18_444_2g_e1_mo

TemplateInfoProductUMTS/GSMTemplate TypeGROUND/RADIOTemplate NameGU-SDR CM OptimizationTemplate VersionV4.11.10.14P06

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IndexManagement Object NameIndexRemarkSDR ManagedElementSDRManagedElementEquipmentEquipmentEquipment ObjectRackRackBoardPlugInUnitTime DeviceTimeDeviceClock DeviceClockDeviceDry Contact DeviceDryContactDeviceEnvironment Monitoring DeviceEnvMonDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Fiber DeviceFiberDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Fiber CableFiberCableTMA DeviceTmaPA DevicePaDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Multimode circumstances can be manually configured radioMode.Tx DeviceTxDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Rx Device SetRxDeviceSetIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Rx DeviceRxDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.RET DeviceRetRf CableRfCableEmbedded Power DeviceEPmPower Outlet Device SetPowerOutletDeviceSetIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Power Outlet DevicePowerOutletDevicePower Device SetPmDeviceSetIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Bts Auxiliary Peripheral DeviceAuxUnitIf this MO attribute has no special configuration, it is unnecessary to fill in the options.AISG DeviceAisgDeviceFan DeviceFanDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Ethernet Switching Device SetEthernetSwitchDeviceSetIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Ethernet Switching DeviceEthernetSwitchDeviceIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Special Operation & MaintenanceVsOamOMC ChannelItfUniBtsOperatorOperatorIf this MO attribute has no special configuration, it is unnecessary to fill in the options.PlmnPlmnTransport NetworkTransportNetworkIf this MO attribute has no special configuration, it is unnecessary to fill in the options.Physical Layer PortPhyLayerPortDHCP RelayDhcpRelayATM Layer LinkAtmLayerLinkAAL2Aal2SaalUniSaalUniALCAPAlcapBts CascadeBtsCascadeHDLC ChannelHdlcPPP LinkPppLinkEthernet Link LayerEthernetLinkEthernet Fault DetectionEthernetOamBandwidth Control RuleBandwidthCtrlRuleIP LayerIpLayerConfigIKE PolicyIKEPolicyIPSec ProposalIPSecTransformSetAccess Control RuleAccessControlListIPSec ConfigIPSecConfigCertificate Management Protocol ConfigurationCmpConfigQos MappingQosMapSCTPSctpEthernet Maintenance DomainEthernetCfmMdEthernet Maintenance AssociationEthernetCfmMaEthernet Maintenance PointEthernetCfmMpBidirectional Forwarding DetectionBfdIP ClockIpClockProfileNodeBFunctionNodeBFunctionUMTS radio parameterUMTS Reserve ParameterNodeBFunctionReserveParaIub InterfaceIubLinkService Plane at IubIubDataStreamNBAP Common SignallingNbapCSignallingNBAP Dedicated SignallingNbapDSignallingUMTS SectorUSectorUMTS Local CellULocalCellLocal Cell Reserve ParameterULocalCellReserveParaUMTS Dual-carrier Cell RelationULocalCellRelationBtsFunctionBtsFunctionGSM radio parameterAbis InterfaceAbisLinkControl Plane at AbisBtsMLocal SwitchHubBtsConfigGSM Cell Channel ResourceGCellEquipmentFunctionGSM CellGCellGSM Carrier FrequencyGTrx

&L&"Times New Roman,"ZTE&","&R&L&10&R&10 &N , &P SDRManagedElementEquipmentRackPlugInUnitTimeDeviceClockDeviceDryContactDeviceEnvMonDeviceFiberDeviceFiberCableTmaPaDeviceTxDeviceRxDeviceRfCableEPmPowerOutletDevicePmDeviceSetAuxUnitAisgDeviceFanDeviceEthernetSwitchDeviceSetEthernetSwitchDeviceVsOamItfUniBtsOperatorPhyLayerPortDhcpRelayAtmLayerLinkAal2SaalUniAlcapBtsCascadeHdlcPppLinkEthernetLinkEthernetOamBandwidthCtrlRuleIpLayerConfigIKEPolicyIPSecTransformSetAccessControlListIPSecConfigQosMapSctpEthernetCfmMdEthernetCfmMaEthernetCfmMpBfdIpClockProfileNodeBFunctionIubLinkIubDataStreamNbapCSignallingNbapDSignallingUSectorULocalCellULocalCellRelationBtsFunctionAbisLinkBtsMHubBtsConfigGCellEquipmentFunctionGCellGTrxTransportNetworkCmpConfigRxDeviceSetPowerOutletDeviceSetRetPlmnNodeBFunctionReserveParaULocalCellReservePara

SDRManagedElementModIndOMCSUBNETIDSDRMEIDUSERLABELNODEBMEADDRNODEBMETYPESWVERSIONRNCIDGBSCIDLONGITUDELATITUDELOCATIONNAMEVENDORNAMEUSERDEFINEDSTATEV4PRIORITYMAINTAINSTATUSADMINISTRATIVESTATEModify IndicationSubnet IDManagedElement IDManagedElement User LabelManagedElement IP AddressManagedElement TypeModel VersionRNC IDGSM BSC IDLongitudeLatitudeLocationVendor NameUser Defined StatePriorityMaintain StatusLink Status102:ZXSDR BS8700110:ZXSDR BS8900A111:ZXSDR BS8800 U120112:ZXSDR BS8800 U240113:ZXSDR BS8800 GU360115:ZXSDR BS8900 U240116:ZXSDR BS8900 GU360118:ZXSDR BS8906123:ZXSDR BS8908124:ZXSDR BS8800 U120A125:ZXSDR BS8900 Z01S80126:ZXSDR BS8900 Z01S18127:ZXSDR BS8900 Z02USGA,D,M,Plong:[0..4095]long:[0..65535]string:[1..80]string:[7..15]102:ZXSDR BS8700,110:ZXSDR BS8900A,111:ZXSDR BS8800 U120,112:ZXSDR BS8800 U240,113:ZXSDR BS8800 GU360,115:ZXSDR BS8900 U240,116:ZXSDR BS8900 GU360,118:ZXSDR BS8906,123:ZXSDR BS8908,124:ZXSDR BS8800 U120A,125:ZXSDR BS8900 Z01S80,126:ZXSDR BS8900 Z01S18,127:ZXSDR BS8900 Z02USGstring:[1..128]long:[0..65535]long:[0..65535]double:[-180.000000..180.000000]double:[-90.000000..90.000000]string:[0..40]string:[0..40]string:[0..80]long:[1..5]long:[0..1]long:[0..1]

A:Add,P:PassDoes not support the modification.Same in an OMMB.Can fill in with 1 during LMT importing.Unique in subnetwork.Can fill in with 1 during LMT importing.Cannot use the invalid characters, e.g. < > & ' " \ / : * ? | # % @ ,IPV4.Unique in whole network.Can fill in with 0.0.0.0 during LMT importing.Format: v11.02.01It is unnecessary to fill in the option in GSM single mode site.65535:Invalid.It is unnecessary to fill in the option in UMTS single mode site.65535:Invalid.0:Normal1:Testing0:Release Connection1:No Release ConnectionReturn To IndexPrimary KeyPrimary KeyR-WR-WR-IR-WR-WR-WR-WR-WR-WRR-WRRRA45418Z2JPGP7BLB001118.54.18.100113v11.02.016544540.00.0ZTE1

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EquipmentModIndOMCSUBNETIDSDRMEIDbbuStackModeuserLabeloperatorPlannedIdvendorPlannedIdsubRackTypeadminStateModify IndicationSubnet IDManagedElement IDBBU Stack ModeUser LabelNetwork Element ID planned by operatorNetwork Element ID planned by vendorBBU/DIET SubRack TypeManual Operation FieldA,Plong:[0..4095]long:[0..65535]0:Non-stack,1:Master-slave frame stackstring:[0..128]{ManagedElement_operatorPlannedId}string:[0..48]{ManagedElement_vendorPlannedId}string:[0..48]{SubRack_subRackType}0:BBU-2U,4:BBU-3U,5:DIET0:No Manual Operation,1:Block,2:Disabled,4:Powered-down,65536:Block Smoothly

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Single site can use 2 BBU frames. The stack mode can extend the capacity and covering power of single site.In stack mode, the 2 BBU frames are a site for service, operation maintenance, transmission and clock functions; in non-stack mode, only 1 BBU frame exists, and the frame number is 1.To make the modification of this attribute effective, you need to restart the base station.User can add some equipment description information as required.Cannot use the invalid characters, e.g. < > & ' " \ / : ? # % @Operator plans the unique network element ID for base station. Users cannot set the option if it is not be planed.Vendor plans the unique network element ID for base station. Users cannot set the option if it is not be planed.Support BBU-2U and BBU-3U subrack.This field can not be configured. Do not modify it.Return To IndexPrimary KeyPrimary KeyR-IR-WR-WR-WR-IR-WA45418000

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RackModIndOMCSUBNETIDSDRMEIDRackIdrackNocabinetData_productNamecabinetPositionuserLabelModify IndicationSubnet IDManagedElement IDRack IDRack No.Cabinet Type InfoCabinet PositionUser LabelA,Plong:[0..4095]long:[0..65535]long:[1..65535]long:[1..201]string:[0..201]string: [0..128]{SubRack_userLabel}string: [0..128]A:Add, P:PassSame in an OMMB.Unique in subnetwork.This field can not be configured. Do not modify it.The Rack No. of the master rack is fixed as 1. The value range [2..50] is used to identify the racks that bear RSU RF boards in macro or micro base stations. The value range [51..201] is used to indicate all RRU racks.ZXSDR B8200,ZXSDR BC8810,ZXSDR BC8810A,ZXSDR BC8811,ZXSDR BC8910,ZXSDR BC8910A,ZXSDR BC8912,ZXSDR RC8910,ZXSDR RC8911,ZXSDR RC8931,ZXSDR BC8910A-SC,ZXSDR BS8908 G060,ZXSDR RC8810,ZXSDR Z02USG-1,ZXSDR Z02USG-2,ZXSDR Z02USG-3,ZXSDR Z01S18-1,ZXSDR Z01S18-2,ZXSDR Z01S18-3,ZXSDR Z01S80-1,ZXSDR Z01S80-2,ZXSDR BS8900A-R,ZXSDR RC8910A,ZXSDR RC8911ACabinet type information. This information should not be configured on BBU boards during ZXSDR BS8700 station. This cabinet type information should be configured on primary cabinet and secondary cabinet boards in macro base station."1" refers to primary cabinet, others refers to secondary cabinet. Fill in a value from 1 to 255. Other values or characters are not allowed.User can add some subrack description information as required.Cannot use the invalid characters, e.g. < > & ' " \ / : ? # % @ ,Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IRRR-WA454181ZXSDR BC88101A454182ZXSDR BC88101A454183ZXSDR BC88101A454184ZXSDR BC88101A454185ZXSDR BC88101A454186ZXSDR BC88101A454187ZXSDR BC88101

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PlugInUnitModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoproductData_productNamectrlAuxCabinetNoisHighPriorityadminStateModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.Board NameControlled Auxiliary Abinet NoWhether high priorityManual Operation FieldA,Plong:[0..4095]long:[0..65535]long:[1..201]long:[1..2]long:[1..23]string:[0..201]long:[2..255]1:Y,0:N0:No Manual Operation,1:Block,2:Disabled,4:Powered-down,65536:Block Smoothly

A:Add, P:PassSame in an OMMB.Unique in subnetwork.The Rack No. of the master rack is fixed as 1. The value range [2..50] is used to identify the racks that bear RSU RF boards in macro or micro base stations. The value range [51..201] is used to indicate all RRU racks.In non-stack mode, can not fill in with 2.For some boards, the slot where they are inserted is fixed and can not modified.CC board in slot 1, SA board and PM board should be configured.Name of corresponding board.CC,CCC,FS,BPC,BPK,BPK_s,UBPG,UBPG2,UBPG3,BPL,TAM0,TAM1,TAM2,SE,SA,PM,FCE,UES,USR1-A,RTR-U212,RTR-U214,RTR-U854,RTR-U904,RTR-U216,RTR-U856,RTR-U176,DTR-GU856,DTR-GU906,DTR-GU186,DTR-GU196,DTR-GU908,DTR-GU188,RSU40-U214,RSU40-U216,RSU40-U176,RSU40-U178,RSU60-GU906,RSU60-GU186,RSU60-GU908,RSU60-GU188,ADTR-GU858,ADTR-GU908,ADTR-GU188,ADTR-GU198,RSU60E-GU858,RSU60E-GU908,RSU60E-GU188,RSU60E-GU198,RSU82-GU9016,RSU82-GU1816,RSU82-GU8516,RSU82-GU1916,RSU82-U2112,RSU82-GU9018D,RSU82-L268,RSU82 S9000(B8A),RSU82 S1800(B8A),RSU82 S2100(B6A),RSU82 S2100(B8A),R8880A-U2112,R8882A-U2112,R8890-U216,TTR-G902,TTR-G182,TTR-G904,TTR-G184,R8882-GUL9012,R8882-GUL1812,R8882-GUL8512,R8882-GUL1912,R8882-GUL9018D,R8882-L268,R8882 S9000(B),R8882 S2100(B),R8882-S9000C,R8882-S1800C,R8882 S8500(B6A),R8882 S9000(C6B),R8882 S1800(C6B),R8882 S1900(B5A),RSU82 S8500(B8A),RSU82 S1900(B6A),RSU02-G902,RSU02-G182,RSU02-G904,RSU02-G184,R8880A-U1712,R8881 S9000(B8A),R8881 S9000(B8B),R8881 S9000(B8C),R8881 S1800(B8C),R8881 S2100(B8C),R8881 S8500(B8B),R8881 S8500(B8C),R8881 S1700(B8B),R8881 S1700(B8C),R8881 S1900(B8B),R8881 S1900(B8C),R8881 S1800(B8A),R8881 S1800(B8B),R8881 S2100(B8A),R8881 S2100(B8B),R8881 S2100(B6A),R8881 S2100(B6B),RSU40-U218,R8882 S1800(B),R8882 S8500(B6B),R8882 S1900(B6B),RSU82 S8500(B8B),RSU82 S1900(B6B),RSU82 S2100(B8B),R8882 S9000(B6C),R8882 S1800(B6C),RSU60E-GU90C,RSU60E-GU90E,RSU60E-GU18C,RSU60E-GU18E,RSU82 S1800(B8C),RSU82 S1800(B8B),TRB-G904,TRB-G184,TRB-G194,TRB-G854,TRB-G904-RU,TRB-G184-RU,TRB-G194-RU,TRB-G854-RUFill out the attribute for the FCE in an auxiliary cabinet. The auxiliary cabinet is only used by FCE boards, which provide cooling function for the devices of other manufacturers.The ctrlAuxCabinetNo can not be duplicate, it also can not be the same as cabinetPosition of Rack object.The power-supply level needed by the board. The default priority is low. When load is shared, NE is allocated automatically according to the enhanced load sharing algorithm. In OMMB, it can be manually adjusted to high priority, and then both PM boards supply power for the board.This field can not be configured. Do not modify it.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IRR-W-IR-WA45418111CCA45418113FSA45418115UBPGA454181113SAA454181114PMA454181115PMA45418211RSU82-GU9016A45418311RSU60E-GU908A45418217FCE


TimeDeviceModIndOMCSUBNETIDSDRMEIDntpServerIpAddrtimeZoneclockSynPeriodsummTimeStartsummTimeEndisSuppSummTimeModify IndicationSubnet IDManagedElement IDNTP Server IP AddressTime ZoneClock Synchronization PeriodSummer Time StartSummer Time EndSupport Summer Time or notA,Plong:[0..4095]long:[0..65535]ipv40:GMT - 12:00,2:GMT - 11:00,4:GMT - 10:00,6:GMT - 9:00,8:GMT - 8:00,10:GMT - 7:00,12:GMT - 6:00,14:GMT - 5:00,15:GMT - 4:30,16:GMT - 4:00,17:GMT - 3:30,18:GMT - 3:00,20:GMT - 2:00,22:GMT - 1:00,24:GMT - 0:00,26:GMT + 1:00,28:GMT + 2:00,30:GMT + 3:00,31:GMT + 3:30,32:GMT + 4:00,33:GMT + 4:30,34:GMT + 5:00,35:GMT + 5:30,51:GMT + 5:45,36:GMT + 6:00,37:GMT + 6:30,38:GMT + 7:00,40:GMT + 8:00,42:GMT + 9:00,43:GMT + 9:30,44:GMT + 10:00,46:GMT + 11:00,48:GMT + 12:00,50:GMT + 13:00long:[1..48]string:[0..20]string:[0..20]1:Y,0:N

A:Add, P:PassSame in an OMMB.Unique in subnetwork.The address of the NTP server. The base station gets the NTP time from the server.Indicates the time zone of the base station.Indicates the time synchronization interval. The base station performs time synchronization with the NTP at this interval. Unit: hour.Format: MM-DD HH:mm. Indicates the start time of summer time. It is allowed that the summer time is a cross-year range.Format: MM-DD HH:mm. Indicates the end time of summer time. It is allowed that the summer time is a cross-year range.Indicates whether to enable summer time.Return To IndexPrimary KeyPrimary KeyR-W-IR-W-IR-W-IR-WR-WR-W-IA45418139.54.0.25035000


ClockDeviceModIndOMCSUBNETIDSDRMEIDClockDeviceIdclockTypeclockPriorityclockSyncModeswitchThresholdgnssClockData_cableDelaygnssClockData_cableTypegnssClockData_receiverTypegnssClockData_frmMajorAlmThresgnssClockData_frmCritiAlmThresgnssClockData_freCritiAlmThresgnssClockData_revOperatingModegnssClockData_longitudegnssClockData_latitudegnssClockData_altitudegnssClockData_minStarNumgnssClockData_enableCasOutputgnssClockData_casCableDelayisSSMtod1PpsData_cascadeCableLengthtod1PpsData_inputBardRatetod1PpsData_timeInputTypeModify IndicationSubnet IDManagedElement IDRDNClock Reference Source TypePriorityClock Synchronization ModeClock Reference Switch ThresholdLength of GNSS Antenna Feeder CableGNSS Cable TypeGNSS Receiver TypeMajor Alarm Threshold of GNSS Clock Reference Source Lost during Frame Number SynchronizationCritical Alarm Threshold of GNSS Clock Reference Source Lost during Frame Number SynchronizationCritical Alarm Threshold of GNSS Clock Reference Source Lost during Frequency Number SynchronizationReceiver Operating ModeLongitude of Reciver AntennaLatitude of Reciver AntennaHeight of Reciver AntennaMimimum Number of Search StarSupport Clock Cascade Output or notLength of Cascade CableEnable SSM or notLength of Cascade cableInput Baud RateTime Input TypeA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]1: Internal GNSS,3: External GNSS,5: Cascade GNSS,4: 1PPS+TOD,6: BITS-2MHz,7: BITS-2Mbps,8: Line,11: 1588,13: SyncElong:[1..8]0: GSM/UMTS Frequency Sync,1: GSM FrameNumber Sync. UMTS Frequency Sync,2: GSM Frequency Sync. UMTS FrameNumber Sync,3: GSM/UMTS FrameNumber Synclong:[0..86400]long: [0..8000]0: Multiplexing input,1: Distribution input1:GPS,2:GLONASS,3:GPS+GLONASS{gnssClockData_frameMajorAlarmThres}long: [20..4320]{gnssClockData_frameCriticalAlarmThres}long: [1..168]{gnssClockData_freqCriticalAlarmThres}long: [1..180]{gnssClockData_receiverOperatingMode}1:Survey In,2:Fixed Modedouble:[-180.000000..180.000000]double:[-90.000000..90.000000]long: [0..10000]long: [1..4]{gnssClockData_enableCascadeOutput}0:Not support,1:Support{gnssClockData_cascadeCableDelay}long: [0..15]1:Y,0:Nlong:[0..15]0:115200,1:57600,2:38400,3:19200,4:9600,5:4800,6:24000:Multiplexing input,1:Distribution inputA:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column."1": indicates the highest priority.This attribute indicates the mode used by the clock module for extracting the GNSS clock. The frame number synchronization mode has a higher precision than the frequency synchronization mode.Unit: sThis attribute indicates that if the current clock reference failed, the time gap when the current reference changed to the backup reference.{ClockDevice.clockType == 11}[30..86400],{ClockDevice.clockType == 13}[0..86400],{ClockDevice.clockType == 8}[0..86400],{ClockDevice.clockType == 6}[0..86400],{ClockDevice.clockType == 7}[0..86400],{ClockDevice.clockType == 1}[300..86400],{ClockDevice.clockType == 3}[300..86400],{ClockDevice.clockType == 4}[300..86400],{ClockDevice.clockType == 5}[300..86400]Unit: meter. This attribute indicates the length of the feeder that connects the GNSS antenna and the receiver. This feeder is used to improve the clock precision. This attribute should be set according to the result of the site survey.General value:0This attribute indicates the type of cable used for GNSS clock cascade. The cable type must be set according to the cable actually used on site. The devices on both ends of the cascade cable must be set with the same cable type.General value:0General value:1Unit: minute,step: 20.This attribute indicates the threshold for reporting a major alarm when the GNSS clock reference source is lost during frame number synchronization. In the case of threshold crossing, a major alarm, "loss of GNSS clock reference source", is raised.General value:20Unit: hrs.This attribute indicates the threshold for reporting a critical alarm when the GNSS clock reference source is lost during frame number synchronization. In the case of threshold crossing, a critical alarm, "loss of GNSS clock reference source", is raised.General value:8Unit: day.This attribute indicates the threshold for reporting a critical alarm when the GNSS clock reference source is lost during frequency synchronization. In the case of threshold crossing, a critical alarm, "loss of GNSS clock reference source", is raised.General value:90This attribute indicates the operating mode of the GNSS receiver. "Fixed Mode" is recommended when the number of satellites detected by the receiver antenna is smaller than 4. "Survey In" is recommended when the GNSS receiver of the base station is cascaded to an upper-level receiver. General value:1When the operating mode of the receiver is "Fixed Mode", this attribute indicates the longitude of the receiver antenna, which helps the receiver to obtain the satellite clock.General value:0When the operating mode of the receiver is "Fixed Mode", this attribute indicates the latitude of the receiver antenna, which helps the receiver to obtain the satellite clock.General value:0Unit: meter.When the operating mode of the receiver is "Fixed Mode", this attribute indicates the altitude of the receiver antenna, which helps the receiver to obtain the satellite clock.General value:0When the operating mode of the receiver is "Fixed Mode", this attribute indicates the minimum number of detected satellites that are required for the receiver to precisely obtain the satellite clock. General value:4In the case of clock cascade, the switch in the upper-level receiver must be enabled. The switch in the lower-level receiver must be disabled, and the clock reference source must be set to "Cascade GNSS".General value:0Unit: meter.This attribute indicates the length of cable used for clock cascade. The cable length can be used to improve the clock precision. This attribute should be set according to the result of the site survey.General value:0It is valid when clockType is SyncE.Indicates parameters for SyncE clock. Indicates whether the clock upload mode is Synchronization Status Message (SSM). SSM is the quality level for sending timing signals through the timing synchronization link in the synchronization network. The clock of a node in the synchronization network gets the parent-node clock information by reading the SSM, and performs relevant operations on the node clock, such as tracing, changeover, while sending the synchronization message to the subordinate node.General value:1Unit: meterThis attribute indicates the length of cable used for clock cascade. The cable length can be used to improve the clock precision. This attribute should be set according to the result of the site survey.General value:0Indicates parameters for 1PPS+TOD clock. General value:4Clock receiving type configuration is used to distinguish multiplexing input and distribution input. If upper level is multiplexing output, the lower level should be configured as multiplexing input; if upper level is distribution output, the lower level should be configured as distribution input. Faulty configuration may not get the 1pps+tod signal.General value:1Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-W-IR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WA454188100


DryContactDeviceModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoDryContactDeviceIddryNodryTypeoutDryTypeoutDryNamealmStatusisSelfDefineAlmalmNouserLabelModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.RDNDry Contact No.Dry Contact TypeOutput Dry Contact StatusOutput Dry Contact NameAlarm StatusIs Self-defined Dry Contact or notDry Contact Alarm No.User LabelA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long:[1..23]long:[1..4294967295]long:[0..255]0: Input dry contact,1: Output dry contact0: Output low level,1: Output high levelstring: [0..127]0: Alarm appears if contact is closed,1: Alarm appears if contact is open1:Y,0:Nlongstring:[0..128]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Dry contact number for input or output.Output dry contact is valid.General value: 0Output dry contact description. It is valid when the dry contact type is output.The dry contact is valid when the type is input. General value: 0It is valid when the dry contact type is input. The self-defined dry contact needs to be imported by user. General value: 0The dry contact is valid when the type is input. The customized dry contact ID must be from 198092550 to 198092599,or from 198096424 to 198096473.Non-self-defined dry contact range:198092044:Door control alarm,198092045:Flooding alarm,198092046:Smog alarm,198092047:Infrared alarm,198092048:Air conditioner fault,198092049:Lightning protection device alarm,198092051:PSU alarm,198092052:PSU fan alarm,198092068:Base station has a main power cut-off alarm,198092206:Battery alarm,198092207:AC power-cut alarm,198092208:Rectifier model alarm,198092209:Thermoelectric cooler alarm,198092462:Differential Pressure Alarm,198092259:Battery low-voltage alarm,198092260:Faulty external device connected at a dry contact,198092261:Outdoor lightning protection box alarm,198092262:Breaker alarm in indoor lightning protection box,198092263:Lightning protection device alarm in indoor lightning protection box,198092264:Over-voltage alarm of main power input,198092265:Main power input power-cut alarm,198092266:Under-voltage alarm of main power input,198092363:Faulty main power alarm,198092267:General fault of main power,198092268:PWR monitoring unit alarmCannot use the invalid characters, e.g. < > & ' " \ / : ? # % @ ,Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-IR-WR-WR-WR-WR-WR-WA4541811135001198092555Dry Contact alarm 6A4541811136001198092556Dry Contact alarm 7A4541811137001198092557Dry Contact alarm 8A4541811131001198092551Dry Contact alarm 2A4541811132001198092552Dry Contact alarm 3A4541811133001198092553Dry Contact alarm 4A4541811134001198092554Dry Contact alarm 5A4541811130001198092550Dry Contact alarm 1


EnvMonDeviceModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoEnvMonDeviceIdthresTypeupperLimitlowerLimitupperResumeLimitlowerResumeLimitModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.RDNThreshold TypeUpper Limit ValueLower Limit ValueAlarm Recovery Upper LimitAlarm Recovery Lower LimitA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long:[1..23]long:[1..4294967295]1:Board temperature,2:Environment temperature,3:Base Station temperature,6:Humidity,7:Fan speed level,8:MP Voltage,9:PP Voltage,10:Temperature at air inlet,11:Temperature at air outlet,12:DC input voltage of PM board,17:Temperature of cabinet,200:Temperature rise of low temperature CC board,201:Temperature rise of high temperature CC board,202:Temperature rise of low temperature PM board,203:Temperature rise of high temperature PM boardlonglonglonglongA:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Specifies the value for clearing an alarm raised when the uppper environment threshold is exceeded. The user can modify the value.Specifies the value for clearing an alarm raised when the actual value is below the lower environment threshold. The user can modify the value.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-WR-WR-WR-W

&L&"Times New Roman,"ZTE&","&R&L&10&R&10 &N , &P CC/CCC{thresType==1}[85..130] {thresType==2}[-30..120]{thresType==200}[10..40]{thresType==201}[5..35]

SA{thresType==7}[65535..65535]{thresType==10}[-30..120]{thresType==11}[-30..120]

PM{thresType==202}[50..100]{thresType==203}[50..100]{thresType==12}[58..65]

FCE{thresType==7}[65535..65535]{thresType==17}[-30..120]

TRB-G904/TRB-G184/TRB-G194/TRB-G854/TRB-G904-RU/TRB-G184-RU/TRB-G194-RU/TRB-G854-RU{thresType==2}[20..127]CC/CCC{thresType==1}[60..85] {thresType==2}[-40..110] {thresType==200}[10..40]{thresType==201}[5..35]

SA{thresType==7}[200..220] {thresType==10}[-40..110]{thresType==11}[-40..110]

PM{thresType==202}[50..100]{thresType==203}[50..100]{thresType==12}[38..40]

FCE{thresType==7}[200..220]{thresType==17}[-40..110]

TRB-G904/TRB-G184/TRB-G194/TRB-G854/TRB-G904-RU/TRB-G184-RU/TRB-G194-RU/TRB-G854-RU{thresType==2}[-30..117]CC/CCC{thresType==1}[85..130]

SA{thresType==10}[-30..120]{thresType==11}[-30..120]

PM{thresType==12}[56..63]CC/CCC{thresType==1}[60..85]

SA{thresType==10}[-40..110]{thresType==11}[-40..110]

PM{thresType==12}[40..42]Return To Index

FiberDeviceModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoFiberDeviceIdportopticalModuleTypeModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.RDNConnected Board Port IDType of Optical ModelA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long:[1..23]long:[1..4294967295]long: [0..5]1:1.25G,2:2.5G,3:3G,6:6G

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.In stack mode, the default values of FS(slot 3) boardand optical port No.3 optical port No.4 and optical port No.5 are 2.5G.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-W-IA4541811301A4541811311A4541811321A4541811331A4541811342A4541811351A4541821111A4541821121A4541831111A4541831121


FiberCableModIndOMCSUBNETIDSDRMEIDFiberCableIdref1FiberDevice_rackNoref1FiberDevice_subRackNoref1FiberDevice_slotNoref1FiberDevice_portref2FiberDevice_rackNoref2FiberDevice_subRackNoref2FiberDevice_slotNoref2FiberDevice_portModify IndicationSubnet IDManagedElement IDRDNUpper-level Rack No. of Previous Hop in Topology StructureUpper-level SubRack No. of Previous Hop in Topology StructureUpper-level Slot No. of Previous Hop in Topology StructureOptical Port of Previous Hop in Topology StructureLower-level Rack No. of Next Hop in Topology StructureLower-level SubRack No. of Next Hop in Topology StructureLower-level Slot No. of Next Hop in Topology StructureOptical Port of Next Hop in Topology StructureA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]long: [1..201]long: [1..2]long: [1..8]long: [0..5]long: [1..201]long: [1..2]long: [1..8]long: [0..5]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-IR-IR-IR-IR-IR-IR-IA4541811313111A4541811302111


TmaModIndOMCSUBNETIDSDRMEIDTmaIdtmaNotmaTypeulGaindlGaintmaNoisedlDelayulDelayModify IndicationSubnet IDManagedElement IDRDNTMA No.TMA TypeUplink GainDownlink GainTMA Noise FigureDownlink DelayUplink DelayA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]long:[1..96]0:TMA,3:A-TMA,4:A-COM,5:ETMA,6:A-ETMAlong: [0..65535]long: [70..170,255]long: [10..30,255]long: [0..100]long: [0..100]

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.A-TMA corresponds to AISG TMA;A-COM corresponds to AISG Combiner;TMA corresponds to common TMA;ETMA corresponds to high gain common TMA;A-ETMA corresponds to high gain AISG TMA.The unit for different TMA types: A-TMA: 0.25dB, A-COM: 0.5dB, TMA: 0.1dB, ETMA: 0.1dB, A-ETMA: 0.25dB.{tmaType==0}[70..150],{tmaType==3}[44..100],{tmaType==4}[0..14],{tmaType==5}[200..320],{tmaType==6}[92..100],65535:{Invalid}General value{tmaType==0}[120],{tmaType==3}[48],{tmaType==4}[10],{tmaType==5}[240],{tmaType==6}[96]Unit: 0.1dB255: invalid.Unit: 0.1dB255: invalid.Unit: nsUnit: nsReturn To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-IR-W-IR-IR-W-IR-W-IR-W-I


PaDeviceModIndOMCSUBNETIDSDRMEIDrackNoPaDeviceIdportpowersuppBandbranchBandthresTypeupperLimitlowerLimitupperResumeLimitlowerResumeLimitradioMode#1radioMode#2radioMode#3dualModepowerOffSwitchModify IndicationSubnet IDManagedElement IDRU Rack No.RDNPort IDPower Rating(W)Frequency Band IDSub Frequency BandThreshold TypeVSWR Upper LimitVSWR Lower LimitAlarm Recovery Upper Limit of VSWRAlarm Recovery Lower Limit of VSWRRadio Mode 1Radio Mode 2Radio Mode 3Dual ModePA Power Off At Free SlotA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long: [1..201]long:[1..4294967295]long:[0..255]long:[1..255]1:2.1G(Band I),2:1900M(Band II),3:1800M(Band III),4:AWS(Band IV),5:850M(Band V),6:850M(Band VI),7:2.6G(Band VII),8:900M(Band VIII),9:1800M(Band IX)1,2,3,255:Invalid4: Level-1 VSWR thresholdlonglonglonglong1:UMTS,2:GSM,16:LTE1:UMTS,2:GSM,16:LTE1:UMTS,2:GSM,16:LTE1:4G+1U,2:2G+2U,3:4G+1L,4:2G+1L,5:4G+2U,255:Invalid0:Close,1:Open

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Indicates the rated power, or maximum power for the power amplifier.Indicates the working frequency band supported by the power amplifier. Refer to 3GPP for frequency band definition.Indicates the sub-frequency band within the frequency band supported by the power amplifier.Sub-frequency band is an attribute unique to the GSM system. Only the RU of 900M and 1800M has sub-frequency bands.900M(Band VIII) includes the following sub-frequeny bands:1Working frequency band: 890MHz to 915MHz in uplink, 935MHz to 960MHz in downlink.2Working frequency band: 880MHz to 905MHz in uplink, 925MHz to 950MHz in downlink.3Working frequency band: 888MHz to 906MHz in uplink, 935MHz to 951MHz in downlink.1800M(Band III) includes the following sub-frequeny bands:1: Working frequency band: 1710MHz to 1765MHz in uplink, 1805MHz to 1860MHz in downlink.2: Working frequency band: 1,730MHz to 1,785MHz in uplink, 1,825MHz to 1,880MHz in downlink.Indicates the alarm-generating threshold type for the Voltage Standing Wave Ratio (VSWR) of the power amplifier.Cannot be the same with previous column.Cannot be the same with previous column.It is valid during double mode.Indicates the allocation method of amplifier resources in dual-mode. 2G+2U: the amplifier supports 2GSM carriers and 2 UMTS cells.While this switch is open,PA can be powered off when the slot is free and no data to transmit, thus electric energy is saved.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-IR-IR-W-IR-IR-W-IR-W-IR-WR-WR-W-IR-W-IR-W-IR-W-IR-W-IA454182180825542501502501502255A454182380825542501502501502255A454183180825542501502501502255


TxDeviceModIndOMCSUBNETIDSDRMEIDrackNoTxDeviceIdporttxCenterFreqdetectSwitchModify IndicationSubnet IDManagedElement IDRU Rack No.RDNPort IDTx Central FrequencyEnable Primary Diversity Balance Detection or notA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long: [1..201]long:[1..4294967295]long:[1..5]double1:Y,0:N

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.0,PaDevice.suppBand==1{[2100.0..2180.0]},PaDevice.suppBand==2{[1920.0..2000.0]},PaDevice.suppBand==3{[1795.0..1890.0]},PaDevice.suppBand==4{[2100.0..2165.0]},PaDevice.suppBand==5{[859.0..904.0]},PaDevice.suppBand==6{[865.0..895.0]},PaDevice.suppBand==7{[2610.0..2700.0]},PaDevice.suppBand==8{[915.0..970.0]},PaDevice.suppBand==9{[1834.9..1989.9]}Unit:MHzThe attribute is not open to the user. When it is set to 0, the calculation if automatically performed. In special cases when this parameter needs modification, you can contact ZTE personnel.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-W-IR-W-IA45418210.01A45418230.01A45418310.01


RxDeviceSetModIndOMCSUBNETIDSDRMEIDrackNodiversityModeModify IndicationSubnet IDManagedElement IDRU Rack No.Diversity Receiving ModeA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long: [1..201]0:Normal diversity reception,1:Cross diversity reception

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Configure RU diversity receiving mode. "Cross diversity reception" indicates that the signals received by two receiving channels are mutually active/standby diversities. In this case, the dual-transmitting RU is required and only two receiving/transmitting antennas are connected.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-W-IA4541820A4541830

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RxDeviceModIndOMCSUBNETIDSDRMEIDrackNoRxDeviceIdportrxCenterFreqModify IndicationSubnet IDManagedElement IDRU Rack No.RDNRx Port IDRx Central FrequencyA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long: [1..201]long:[1..4294967295]long:[1..6]double

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.0,PaDevice.suppBand==1[1910.0..1990.0],PaDevice.suppBand==2[1840.0..1920.0],PaDevice.suppBand==3[1700.0..1795.0],PaDevice.suppBand==4[1700.0..1765.0],PaDevice.suppBand==5[814.0..859.0],PaDevice.suppBand==6[820.0..850.0],PaDevice.suppBand==7[2490.0..2580.0],PaDevice.suppBand==8[870.0..925.0],PaDevice.suppBand==9[1739.9..1794.9]Unit:MHzThe attribute is not open to the user. When it is set to 0, the calculation if automatically performed. In special cases when this parameter needs modification, you can contact ZTE personnel.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-W-IA45418220.0A45418230.0A45418240.0A45418310.0A45418320.0A45418210.0


RetModIndOMCSUBNETIDSDRMEIDRetIdheightbaseElevationlatitudelongitudepatternLabelspaceDiversitytypeDiversityvertBeamwidthModify IndicationSubnet IDManagedElement IDRDNHeightBase ElevationLatitudeLongitudePattern LabelSpace DiversityType DiversityVertical BeamwidthA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]stringstringdouble: [-90.000000..90.000000]double: [-180.000000..180.000000]stringstring1:Omnidirectional Diversity,2:Panel Diversity,3:Sectorized Diversitystring:[0..3600]A:Add, P:PassSame in an OMMB.Unique in subnetwork.it is necessary to fill in this column. Base station code starts from 1,2,3Unit:metreThe height of an antenna above sea level.Unit:metreThe elevation in meters above sea level at the base of the antenna structure. This value, when subtracted from height, provides the height of the antenna above the ground.Unit:metreThe latitude of the antenna location based on World Geodetic System (1984 version) global reference frame (WGS 84). Positive values correspond to the northern hemisphere.Unit:degreeThe longitude of the antenna location based on World Geodetic System (1984 version) global reference frame (WGS 84). Positive values correspond to degrees east of 0 degrees longitude.The pattern name is a textual, alpha-numeric string to allow identification of the antenna pattern along with the antenna vendor information such as model number, etc.Unit:metreDistance between antennas in the same sector (space diversity case), measured in meters.The 3 dB power beamwidth of the antenna pattern in the vertical plane.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-WR-WR-WR-WR-WR-WR-WR-W


RfCableModIndOMCSUBNETIDSDRMEIDRfCableIdconnectTypedlAttenuationulAttenuationdlDelayulDelayrefTxDevice_rackNorefTxDevice_portrefMechanicalAntrefRetrefTma_tmaNoref1RxDevice_rackNoref1RxDevice_portref2RxDevice_rackNoref2RxDevice_portref3RxDevice_rackNoref3RxDevice_portModify IndicationSubnet IDManagedElement IDRDNConnection TypeDownlink AttenuationUplink AttenuationDownlink DelayUplink DelayConnected Tx RU Rack No.Connected Tx PortConnected Mechanical Antenna RDNConnected RET Antenna RDNConnected TMA DeviceConnected Rx RU Rack No.Connected Rx PortConnected Main Rx Device Rack No.Connected Main Rx Device Port IDConnected Extended Rx Device Rack No.Connected Extended Rx Device Port IDA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]1:Tx,2:Rx,3:Tx/Rx,4:Rx RF Extenddouble: [0.0..8.0]double: [0.0..8.0]long: [0..1000]long: [0..1000]long:[1..201]long:[1..5]long:[1..4294967295]long:[1..4294967295]long: [1..96]long:[1..201]long:[1..6]long:[1..201]long:[1..6]long:[1..201]long:[1..6]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Accurate to the tenth's place. Unit: dB.General value:0Accurate to the tenth's place. Unit: dB.Uplink attenuation of RF cable. When RF cable is used to connect RU and TAM, the General value is 0.5dB, other cases, the General value is 0dB.Unit: ns.General value:0Unit: ns.General value:0It is valid when connection type is 1, and 3.It is valid when connection type is 1, and 3.It is valid when connection type is 1, 2, and 3. Base station code starts from 1,2,3 The connected ANT and RET are mutually excluded.Configure as "RetId" of Ret object.. It is valid when connection type is 1, 2, and 3. The connected ANT and RET are mutually excluded.It is valid when connection type is 2, and 3. TMA ID and TMA exist.It is valid when connection type is 2, and 3.It is valid when connection type is 2, and 3.It is valid when connection type is 4.It is valid when connection type is 4.It is valid when connection type is 4.It is valid when connection type is 4.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-WR-WR-WR-WRRRRRRRRRRRA454182222A45418323323A454182424A45418331531A454182632A45418321121


EPmModIndOMCSUBNETIDSDRMEIDEPmIdpowerTypedataProcessModerefSdrDeviceGroup_rackNorefSdrDeviceGroup_subRackNorefSdrDeviceGroup_slotNoModify IndicationSubnet IDManagedElement IDRDNPower TypeData Processing ModeConnected Board Rack No.Connected Board SubRack No.Connected Board Slot No.A,Plong:[0..4095]long:[0..65535]long:[1..2]0:ZXDU58 B900,1:ZXDU58 B121,2:ZXDU68 B201,3:ZXDU150,4:ZXDU45,5:ZXDU75,6:ZXDU58 B121(V4.5),7:ZXDU68 B201(V5.0),8:ZXDU68 W301,9:ZXDU68 S301,10:ZXDU58 B121(V2.2),11:ZXDU68 B201(V5.0R99M03)0:Transparent transmission,1:Parselong: [1..201]long:[1..2]long: [1..23]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Handling method used by the NE for data (for example, alarms and configurations) related to embedded power devices. If the handling method is resolution, the NE only analyzes the alarm data and send it to the OMC or LMT. If the handling method is transparent transmission, the NE transmits the data only with no processing.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-W-IR-WR-IR-IR-I


PowerOutletDeviceSetModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoswitchStatusvoltageModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.Switch StatusVoltageA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long: [1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long: [1..23]0:Close,1:AISG RS485,2:NSBT RS4850:14,1:22,4294967295:InvalidA:Add, P:PassUnique in subnetwork.Unit: VReturn To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-WR-W-I

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PowerOutletDeviceModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoPowerOutletDeviceIdportcurrentValuealmDetectModelowerLimitPercentupperLimitPercentswitchStatusModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.RDNPort IDWork Current ValueAlarm Detect ModeLower Current Alarm Threshold PercentOver Current Alarm Threshold PercentSwitch StateA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long: [1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long: [1..23]long:[1..4294967295]long: [0..5]long:[0..4294967295]0:currentDetect,1:pulsewidthDetectlong: [20..80,100]long: [100,120..180]0:Close,1:Open

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.The ports of TAM board or NSBTs inside RSU.Unit: mA.Configure the maximum current value of the specified port. The value range of TAM0 board is [75..300], General value: 250. The value range of TAM1 board is [75..400], General value: 120. The value range of TAM2 board is [75..400], General value: 175.{PowerOutletDeviceSet.voltage == 0}[75..400],{PowerOutletDeviceSet.voltage == 1}[75..300],{PowerOutletDeviceSet.voltage == 4294967295}[0..4294967295]General value:{PowerOutletDeviceSet.voltage == 0}[120],{PowerOutletDeviceSet.voltage == 1}[250],{PowerOutletDeviceSet.voltage == 4294967295}[4294967295]When the actual current value of the TAM board's power supply channel is lower than the value of (Working Current Value*local value/100), low current alarm is raised.When the actual current value of the TAM board's power supply channel is higher than the value of (Working Current Value*local value/100), over current alarm is raised.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-W-IR-W-IR-W-IR-W-IR-W-I


PmDeviceSetModIndOMCSUBNETIDSDRMEIDsubRackNoslotNooperatingModeenablePowerDownCtrlModify IndicationSubnet IDManagedElement IDPM Board SubRack No.PM Board Slot No.Power Working ModeSupport Power-down or notA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long: [1..23]0:Master/slave mode,1:Load-sharing mode1:Y,0:N

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-I


AuxUnitModIndOMCSUBNETIDSDRMEIDimbAlarmSwitchantImbAlarmThresholdantImbResumeThresholdModify IndicationSubnet IDManagedElement IDReception Ant Imbalance Alarm SwitchAnt Imbalance Alarm ThresholdAnt Imbalance Resume ThresholdA,Plong:[0..4095]long:[0..65535]0:Close,1:Openlong:[1..14]long:[1..14]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Unit: dbGeneral value:10Unit:dbGeneral vlaue:10Return To IndexPrimary KeyPrimary KeyR-W-IR-WR-W


AisgDeviceModIndOMCSUBNETIDSDRMEIDrackNoAisgDeviceIduniqueIddevTypevendorCodeaisgVersionmultiAntNouserLabelfatherPortselfPortrefRetrefTma_tmaNoModify IndicationSubnet IDManagedElement IDRack No.RDNDevice Serial NumberDevice TypeVendor CodeAISG VersionSubunits No.Description of Self-defined FieldSuperior ChannelLocal ChannelConnected RET Device RDNConnected TMA Device No.A,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]long:[1..4294967295]string:[1..32]1:RETC,17:MULTI_RET,3:ATMA,2:MULTI_TMA,241:ACOM,226:AETMA,209:NSNRET,210:LGPTMAstring:[0..128]1:1.1,2:2.0long: [1..4,255]string: [0..128)long: [0..12]long: [0..12]long:[1..4294967295]long:[1..96]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.When LMT/OMCB actively configures the device type or the reported device type is scanned, the user selects the type of devices as needed.When LMT/OMCB actively configures the device type or the reported device type is scanned, the user fills in the vendor code.When LMT/OMCB actively configures the device type or the reported device type is scanned, the user fills in the AISG version number.255:Invalid.The AISG1.1 and AISG2.0 Single RET decives are invalid. For other AISG2.0 devices, each subunit number corresponds to an AISG device that can be controlled separately.Indicates the user-defined description.Cannot use the invalid characters, e.g. < > & ' " \ / : ? # % @ ,Indicates the superior channel, used for SDTMA device of NSN private protocol. The value for other devices is 0.Indicates the local channel, used for SDTMA device of NSN private protocol. The value for other devices is 0.Specifies the connected RET device.The connected RET and TMA are mutually excluded.Specifies the connected TMA control unit.The connected TMA and RET are mutually excluded.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-IR-IR-IR-IR-WR-IR-IRR


FanDeviceModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoFanDeviceIdfanNoModify IndicationSubnet IDManagedElement IDControl Board Rack No.Control Board SubRack No.Control Board Slot No.RDNFan No.A,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long:[1..23]long:[1..4294967295]long:[1..16]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.FCE fan number starts from 1,2,3... In BBU-2U, the fixed SA fan number is 16.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-I


EthernetSwitchDeviceSetModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoisSyncEEnablepllResouceenableTrunktrunkMediaTypeupLinkMediaModeenableFEMultiPathqueuePriority#1queuePriority#2queuePriority#3queuePriority#4queuePriority#5queuePriority#6queuePriority#7queuePriority#8queuePriority#9queuePriority#10queuePriority#11queuePriority#12queuePriority#13queuePriority#14queuePriority#15queuePriority#16queuePriority#17queuePriority#18queuePriority#19queuePriority#20queuePriority#21queuePriority#22queuePriority#23queuePriority#24queuePriority#25queuePriority#26queuePriority#27queuePriority#28queuePriority#29queuePriority#30queuePriority#31queuePriority#32queuePriority#33queuePriority#34queuePriority#35queuePriority#36queuePriority#37queuePriority#38queuePriority#39queuePriority#40queuePriority#41queuePriority#42queuePriority#43queuePriority#44queuePriority#45queuePriority#46queuePriority#47queuePriority#48queuePriority#49queuePriority#50queuePriority#51queuePriority#52queuePriority#53queuePriority#54queuePriority#55queuePriority#56queuePriority#57queuePriority#58queuePriority#59queuePriority#60queuePriority#61queuePriority#62queuePriority#63queuePriority#64Modify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.Send SyncE Clock to The Cascade Device or notPLL Clock Reference SourceEnable Link Aggregation or notLink Aggregation Media TypeMedia Access Type at Uplink InterfaceEnable FE Multi-path Transmission or notQueue Priority 1Queue Priority 2Queue Priority 3Queue Priority 4Queue Priority 5Queue Priority 6Queue Priority 7Queue Priority 8Queue Priority 9Queue Priority 10Queue Priority 11Queue Priority 12Queue Priority 13Queue Priority 14Queue Priority 15Queue Priority 16Queue Priority 17Queue Priority 18Queue Priority 19Queue Priority 20Queue Priority 21Queue Priority 22Queue Priority 23Queue Priority 24Queue Priority 25Queue Priority 26Queue Priority 27Queue Priority 28Queue Priority 29Queue Priority 30Queue Priority 31Queue Priority 32Queue Priority 33Queue Priority 34Queue Priority 35Queue Priority 36Queue Priority 37Queue Priority 38Queue Priority 39Queue Priority 40Queue Priority 41Queue Priority 42Queue Priority 43Queue Priority 44Queue Priority 45Queue Priority 46Queue Priority 47Queue Priority 48Queue Priority 49Queue Priority 50Queue Priority 51Queue Priority 52Queue Priority 53Queue Priority 54Queue Priority 55Queue Priority 56Queue Priority 57Queue Priority 58Queue Priority 59Queue Priority 60Queue Priority 61Queue Priority 62Queue Priority 63Queue Priority 64A,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long:[1..23]1:Y,0:N1:supplyed by upper port line,2:supplyed by main control board1:Y,0:N0:Electrical port,1:Optical port0:Electrical port preferred,1:Optical port preferred,2:Forced electrical port,3:Forced optical port1:Y,0:Nlong:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]long:[0..3]

A:Add, P:PassSame in an OMMB.Unique in subnetwork.When this function is enabled, the user needs two upper-united ports.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-I


EthernetSwitchDeviceModIndOMCSUBNETIDSDRMEIDrackNosubRackNoslotNoEthernetSwitchDeviceIdportisEnableportModeoperatingModeingressRateSwitchingressBitRateegressRateSwitchegressBitRatevlanMembership#1vlanMembership#2vlanMembership#3vlanMembership#4vlanMembership#5vlanMembership#6vlanMembership#7vlanMembership#8vlanMembership#9vlanMembership#10ingressRateLimitModeModify IndicationSubnet IDManagedElement IDRack No.SubRack No.Slot No.RDNPort IDEnable Port or notWorking Type of the PortLink ModeEnable Ingress Rate Limitation or notIngress Rate LimitEnable Egress Rate Limitation or notEgress Rate LimitVLAN Group ID 1VLAN Group ID 2VLAN Group ID 3VLAN Group ID 4VLAN Group ID 5VLAN Group ID 6VLAN Group ID 7VLAN Group ID 8VLAN Group ID 9VLAN Group ID 10Rate Limit Mode of ImportA,Plong:[0..4095]long:[0..65535]{SdrDeviceGroup_rackNo}long:[1..201]{SdrDeviceGroup_subRackNo}long:[1..2]{SdrDeviceGroup_slotNo}long:[1..23]long:[1..4294967295]0:Electrical port X1 of the panel,1:Electrical port X2 of the panel,2:Electrical port X3 of the panel,3:Electrical port UPLINK of the panel,4:Optical port X4 of the panel,5:Optical port UPLINK of the panel,6:SGMII port CC1 of the back board,7:SGMII port CC2 of the back board0:Close,1:Open0:Cascade port,1:Upper-united port0:Self Negotiation,6:100Mbps FDT,7:1000Mbps FDT,8:1000Mbps Self Negotiation1:Y,0:Nlong: [560..1000000]1:Y,0:Nlong: [70..250000]long: [1..10]long: [1..10]long: [1..10]long: [1..10]long: [1..10]long: [1..10]long: [1..10]long: [1..10]long: [1..10]long: [1..10]0:Limit and count all frames,1:Limit and count broadcast/multicast and flooding frame,2:Limit and count broadcast and multicast,3:Limit and count broadcast

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Port configuration of the board, port functions vary with port type, including optical ports, electrical ports, and switching ports.Indicates whether to open and enable the port. This item is invalid when the port is configured as [backboard SGMII interface CC1 interface] or [backboard SGMII interface CC2 interface].Indicates the port mode. The Upper-united port connects to RNC/BSC/CN, while Cascade port connects to the subordinate SDR.General value:0Self Negotiation mode is the mode that is automatically adaptable to the other end.Different mode is configured on different type of port. When the port type is electrical port, self adaptive or 100M FDT can be selected only; when the port type is optical port, self adaptive cannot be selected; when the port type is back board SGMII port type, this attribute cannot be configured. "Self-adaptive" means network port rate can be automatically adapted to 10M, 100M or 1000M. "1000M self-adatpive" means optical port can be automatically adapted to a suitable duplex mode.Unit: kbpsUnit: kbpsSpecifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Specifies a VLAN group ID for the current port. Port 6 (SGMII port CC1 port on the backplane) and port 7(SGMII port CC2 port on the backplane) can not be configured in the same VLAN group.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-W-IR-WR-WR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-I


VsOamModIndOMCSUBNETIDSDRMEIDenableEnergySavingenableIntelligenceModestartTimeendTimeenableAutoConnectionautoConnectionMode#1autoConnectionMode#2autoConnectionMode#3linkBrokenTolerantTimeselfProtectTimeidTypeenableBypassenableUdpMuxModify IndicationSubnet IDManagedElement IDEnable Open Accumulator-saving Mode or notEnable Smart Power-saving Mode or notStart Time of Smart Power-saving ModeEnd Time of Smart Power-saving ModeAutomatic Connection TypeAutomatic Connection Mode 1Automatic Connection Mode 2Automatic Connection Mode 3Link Broken Tolerant TimeBase Station Reset Time After Self-rescue from A FaultNegotiation entity ID typeEnable Bypass or notEnable UDPMUX Mode or notA,Plong:[0..4095]long:[0..65535]1: Y,0: N1: Y,0: Nstring:[0..20]string:[0..20]0:Close,1:Enable automatic construction of chain,2:Enable auxiliary construction of chain1:Try ATM mode,2:Try PPP mode,4:Try Ethernet mode1:Try ATM mode,2:Try PPP mode,4:Try Ethernet mode1:Try ATM mode,2:Try PPP mode,4:Try Ethernet modelong: [3..300]long:[15..65535]1: IPv4 Address Type,2: FQDN Type1:Y,0:N0:Disable UdpMux,1:Enable Gsm and Umts UdpMux,2:Enable Gsm UdpMux,3:Enalbe Umts UdpMux

A:Add, P:PassSame in an OMMB.Unique in subnetwork.If the external power supply of the base station is faulty, the standby power supply is used to guarantee the base station performance.When smart power-saving mode is started, the user should configure power-saving start time and end time. During power-saving, the mode will block low guarantee local cell, and the corresponding baseband board and PA will be powered-down. It is an energy saving and consumption-reducing strategy when the base station service is free (tide effect).It is valid when starting smart power-saving mode. The start time must be not equal to the end time.Format:HH:MMIt is valid when starting smart power-saving mode. The end time must be not equal to the start time.Format:HH:MMAutomatic link establishment switch. The automatic link establishment function means that the base station automatically attemtps establishing the O&M channel on various physical media between OMCs.It sets on which physical media the automatic link establishment is attempted. Selecting the transmission mode precisely can accelerate the automatic link establishment. At least one attemption mode should be selected.Cannot be the same with previous column.It sets on which physical media the automatic link establishment is attempted. Selecting the transmission mode precisely can accelerate the automatic link establishment. At least one attemption mode should be selected.Cannot be the same with previous column.It sets on which physical media the automatic link establishment is attempted. Selecting the transmission mode precisely can accelerate the automatic link establishment. At least one attemption mode should be selected.Unit: minute.It sets when the automatic link establishment is started. The base station starts the automatic link establishment if the broken duration of the following parameters exceed this value: transmission layer control link (SCTP, SSCOP), LMT O&M channel, and OMC O&M channel.Unit: minute. It sets the self-resetting time of the base station self-resetting function. The self-resetting function of base station means that, when the broken duration of the transmission layer control link (SCTP, SSCOP), LMT O&M channel, and OMC O&M channel exceed this parameter value, the base station performs self-resetting to solve the broken link problem that might be caused by hardware fault.Negotiate entity ID load type.Enable bypass or not. When daisy chain cascading is used, the upper level BBU provides automatic bridging function. If the upper level BBU is powered-down or abnormal, the E1 connected to BSC/RNC can be transported to lower level BBU. So it can reduce the influence range by faults.When UDPMUX mode is enabled, base station supports the function to encapsulate multi-UDP packets into a big packet to reduce the number of packets and increase transmission efficiency. If UDPMUX is disabled, the packages cann't be merged.This attribute value should be consistent with the RNC's, otherwise UDP package will be lost.Return To IndexPrimary KeyPrimary KeyR-W-IR-W-IR-WR-WR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-I


ItfUniBtsModIndOMCSUBNETIDSDRMEIDItfUniBtsIditfUniBtsNoitfUniBtsTypeinnerIpgatewayIpomcServerIpomcNetworkMaskdscpipoaAddritfUniBtsClassrefIpLayerConfig_ipNorefSaalUni_pvcNoModify IndicationSubnet IDManagedElement IDRDNOMC Interface Link No.Type of Operation and Maintenance InterfaceBase Station Inner IPOMC Gateway IPOMC Server IPOMC Network MaskDSCPIPOA AddressClass of Operation and Maintenance InterfaceUsed IPUsed SaalUniA,Plong:[0..4095]long:[0..65535]long: [1..3]long:[0..2]0:IPINIP,1:IPOA,2:Independent Networkingipv4ipv4ipv4ipv4long:[0..63]ipv40:Master,1:Slavelong:[0..19]long:[64490,64500..64516]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.itf-UniBts packet encapsulation type, IPINIP, IPOA (used in the ATM mode) or IP (independent networking). The O&M packet can use IPINIP mode or IPOA mode through RNC/BSC resolution transferring. The O&M packet can use the independent networking mode without RNC/BSC resolution.It is the inner IP address of base station configured in the IPINIP mode. It is used for OMC, and is an interconnection parameter (interconnected with OMC).It is the IP address of OMC gateway configured in the IPINIP mode. The O&M packet is forwarded to the OMC server through the gateway (in RNC/BSC).IP address of the OMC server configured in the independent networking mode.Subnet mask of the OMC server configured in the independent networking mode.The transmission quality priority of O&M packet. It is set by the user. It is recommendedto set it to "46:EF service, accelerated forwarding, minimum delay, and maximum flow".IP address in the IPOA transmission mode. It is set by the user, and is an interconnection parameter. If it is set to 0.0.0.0, it indicates that the IP address is obtained automatically.Active/standby status of the Itf-UniBts channel. OMC sets the status according to the actual condition.Configure as IP link No. "ipNo" of IpLayerConfig object.Configure as Pvc No. "pvcNo" of SaalUni object.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-IRRRRR-W-IRR-IRRA454180010.201.22.144460


OperatorModIndOMCSUBNETIDSDRMEIDOperatorIdoperatorNameuserLabelcePercentModify IndicationSubnet IDManagedElement IDRDNOperator NameOperator InformationCE Percent(%) Associated to An OperatorA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]string: [0..127]string: [0..127]long:[0..100]

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Cannot use the invalid characters, e.g. < > & ' " \ / : ? # % @ ,It is the percentage of the operator in CE. The total of all the CE percentages is not larger than 100%.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-WR-IA45418BSNL


PlmnModIndOMCSUBNETIDSDRMEIDoperatorNamePlmnIdmccmncModify IndicationSubnet IDManagedElement IDOperator NameRDNMCCMNCA,Plong:[0..4095]long:[0..65535]{Operator_operatorName}string: [0..127]long:[1..3]string:[3..3]string:[2..3]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.The Mobile Country Code of a PLMN identity used in the radio network. Only can config with numeric character.The Mobile Network Code of a PLMN identity used in the radio network. Only can config with numeric character.Return To IndexPrimary KeyPrimary KeyPrimary KeyPrimary KeyR-IR-I


TransportNetworkModIndOMCSUBNETIDSDRMEIDModify IndicationSubnet IDManagedElement IDA,Plong:[0..4095]long:[0..65535]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Return To IndexPrimary KeyPrimary KeyA45418

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PhyLayerPortModIndOMCSUBNETIDSDRMEIDPhyLayerPortIdphyLayerPortNoconnectObjectoperatingModeegressPeakBitRaterefE1Device_subRackNorefE1Device_slotNorefE1Device_portrefT1Device_subRackNorefT1Device_slotNorefT1Device_portrefGeDevice_subRackNorefGeDevice_slotNorefGeDevice_portModify IndicationSubnet IDManagedElement IDRDNPhysical Layer Port No.Connection ObjectOperating ModeTransmitting BandwidthUsed E1 Board SubRack No.Used E1 Board Slot No.Used E1 Port IDUsed T1 Board SubRack No.Used T1 Board Slot No.Used T1 Port IDUsed Ethernet Board SubRack No.Used Ethernet Board Slot No.Used Ethernet Board Port IDA,Plong:[0..4095]long:[0..65535]long:[1..4294967295]long:[0..17]0:RNC/BSC/CN,1:SDR,2:Third-party0:Self Negotiation,1:Electrical port 10Mbps FDT,2:Electrical port 100Mbps FDT,3:Optical port 1000Mbps FDT,4:Optical port 100Mbps FDTlong:[100..1000000]long:[1..2]13:SA,5:SE,14:SE,1:TRB-G904/TRB-G184 etc.long: [0..7]long:[1..2]13:SA,5:SE,14:SE,long: [0..7]long:[1..2]long: [1..8]longA:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Opposite network element connected by the object. In the case of base station cascading, set this property of upper-level base station to be "SDR". If its value is set as a third-party device, it indicates that the base station provides the data transmission channel for the third-party device in ATM+FE cascading cases.Ethernet bearer is valid. General value: 0.Ethernet bearer is valid. Unit: kbps.{operatingMode==0}[100,1000000] step 100,{operatingMode==1}[100,10000] step 100,{operatingMode==2}[100,100000] step 100,{operatingMode==3}[100,1000000] step 100,{operatingMode==4}[100,100000] step 100

General value:{operatingMode==0}[100000],{operatingMode==1}[10000],{operatingMode==2}[100000],{operatingMode==3}[100000],{operatingMode==4}[100000]E1 bearer used at the port. It is used in ATM transmission mode or IP over PPP transmission mode.E1 bearer used at the port. It is used in ATM transmission mode or IP over PPP transmission mode.E1 bearer used at the port. It is used in ATM transmission mode or IP over PPP transmission mode.T1 bearer used at the port. It is used in ATM transmission mode or IP over PPP transmission mode.T1 bearer used at the port. It is used in ATM transmission mode or IP over PPP transmission mode.T1 bearer used at the port. It is used in ATM transmission mode or IP over PPP transmission mode.Ethernet used at the port. It is used in IP transmission mode.Ethernet used at the port. It is used in IP transmission mode.Ethernet used at the port. It is used in IP transmission mode.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-IR-WR-WRRRRRRRRRA45418001130


DhcpRelayModIndOMCSUBNETIDSDRMEIDDhcpRelayIddhcpRelayNorefPhyLayerPort_phyLayerPortNorefEthernetLink_ethernetLinkNovidenableDhcpRelaydhcpServerIpModify IndicationSubnet IDManagedElement IDRDNDHCP Relay No.Used Physical PortUsed Ethernet LinkVLAN IDEnable DHCP Relay Function or notDHCP Server AddressA,Plong:[0..4095]long:[0..65535]long: [1..1]long: [0..3]long:[0..17]long:[0..0]long: [1..4094]1:Y,0:NIPV4

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Physical port used. Its bearer must be Ethernet. This port and EthernetLink are mutually exclusive.Ethernet link used. This port and PhyLayerPort are mutually exclusive.VLAN used. You can select a configured VLAN from refEthernetLink.Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IRRRR-W-IR-W-I


AtmLayerLinkModIndOMCSUBNETIDSDRMEIDAtmLayerLinkIdatmLayerLinkNoprotocolTypeisScrambimaNoframeLenclockModerefPhyLayerPortNo#1refPhyLayerPortNo#2refPhyLayerPortNo#3refPhyLayerPortNo#4refPhyLayerPortNo#5refPhyLayerPortNo#6refPhyLayerPortNo#7refPhyLayerPortNo#8refPhyLayerPortNo#9refPhyLayerPortNo#10refPhyLayerPortNo#11refPhyLayerPortNo#12refPhyLayerPortNo#13refPhyLayerPortNo#14refPhyLayerPortNo#15refPhyLayerPortNo#16timeSlotBitMap#1timeSlotBitMap#2timeSlotBitMap#3timeSlotBitMap#4timeSlotBitMap#5timeSlotBitMap#6timeSlotBitMap#7timeSlotBitMap#8timeSlotBitMap#9timeSlotBitMap#10timeSlotBitMap#11timeSlotBitMap#12timeSlotBitMap#13timeSlotBitMap#14timeSlotBitMap#15timeSlotBitMap#16timeSlotBitMap#17timeSlotBitMap#18timeSlotBitMap#19timeSlotBitMap#20timeSlotBitMap#21timeSlotBitMap#22timeSlotBitMap#23timeSlotBitMap#24timeSlotBitMap#25timeSlotBitMap#26timeSlotBitMap#27timeSlotBitMap#28timeSlotBitMap#29timeSlotBitMap#30timeSlotBitMap#31timeSlotBitMap#32Modify IndicationSubnet IDManagedElement IDRDNATM Layer Link No.Protocol Type of ATM LayerScrambling or notIMA Link No.Length of FrameClock ModeUsed ATM Port 1Used ATM Port 2Used ATM Port 3Used ATM Port 4Used ATM Port 5Used ATM Port 6Used ATM Port 7Used ATM Port 8Used ATM Port 9Used ATM Port 10Used ATM Port 11Used ATM Port 12Used ATM Port 13Used ATM Port 14Used ATM Port 15Used ATM Port 16TS-bit Mapping Relation 0TS-bit Mapping Relation 1TS-bit Mapping Relation 2TS-bit Mapping Relation 3TS-bit Mapping Relation 4TS-bit Mapping Relation 5TS-bit Mapping Relation 6TS-bit Mapping Relation 7TS-bit Mapping Relation 8TS-bit Mapping Relation 9TS-bit Mapping Relation 10TS-bit Mapping Relation 11TS-bit Mapping Relation 12TS-bit Mapping Relation 13TS-bit Mapping Relation 14TS-bit Mapping Relation 15TS-bit Mapping Relation 16TS-bit Mapping Relation 17TS-bit Mapping Relation 18TS-bit Mapping Relation 19TS-bit Mapping Relation 20TS-bit Mapping Relation 21TS-bit Mapping Relation 22TS-bit Mapping Relation 23TS-bit Mapping Relation 24TS-bit Mapping Relation 25TS-bit Mapping Relation 26TS-bit Mapping Relation 27TS-bit Mapping Relation 28TS-bit Mapping Relation 29TS-bit Mapping Relation 30TS-bit Mapping Relation 31A,Plong:[0..4095]long:[0..65535]long: [1..12]long:[0..11]0:IMA,1:TC1:Y,0:Nlong:[0..3]0:32cell,1:64cell,2:128cell,3:256cell1:ITC,2:CTC{refPhyLayerPort_phyLayerPortNo#1}long:[0..17]{refPhyLayerPort_phyLayerPortNo#2}long:[0..17]{refPhyLayerPort_phyLayerPortNo#3}long:[0..17]{refPhyLayerPort_phyLayerPortNo#4}long:[0..17]{refPhyLayerPort_phyLayerPortNo#5}long:[0..17]{refPhyLayerPort_phyLayerPortNo#6}long:[0..17]{refPhyLayerPort_phyLayerPortNo#7}long:[0..17]{refPhyLayerPort_phyLayerPortNo#8}long:[0..17]{refPhyLayerPort_phyLayerPortNo#9}long:[0..17]{refPhyLayerPort_phyLayerPortNo#10}long:[0..17]{refPhyLayerPort_phyLayerPortNo#11}long:[0..17]{refPhyLayerPort_phyLayerPortNo#12}long:[0..17]{refPhyLayerPort_phyLayerPortNo#13}long:[0..17]{refPhyLayerPort_phyLayerPortNo#14}long:[0..17]{refPhyLayerPort_phyLayerPortNo#15}long:[0..17]{refPhyLayerPort_phyLayerPortNo#16}long:[0..17]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]long: [0..1]A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.Object protocol type represented by MO. It must be consistent with that at the opposite end.IMA protocol parameter. It indicates whether to enable the descrambling processing for the cell net load. It must be consistent with the configuration at the opposite end device. General value:0It is valid when protocol type of ATM layer is IMA.IMA group number, which is unique within a network element. General value: 0.It is valid when protocol type of ATM layer is IMA. Frame length of IMA group. It must be consistent with the configuration at the opposite end. General value: 2.It is valid when protocol type of ATM layer is IMA. Clock mode of IMA group. It is recommended that it should be consistent with the configuration at the opposite end. General value: 1.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.Physical-layer port of IMA. If the protocol type is TC, only one refPhyLayerPort port can be configured. If the protocolt type is IMA, all ports within the IMA group are included.It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1.It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1.It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1It is valid when protocol type of ATM layer is TC.E1 or T1 timeslot used by TC. Each bit within the value range represents a timeslot. 0 indicates not using the timeslot while 1 indicates using the timeslot. For E1, the timeslot configured can be 1 ~ 31. For T1, the timeslot configured can be 1 ~ 24. It must be fill in with 0 or 1Return To IndexPrimary KeyPrimary KeyPrimary KeyR-IR-IR-WRR-WR-WR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-W-IR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-WR-W


Aal2ModIndOMCSUBNETIDSDRMEIDAal2IdpvcNopathIdvpivcirefAtmLayerLink_atmLayerLinkNotrafficProfile_maxOutBitRatetrafficProfile_aveOutBitRatetrafficProfile_minOutBitRatetrafficProfile_maxInBitRatetrafficProfile_aveInBitRatetrafficProfile_minInBitRatetrafficProfile_serviceCategoryadminStateModify IndicationSubnet IDManagedElement IDRDNPvc No.AAL2 Link IDVPIVCIUsed ATM Layer ProtocolMaximum Transmitting BandwidthAverage Transmitting BandwidthMinimum Transmitting BandwidthMaximum Receiving BandwidthAverage Receiving BandwidthMinimum Receiving BandwidthService TypeManual Operation FieldA,Plong:[0..4095]long:[0..65535]long: [1..50]long:[1..50]long: [1..4294967295]long: [0..255]long: [8..65535]long:[0..11]{trafficProfile_maxEgressBitRate}long: [0..30000]{trafficProfile_averageEgressBitRate}long: [0..30000]{trafficProfile_minEgressBitRate}long: [0..30000]{trafficProfile_maxIngressBitRate}long: [0..30000]{trafficProfile_averageIngressBitRate}long: [0..30000]{trafficProfile_minIngressBitRate}long: [0..30000]0:SRVC_CBR,1:SRVC_RTVBR,2:SRVC_NRTVBR,3:SRVC_UBR,4:SRVC_ABR,5:SRVC_OTHER0:No Manual Operation,1:Block,2:Disabled,4:Powered-down,65536:Block Smoothly

A:Add, P:PassSame in an OMMB.Unique in subnetwork.Generated automatically, it is unnecessary to fill in this column.PVC number of AAL2. It must begin from 1 and must be consecutive. It is typed by the user.Path ID of the AAL2 link. It must begin from 1

18_444_2g_e1_mo

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