HUAWEI-ENVIRONMENT-MIB: View SNMP OID List / Download MIB

The MIB module defines MIB objects which include Environment Monitor Unit, Analog Environment data, Digital Environment data, Out data and Fan data Monitor management MIB interfaces.

Information table of Environment Monitor Unit. The Environment Monitor Unit is some kind of Environment monitoring device and is used to monitor many kinds of Environment data. The maximum number of Environment Monitor Units in one device node is 64. The index of this table is hwEnvEmuIndex. hwEnvEmuIndex is the index of one Environment Monitor Unit.

Information table of Environment Monitor Unit. The Environment Monitor Unit is some kind of Environment monitoring device and is used to monitor many kinds of Environment data. The maximum number of Environment Monitor Units in one device node is 64. The index of this entry is hwEnvEmuIndex. hwEnvEmuIndex is the index of one Environment Monitor Unit.

hwEnvEmuIndex is the index of the Environment monitoring unit, used as the index of hwEnvironmentInfoTable. Range: 0 - 2048

Type of the physical monitoring devices associated with the environment monitoring unit. Options: 1.h302ESC(1) -Type of the physical monitoring devices is H302ESC 2.h303ESC(2) -Type of the physical monitoring devices is H303ESC 3.h4875(3) -Type of the physical monitoring devices is 4875 power monitoring frame 4.h301ESC(4) -Type of the physical monitoring devices is H301ESC 5.switch(5) -Distribute monitoring frame 6.fanEscFrame(6) -ESC monitoring fan frame 7.fanFrame(7) -monitoring fan frame 8.h4845(8) -4845 power monitoring 9.fanFCBFrame(9) -FCB monitoring fan frame 10.fanFDMUFrame(10) -FDMU monitoring fan frame 11.h304ESC(11) -provides the management function of battery 12.pwma(12) -Type of the physical monitoring devices is pwma 13.h561esc(13) -H561ESC 14.h801esc(14) -H801Esc 15.h612pwbp(15) -H612pwbp 16.pse158(16) -pse158 17.h4805(19) -h4805 18.pdu(20) -pdu 19.acrmu(21) -ac_rmu 20.acfan(22) -ac_fan 21.dcfan(23) -dc_fan 22.rmun1509(24) -rmun1509 23.onps150(25) -onps150 24.h801pmix(26) -h801pmix 25.h4875L(27) -h4875L 26.miniESC(28) -miniESC 27.h831VESC(29) -H831VESC 28.h601VESC(30) -H601VESC 29.h4830L(31) -h4830L 30.h801citx(32) -h801citx 31.h801citd(33) -h801citd 32.h831ccuh(34) -h831ccuh 33.h831pmu(35) -h831pmu 34.pwr3000(36) -a type of power named power 3000, supports 12 rectifier modules 35.tcu(37) -tcu 36.liFeBattery(38) -liFeBattery 37.transemu(39) -a type of emu for transport environment information to managment center 38.smu(40) -site monitoring unit 39.vpea(41) -vector monitoring unit 40.h801VESC(42) -H801VESC 41.h801PMU(44) -H801PMU 42.other(255) -other Enumeration: 'acrm': 21, 'dcfan': 23, 'h831ccuh': 34, 'tc': 37, 'h801pmix': 26, 'h4845': 8, 'leadAcidBattery': 43, 'h801PMU': 44, 'fanFDMUFrame': 10, 'h4805': 19, 'fanEscFrame': 6, 'pse158': 16, 'h801VESC': 42, 'h561esc': 13, 'h801esc': 14, 'h304ESC': 11, 'h831pm': 35, 'other': 255, 'fanFrame': 7, 'transem': 39, 'h801citd': 33, 'h4830L': 31, 'h302ESC': 1, 'h301ESC': 4, 'onps150': 25, 'h303ESC': 2, 'rmun1509': 24, 'acfan': 22, 'pwr3000': 36, 'h601VESC': 30, 'h4875': 3, 'vpea': 41, 'h801citx': 32, 'h4875L': 27, 'fanFCBFrame': 9, 'miniESC': 28, 'liFeBattery': 38, 'pd': 20, 'pwma': 12, 'h831VESC': 29, 'switch': 5, 'h612pwbp': 15, 'sm': 40.

Name of the environment monitoring unit.

Status of the communication between the environment monitoring unit and the device. The environmental condition can be tested only when the communication is normal. Options: 1.normal(1) - indicates that communication state is normal 2.shutdown(2) - indicates that communication state is shutdown 3.fault(3) - indicates that communication state is fault 4.abnormal(4) - indicates that communication state is abnormal 5.config(5) - indicates that communication state is config Enumeration: 'fault': 3, 'config': 5, 'abnormal': 4, 'shutdown': 2, 'normal': 1.

RowStatus standard operation. The creation and deletion operations are supported currently.

Version information of the environment monitoring unit.

ID of the shelf housing the environment monitoring unit.

The management status of the monitoring unit. Options: 1.noOperation(1) -no any operation 2.reset(2) -reset the monitoring board 3.manage(3) -manage the monitoring unit 4.unmanage(4) -undo manage the monitoring unit 5.clearsmokealarm(5) -clear the smoke alarm for miniEsc Enumeration: 'reset': 2, 'manage': 3, 'unmanage': 4, 'clearsmokealarm': 5, 'noOperation': 1.

ID of the slave object that the environment monitoring unit belongs to. The environment monitoring unit uses the slave object ID to communicate with the upstream equipment.

The serial communication protocol type between the monitoring unit and the upstream equipment. The protocol types used are as follows: Options: 1.unknown(1) -The protocol types is unknown 2.serialRS485(2) -The protocol types is serialRS485 3.serialRS232(3) -The protocol types is serialRS232 4.serialRS422(4) -The protocol types is serialRS422 Enumeration: 'serialRS232': 3, 'unknown': 1, 'serialRS422': 4, 'serialRS485': 2.

Environment CLEI Code.

Power of the environment monitoring equipment associated with the environment monitoring unit. Unit: Watt.

Name of the environment type.

Information table of the analog parameters monitored. The indexes of this table are hwEnvEmuIndex or hwAnaChannelIndex. hwEnvEmuIndex is the index of the environment monitoring unit, and hwAnaChannelIndex is the index of the analog parameter that is monitored by a monitoring unit.

Information table of the analog parameters monitored. The indexes of this entry are hwEnvEmuIndex or hwAnaChannelIndex. hwEnvEmuIndex is the index of the environment monitoring unit, and hwAnaChannelIndex is the index of the analog parameter that is monitored by a monitoring unit.

Index of the analog parameter that is monitored by the monitoring unit. Range: 0 - 255

Name of the analog parameter that is monitored by a monitoring unit.

This object indicates the type of the sensor that is used to test the Analog parameter. Options: 1.invalid(-1) -there is no valid sensor 2.voltage(1) -voltage sensor currently 3.current(2) -current sensor currently Enumeration: 'current': 2, 'voltage': 1, 'invalid': -1.

This object indicates the unit of the analog parameter that is tested.

High limit of the analog normal work

Low limit of the analog normal work

High limit of the analog alarm. The alarm is produced when the measurement value is higher than this value

The low limit of the analog alarm. The alarm is produced when the measurement value is lower than this value.

The actual measurement value of the present analog. Unit: milli

The status of the present monitored. Options: 1.normal(1) -indicates that the measurement value is lower than the set high limit of the alarm, and higher than the low limit 2.overWorkHigh(2) -indicates that the measurement value is higher than the high limit of the alarm 3.belowWorkLow(3) -indicates that the measurement value is lower than the low limit of the alarm 4.abnormal(4) -indicates that the measurement value is outside the scope of limit of the alarm 5.invalid(-1) -indicates that the device can not get the value, e.g. the EMU does not support this operation, or the EMU state is abnormal Enumeration: 'belowWorkLow': 3, 'abnormal': 4, 'overWorkHigh': 2, 'invalid': -1, 'normal': 1.

RowStatus standard operation. The values 1 and 2 are supported currently. 1 indicates the activation status, and 2 indicates the non-activation status.

Analog alarm definition. Options: 1.temperature(1) -temperature alarm 2.humidity(2) -humidity alarm 3.voltage(3) -voltage alarm 4.current(4) -current alarm 5.userDefinedAlarm0(100) -analog user-defined alarm 0 6.userDefinedAlarm1(101) -analog user-defined alarm 1 7.userDefinedAlarm2(102) -analog user-defined alarm 2 8.userDefinedAlarm3(103) -analog user-defined alarm 3 9.userDefinedAlarm4(104) -analog user-defined alarm 4 10.userDefinedAlarm5(105) -analog user-defined alarm 5 11.userDefinedAlarm6(106) -analog user-defined alarm 6 12.userDefinedAlarm7(107) -analog user-defined alarm 7 13.userDefinedAlarm8(108) -analog user-defined alarm 8 14.userDefinedAlarm9(109) -analog user-defined alarm 9 15.userDefinedAlarm10(110) -analog user-defined alarm 10 16.userDefinedAlarm11(111) -analog user-defined alarm 11 17.userDefinedAlarm12(112) -analog user-defined alarm 12 18.userDefinedAlarm13(113) -analog user-defined alarm 13 19.userDefinedAlarm14(114) -analog user-defined alarm 14 20.userDefinedAlarm15(115) -analog user-defined alarm 15 21.default(65535) -default analog alarm Enumeration: 'userDefinedAlarm8': 108, 'userDefinedAlarm11': 111, 'temperature': 1, 'userDefinedAlarm13': 113, 'default': 65535, 'userDefinedAlarm12': 112, 'userDefinedAlarm15': 115, 'humidity': 2, 'current': 4, 'userDefinedAlarm9': 109, 'userDefinedAlarm14': 114, 'voltage': 3, 'userDefinedAlarm10': 110, 'userDefinedAlarm0': 100, 'userDefinedAlarm1': 101, 'userDefinedAlarm2': 102, 'userDefinedAlarm3': 103, 'userDefinedAlarm4': 104, 'userDefinedAlarm5': 105, 'userDefinedAlarm6': 106, 'userDefinedAlarm7': 107.

Information table of the digital parameters monitored. The indexes of this table are hwEnvEmuIndex and hwDigChannelIndex. hwEnvEmuIndex is the index of the environment monitoring unit, and hwDigChannelIndex is the index of the digital parameter that is monitored by a monitoring unit.

Information table of the digital parameters monitored. The indexes of this entry are hwEnvEmuIndex and hwDigChannelIndex. hwEnvEmuIndex is the index of the environment monitoring unit, and hwDigChannelIndex is the index of the digital parameter that is monitored by a monitoring unit.

Index of the digital parameter that is monitored by a monitoring unit. Range: 0 - 255

Name of the digital parameter that is monitored by a monitoring unit.

Alarm conditions. Options: 1.lowLevelAlarm(1) -refers to the alarm produced when the digital sensor detects the low level 2.highLevelAlarm(2) -refers to the alarm produced when the digital sensor detects the high level 3.invalid(-1) -indicates that the device can not get the value, e.g. the EMU does not support this operation, or the EMU state is abnormal Enumeration: 'lowLevelAlarm': 1, 'highLevelAlarm': 2, 'invalid': -1.

The status of the present monitored digital sensor Options: 1.normal(1) -indicates that the digital sensor works normally 2.alarm(2) -indicates that the digital sensor produces the alarm signal 3.invalid(-1) -indicates that the device can not get the value, e.g. the EMU does not support this operation, or the EMU state is abnormal Enumeration: 'alarm': 2, 'invalid': -1, 'normal': 1.

RowStatus standard operation. The values 1 and 2 are supported currently. 1 indicates the activation status, and 2 indicates the non-activation status.

Digital alarm definition. Options: 1.acvoltage(1) -ac voltage alarm 2.acswitch(2) -ac switch alarm 3.batteryvoltage(3) -battery voltage alarm 4.batteryfuse(4) -battery fuse alarm 5.loadfuse(5) -load fuse alarm 6.rectifier(6) -rectifier alarm 7.dcpower(7) -dc power alarm 8.cupboarddoor(8) -cupboard alarm 9.roomdoor(9) -room door alarm 10.window(10) -window alarm 11.thief(11) -thief alarm 12.wiring(12) -wiring alarm 13.fan(13) -fan alarm 14.fire(14) -fire alarm 15.fog(15) -fog alarm 16.water(16) -water alarm 17.diesel(17) -diesel alarm 18.smell(18) -smell alarm 19.aircondition(19) -air-condition alarm 20.arrester(20) -arrester alarm 21.dcvoltage(21) -dc voltage 22.outputswitch(22) -output swith 23.hard-fault(23) -hard-fault 24.userDefinedAlarm0(100) -digital user-defined alarm 0 25.userDefinedAlarm1(101) -digital user-defined alarm 1 26.userDefinedAlarm2(102) -digital user-defined alarm 2 27.userDefinedAlarm3(103) -digital user-defined alarm 3 28.userDefinedAlarm4(104) -digital user-defined alarm 4 29.userDefinedAlarm5(105) -digital user-defined alarm 5 30.userDefinedAlarm6(106) -digital user-defined alarm 6 31.userDefinedAlarm7(107) -digital user-defined alarm 7 32.userDefinedAlarm8(108) -digital user-defined alarm 8 33.userDefinedAlarm9(109) -digital user-defined alarm 9 34.userDefinedAlarm10(110) -digital user-defined alarm 10 35.userDefinedAlarm11(111) -digital user-defined alarm 11 36.userDefinedAlarm12(112) -digital user-defined alarm 12 37.userDefinedAlarm13(113) -digital user-defined alarm 13 38.userDefinedAlarm14(114) -digital user-defined alarm 14 39.userDefinedAlarm15(115) -digital user-defined alarm 15 40.userDefinedAlarm16(116) -digital user-defined alarm 16 41.userDefinedAlarm17(117) -digital user-defined alarm 17 42.userDefinedAlarm18(118) -digital user-defined alarm 18 43.userDefinedAlarm19(119) -digital user-defined alarm 19 44.userDefinedAlarm20(120) -digital user-defined alarm 20 45.userDefinedAlarm21(121) -digital user-defined alarm 21 46.userDefinedAlarm22(122) -digital user-defined alarm 22 47.userDefinedAlarm23(123) -digital user-defined alarm 23 48.userDefinedAlarm24(124) -digital user-defined alarm 24 49.userDefinedAlarm25(125) -digital user-defined alarm 25 50.userDefinedAlarm26(126) -digital user-defined alarm 26 51.userDefinedAlarm27(127) -digital user-defined alarm 27 52.userDefinedAlarm28(128) -digital user-defined alarm 28 53.userDefinedAlarm29(129) -digital user-defined alarm 29 54.userDefinedAlarm30(130) -digital user-defined alarm 30 55.userDefinedAlarm31(131) -digital user-defined alarm 31 56.default(65535) -digital alarm Enumeration: 'userDefinedAlarm23': 123, 'userDefinedAlarm22': 122, 'userDefinedAlarm21': 121, 'userDefinedAlarm20': 120, 'userDefinedAlarm27': 127, 'userDefinedAlarm26': 126, 'userDefinedAlarm25': 125, 'userDefinedAlarm24': 124, 'wiring': 12, 'userDefinedAlarm29': 129, 'userDefinedAlarm28': 128, 'thief': 11, 'userDefinedAlarm0': 100, 'userDefinedAlarm10': 110, 'acvoltage': 1, 'batteryvoltage': 3, 'loadfuse': 5, 'hard-fault': 23, 'diesel': 17, 'userDefinedAlarm5': 105, 'window': 10, 'fog': 15, 'userDefinedAlarm15': 115, 'userDefinedAlarm30': 130, 'smell': 18, 'batteryfuse': 4, 'rectifier': 6, 'fire': 14, 'water': 16, 'userDefinedAlarm9': 109, 'fan': 13, 'userDefinedAlarm13': 113, 'cupboarddoor': 8, 'userDefinedAlarm1': 101, 'userDefinedAlarm2': 102, 'userDefinedAlarm3': 103, 'userDefinedAlarm4': 104, 'dcpower': 7, 'userDefinedAlarm6': 106, 'userDefinedAlarm7': 107, 'userDefinedAlarm8': 108, 'dcvoltage': 21, 'default': 65535, 'userDefinedAlarm16': 116, 'userDefinedAlarm31': 131, 'userDefinedAlarm18': 118, 'userDefinedAlarm19': 119, 'aircondition': 19, 'userDefinedAlarm12': 112, 'roomdoor': 9, 'arrester': 20, 'userDefinedAlarm11': 111, 'acswitch': 2, 'userDefinedAlarm17': 117, 'userDefinedAlarm14': 114, 'outputswitch': 22.

Monitored digital out table. This table indicates information about whether digital parameter is monitored. The indexes of this table are hwEnvEmuIndex and hwControlOutIndex. hwEnvEmuIndex is the index of the monitoring unit, and hwControlOutIndex is the index of the digital out table monitored in the monitoring unit.

Monitored digital out table. This table indicates information about whether digital parameter is monitored. The indexes of this entry are hwEnvEmuIndex and hwControlOutIndex. hwEnvEmuIndex is the index of the monitoring unit, and hwControlOutIndex is the index of the digital out table monitored in the monitoring unit.

Index of the digital out table monitored in the monitoring unit Range: 0 - 255

Name of the monitored digital out table

Control Out administration: executes the on/off operation. Options: 1. on(1) - trun on 2. off(2) - trun off Enumeration: 'on': 1, 'off': 2.

RowStatus standard operation. The values 1 and 2 are supported currently. 1 indicates the activation status, and 2 indicates the non-activation status.

Information table of fan monitoring. The index of this table is hwEnvEmuIndex that comes from hwEnvironmentInfoTable. hwEnvEmuIndex is the index of the monitoring unit whose monitoring type is fan.

Information table of fan monitoring. The index of this entry is hwEnvEmuIndex that comes from hwEnvironmentInfoTable. hwEnvEmuIndex is the index of the monitoring unit whose monitoring type is fan.

Fan name

The fan control modes of the fan frame. Options: 1.manual(1) -indicates that the fan is always on, and the fan speed can be manually adjusted 2.emuAuto(2) -indicates that the fan is in the automatic mode, and can be automatically controlled depending on the temperature of the fan 3.fixed(3) -indicates that the fan is in the fixed mode, and adjusting its speed is not allowed 4.mainboardAuto(4) -indicates that the fan is in the automatic mode, and can be automatically controlled depending on the temperature of the boards in the frame Enumeration: 'emuAuto': 2, 'fixed': 3, 'manual': 1, 'mainboardAuto': 4.

For ESC fan, all should be checked to turn on the fan, while all should not be checked to turn off the fan. Options: 1.fan1(0) -indicates that the first fan needs to be opened 2.fan2(1) -indicates that the second fan needs to be opened 3.fan3(2) -indicates that the third fan needs to be opened 4.fan4(3) -indicates that the fourth fan needs to be opened 5.fan5(4) -indicates that the fifth fan needs to be opened 6.fan6(5) -indicates that the sixth fan needs to be opened Bits: 'fan1': 0, 'fan3': 2, 'fan2': 1, 'fan5': 4, 'fan4': 3, 'fan6': 5.

The fan temperature set, in unit of centigrade. The MIB object only functions for the fan monitoring board of ESC and is not applicable to the type of fan monitoring board. Only when the fan control mode of the fan frame is hwFanControl =auto (3), the temperature control mode will take effect. When detecting the environment temperature higher than the set value, the fan will be on (or increase its rotation).

The fan temperature set, in unit of centigrade. The MIB object only functions for the fan monitoring board of ESC and is not applicable to the type of fan monitoring board. Only when the fan control mode of the fan frame is hwFanControl =auto (3), the temperature control mode will take effect. When detecting the environment temperature is lower than the set value, the fan will be turned off (decrease its rotation).

RowStatus standard operation.

The present temperature value, in unit of cent-centigrade

The adjusting rotation mode of the fan. Options: 1.continue(1) -continuous control 2.discontinue(2) -discrete control 3.percent(3) -duty ratio control 4.invalid(-1) -indicates that the device can not get the value, e.g. the EMU does not support this operation, or the EMU state is abnormal Enumeration: 'percent': 3, 'continue': 1, 'discontinue': 2, 'invalid': -1.

When hwFanSpeedMode is the continue mode, 0 indicates the present wind speed +1, while 1 indicates the present wind speed -1. When hwFanSpeedMode is discontinuous, 0 indicates fixed high speed, while 1 indicates fixed low speed. When hwFanSpeedMode is percent, the value delivered by the main control is the percent value, ranging from 35 to 100, used to initialize the rotation of fan for various device main controls. invalid(-1) indicates that the fan tray does not work normally. For example, the fan tray is disconnected from the control board, or some of the fans in the fan tray are blocked.

Fan Type Description. The values 1 and 2 are supported currently. 1 indicates the activation status, and 2 indicates the non-activation status.

Information table of temperature control unit. The index of this table is hwEnvEmuIndex that comes from hwEnvironmentInfoTable. hwEnvEmuIndex is the index of the monitoring unit whose monitoring type is temperature control unit.

Information table of temperature control unit. The index of this entry is hwEnvEmuIndex that comes from hwEnvironmentInfoTable. hwEnvEmuIndex is the index of the monitoring unit whose monitoring type is temperature control unit.

Heat Exchanger Type Description.

The rev of Heat Exchanger outer fan, in unit of RMP (rotate per minite)

The rev of Heat Exchanger inner fan, in unit of RMP (rotate per minite)

The temperature of Heat Exchanger starts to heat up, in unit of Celsius

The temperature of Heat Exchanger stops heating, in unit of Celsius

Information table of optical receiver unit. The index of this table is hwFrameIndex that comes from hwFrameTable. hwFrameIndex is the index of the optical receiver unit whose optical receiver type is optical receiver unit.

Information table of optical receiver unit. interface optical receiver config mode.

The state of Optical receiver The Optical receiver can be used only when it is online. Options: 1.online(1) - indicates that Optical state is online 2.offline(2) - indicates that Optical state is offline Enumeration: 'offline': 2, 'online': 1.

The model number of Optical receiver

The hard version of Optical receiver

The software version of Optical receiver

The product date of Optical receiver field octets contents range ----- ------ -------- ----- 1 1-2 year 0..65536 2 3 month 1..12 3 4 day 1..31

The optical power value of Optical receiver Its unit is dbm,its real accuracy is 0.01. SNMP uses it which has been enlarged 100 by host. user uses it which has been lessened 100 by SNMP.

The optical power alarm state of Optical receiver The Optical receiver can be used only when it is normal. Options: 1.normal(1) - indicates that Optical power alarm state is normal 2.low(2) - indicates that Optical power alarm state is low 3.high(3) - indicates that Optical power alarm state is high Enumeration: 'high': 3, 'low': 2, 'normal': 1.

The optical power low threshold of Optical receiver Its unit is dbm,its real accuracy is 0.01. SNMP uses it which has been enlarged 100 by host. user uses it which has been lessened 100 by SNMP. Its real range is -10dbm~3dbm,mib range is -1000dbm~300dbm.

The optical power high threshold of Optical receiver Its unit is dbm,its real accuracy is 0.01. SNMP uses it which has been enlarged 100 by host. user uses it which has been lessened 100 by SNMP. Its real range is -10dbm~3dbm,mib range is -1000dbm~300dbm.

The optical AGC start of Optical receiver Its unit is dBm,its real range is -4dBm~3dBm.

The RF power value of Optical receiver Its unit is dBuV,its real accuracy is 0.1. SNMP uses it which has been enlarged 10 by host. user uses it which has been lessened 10 by SNMP.

The RF power alarm state of Optical receiver The Optical receiver can be used only when it is normal. Options: 1.normal(1) - indicates that RF power alarm state is normal 2.low(2) - indicates that RF power alarm state is low 3.high(3) - indicates that RF power alarm state is high Enumeration: 'high': 3, 'low': 2, 'normal': 1.

The RF power low threshold of Optical receiver Its unit is dBuV,its real accuracy is 0.1. SNMP uses it which has been enlarged 10 by host. user uses it which has been lessened 10 by SNMP. Its real range is 85dBuV~130dBuV,mib range is 850dBuV~1300dBuV.

The RF power high threshold of Optical receiver Its unit is dBuV,its real accuracy is 0.1. SNMP uses it which has been enlarged 10 by host. user uses it which has been lessened 10 by SNMP. Its real range is 85dBuV~130dBuV,mib range is 850dBuV~1300dBuV.

The RF ATT value of Optical receiver Its unit is db. Its range is 0db~20db.

The RF switch of Optical receiver The Optical receiver can be used only when it is on. Options: 1.off(1) - indicates that RF Switch state is off 2.on(2) - indicates that RF Switch state is on Enumeration: 'on': 2, 'off': 1.

The barcode of Optical receiver

The current input voltage of Optical receiver. Its unit is V,its real accuracy is 0.1. SNMP uses it which has been enlarged 10 by host. user uses it which has been lessened 10 by SNMP. +5V is positive voltage.

The current input voltage of Optical receiver. Its unit is V,its real accuracy is 0.1. SNMP uses it which has been enlarged 10 by host. user uses it which has been lessened 10 by SNMP. +24V is positive voltage.

Start value of the AGC range for optical paths of Optical receiver.

The communication alarm of environment monitoring board, reporting the environment monitoring unit ID. This trap message is reported when the communication between the emu and control board is fault.

The communication alarm recovery of the environment monitoring, reporting the environment monitoring unit ID. This trap message is reported when the communication between the emu and control board resumes.

The alarm recovery of the analog exception, reporting the environment monitoring unit ID. This trap message is reported when there is an analog exception in emu.

The alarm recovery of the analog exception, reporting the environment monitoring unit ID. This trap message is reported when the analog exception recovery in emu.

The alarm of too high an analog, reporting the environment monitoring unit ID and the channel ID of the analog sensor. This trap message is reported when an analog value is too high.

The alarm of too high analog resume, reporting the environment monitoring unit ID. This trap message is reported when an analog value returns to normal range from the high value.

The alarm of too low an analog, reporting the environment monitoring unit ID and the channel ID of the analog sensor. This trap message is reported when an analog value is too low.

The alarm of too low an analog, reporting the environment monitoring unit ID. This trap message is reported when an analog value returns to normal range from the low value.

The control alarm, reporting the environment monitoring unit ID. This trap message is reported when emu control operation fails.

The control alarm, reporting the environment monitoring unit ID. This trap message is reported when emu control operation resumes.

The digital measure alarm, reporting the environment monitoring unit ID and the channel ID of the digital sensor. This trap message is reported when emu measure operation fails.

The digital measure alarm recovery, reporting the environment monitoring unit ID and the channel ID of the digital sensor. This trap message is reported when emu measure operation resumes.

Fan nonexistance alarm. This trap message is reported when there is no fan device connected to control board.

Fan nonexistance alarm recovery. This trap message is reported when there is a fan device connected to control board.

Fan running status alarm. This trap message is reported when the fan run state gets abnormal.

The agent generates this trap when a new EMU autofind.

The agent generates this trap when the communication of the EMU with the host is abnormal.

The agent generates this trap when the communication of the EMU with the host recovers.

The agent generates this trap when the a Hardware exception occurs.

The agent generates this trap when the a Hardware exception Recover

The agent generates this trap when the emu autofind fail.

The agent generates this trap when the fan is not configured or fails.

The agent generates this trap when the communication of the OpticalReceiver with the host is abnormal.

The agent generates this trap when the communication of the OpticalReceiver with the host recovers.

The agent generates this trap when the optical power of OpticalReceiver is abnormal.

The agent generates this trap when the optical power of OpticalReceiver recovers to normal rage.

The agent generates this trap when the RF power of OpticalReceiver is abnormal.

The agent generates this trap when the RF power of OpticalReceiver recovers to normal rage.

The agent generates this trap when an unnamed analog alarm occurs.

The agent generates this trap when an unnamed analog alarm recovers.

The agent generates this trap when the analog temperature alarm occurs.

The agent generates this trap when the analog temperature alarm recovers.

The agent generates this trap when the analog humidity alarm occurs.

The agent generates this trap when the analog humidity alarm recovers.

The agent generates this trap when the analog voltage alarm occurs.

The agent generates this trap when the analog voltage alarm recovers.

The agent generates this trap when the analog current alarm occurs.

The agent generates this trap when the analog current alarm recovers.

The agent generates this trap when the fan is blocked.

The agent generates this trap when the fan is recovered from block.

The agent generates this trap when the temperature of fan is too high.

The agent generates this trap when the temperature of fan recover from too high.

The agent generates this trap when a unnamed digital fault occurs.

The agent generates this trap when a unnamed digital recovers.

The agent generates this trap when Output switch digital fault occurs.

The agent generates this trap when Output switch digital recovers.

The agent generates this trap when The AC voltage is out of the normal range.

The agent generates this trap when The AC voltage recovers to the normal range.

The agent generates this trap when The AC switch is out of the normal range.

The agent generates this trap when The AC switch recovers to the normal range.

The agent generates this trap when The batt vol is out of the normal range.

The agent generates this trap when The batt vol recovers to the normal range.

The agent generates this trap when The battery fuse is out of the normal range.

The agent generates this trap when The battery fuse recovers to the normal range.

The agent generates this trap when The load fuse is out of the normal range.

The agent generates this trap when The load fuse recovers to the normal range.

The agent generates this trap when The Rectifier is out of the normal range.

The agent generates this trap when The Rectifier recovers to the normal range.

The agent generates this trap when The dc-power is out of the normal range.

The agent generates this trap when The dc-power recovers to the normal range.

The agent generates this trap when The Roomdoor is out of the normal range.

The agent generates this trap when The Roomdoor recovers to the normal range.

The agent generates this trap when The Roomdoor is out of the normal range.

The agent generates this trap when The Roomdoor recovers to the normal range.

The agent generates this trap when The WIRING is out of the normal range.

The agent generates this trap when The WIRING recovers to the normal range.

The agent generates this trap when The FAN is out of the normal range.

The agent generates this trap when The FAN recovers to the normal range.

The agent generates this trap when The Fire is out of the normal range.

The agent generates this trap when The Fire recovers to the normal range.

The agent generates this trap when The Fog is out of the normal range.

The agent generates this trap when The Fog recovers to the normal range.

The agent generates this trap when The Water is out of the normal range.

The agent generates this trap when The Water recovers to the normal range.

The agent generates this trap when The Diesel is out of the normal range.

The agent generates this trap when The Diesel recovers to the normal range.

The agent generates this trap when The Smell is out of the normal range.

The agent generates this trap when The Smell recovers to the normal range.

The agent generates this trap when The Air condition is out of the normal range.

The agent generates this trap when The Air condition recovers to the normal range.

The agent generates this trap when The arrester is out of the normal range.

The agent generates this trap when The arrester recovers to the normal range.

The agent generates this trap when The DC VOL is out of the normal range.

The agent generates this trap when The DC VOL recovers to the normal range.

The agent generates this trap when more than two fans are blocked.

The agent generates this trap when the critical multi-fan blocking recovers.

The agent generates this trap when the 48V input switch is closed.

The agent generates this trap when the 48V input switch is opened.

The status of the fan. Options: 1.notconfig(1) -The status of the fan is notconfig 2.failure(2) -The status of the fan is fail Enumeration: 'notconfig': 1, 'failure': 2.

The reason of the auto-finding failure: Options: 1.fullemu(1) -No enough EMU IDs are available 2.shelfnotsupport(2) -The EMU does not support the auto discovery function 3.emunotsupportautofind(3) -The shelf does not support the EMU of this type Enumeration: 'fullem': 1, 'emunotsupportautofind': 3, 'shelfnotsupport': 2.

The NodeId of the auto-found EMU.

The type of the auto-found EMU.

The board name of the auto-found EMU.