low Loss Volt, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
1100 890-1050,
1150 930-1100,
1200 1000-1140,
2080 1760-1980,
2200 1760-2090,
2300 1850-2180,
2400 1930-2280"
::= { matConfig 12 }
matConfStsIpvVoltHighLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "STS module Inverter IPV High Loss Volt, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
1100 1170-1270,
1150 1220-1320,
1200 1270-1380,
2080 2200-2400,
2200 2330-2520,
2300 2440-2640,
2400 2540-2760"
::= { matConfig 13 }
matConfStsIpvVoltLowLoss OBJECT-TYPE
SYNTAX NonNegativeInteger
ACCESS read-write
STATUS mandatory
DESCRIPTION "STS module Inverter IPV low Loss Volt, the unit is 0.1 volt.
This value depends on matConfInvSysOutputVolt, the least significant
digit must be zero, see table:
matConfInvSysOutputVolt(0.1V) Range(0.1V)
1100 890-1050,
1150 930-1100,
1200 1000-1140,
2080 1760-1980,
2200 1760-2090,
2300 1850-2180,
2400 1930-2280"
::= { matConfig 14 }
matConfStsPriority OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
onLine(1),
offLine(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION "STS output priority."
::= { matConfig 15 }
matConfStsFanSpeed OBJECT-TYPE
SYNTAX INTEGER {
-- add 1 compare with Q1(0-1) command
normalSpeed(1),
fullSpeed(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION "STS fan speed."
::= { matConfig 16 }
--========================================================================
-- matTrapTargets
--========================================================================
matTrapTargetsNum OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION "The number of trap targets."
::= { matTrapTargets 1 }
matTrapTargetsTable OBJECT-TYPE
SYNTAX SEQUENCE OF MatTrapTargetsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "This table list the managers'IP to send traps to."
::= { matTrapTargets 2 }
matTrapTargetsEntry OBJECT-TYPE
SYNTAX MatTrapTargetsEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "An entry containing information of one trap target."
INDEX { matTrapTargetsIndex }
::= { matTrapTargetsTable 1 }
MatTrapTargetsEntry ::= SEQUENCE {
matTrapTargetsIndex PositiveInteger,
matTrapTargetsAddress DisplayString,
matTrapTargetsCommunity DisplayString,
matTrapType INTEGER,
matTrapSeverityLevel INTEGER,
matTrapTargetsDesc DisplayString
}
matTrapTargetsIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS mandatory
DESCRIPTION "The index to a trap receiver entry"
::= { matTrapTargetsEntry 1 }
matTrapTargetsAddress OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 45 ) )
ACCESS read-write
STATUS mandatory
DESCRIPTION "The IP address of the manager to send a trap to."
::= { matTrapTargetsEntry 2 }
matTrapTargetsCommunity OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 31 ) )
ACCESS read-write
STATUS mandatory
DESCRIPTION "The community name to use in the trap when
sent to the manager."
::= { matTrapTargetsEntry 3 }
matTrapType OBJECT-TYPE
SYNTAX INTEGER { none ( 1 ) , matTrap ( 2 ) }
ACCESS read-write
STATUS mandatory
DESCRIPTION "The type of trap to be received by the manager."
::= { matTrapTargetsEntry 4 }
matTrapSeverityLevel OBJECT-TYPE
SYNTAX INTEGER { observe ( 1 ) , major ( 2 ) , critical ( 3 ) }
ACCESS read-write
STATUS mandatory
DESCRIPTION "The severity level of traps to be received by this manager."
::= { matTrapTargetsEntry 5 }
matTrapTargetsDesc OBJECT-TYPE
SYNTAX DisplayString ( SIZE ( 0 .. 31 ) )
ACCESS read-write
STATUS mandatory
DESCRIPTION "Description of trap receivers"
::= { matTrapTargetsEntry 6 }
-- ===========================================================================
-- matTraps
-- Level: Critical, Major, Observe
-- ===========================================================================
matInvFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter fault."
::= 1
matReturnFromInvFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter fault."
::= 2
matInvOverLoad TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter Over-loading."
::= 3
matReturnFromInvOverLoad TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Over-loading."
::= 4
matInvFanFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter Fan fault."
::= 5
matReturnFromInvFanFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Fan fault."
::= 6
matInvTempPowerLimit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter power limit."
::= 7
matReturnFromInvTempPowerLimit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter power limit."
::= 8
matInvInputAbnormal TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter input abnormal."
::= 9
matReturnFromInvInputAbnormal TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVEReturn from Inverter input abnormal."
::= 10
matInvLowInputShutdown TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter shut down due to low input voltage."
::= 11
matReturnFromInvLowInputShutdown TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter shut down due to low input voltage."
::= 12
matInvNotRespond TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter disconnected."
::= 13
matReturnFromInvNotRespond TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Inverter connected."
::= 14
matInvBusVoltageOverLimit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Bus voltage over the maximal level."
::= 15
matReturnFromInvBusVoltOverLimit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Bus voltage over the maximal level."
::= 16
matInvBusVoltageUnderLimit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Bus volt under the minimal level."
::= 17
matReturnFromInvBusVoltUnderLimit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Bus volt under the minimal level."
::= 18
matInvBusSoftFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Bus Soft Start Fail."
::= 19
matReturnFromInvBusSoftFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Bus Soft Start Fail."
::= 20
matInvOutputShort TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Output Short."
::= 21
matReturnFromInvOutputShort TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Output Short."
::= 22
matInvOutputVoltLow TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter output voltage low."
::= 23
matReturnFromInvOutputVoltLow TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter output voltage low."
::= 24
matInvOutputVoltHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter output voltage high."
::= 25
matReturnFromInvOutputVoltHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter output voltage high."
::= 26
matInvTemperatureHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Temperature High."
::= 27
matReturnFromInvTemperatureHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Temperature High."
::= 28
matInvNegativePowerProtect TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter negative power protection."
::= 29
matReturnFromInvNegativePowerProtect TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter negative power protection."
::= 30
matInvPulseFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Sync Pulse Fault."
::= 31
matReturnFromInvPulseFault TRAP-TYPE
ENTERPRISE matTraps
DESCRIPTION "OBSERVE: Return from Inverter Sync Pulse Fault."
::= 32
matInvEPOShutdown TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter EPO shutdown."
::= 33
matReturnFromInvEPOShutdown TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter EPO shutdown."
::= 34
matInvSoftStartFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter soft start fail."
::= 35
matReturnFromInvSoftStartFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter soft start fail."
::= 36
matInvEEPROMFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter EEPROM fault."
::= 37
matReturnFromInvEEPROMFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter EEPROM fault."
::= 38
matInvBypassSCRShort TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Bypass SCR Short."
::= 39
matReturnFromInvBypassSCRShort TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Bypass SCR Short."
::= 40
matInvMBSPosError TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter MBS Position Error."
::= 41
matReturnFromInvMBSPosError TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter MBS Position Error."
::= 42
matInvBackfeedRelayOpen TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Backfeed Relay Open."
::= 43
matReturnFromInvBackfeedRelayOpen TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Backfeed Relay Open."
::= 44
matInvHardwareError TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "CRITICAL: Inverter Hardware Detection Error."
::= 45
matReturnFromInvHardwareError TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Hardware Detection Error."
::= 46
matInvMainUnavailable TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter Mains Unavailable."
::= 47
matReturnFromInvMainUnavailable TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Mains Unavailable."
::= 48
matInvMaintenaceBypass TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "MAJOR: Inverter Maintenance Bypass."
::= 49
matReturnFromInvMaintenaceBypass TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matInvSerialNum
}
DESCRIPTION "OBSERVE: Return from Inverter Maintenance Bypass."
::= 50
-- STS trap
matStsBypassUnavailable TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Bypass unavailable."
::= 51
matReturnFromStsBypassUnavailable TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Bypass unavailable."
::= 52
matStsBackfeedRelayOpen TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Back-feed relay open."
::= 53
matReturnFromStsBackfeedRelayOpen TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Back-feed relay open."
::= 54
matStsScr1ShortCurcuit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS SCR1 short circuit."
::= 55
matReturnFromStsScr1ShortCurcuit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS SCR1 short circuit."
::= 56
matStsScr2ShortCurcuit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS SCR2 short circuit."
::= 57
matReturnFromStsScr2ShortCurcuit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS SCR2 short circuit."
::= 58
matStsFaultMode TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS running in fault mode."
::= 59
matReturnFromStsFaultMode TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS running in fault mode."
::= 60
matStsFanFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS fan fault."
::= 61
matReturnFromStsFanFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS fan fault."
::= 62
matStsEEPROMFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS EEPROM fault."
::= 63
matReturnFromStsEEPROMFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS EEPROM fault."
::= 64
matStsInvFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Inverter unavailable."
::= 65
matReturnFromStsInvFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Inverter unavailable."
::= 66
matStsMainsFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Mains unavailable."
::= 67
matReturnFromStsMainFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Mains unavailable."
::= 68
matStsOverLoad TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Output over load."
::= 69
matReturnFromStsOverLoad TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Output over load."
::= 70
matStsOutputShortCircuit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS Output short circuit."
::= 71
matReturnFromStsOutputShortCircuit TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Output short circuit."
::= 72
matStsInvBypassMode TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS Inverter bypass mode."
::= 73
matReturnFromStsInvBypassMode TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Inverter bypass mode."
::= 74
matStsTemperatureHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS temperature high."
::= 75
matReturnFromStsTemperatureHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS temperature high."
::= 76
matStsMBSPosFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS MBS in abnormal position."
::= 77
matReturnFromStsMBSPosFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS MBS in abnormal position."
::= 78
matStsControlPowerFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS Control power fail."
::= 79
matReturnFromStsControlPowerFail TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Control power fail."
::= 80
matStsNotRespond TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "CRITICAL: STS disconnected."
::= 81
matReturnFromStsNotRespond TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: STS connected."
::= 82
matStsOutputAbnormal TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Output abnormal."
::= 83
matReturnFromStsOutputAbnormal TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Output abnormal."
::= 84
matStsMaintenanceBypass TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "MAJOR: STS Maintenance Bypass."
::= 85
matReturnFromStsMaintenanceBypass TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matStsSerialNum
}
DESCRIPTION "OBSERVE: Return from STS Maintenance Bypass."
::= 86
-- control warning
matConBatteryLow TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "CRITICAL: Controller Battery Low."
::= 87
matReturnFromConBatteryLow TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "OBSERVE: Return from Controller Battery Low."
::= 88
matConTemperatureHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "CRITICAL: Controller temperature High."
::= 89
matReturnFromConTemperatureHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "OBSERVE: Return from Controller temperature High."
::= 90
matConEEPROMFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "MAJOR: Controller EEPROM fault."
::= 91
matReturnFromConEEPROMFault TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "OBSERVE: Return from Controller EEPROM fault."
::= 92
matConBatteryVoltHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "CRITICAL: Controller Battery voltage high."
::= 93
matReturnFromConBatteryVoltHigh TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "OBSERVE: Return from Controller Battery voltage high."
::= 94
matConCanBusOff TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "CRITICAL: Controller CAN bus off."
::= 95
matReturnFromConCanBusOff TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "OBSERVE: Return from Controller CAN bus off."
::= 96
matConCommunicationLost TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "CRITICAL: Controller communication lost."
::= 97
matReturnFromCommunicationLost TRAP-TYPE
ENTERPRISE matTraps
VARIABLES {
matConSerialNum
}
DESCRIPTION "OBSERVE: Return from Controller communication lost."
::= 98
END