Error Sheet: PA Notice: Select Radio Standard, Transmission Type or Special Scene, click on the "Generate Template" button, to obt corresponding template. "Generate Template" button, to obtain the You must fill in accordance with the instructions of the 3 and 4 lines.60 DataType: sdr3 1.When the parameter is not included W attribute can not be modified Primary Key:Must be filled. All enumerated type field.Can combination with W and I attribute. other fields fill in the displayed value. 3. W:Can be modified. R:Read-only parameter. Can not be modified.13. The 5 line is the attribute of field. .NeType: Multi-Mode base station Template Type: Plan Template Version: V12.Can combination with R Instructions: and I attribute. 2. all parameters have this property. I:Must be filled in template. parameters can be modified.When the parameter property contains W. fill in the memory value. Import Management Object Name Index Radio mode feature sequence Managed Network Element ManagedElement 1 All Cabinet Cabinet 2 All Equipment Equipment 3 All IP Clock Parameters IpClock 32 All Clock Device Clock 33 All RU RU 4 All Optical Port Device FiberDevice 5 All PA PA 6 All FCE Board FCE 7 All Dry Contact Device DryContact 8 All TMA Device Tma 9 All AISG Device AISG 18 All Power Outlet PowerOutlet 10 All External Device EPm 11 All Antenna Entity Object AntEntity 16 All Fiber Cable and Ethernet Cable 12 All Interface Cable RF Cable RfCable 17 All . TDS OMC Channel OmcChannel 30 All Service and DSCP Mapping ServiceMap 31 All Antenna Attribute Object AntProfile 15 TDS and TDL Ir Antenna Group Object IrAntGroup 20 TDS and TDL TCP Tcp 34 CDMA Bidirectional Forwarding Bfd 35 All Detection IKE Policy Object IKEPolicy 36 All IPSec Proposal Object IPSecTransformSet 37 All IPSec Security Policy Database IPSecSpd 38 All Object .RF Extend Cable RfExtendCable 19 GU and CDMA Transmission Network Transmission 22 GU and TDS Physical Layer Port PhyLayerPort 21 All HDLC Channel Hdlc 23 GU and CDMA PPP Link Ppp 24 GU and CDMA IP Layer Configuration IpLayerConfig 25 All DSCP to COS Mapping DscpCosMap 26 All Static Routing Configuration StaticRoute 27 All BandwidthResource BandwidthResource 28 All SCTP Sctp 29 GU. LTE. IPSec Configuration Object IPSecConfig 39 All Certificate Management Protocol CmpConfig 40 All Configuration Certificate Revocation List CrlConfig 41 All Configuration Channelized STM-1 ChannelizedStm1 42 TDS ATM Layer Link AtmLayerLink 43 TDS . It represents external device. Only for M operator. It represents the the RU device planning. Refer to 3GPP TS32. It represents the configruation of the slave cabinet. It is created while create a RU. referring to the baseband unit (BBU) and Remote Unit(RU). It represents the configruation of the fiber device. or referring to the connection between two BBUs in stack mode. that is. Indicates radio frequency (RF) feeder cable resources. the network element. Only for M operator. and for the signal amplification of TMA. the last attribute is configured auxiliary cabinet number.Remarks It represents the SDR base station in the wireless netork. Currently it only exists on the SA. Ethernet Interface Cable indicates the connection between BOP and PicoRU. It represents the connection between the RF interface of a remote unit (RU) and the antenna/tower mounted amplifier (TMA). It represents the board planning of the BBU device. It represents a power outlet. It represents the clock reference source. It only exists on the TAM board and RU currently. it is an abstract of the AISG control port. It represents the power amplifier in the remote unit (RU). FCE boards and radio frequency boards. Fiber Cable indicates the optical fiber resources. The master cabinet is created while creating ME. The auxiliary cabinet is created while creating FCE of the auxiliary cabinet.622. TMA control object is used to configure complementary tower amplifier gain and other parameters. It represents a dry contact port. It represents the AISG device object. slave or auxiliary cabinet of FCE can be configured. such as embedded power and shelter. It represents the TMA object. It is used for RET to control the antenna tilt. The master. It represents the physical entity of the antenna. providing services and management functions. It represents the fan control and environmental monitoring board. It represents parameter configuration related to IEEE1588 clock. It is created while create a RU. . It is the root of all MO nodes. SE. It represents the IR antenna group. It represents the O&M interface between NE and MNS. Represents the HDLC protocol. It represents the IP-layer configuration. The system creates default data. It is used for signaling transmission in the IP network. It represents the connection between two RU RF ports (RxOut and RxIn). Itf-B connection is implemented either through direct connection or through the connection with RNC/BSC. Itf-B (OMCB channel). T1. Refer to the protocol RFC4301 and RFC4306.101. . that is. new data created by user can not duplicate with default data. Refer to the protocol RFC4301 and RFC4306. It represents the antenna attribute. refer to 3GPP TS32. Represents the PPP protocol. It represents the transmission resource of the network element. Multi-mode need cofigure. For detailed information. including interfaces. It provides a stable and sequential data transmission service between two endpoints. data link. It represents the physical layer of IP or ATM transmission protocol.Indicate the radio frequency (RF) extended cable resources. IPSec security policy database object. IKE policy object. Configure service and DSCP mapping. and routing protocols. data protocols. It represents static route configuration. Bidirectional Forwarding Detection RFC5880 (BFD) is a protocol intended to detect faults in the bidirectional path between two forwarding engines. The BFD operations are independent of media. filter out the default data while export planning data. and potential low-delay faults of the forwarding engine. It is the root node of all transmission resource. It is used to divide bandwidth. It is used for signaling transmission in the IP network. and Ethernet. Data transmission is implemented through the point-to-point connection established through dialing or dedicated cable. It represents the SCTP protocol (RFC 2960:Stream Control Transmission Protocol). The physical layer bearer includes E1. It provides a stable and sequential data transmission service between two endpoints. IPSec proposal object. The mapping of DSCP on IP layer to Ethernet on link layer indicates the converting relationship of the QoS on IP layer to link layer. It represents the TCP protocol (RFC 793:Transmission Control Protocol). See protocol RFC4301 and RFC4306. Describe the congiruation information obtained by base station via CMP protocol.IPSec configuration object. It represents the Channelized STM-1. . Refer to the protocol RFC4301 and RFC4306. Describe that base station obtains certification revocation list through LDAP protocol to realize the function of verification certification. This helps users to apply for and update Certificate. for ATM trasmission. for ATM trasmission. It represents the ATM layer link . EnvMonDevice.BpDevice.EnvMonDeviceSet. also create: McDeviceSet. also create: FanDeviceSet.GeDeviceSet.ActDeviceSet.AuxUnit For BS8900B.ActDeviceSet. because the system will delete 15 theAntenna Entity Object data while delete IrAntGroup.SdrDeviceGroup. also create: PmDeviceSet. IrAntGroup create the Antenna Entity Object. it need not be configured in the sheet.FanCtrlActDevice ClockDeviceSet.RfDeviceSet.RfDevice. the user need not set "D" in the sheet.ManagedElement.want to create new cabinet. .DryContactDeviceSet.RxChannel. RC8910B-7-RC is jointly created. 3 BPL board.Equipment.SdrDeviceGroup. Sheet Associated MO sequence SubNetwork.RstActDevice. CC board.PoRstA ctDevice. PM UDPboard. also create: BpDeviceSet.TxCh annel.McDevice. the user need not set "D" in the sheet.PmDevice 4 FAN board.Pa. it need not be configured in the sheet.NEManagedElement.GeDevice. RC8910B-9-RC is jointly created.Slot. cabinetNo can not be set to 2. IrAntGroup create the RfCable between the ant and the RF port.ActDevice.FiberDeviceSet.StatRefreshActDevice.BlockActDevice.PoRstActDevice. if user HwInfoQryActDevice. 16 If the radio mode is TDS or TDL. 7 8 If FCE is a FCE of auxiliary cabinet.FanDevice.FiberDeviceSet.HwInfoQry 6 ActDevice. 9 10 11 12 13 14 If the radio mode is TDS or TDL.when "CABINETTYPE" is RC8910B-9-BC. because 19 the system will delete the RfCable data while delete IrAntGroup.Sub 1 Rack.DryContactDevice.ActDevice.StatRefreshActDevice.ClockDevice 5 PlugInUnit.Rack. 2 this case. when "CABINETTYPE" is RC8910B-7-BC.AisgDeviceSet.RstActDevice.ConfigSet.Cabinet. create the auxiliary cabinet by auxiliary cabinet number.In PlugInUnit.EnvMonDevice.EnvMonDeviceSet. 29 30 If the "radioMode" attribute of the "IpLayerConfig "sheet is filled. crate S1AP or X2AP. except LTE. 20 21 22 If the attribute related to TSI is filled. the system will create the corresponding "ServiceMap" record. 32 AntEntity. the system will create the corresponding BtsCascade 23 record. need not fill this sheet. 24 If the attribute is filled.BandwidthResource 28 If radio mode is LTE. 26 27 BandwidthResourceGroup.RfCable 33 34 UDP 35 IPSecGLConfig 36 37 38 . need 25 not fill "ServiceMap" sheet. 31 except LTE. 39 40 41 42 43 . Primary Key Primary Key 41 27 . D:Delete.999999] long:[0. It M:Modify.. RESULT MODIND SubNetwork MEID Modification SubNetwork ID ManagedElement ID Indication Result A. Unique identification of the NE.999999999] S:Success F:Fail A:Add.D..M long:[0. SubNetwork ID is used to distinguish different P:Pass NEs. 30) BS8900 BS8700 Z02USG. multimode format.128] 1:UMTS{UMTS}.14. RADIOMODE SWVERSION METYPE BS8700 CS200 Radio Standard NE Version BS8900A NE Type BS8906 BS8900B ZXSDR BC8900S sequence<long. eg:GU->GUL. BS8912 U2100. must be configured BS8800 GU360.2 UniRan 12.3(GU V4... BS8900 Z01S80. 32:TD-LTE{LTE TDD} Software version of network element. B8901B 8:CDMA{CDMA}. BS8800 U120. 8> string:[0. B8901A 4:TD-SCDMA{TD-SCDMA}. ensure RADIOMODE and BS8900 U240. together. The value is related with R-W-Ibe configured R-W-I BS8900 Z01S18. mode to another radio mode. together.128] BS8906E string:[0. 16:LTE FDD{LTE FDD}. it can be modified. BS8900. must 1. It can not be modified from a radio BS8800 U120A. BS8912. BS8908. BS8900 GU360.BS8112.R-I SWVERSION. eg: 4. BS8912 U2100 BS8922 T1900(A5A) BS8922 T2300(A5A) BS8922 T2600(A5A) BS8922 T2600U(A5A) .32 The value is related with BS8800 U240. modified. BS8912 2:GSM{GSM}.10. SWVERSION match exactly. Only expanding radio mode can be RADIOMODE. 5:Integration Cannot use invalid is colon hexadecimal notation. It can Geographical information be IPv4 address or IPv6 address. R-I R-W-I R-W R-W R-W 0 10. it can be 4:B8300 which is input by user.65535] IP address of the base station.30 POPA POPA 41 ..72.e.128] string:[0. i. IPv4 address format is dotted decimal information. notation. IPv6 address Cannot use invalid filled.0. BBUTYPE MEADDR USERLABEL LOCATIONNAME RNCID BBU Type NE Master External IP NE Name Network Element Address UMTS RNC ID long string:[0..e. 10. If UMTS..1.128] string:[0.0. character `~!?@ Home RNC ID 9:B8210 character `~!?@ 2011:0db8:85a3:0000:1319:8a2e:037 %^*|\/&'"<> %^*|\/&'"<> 0:7366. i.128] long:[0.. the User-defined 0:B8200 of the network element.10. .180] double:[-90. point is retained. it can it creat BtsFunction network topology in topology in the filled. value is as same as create. eg:20. If the network network management Home RNC ID filled.. it will for displaying the displaying the network If TDS. it won't management system. TRNCID NODEBID GBSCID SITEID LONGITUDE LATITUDE TD-SCDMA RNC NodeB ID GSM BSC ID GSM station ID Longitude Latitude ID long:[0.056921 R-W R R-W R R-W R-W 65535 5025 1 27 28..973617 -29.266206 .If it's not be filled.65535] long:[0. the default Home BSC ID not filled..90] Longitude of the Latitude of the network network element. which is used which is used for create If it's filled.65535] long:[0. point is retained.. 6 after the decimal 6 after the decimal MEID. it can be NodeBFunction If GSM. it will element. system.65535] long:[1.056921 eg:20. with this value. anyway.65534] double:[-180.. If UMTS. 9:00}. 0:GMT .3:00}. 40:GMT + 8:00{GMT + 8:00}.5:00}. 17:GMT . separated by . between multiple PLMN of an operator.8:00}. The address of the NTP server. 36:GMT + 6:00{GMT + 6:00}.4:00}.Operator 20:GMT .5:00{GMT .4:00{GMT long . . 15:GMT . 6:GMT .6:00}. 8:GMT .1:00{GMT .1:00}. 18:GMT . 46:GMT + 11:00{GMT + 11:00}.2:00{GMT . 38:GMT + 7:00{GMT + 7:00}.0:00{GMT .11:00}.. 48:GMT + 12:00{GMT + 12:00}.3:00{GMT . can add.2:00}.4:30}. M operation. 31:GMT + 3:30{GMT + 3:30}. cannot modify the operator name or PLMN. 43:GMT + 9:30{GMT + 9:30}.0:00}.10:00{GMT timeZone. eg: CMCC#460#01 24:GMT . separated by 28:GMT + 2:00{GMT + 2:00}. 14:GMT . string string[1. Format:OperatorName#mcc#mnc&mcc#mnc.12:00}. It is valid to input only the OperatorName.delete the operator or PLMN. Cannot use invalid character &'"<>!@#$%^:. 50:GMT + 13:00{GMT + 13:00} . 33:GMT + 4:30{GMT + 4:30}. 42:GMT + 9:00{GMT + 9:00}. 12:GMT .7:00}.12:00{GMT . 32:GMT + 4:00{GMT + 4:00}..8:00{GMT .0.7:00{GMT Time Zone. 22:GMT . 44:GMT + 10:00{GMT + 10:00}. Between multiple operators.10:00}. 30:GMT + 3:00{GMT + 3:00}.127] 16:GMT . Name#mcc#mnc&mcc#mnc.3:30}. time from the server. operator ntpServerIpAddr 4:GMT .6:00{GMT .4:30{GMT . 37:GMT + 6:30{GMT + 6:30}.. 26:GMT + 1:00{GMT + 1:00}. 2:GMT .3:30{GMT .4 51:GMT 28 + 5:45{GMT + 5:45}. The base station gets the NTP &.. 34:GMT + 5:00{GMT + 5:00}. Operator and PLMN NTP Server IP Address 10:GMT .9:00{GMT .11:00{GMT . R-W R-W 35:GMT + 5:30{GMT R-W + 5:30}. NA 129.200. isSuppSummTime summTimeStart summTimeEnd summerTimeoffset Support summer time or Summer time start Summer time end Daylight saving time offset not 0:No. when isSuppSummTime=2 when isSuppSummTime=2 Format: MM-wk-wd HH:mm Format: MM-wk-wd HH:mm. It is allowed that It is allowed that the summer the summer time is a cross- time is a cross-year range..2nd week of 13:57. string:[0.July 13:57 granularity is 15 minutes).2nd R-W July 13:57 R-W week of July R-W 13:57 R-W 0 4 .20] string:[0.meaning:11th. summer time.20] long:[1. year range. is enabled. meaning:11th.42] 2:MM-WK-WD HH:MM Indicates the start time of Indicates the start time of summer time.meaning:wensday.July 13:57 13:57. it is used to format of the daylight eg:07-11 13:57 eg:07-11 configure its offset (time saving time. when isSuppSummTime=1 when isSuppSummTime=1 When the daylight saving time It configures the time Format: MM-dd HH:mm Format: MM-dd HH:mm. eg:07-2-3 13:57 eg:07-2-3 meaning:wensday.. 1:MM-DD HH:MM.. 200. Use standby server to The automatic chain- synchronize time when the defaut value: 1 Main cabinet type establishment function active server is abnormal. Indicate automatic chain- establishment switch. means that the base station automatically establishes the O&M channel between various physical media and OMC. 1:Enable automatic 0:Swapping.4 1 default 0 . ntpServerStdIpAddr CutoverStatus CABINETTYPE transportSelfSetup SNTP standby server IP Transmission auto- Cutover Status Main cabinet type address connection enabled 0:Close.0.127] string:[0..128] establishment of chain. R-W R-W R R-W 129. string[1. 1:Normal 2:Enable FE auxiliary establishment functionSwitch ofof chain struct transportSelfSetup.. LMT O&M SSCOP). control link (SCTP. duration of the following duration of the following recovery. The automatic first time.. 2:Try Ethernet/ATM base station if the broken base station if the broken SON configuration mode. Tolerance duration of the Tolerance duration of the Configuration for rollback establishment mode first link broken (min) second link broken (min) switch long: 0:Close.. R-W R-W 0 10 4294967295 1 . 3:Try Ethernet mode. and OMC O&M channel. and OMC O&M R-Wmode 3:Try Ethernet channel. parameters exceed this parameters exceed this Enable or disable the 4:Try PPP/ATM mode. The automatic functionSwitch of struct 1:Try Ethernet/PPP mode. 6:Try ATM mode. SSCOP). control link (SCTP. first time. value: Transmission layer value: Transmission layer function of configuration 5:Try PPP mode. rollback.300]. R-W channel.0xFFFFFFFF:Inval 1:Open transportSelfSetup==0 or Indicate when to initiate Indicate whenidto initiate transportSelfSetup==1 automatic connection after automatic connection after 0:Try Ethernet/PPP/ATM the link is broken for the the link is broken after the mode. LMT O&M transportSelfSetup==2 channel.. connection is started by the connection is started by the configFallback. long:[0.6] long:[1. autoConnectionMode firstBrokenTolerantTime nextBrokenTolerantTime configFallback Automatic chain.300] [1. . long:[15. When the link-broken time of LMT O&M channel and OMC O&M channel exceeds defaut: 3 default:2 default:2 this duration. 2:Testing. 5:FM Testing. 5:FM Testing. brokenTolerantTime MAINTAINSTATUS maintainstatusLTEFDD maintainstatusLTETDD Tolerance duration of the first Maintenance Status of LTE Maintenance Status of LTE Maintenance Status link broken FDD TDD 0:Normal. 5:FM Testing. 0:Normal.1000] unit:min 3:Configuring. 2:Testing. 6:PM Testing 6:PM Testing 6:PM Testing SON configuration recovery. 0:Normal. R-W R-W R-W R-W 60 0 2 2 . 2:Testing. the configuration data of BS is automatically rolled back. .48] string:[0. Users cannot set the station. option if it is not be planed. Users cannot set the User Defined NE ID option if it is not be planed. Default:undefined Cannot use invalid character Cannot use invalid character `~!?@%^*|\/&'"<> `~!?@%^*|\/&'"<> R-W R-W R undefined .800] Operator plans the unique Vendor plans the unique network element ID for base network element ID for base station.48] string:[0. operatorPlannedId vendorPlannedId USERDEFINEDMEID Network Element ID planned Network Element ID planned User Defined NE ID by operator by vendor string:[0... . will be equiped in this P:Pass sheet.999999999] long:[1. shelf..201].MAU.253] F:Fail Rack Id of the board. or add or modify the board SubNetwork ID unique in subnetwork then the device's board of the slot. If the rack has only one A:Add.B8210 Primary Key Primary Key Primary Key 41 27 1 . RESULT MODIND SubNetwork MEID Rack Modification Indication SubNetwork ID ManagedElement ID Rack Id Result S:Success A.). and the shelf has M:Modify(support to delete more then one board.[214..M long:[0. Eg:BBU.999999] long:[0.. functionMode.R47TAA26A. FS board. default:0 radioMode:0:ALL.16:LTE FDD. A19A.R47TAA19A. default:0 eg:CFS. functionMode(Optional).8:CDMA.CCC.B33TRA21A.0.0.0 or CC.TRB-G194.2:GSM. 452994049:12 TDS + 3 TDL. 1.TRB-G184.16:LTE Board Type: TAM0.32.CBBM0.CCC.32) functionMode: string string The first value combination: 0:Common Board Type: CC.TAM1.0. 100671497:LTE-TDD Single Mode(IQ Compressed).B33TRA23A.32:TD-LTE radioMode:1.CCE. 2. 2.UES. radioMode.8:CDMA.TAM2 FDD.0.CC_M 0:Used.0.TRB- eg:CC.1:UMTS. Slot1 functionMode(Optional).0 or CC.0 or CC.CC_M radioMode: the Boad inforatiom of this slot the Boad inforatiom of this slot 0:ALL.4:TD-SCDMA.4.UES.1 SCDMA. 50332673:TDS Single Mode.BPL1 board: BoardType.8:CDMA.1:To be used.2 functionMode: functionMode:0 0:Common boardWorkState:0:Used.4.16:LTE FDD.32) BoardType: functionMode:0 BS14TRA.2:GSM. R-W default:0 4096:LTE-FDD CC. 5:LTE FDD Single Mode Single R-WCarrier.32:TD-LTE (multimode:4.M12BTA.CCE.32.CCE0C.0 .1 radioMode: The second value combination: 0:ALL. Other board: BoardType.CBBM1. 100663297:LTE-TDD Single Mode The Third value combination: BoardType:CFS radioMode:0:ALL functionMode:0:common.physicalBrdType 3.B33TR boardWorkState:0:Used.1:To be used.4:TD-SCDMA.0 or CC.4:TD- eg:CC.32:TD- The Second value combination: LTE (multimode:4. 100671489:LTE-TDD Single Mode.TRB-G904.1:To be used.0.B33TRA18A. radioMode.B33TRA26A. 4104:LTE-FDD Single Mode(IQ Compressed). radioMode.0 Single Mode. Main control board: BoardType.0 or G854(Integration) CC. 452994057:12 TDS + 3 TDL(IQ Compressed).1:UMTS. Slot2 The first value combination: BoardType: CC.B default:0 STRQA.CCE1.0.boardWorkState(Optional).CCE0C.0 or CC.Format of Slot (You must know before fill the sheet): 1.1:UMTS. boardWorkState: CCE1.2:GSM.0. CVI1. RFC2 Board Type: RFC1.CVI1 G3.0 functionMode: 256:UMTS Single Mode. GSM/UMTS Mixed Mode. TD-LTE: TD-LTE: 100663297:LTE-IR.16:LTE 1:UMTS.32 1:UMTS.255:Invalid(default) The third value combination: The third value combination: Board Type: Board Type: BPL. radioMode: multimode format.255:Invalid(default value) board.100663305:LTE-IR(IQ IR.50331652:GBRS The fourth value combination: The fourth value combination: Board Type: Board Type: BPN0.4616:36G + 6FDL(IQ 6FDL. 16:LTE FDD{LTE FDD}.100663305:LTE-IR(IQ 100663297:LTE-IR.32:TD- LTE LTE functionMode: 0:GSMthe BoadMode.UORM.BPC.4608:36G + 6FDL(IQ Compressed).2:GSM.4104:LTE-FDD Single Mode(IQ Mode.100663553: Compressed).32:TD-LTE R-W functionMode: FS.100671497:LTE-TDD Single Mode.50331649:LTE- 50331653:TD-SCDMA IR.32:BPL1A board. RFC2 radioMode:0:ALL radioMode:0:ALL functionMode:0:Common functionMode:0:Common .UBPM.32:TD-LTE R-W FDD.8:CDMA. eg: 4.4:TD.BPN2M C.2:LTE_FDD- IRC.BPN2.16:LTE FDD.100663305:LTE-IR(IQ Compressed).BPN0 C.2:LTE_FDD- 1:LTE-FDD Singlestring Mode.3:LTE-FDD Single Mode(IQ IRC.4:TD- SCDMA.NIS.BPL2.UBP G2.4352:6U + 6FDL.4608:36G + 6FDL.100672009:36G + 3TDL(IQ Compressed). Single inforatiom UMTS this slotMode.3:LTE-FDD Single Mode(IQ Compressed).0.4:TD-SCDMA. UMTS Single Mode.32 radioMode: multimode: 16.4872:12G + 6U + 6FDL(IQ Compressed).2:GSM.769:12G + 9U.4864:12G + 6U + Compressed).770:24G + Mode. Compressed).4872:12G + 6FDL.4360:6U + 6FDL(IQ Compressed).8:CDMA.16:LTE FDD.4864:12G + 6U + 6FDL.4873:24G + 6U + 6FDL(IQ Compressed).NIS1. Compressed).32 radioMode: multimode: 4. functionMode: of Single the Boad inforatiom of this slot 0:GSM Single Mode.BPN0A.2:GSM.772:48G + 6U.4616:36G + 6FDL(IQ Compressed).50331657:LTE-IR(IQ Compressed). Compressed).BPN2M radioMode: multimode: 16.NIS.32 1:UMTS.BPN0 BPN0. LTE FDD: LTE FDD: 1:LTE-FDD Singlestring Mode. 32:TD-LTE{LTE TDD} 32:TD-LTE{LTE TDD} functionMode: functionMode: LTE FDD: 1:LTE-FDD Single LTE FDD: 1:LTE-FDD Single Mode.board.100663553:LTE-IR-IRC. GSM/UMTS Mixed Mode.4865:24G + 3U + 6FDL.4096:LTE-FDD Single 6U.TAM1.3:LTE-FDD Single Mode(IQ Compressed).NIS1.50331649:LTE- IR.771:36G + 6U.UBPG3(3U).100672009:36G + 3TDL(IQ 3TDL.UBPI.4104:LTE-FDD Single Mode(IQ Compressed). BPL.4865:24G + 3U + 6FDL.1.TAM2.32:TD- SCDMA.512:GSM Single 256:UMTS Single Mode.50332673:TDS Single Mode The fifth value combination: The fifth value combination: Board Type: BPL1 Board Type: BPL1 radioMode: radioMode: 16:LTE FDD{LTE FDD}.BPN0A.BPK_e.100672001:36G + 3TDL.UBPI.512:GSM Single Mode.3:LTE-FDD Single Mode(IQ Mode.50332673:TDS Single Mode Compressed).2:GSM.32:BPL1A 1:BPL1 board.771:36G + 6U.BPN0_b.4:TD-SCDMA.UBPM.4360:6U + Compressed).4096:LTE-FDD Single Mode. Slot3 Slot4 1:UMTS.100671497:LTE-TDD Single Mode(IQ Compressed).4873:24G + 3U + 6FDL(IQ 3U + 6FDL(IQ Compressed).BPN2.769:12G + 12U.255:Invalid(default value) The sixth value combination: The sixth value combination: Board Type: RFC1.16:LTE FDD.50331657:LTE-IR(IQ IR. TD-SCDMA: TD-SCDMA: 50331653:TD-SCDMA IR. TD-LTE: 100663297:LTE- TD-LTE: 100663297:LTE- IR.BPL2.100672001:36G + Mode(IQ Compressed).100663305:LTE-IR(IQ Compressed).772:48G + 9U.BPN0_b.50331652:GBRS Compressed).100663553: physicalBrdType: physicalBrdType: 1:BPL1 board.100671489:LTE-TDD Single Compressed).UORM.100671489:LTE-TDD Single Mode.4352:6U + 6FDL.770:24G + 9U.UBP UBPG.TAM0.UBPG2.100663553:LTE-IR-IRC.BPK_e1. BPN2.BPL2.100672001:36G + 3TDL.100672009:36G + 3TDL(IQ Compressed).3:LTE-FDD Single Mode(IQ Compressed).4872:12G + 6U + 6FDL(IQ Compressed).32 radioMode: multimode: 16.50332673:TDS Single Mode The fourth value combination: The fourth value combination: Board Type: BPL1 Board Type: BPL1 radioMode: radioMode: 16:LTE FDD{LTE FDD}.32:BPL1A 1:BPL1 board.2:GSM.2.100672001:36G + Mode(IQ Compressed). RFC2 Board Type: RFC1.3:LTE-FDD Single Mode(IQ Mode.50331657:LTE-IR(IQ string Compressed).16:LTE FDD. Slot5 Compressed).770:24G + Mode. UMTS Single Mode.100663305:LTE-IR(IQ 100663297:LTE-IR.100671489:LTE-TDD Single Mode.functionMode: functionMode: 0:GSM Single Mode.0 Compressed).BPN0_b.769:12G + 12U.255:Invalid(default value) The fifth value combination: The fifth value combination: Board Type: RFC1.4360:6U + Compressed).2.BPN0 BPN0.2:LTE_FDD- IRC.772:48G + 6U.100672009:36G + 3TDL(IQ 3TDL.4352:6U + 6FDL.100663553: physicalBrdType: physicalBrdType: 1:BPL1 board.771:36G + 6U.4616:36G + 6FDL(IQ UBPG.4104:LTE-FDD Single Mode(IQ Mode.4:TD-SCDMA.4616:36G + 6FDL(IQ R-W 6FDL. Compressed).BPN0 C.2:GSM.BPL2.4352:6U + 6FDL. UMTS Single Mode.BPN0A.769:12G + 12U.BPN2.255:Invalid(default value) board.50331649:LTE- IR.100663553:LTE-IR-IRC.4:TD-SCDMA.100663305:LTE-IR(IQ Compressed). Slot6 TD-LTE: TD-LTE: 100663297:LTE-IR.100671489:LTE-TDD Single Compressed). LTE FDD: LTE FDD: 1:LTE-FDD Single Mode.32 1:UMTS.4608:36G + 6FDL(IQ Compressed).32:TD-LTE functionMode: functionMode: 256:UMTS Single Mode.512:GSM Single 256:UMTS Single Mode.100663553:LTE-IR-IRC. 16:LTE FDD{LTE FDD}. the Boad inforatiom of this slot Compressed).4608:36G + R-W 6FDL.4865:24G + 3U + 6FDL. 0:GSM Single Mode.4865:24G + 3U + 6FDL.100663305:LTE-IR(IQ Compressed).50331652:GBRS The third value combination: The third value combination: Board Type: Board Type: BPN0. 1:LTE-FDD Single Mode.770:24G + 9U.100671497:LTE-TDD Single Mode. RFC2 radioMode:0:ALL radioMode:0:ALL functionMode:0:Common functionMode:0:Common .4873:24G + 6U + 6FDL(IQ Compressed).50331649:LTE.4873:24G + 3U + 6FDL(IQ 3U + 6FDL(IQ Compressed).3:LTE-FDD Single Mode(IQ Compressed).100663305:LTE-IR(IQ IR.100671497:LTE-TDD Single Mode(IQ Compressed).4864:12G + 6U + UBPG.0 Compressed). the Boad inforatiom of this slot TD-SCDMA: TD-SCDMA: 50331653:TD-SCDMA IR.50332673:TDS Single Mode Compressed). 32:TD-LTE{LTE TDD} 32:TD-LTE{LTE TDD} functionMode: functionMode: LTE FDD: 1:LTE-FDD Single LTE FDD: 1:LTE-FDD Single Mode.2:LTE_FDD.512:GSM Single Mode.4104:LTE-FDD Single Mode(IQ Compressed).32:TD-LTE FDD.BPN0A.16:LTE 1:UMTS.771:36G + 6U.BPN2M C.4096:LTE-FDD Single Mode.50331657:LTE-IR(IQ IR.BPN2M radioMode: multimode: 16.3:LTE-FDD Single Mode(IQ IRC. TD-LTE: 100663297:LTE.772:48G + 9U. GSM/UMTS Mixed Mode. TD-LTE: 100663297:LTE- IR.4872:12G + 6FDL.4864:12G + 6U + 6FDL.50331652:GBRS string Compressed).50331653:TD-SCDMA IR. GSM/UMTS Mixed Mode.100663553: Compressed).4360:6U + 6FDL(IQ Compressed).32:BPL1A board.BPN0_b.4096:LTE-FDD Single 6U. 100672001:36G + 3TDL.100663305:LTE-IR(IQ IR.770:24G + 9U.50331657:LTE-IR(IQ IR.BPL2.4872:12G + 6U + 6FDL(IQ Compressed).3:LTE-FDD Single Mode(IQ Slot7 Compressed).100663305:LTE-IR(IQ Compressed).4864:12G + 6U + 6FDL.4104:LTE-FDD Single Mode(IQ Mode.32:TD-LTE functionMode: functionMode: 256:UMTS Single Mode. Compressed).4872:12G + 6FDL.512:GSM Single 256:UMTS Single Mode.100663305:LTE-IR(IQ Compressed).BPN2.4096:LTE-FDD Single Mode.50331657:LTE-IR(IQ string Compressed).772:48G + 6U.100663553:LTE-IR-IRC.4352:6U + 6FDL.4873:24G + 3U + 6FDL(IQ 3U + 6FDL(IQ Compressed).100672009:36G + 3TDL(IQ Compressed).BPL2.BPN0_b.4096:LTE-FDD Single 6U. TD-LTE: 100663297:LTE- TD-LTE: 100663297:LTE- IR.BPN0A.2:LTE_FDD- IRC.4608:36G + R-W 6FDL.BPN0_b.50331652:GBRS The third value combination: The third value combination: Board Type: Board Type: BPN0. UMTS Single Mode.32:BPL1A board.2:LTE_FDD- 1:LTE-FDD Single Mode.BPN2M C. the Boad inforatiom of this slot the Boad inforatiom of this slot TD-SCDMA: TD-SCDMA: 50331653:TD-SCDMA IR.4352:6U + 6FDL. 0:GSM Single Mode.4:TD-SCDMA.4873:24G + 6U + 6FDL(IQ Compressed).4616:36G + 6FDL(IQ R-W 6FDL.771:36G + 6U.100663305:LTE-IR(IQ 100663297:LTE-IR.2:GSM.4864:12G BPK_d. Compressed). GSM/UMTS Mixed Mode.32 radioMode: multimode: 16.100671497:LTE-TDD Single Mode(IQ Compressed). UMTS Single Mode.32 1:UMTS.770:24G + Mode.1.772:48G + 9U. RFC2 Board Type: RFC1.32:TD-LTE FDD.50331649:LTE- IR.100672009:36G + 3TDL(IQ 3TDL.4616:36G + 6FDL(IQ Compressed).255:Invalid(default value) board.50331649:LTE- 50331653:TD-SCDMA IR. Slot8 Compressed).769:12G + 12U.BPN0 BPN0.4865:24G + 3U + 6FDL.BPN0 C.100671497:LTE-TDD Single Mode.4360:6U + Compressed).50332673:TDS Single Mode The fourth value combination: The fourth value combination: Board Type: BPL1 Board Type: BPL1 radioMode: radioMode: 16:LTE FDD{LTE FDD}.100663553:LTE-IR-IRC.3:LTE-FDD Single Mode(IQ IRC.BPN2. GSM/UMTS Mixed Mode. TD-LTE: TD-LTE: 100663297:LTE-IR.32:BPL1A 1:BPL1 board.512:GSM Single Mode.50332673:TDS Single Mode Compressed). 32:TD-LTE{LTE TDD} 32:TD-LTE{LTE TDD} functionMode: functionMode: LTE FDD: 1:LTE-FDD Single LTE FDD: 1:LTE-FDD Single Mode.50331652:GBRS string Compressed).4608:36G + 6FDL(IQ Compressed).100671489:LTE-TDD Single Mode.769:12G + 12U. functionMode: functionMode: 0:GSM Single Mode.100663553: Compressed).771:36G + 6U.4360:6U + 6FDL(IQ Compressed).16:LTE FDD.3:LTE-FDD Single Mode(IQ Mode.16:LTE 1:UMTS.100671489:LTE-TDD Single Compressed).100672001:36G + Mode(IQ Compressed). LTE FDD: LTE FDD: 1:LTE-FDD Single Mode.2:GSM.4:TD-SCDMA.3:LTE-FDD Single Mode(IQ Compressed).100663553: physicalBrdType: physicalBrdType: 1:BPL1 board.255:Invalid(default value) The fifth value combination: The fifth value combination: Board Type: RFC1.4104:LTE-FDD Single Mode(IQ Compressed).4865:24G + 3U + 6FDL. 16:LTE FDD{LTE FDD}. RFC2 radioMode:0:ALL radioMode:0:ALL functionMode:0:Common functionMode:0:Common .BPN2M radioMode: multimode: 16.BPN0A.0 + 6U + Compressed). 100663553: 1:BPL1 board.50332673:TDS Single Mode Board Type: BPL1 The fourth value combination: radioMode: Board Type: BPL1 16:LTE FDD{LTE FDD}.100672001:36G + Compressed). functionMode: 32:TD-LTE{LTE TDD} LTE FDD: 1:LTE-FDD Single functionMode: Mode.BPN0A. Slot9 1:LTE-FDD SingleSlot10 Mode.100672001:36G + Mode.100663305:LTE-IR(IQ physicalBrdType: Compressed).100672009:36G + 3TDL(IQ Mode(IQ Compressed).4104:LTE-FDD Single Mode(IQ 6U. functionMode: GSM/UMTS Mixed Mode.BPN0A.BPL2.50331649:LTE- TD-SCDMA: IR.BPN2.100663553:LTE-IR-IRC.512:GSM Single functionMode: Mode.4352:6U + 6FDL.50331657:LTE-IR(IQ 50331653:TD-SCDMA IR.2:GSM.4360:6U + 6FDL.100663553:LTE-IR-IRC.50331652:GBRS Board Type: The third value combination: BPN0.50331649:LTE- Compressed).4873:24G + 6FDL.770:24G + 6U.3:LTE-FDD Single Mode(IQ TD-LTE: Compressed).772:48G + Mode.100663305:LTE-IR(IQ TD-LTE: Compressed).32:BPL1A physicalBrdType: board.32:TD- 8:CDMA{CDMA}.512:GSM Single 9U.255:Invalid(default value) .2:LTE_FDD- Compressed).BPL2. IR.8:CDMA.BPN0 radioMode: multimode: 16.4616:36G + 6FDL(IQ 6FDL(IQ Compressed).4616:36G + 6FDL(IQ 6FDL. 100663297:LTE-IR.BPN0_b.4608:36G + Compressed).4096:LTE-FDD Single R-W Compressed).100663553: IR.100671489:LTE-TDD Single Mode(IQ Compressed).BPN2.4873:24G + Compressed). the Boad inforatiom of this slot the Boad inforatiom of this slot 100663297:LTE-IR.771:36G + 6U.4360:6U + Mode.100671497:LTE-TDD Single Compressed).100671489:LTE-TDD Single 3U + 6FDL(IQ Mode.100672009:36G + 3TDL(IQ The fourth value combination: Compressed).32:TD-LTE 256:UMTS Single Mode.32 FDD.3:LTE-FDD Single Mode(IQ TD-LTE: 100663297:LTE- Compressed).4352:6UR-W+ 6FDL.4608:36G + Compressed).2:LTE_FDD- LTE FDD: IRC.2:GSM. LTE FDD: GSM/UMTS Mixed Mode. SCDMA.4865:24G + 3U + 6FDL. string 50331653:TD-SCDMA stringIR.50332673:TDS Single Mode 3TDL.255:Invalid(default value) 1:BPL1 board.16:LTE FDD.769:12G + 12U.4:TD-SCDMA.BPN0_b.4864:12G + 6U + 6U + 6FDL(IQ Compressed). radioMode: 32:TD-LTE{LTE TDD} 16:LTE FDD{LTE FDD}.16:LTE functionMode: FDD.16:LTE radioMode: multimode: 16.BPN2M 1:UMTS.BPN2M BPN0.32:BPL1A board. LTE 16:LTE FDD{LTE FDD}.50331652:GBRS IR. UMTS Single Mode.4872:12G + Compressed).772:48G + Mode.4:TD-SCDMA.100671497:LTE-TDD Single 3TDL.32:TD-LTE 1:UMTS.4865:24G + 3U + 6FDL.4872:12G + 3U + 6FDL(IQ 6U + 6FDL(IQ Compressed).100663305:LTE-IR(IQ TD-SCDMA: Compressed). UMTS Single Mode.3:LTE-FDD Single Mode(IQ LTE FDD: 1:LTE-FDD Single Compressed).32 C.4864:12G + 6U + 6FDL.100663305:LTE-IR(IQ TD-LTE: 100663297:LTE- Compressed). IRC.BPN0 Board Type: C. Mode. functionMode: 32:TD-LTE{LTE TDD} 0:GSM Single Mode.4104:LTE-FDD Single Mode(IQ 6FDL(IQ Compressed).769:12G + 12U.3:LTE-FDD Single Mode(IQ 1:LTE-FDD Single Mode.770:24G + 256:UMTS Single Mode. 0:GSM Single Mode.50331657:LTE-IR(IQ The third value combination: Compressed).4096:LTE-FDD Single 9U.771:36G + 6U. 4096:LTE-FDD Single 6U.100671497:LTE-TDD Single Mode(IQ Compressed).BPN0 BPN0.32:BPL1A board.32:BPL1A 1:BPL1 board.BPN0A.16:LTE FDD.50332673:TDS Single Mode Compressed). UMTS Single Mode.8:CDMA.100663553:LTE-IR-IRC.SA.4360:6U + Compressed).100663305:LTE-IR(IQ the Boad inforatiom of this slot 100663297:LTE-IR.100671489:LTE-TDD Single Mode.4352:6UR-W+ 6FDL.50331657:LTE-IR(IQ Compressed).4:TD- 1:UMTS. Slot12Mode(IQ Slot13 IRC.255:Invalid(default value) .4608:36G + SA.3:LTE-FDD Single Mode(IQ Compressed).4360:6U + R-W 6FDL(IQ Compressed).772:48G + 9U.32:TD-LTE LTE functionMode: functionMode: 256:UMTS Single Mode.4872:12G + 6FDL.BPN0A.4873:24G + 6U + 6FDL(IQ Compressed).4608:36G + 6FDL.100672001:36G + Mode(IQ Compressed).512:GSM Single Mode.BPN2M C.4872:12G + 6U + 6FDL(IQ Compressed).769:12G + 12U.771:36G + 6U.32 1:UMTS.BPN0 C.4616:36G + 6FDL(IQ 6FDL.4864:12G + 6U + Compressed).50331652:GBRS Compressed). 0:GSM Single Mode. TD-LTE: 100663297:LTE- TD-LTE: 100663297:LTE- IR.4873:24G + 3U + 6FDL(IQ 3U + 6FDL(IQ Compressed).100663305:LTE-IR(IQ Compressed).2:GSM.0.772:48G + 6U.BPN2.2:GSM. UMTS Single Mode.100663305:LTE-IR(IQ of this slot Compressed).BPN2.BPL2.100671489:LTE-TDD Single Compressed).4104:LTE-FDD Single Mode(IQ Compressed). Compressed).100663553:LTE-IR-IRC.770:24G + Mode.BPN0_b.BPN2M radioMode: multimode: 4.100663553: Compressed).SCDMA.IR. 32:TD-LTE{LTE TDD} 32:TD-LTE{LTE TDD} functionMode: functionMode: LTE FDD: 1:LTE-FDD Single LTE FDD: 1:LTE-FDD Single Mode.3:LTE-FDD Single IRC.255:Invalid(default value) board.4104:LTE-FDD Single Mode(IQ Mode.BPN0_b. LTE FDD: LTE FDD: 1:LTE-FDD Single Mode.100672009:36G + 3TDL(IQ Compressed). TD-LTE: TD-LTE: the Boad inforatiom the Boad inforatiom of this slot 100663297:LTE-IR.50331649:LTE- 50331653:TD-SCDMA stringIR.32 radioMode: multimode: 16.100663305:LTE-IR(IQ IR.BPL2. Compressed).3:LTE-FDD Single Mode(IQ Mode.4:TD-SCDMA.100672009:36G + 3TDL(IQ 3TDL.16:LTE SCDMA.770:24G + 9U.4352:6U R-W+ 6FDL.50331657:LTE-IR(IQ string string IR. GSM/UMTS Mixed Mode.4096:LTE-FDD Single Mode.32:TD- LTE LTE functionMode: functionMode: 0:GSM Single Mode. 16:LTE FDD{LTE FDD}.4616:36G + 6FDL(IQ Compressed). TD-SCDMA: TD-SCDMA: 50331653:TD-SCDMA IR. Compressed). GSM/UMTS Mixed Mode.512:GSM Single 256:UMTS Single Mode.16:LTE FDD.50331649:LTE.4864:12G + 6U + 6FDL.769:12G + 12U.2:LTE_FDD.3:LTE-FDD Single Mode(IQ Compressed).50332673:TDS Single Mode The fourth value combination: The fourth value combination: Board Type: BPL1 Board Type: BPL1 radioMode: radioMode: 16:LTE FDD{LTE FDD}.0.771:36G + 6U.2:LTE_FDD- 1:LTE-FDD SingleSlot11 Mode.8:CDMA.100672001:36G + 3TDL.4865:24G + 3U + 6FDL.4865:24G + 3U + 6FDL.0 6FDL(IQ Compressed).100671497:LTE-TDD Single Mode.32:TD.0 FDD.50331652:GBRS The third value combination: The third value combination: Board Type: Board Type: BPN0.100663553: physicalBrdType: physicalBrdType: 1:BPL1 board. 0 . Slot14 Slot15 Slot16 Slot17 the Boad inforatiom the Boad inforatiom the Boad inforatiom the Boad inforatiom of this slot of this slot of this slot of this slot string string string string Board Type: Board Type: Board Type: FAB(Only for BBU- PM.0 eg:PM. PM.0.0. SE(Only Board Type:PM 2U). 2U). BBU-2U).0 R-W R-W R-W R-W PM. FAB(Only for PMAC(Only for for BBU-3U) radioMode:0 BBU-3U) BBU-3U) radioMode:0 functionMode:0 radioMode:0 radioMode:0 functionMode:0 eg:PM.0. PMAC(Only for Only for BBU-3U PM(Only for BBU.0 functionMode:0 functionMode:0 eg:PM.0. D:Delete.D. RESULT MODIND SubNetwork MEID ClockDevice Modification Indication SubNetwork ID ManagedElement ID Clock Device Result A. P:Pass Format:SlotNo value:1 or 2 Primary Key Primary Key Primary Key . Control Device..999999999] string S:Success F:Fail It represents the slot of the Main A:Add.999999] long:[0. SubNetwork ID unique in subnetwork M:Modify..M long:[0. 3. 19:Backplane 1PPS+TOD.2. Synchronization mode of types are selected according to different 1 indicates the highest site and clock reference clock reference source categories. .19 8:Line clock-local board.5. Primary Key R-W-I Outer backpanel GNSS R-I clock is selected when the 5th slot of BBU-2U or 7th slot of BBU 3U accesses UCI or USR.4.11.10. Corresponding clock reference source clock reference source.6. source.3. CDMA:1.8.7. For GNSS category clock. inner GNSS clock is selected when accessing GPS on CC board SMA interface.2.11 The priority of the 18:Network Listenning CDMA only support 1. If the value is 10 or 11. GU:1.11. TD-SCDMA.4.4.4.19 7:BITS-2Mbps clock. priority. IpClock must be 5:GNSS cascade clock.13 clock. 17:RRU inner GNSS. PICO:1. clockPriority clockSyncMode clockType 1:Inner GNSS.11.13. 0:Frequency 14:1PPS+TOD backup.7. Outer facepanel GNSS clock is selected when the reference clock source is accessed with cables on the CC front panel HDMI interface.13.4. LTE-FDD PICO:1.17.10. LTE-FDD:1.10. 11:1588.3. LTE-TDD.2.5.2.19 1:Phase synchronization 6:BITS-2MHz clock.10.11.10.8] synchronization. Clock priority of clock Clock synchronization 2:Outer Clockfacepanel referenceGNSS.11 13:SyncE LTE-TDDclock.10..3. configured. 4:1PPS+TOD.14 long:[1. TD-SCDMA:1.18 10:SyncE+1588 UMTS-PICO:2.6.8.4. source type of clock reference source type mode 3:Outer backpaneldevice GNSS. LTE-TDD:1.11. 8.3. 8:GPS priority. 3:RGPS.3. 3:GPS+GLONASS. This attribute is valid when clockType is 2 or 3. 7. 6 TDS:4 {receiverHardwareType==0}: 1. 0. TDL:4 {receiverHardwareType==2}: 1. 2 or 3. 2:Outer BDS receiver.2.2. FDD:3 {receiverHardwareType==3 || 4}: 1. 0:USR_A. 6:GPS+BDS 4:UCI_RGPS 7:BDS priority. 5. 2:GLONASS. GU:3 Indicate the working type of GNSS receiver. clockType is 2. receiverHardwareType receiverType GNSS Receiver Hardware Type GNSS receiver working type 1:GPS. 5:BDS. the value: 4 R-W R-W .4 {clockType==1}:1. UMTS-PICO:3 clockType is 3. 5. the value: CDMA: This attribute is valid when clockType is1. . satellites for satellite timing. configuration of the GNSS receiver. "Fixed Mode" is recommended but also the parameter of satellite alarm "Survey In" is not recommended. 1:Yes. receiverOperatingMode minStarNum enableSyncE Receiver operating mode Minimum number of search stars Enable SyncE 1:Survey In.4] 2:Fixed Mode 0:No This attribute is valid when This attribute is valid when clockType value is 1. receiverOperatingMode is 2. Indicate the operating mode Indicate minimum number of This attribute is valid. long:[1. It is when clockType is 10. R-W R-W R-W . threshold and the default value is 4. Indicates whether the clock upload mode is Synchronization Status Message (SSM).R-Wand performs related operations on the clock of local node. . is 13 or clockType is 10 and 0:NoenableSyncE is 1. The node clock in the synchronization network obtains the parent-node clock information by reading the SSM. when clockType 1:Yes. only when the clock reference source type is 'SyncE clock'. The value can be "Yes" . Meanwhile the synchronization message of local node is sent to the subordinate node. isSSM Enable SSM This attribute is valid. SSM is the quality level for sending timing signals through the timing synchronization link in the synchronization network. such as tracing and changeover. 56 the Rack No.251] SubNetwork ID RU board RSU: [2..251] Indication ID Result PB: [2.D.55 . the Rack No.201][214.. D:Delete.53.251] pRRU: [2. Do not support Primary Key Primary Key Primary Key Modification operation....201][214.251] A. RESULT MODIND SubNetwork MEID RUDevice Rack Id Value: Modification ManagedElement RRU: [2.55 indicates four 41 27 RUs.. the attributes of all RUs are the same.201] long: [214. Format 2: Rack Id1_Rack Id2 A:Add. are 51. delete or modify one RU.. 41 27 51 eg: 41 27 51_53 53 indicates three RUs..999999999] Format 1: Rack Id F:Fail Support add..999999] string S:Success [0. unique in (Modification not SubNetwork ID M:Modify.201][214. P:Pass subnetwork support) Support add or delete several RUs together.. 53 41 27 55 51_53. 52.M long:[0. are 41 27 54 51.52. 200] 6:PB1000 7:PB1120A If RRU is in Cabinet..128] string long:[2. BOP1: PB1120A character &'"<> The value is "cabinetNo" from Cabinet sheet. userLabel RUType subRackType refCabinet RRU description Type of RRU Sub-rack type Related cabinet information Name of RRU 1:RRU. attribute should be filled in. R-W R-W-I R-I R R8882 S9000(B) 1 ADTR-GU908 1 R8882 S1800(B6B) 1 R8882 S1800(B6B) 1 R8882 S1800(B6B) 1 . BOP: PB1000 Cannot use invalid RUInfo RSU doesn't need. the User-defined information. string:[0. 2:RSU.. 52. 55 2 1:QCell 2 CL Mode. It could be 26:GSM/LTE FDD(S) Mixed Mode configured on RRU rack 31:UMTS/LTE FDD(S) Mixed Mode or RSU rack.8> 24:GSM/UMTS Mixed long Mode long:[0. 100672513:TD-LTE Single Mode . 3:QCell LTE-FDD Single Mode.32 100663297:LTE-IR eg: R-W-I R-W R 100663553:LTE-Cloud Scheduling 51_53indicates 2.55 BOP: 2 20:All RadioMode. 2:GSM.32 1281:LTE FDD Single Mode 2 Carriers IF filled in. 1283:LTE FDD Low Speed Single Mode RUDevice.1 24 100672513:TD-LTE Single Mode 51 452984833:LTE-IR manageId51.55indicates 452984865:LTE-IR(Two Carriers) 2 2 54 manageId51.52. Single Carrier Format 1: manageId 4:TD-SCDMA.268435455] resource.53; 2. 56 2:QCell UL Mode. in 5:LTE FDD Single Mode Single Carrier default. The value is related with RRUType. 1282:TDD-FDD Share Fiber should be equal with 1:UMTS. manageId RRU: 0:COMMON Logice ID of RRU radioMode 1:UMTS Single FunctionMode Mode Managed 2:GSM Single Mode Equal with Rack No. 50331649:LTE-IR(TDS Single Mode) Format 2: 16:LTE FDD. 6147:GSM/UMTS Mixed Mode (NBIC) one RU's manageId 8:CDMA. can refer to a physical resource model radioMode functionMode definition document. eg: 4. 23:CDMA/LTE FDD(S) Mixed Mode Describes the RU sequence<long.1 24 53 51_53.53. 100671489:QCell TDD Mode. 50331653:TD-SCDMA IR manageId1_manageId2 32:TD-LTE 50331713:LTE-IR(High-Capacity Carrier) several RU's manageId Multi mode: 4.. the number 0:ALL. Format of multimode. (Dual-transmitting RU are related 3:Ring network connected with and only with two receiving/transmitting antennas) R-W R-W R 0 0 0 0 0 0 0 0 0 0 . set. connectModeWithUpRack diversityMode ifRelated If creat related Uplink connection mode of the Diversity receiving mode AntEntity and FiberDeviceSet IrAntGroup long 0: not_related long 0:Normal diversity reception. signals received in two receiving Empty or 0 means not 2:multiple load-sharing optical channels are mutually main/diversity _related. receiving mode of RU. 1: related 1:Cross diversity reception default: 0 It is to configure the diversity 0:single up-link optical line. 'Cross 1:double master&slave optical diversity reception' indicates the TDD or TDS line. 1 means line. RESULT MODIND SubNetwork MEID FiberDevice Modification SubNetwork ID ManagedElement ID Optical Port Device Result Indication S:Success M long:[0..999999] long:[0..999999999] string F:Fail Format:RackNo, M:Modify, SubNetwork ID unique in subnetwork ShelfNo, SlotNo P:Pass eg:1,1,3 Primary Key Primary Key Primary Key 41 27 1,1,3 41 27 1,1,3 41 27 1,1,3 41 27 1,1,3 41 27 1,1,3 41 27 1,1,3 41 27 51,1,1 41 27 51,1,1 41 27 53,1,1 41 27 53,1,1 41 27 54,1,1 41 27 54,1,1 41 27 56,1,1 41 27 55,1,1 41 27 55,1,1 41 27 56,1,1 port opticalModuleType protocolType Connected board port The protocol type use by the optical FS Optical Module Type Protocol type of optical module module. No. {FiberDevice is not RRU} If FiberDevice is RU, the attribute long:[0..15] long 0:PHY CPRI, long can not be configured. 1:PHY LTE IR, 1:1.25G{1.25G}, 2:PHY OBSAI, 2:2.5G{2.5G}, 3:PHY OBRI, The physical port 3:3G{3G}, 4:PHY GBRS, number. 4:4G{4G}, 5:PHY TD-SCDMAIR, 6:6G{6G}, {FiberDevice is RRU} 10:10G{10G}, Primary Key R-W 10:APP Manufacturer R-W customized, 255:Self adaptive (if FiberDevice is 11:APP LTE IR, 4 RRU, 1 the value is valid) 012:APP TD-SCDMAIR, 0 1 0 13:APP OBRI 1 1 255:Self 0 adaptive 2 1 0 3 1 0 5 1 0 1 3 10 2 3 10 1 255 10 2 255 10 1 3 10 2 3 10 2 3 10 1 3 10 2 3 10 1 3 10 RESULT MODIND SubNetwork MEID RUDevice port Modification SubNetwork ID ManagedElement ID RU board Port number Indication Result S:Success M long:[0..999999] long:[0..999999999] string long: F:Fail M:Modify, Identification of the SubNetwork ID unique in subnetwork Format: RackNo P:Pass antenna entity. Primary Key Primary Key Primary Key Primary Key 41 27 53 1 41 27 53 2 41 27 54 1 41 27 54 2 41 27 54 3 41 27 54 4 Fail. The MO 41 27 55 1 attribute 41 27 55 2 'Hybrid-mode working 41 27 55 3 mode(dualMo 41 27 55 4 de)' must be 41 27 56 1 set to a valid value. 41 27 56 2 The MO 41 27 56 3 attribute 'Hybrid-mode 41 27 56 4 Success working P 41 27 51 1 mode(dualMo Success P 41 27 51 2 de)' must be Success set to a valid P 41 27 51 3 value. 41 27 51 4 41 27 51 1 41 27 51 2 41 27 51 3 M 41 27 51 4 2 8 .10:1700M(3GPP Band10) 11:1500M(3GPP Band11) 12:700M(3GPP Band12/3GPP2 BC19) 13:710M(3GPP Band13) 14:710M(3GPP Band14) 17:700M(3GPP Band17) 18:860M(3GPP Band18) suppBand radioMode 19:850M(3GPP Band19) 20:800M(3GPP Band20) 21:1500M(3GPP Band21) Frequency Band ID Radio standard 22:3500M(3GPP Band22) 23:2200M(3GPP Band23/3GPP2 BC21) 24:1600M(3GPP Band24/3GPP2 BC20) 25:1900M(3GPP Band25/3GPP2 sequence<long.32 31:450M(3GPP Band31) 1:UMTS.1 43:3600M(3GPP Band43) 860:900M(3GPP2 BC2) 61:890M(3GPP2 3 BC3) 2 62:1800M(3GPP2 3 BC4) 63:810M(3GPP2 BC10) 364:450M(3GPP2 BC5/BC11) 65:920M(3GPP2 3 BC12) 2 66:2600M(3GPP2 BC16) 67:840M(3GPP2 ATG) 370:350M(3GPP2 BC28) 2 100:710M(Manufacturer 3 customized) 101:1000M(Manufacturer customized) 3 102:850M(Manufacturer customized) 3 103:1500M(Manufacturer customized) 2 104:720M(Manufacturer 3 customized) 2 131:1400M(Manufacturer customized) 3132:1700M(Manufacturer customized) 3 133:750M(Manufacturer customized) 134:800M(Manufacturer 3 customized) 2 135:600M(Manufacturer customized) 8 1. can 26:850M(3GPP Band26) refer to a physical resource model 27:850M(3GPP Band27) definition document.2 8 8 1. 35:1900M(3GPP Band35) 8:CDMA. 34:2000M(3GPP Band34) 4:TD-SCDMA. 36:1900M(3GPP Band36) 16:LTE FDD.8> The value is related with RRUType.8> BC14) sequence<long. 37:1900M(3GPP Band37) R-I R-W 32:TD-LTE 38:2600M(3GPP Band38) 39:1900M(3GPP Band39) 40:2300M(3GPP Band40) 41:2600M(3GPP Band41) 42:3500M(3GPP 8 Band42) 2.2 8 8 1. 33:1900M(3GPP Band33) 2:GSM. 28:700M(3GPP Band28) Multimode format: 4.2 8 8 1. null 1. R-W R-W 10:2G+1U+1L.null.null.null.null.null.null.null.2 the four suppBand are all 2G+2U ( PA supports 2 GSM carriers Hybrid-mode and 2mode working UMTS Sub-frequency band cells) 2. 4:2G+1L.2.null. frequency band supported by the PA device.2.null.null 19:4G+2L.null.The allocation method of PA resources in hybrid-mode. 17:1U+1L.null 1.null 255 null.null.null.null.null. 2. 14:2C+2L. 'null' is to clear the value.null.2. 255. 13:1G+1U.null 255 null.null 1.2. null.null. fourth element of suppBand if RU is wideband.null 255 18:2U+2L.null.255:Invalid] 1:4G+1U.null.null 255.null 255 15:8C+1L. 11:5G+1U. dualMode branchBand For example.null.null null.null. 3:4G+1L.null 255 255.null 255 .null 255 null.null.null. second.null.null. second and the forth suppBand is 2G+2U. null.null.null.null.null 255. the sequence<long.null 255 null.null 255 1.null.The attribute matchs the first. third. null. 9:2U+1L.null null.null 254:TDS+TDL. The sub-frequency band within the working 5:4G+2U.null.null. 12:2G+2L.null 255 1. 1.null 255 null.null 16:1U+2L.null. 255:Invalid 255.null.null.4> third one will be cleared.null.null. 7:2C+1L.null. 6:1C+1L. 8:4C+1L.2 the first.null.null.null.null.null. long:[1.null.3.null.null.null 255 255.null. 2:2G+2U. When it is set to 0. special cases when the parameter needs to be configured. contact the needs to be configured. It is unavailable unavailable for users. It is point of TxChannel. txCenterFreq rxCenterFreq detectSwitch Enable balance detection Tx central frequency point Rx central frequency point between main set and diversity 1:Yes. sequence<double. balance detection between main executed automatically.8> sequence<double. When it is for users. In In special cases when the parameter set and diversity. the local branch. R-W R-W R-W 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . the calculation is calculation is executed automatically.8> 0:No default:0 The central receiving frequency The central transmission frequency point of RxChannel. contact local branch. the Indicates whether to enable set to 0. 41 27 3:3 eg: BPL1 in slot 3 use port 41 27 13:4 to connect with slot 4 41 27 FS's 3:5 port 1 (1.999999999] Format 2: string F:Fail (Rack. with when Add.4):(1.Slot):belo w_port. Delete or Format 3: FiberCable P:Pass Delete or Modify Modify between BBU Boards (Rack.Slot): R-I R-I R (above_port.D. below_port) 41 27 3:0 first board whose port The 41 27 connects 3:2 below board.3):1 D:Delete.2.M long:[0.Slot):port User should use this format when Rack or SubRack is not 1 A:Add. (Rack.SubRack. should not have brackets.(1. SubNetwork ID unique in subnetwork eg: (1.SubRack.. Format 1: RESULT MODIND SubNetwork MEID Slot:portBBUBoard Both Rack and SubRack id Modification are 1 BBU Board SubNetwork ID ManagedElement ID Result Indication eg: 3:1 S:Success A.SubRack. should be filled should be filled with M:Modify.2) .999999] long:[0..3):1. when Add.1.1. 86_88. portSpeed should be empty Rack1_Rack2. total RU number is not limited RU indicate 53:1 every RU uses Fiber port1 and Fiber port2 to connect in series. The last RU should provide the only Fiber port which connected by the above RU. PB. if PB's all 8 port connect none of the PRRU. every group has 8 PRRUs that are connected by PB's 8 Ethernet ports in series. the forth group is from 105 to 111.0.0.89 indicate two groups of PRRU. MAU. .97_104.3). 54:1 eg: 51_53.below_port). which are connected by PB1 and PB2 separately. PB1's third port not connect PRRU. or use 8 zero eg: -1.Rack2:above_port total Rack number is not limited.Rack3_Rack4. the second group is from 89 to 96.58 55:1 indicate RU51 RU52 RU53 RU58 are all use Fiber port 1 and Fiber port 56:1 2 to connect in series. PB2's forth port not connect PRRU. use -1 to fill in the position. Format 3: RU's FiberCable.Rack5_Rack6. eg: 51:(1.83_85.position Format 1:PRRU's Ethernet Interface Cable Rack1_Rack2. the second group PRRU connected with PB2's port from 1 to 3 Fromat 2: RU's FiberCable. MAU. PB.82. then use 0 to filled with.105_111 indicate 32 PRRUs which are dividedRU into 4 groups. the third group is from 97 to 104.89_96. RU use certain Fiber port to connect in series. eg: 81.Rack3_Rack4 R 51:1connect in series. if PB's certain Ethernet port not string connect with PRRU.86_88 the first PB connect none of the PRRU. portSpeed should be empty Rack1:(above_port.52:2 indicate RU51's Fiber port 1 is connected by BBU Board or above RU. RU51's Fiber port 3 connect with RU52's Fiber port 2. and not have bracket.Rack7_Rack8 PRRU grouped by semicolon eg: 81_88. The first group PRRUs' id is from 81 RUto 88. D:Delete.M long:[0.999999999] F:Fail A:Add.. SubNetwork ID unique in subnetwork M:Modify Primary Key Primary Key 41 27 ..999999] long:[0. RESULT MODIND SubNetwork MEID Modification Indication SubNetwork ID ManagedElement ID Result S:Success A.D. 0.0.0. IP address of ATM.0. It should be referred when FE+T1 the opposite-end configuration is R-W R R performed.0IP FE . atmAddr TRANSMISSION_TYPE TRANSMISSION_MEDIUM ATM Address Transmission Type Transmission Medium eg: sequence<long.0.0.0.0.0.0.0. 0.0.0. it must be filled. FE establishing the public IP E1 transmission channel in a cell.0 If UMTS.0.0.20> string string 0. used in If UMTS.0.0.0.0.0.0.0.0.0.0.0.0.0.0. ATM T1 This address is planned by the ATM+IP FE+E1 user.0.0.0. it must be filled. 0.0. 8] ubrNumber:[2. UMTS used..17] Default:Normal E1 number:[9. ATMConfigType ubrNumber ATM Configure Type The number of UBR AAL2 PVC string long:[1... it must be filled.15] R R . Normal E1 number:[1.16] ubrNumber:[10.19] HighLoad E1 number:[2.18] E1 number:[4...can be empty....1] ubrNumber:[1.19] If UMTS..3] ubrNumber:[1. SubNetwork ID unique in subnetwork M:Modify..D. Result Indication A..999999] long:[0. identify the physical layer D:Delete. It is used to uniquelly A:Add. RESULT MODIND SubNetwork MEID phyLayerPortNo Modify SubNetwork ID ManagedElement ID Physical Layer Port No.M long:[0.999999999] long:[0. P:Pass Primary Key Primary Key Primary Key 41 27 0 .17] S:Success F:Fail Physical layer port number. resource.. isRelay or isLIPA. In the case of base station Used GeDevice. be "SDR". 1:SDR. PhyLayerPort 1:0 0 . it Format:SlotNo:Port This attribute can confirm character &'"<> indicates that the base station Port:0. Cannot use invalid as a third-party device. If its value is set E1 port.128] string 1:Yes 3:Cloud Radio with Shared IP Opposite network element connected by the object.32 whether the mediumtype is provides the data eg:1:0 relay port or Ethernet port transmission channel for the while using refGeDevice third-party device R-I in R-W R R ATM+FE 0 cascading cases.1.only for IP. connectObject userLabel refGeDevice isRelay Physical layer port whehter mediumtype is relay Connection Object Used Ethernet description information port 0:RNC/BSC/CN/MME.CCC.CC When mediumtype is relay User-defined information.2.CCE.refGeDevice is used too.. only one of cascading.3. set this property The board with them can be choosed of upper-level base station to GeDevice:CC. 0:No 2:Third-party string:[0. isLIPA operatingMode whehter mediumtype is LIPA Operating Mode port 0:Electrical port self-adaptive. 1:Yes 3:Optical port 1000Mbps FDT. port. while using refGeDevice R R-W 0 2 . 0:No 4:Optical port 100Mbps FDT.refGeDevice is used too. matching that at This attribute can confirm the opposite end. 2:Electrical port 100Mbps FDT. The rate mode whether the mediumtype is configuration depends on whether it is LIPA port or Ethernet port supported by the Ethernet cable. Ethernet working mode. 5:Optical port 10000Mbps FDT. only one of them can be choosed It can be configured when using When mediumtype is LIPA refGeDevice and isRelay is 0. 6:Optical port 1000Mbps self-adaptive isRelay or isLIPA. 1:Electrical port 10Mbps FDT. .1000] . {operatingMode==6}[1.. mode. egressPeakBitRate ingressPeakBitRate Transmitting bandwidth (Mbps) Receiving bandwidth (Mbps) {operatingMode==0}[1. {operatingMode==3}[1.1000].1000]. {operatingMode==2}[1.. isRelay is 0..100]..100]... {operatingMode==4}[1... {operatingMode==5}[1. Transmission bandwidth in the Ethernet transmission Transmission bandwidth in the Ethernet transmission mode..1000] {operatingMode==6}[1. {operatingMode==3}[1.1000] It can be configured when using refGeDevice and It can be configured when using refGeDevice and isRelay is 0..100].1000] . {operatingMode==5}[1..100].10]..10000].. {operatingMode==1}[1. {operatingMode==1}[1.10000].10]. {operatingMode==0}[1. R-W R-W 100 100 . {operatingMode==2}[1. {operatingMode==4}[1. SE. refE1Device refT1Device Used E1 Used T1 string string E1 bearer used at the port. The board with T1Device:SA.. Format:SlotNo:Port Format:SlotNo:Port Port:0..7 Port:0. It is used in transmission mode or IP over PPP ATM transmission mode or IP over PPP transmission mode. The board with E1Device:SA. transmission mode.SE. It is used in ATM T1 bearer used at the port.7 eg:13:0 eg:13:0 R R . NIS1. It is used in ATM transmission mode. Format:SlotNo:Port R R-W . It can be configured when The board with T1Device:NIS. refStm1Device codeType Used STM-1 Code Type 0:Branch Mode. string 1:TimeSlot Mode The configuration of transmission media. using STM-1 port'. M long:[0. The A:Add. unique in an OMMB unique in subnetwork range is customized by M:Modify the user.999999999] long:[0.D. D:Delete.. Primary Key Primary Key Primary Key .16] F:Fail HDLC link number..999999] long:[0.. RESULT MODIND SubNetwork MEID hdlcNo Result Modify Indication SubNetwork ID ManagedElement ID HDLC link number S:Success A. eg1: 8-15. A total of 32 bit.. eg2: 2-5. Indicate the routing number to be used. For T1.100] E1 or T1 time slot used by TC. expressed with a number. refPhyLayerPort timeSlotBitMap btsCascadeNo Used Physical Layer Port Time slot bit mapping BTS cascade number long:[0.17] string long:[0. only fill in the time slots used. Default value: 1-31 R-I R-W R . time slot 1-24 can be configured. Indicate the time slot cross link ID in TSI of the PhyLayerPort sheet. each bit represents a time slot. time slot 1-31 can be configured. For E1. in ATM cascading mode.7-7 from 2 to 5 and 7 time slot cascading mode.. from 8 to 15 time slot to be TSI级联配置。 The value is "phyLayerPortNo" used. time slot 1-31 can be configured. For E1. eg2: 2-5. time slot 1-24 can be configured.7-7 from 2 to 5 and 7 time slot to be used. 0 indicates not reserved for the lower- represents the E1/T1 for upper- level base station. of the PhyLayerPort sheet. with SDR (outlet E1 or T1). slot. ingressTimeSlotBitMap ref2PhyLayerPort Inlet time slot bit mapping Used E1/T1/FE outlet string long:[0. station. The value is "phyLayerPortNo" For T1. R-W R . Describes which time slots in the inlet E1/T1 are reserved for the lower-level base For TSI cascading. Each bit corresponds to one time In TSI cascading mode.17] For TSI cascading. from 8 to 15 time slot to be used. eg1: 8-15. 1 indicates reserved for level base station to connect the lower-level base station.. 7-7 from 2 to 5 and 7 time slot to be used. time slot 1-31 can be configured. eg1: 8-15. Each bit corresponds to one time slot. Describes which time slots in the outlet E1/T1 are reserved for the lower-level base station. 1 indicates reserved for the lower-level base station. eg2: 2-5. It must be one-one corresponding to the lower-level time slots. For E1. 0 indicates not reserved for the lower-level base station. R-W . For T1. egressTimeSlotBitMap Outlet time slot bit mapping string For TSI cascading. from 8 to 15 time slot to be used. time slot 1-24 can be configured. 999999] F:Fail PPP link number.M long:[0. Result Indication ID long: A... unique in an unique in subnetwork range is customized by the M:Modify OMMB user. Primary Key Primary Key Primary Key .D.. RESULT MODIND SubNetwork MEID pppLinkNo Modify SubNetwork ManagedElement ID PPP link No.999999999] long:[0. The A:Add.15] S:Success [0. D:Delete. It is used for signaling and service data transmission in the 0:PPP.0.16].R-W-I R-I R-W-I . Used HDLC No IP network.16> IP address of the base station.g 1. localIp protocolType refHdlc Base station IP PPP encapsulation type Used HDLC channel String long sequence<long[0. 0.4 obtaining the local IP address by negotiating with NE on the opposite end.0 indicates 1:ML-PPP e.0..2. used to represent the priority. {mpCode==2}[1. {mpCode==6}[1.. If supported priorities when 1:Yes. ipCompress isUsedToFECascade mpCode mpClass Whether support IP Whether used for FE Sequence format of MP MP class compression cascading header long long 2:Long sequence. ML-PPP will default:0 default:0 bits in the frame format are automatically perform negotiation.. two opposite end. ML-MC PPP is supported it is different from on the 0:No 0:No (When MC is supported. 255:Invalid 255:Invalid Long/short sequence format of Indicates the number of the ML-PPP packet header.8]. R-W-I R-W-I R-W R-W .4]. 1:Yes. long long 6:Short sequence. The value is valid if CDMA. isCDMA Used for CDMA or not long 1:Yes. 0:No Indicates whether the PPP link is used for CDMA. R . M long:[0. You A:Add. SubNetwork ID unique in subnetwork can set it within the M:Modify.D. RESULT MODIND SubNetwork MEID ipNo Modify Indication SubNetwork ID ManagedElement ID IP parameter link number Result S:Success A.999999999] long:[0.. D:Delete. P:Pass value range.19] F:Fail IP configuration ID. Primary Key Primary Key Primary Key 41 27 2 41 27 0 41 27 1 ...999999] long:[0. 4094] long:[0. the The value is "pppLinkNo" "phyLayerPortNo" of the IPv4 address format is IPv4 address Combined with of the Ppp sheet.0.e..29 70:7366.10. network segment and the 200 network segment.30. i.30 network segment..72.17] long:[1.29 address of the 192.0.30 10. WhenipAddr the ethernet gatewayIp link is used.1. It can be IPv4 be IPv4 address or The value is address or IPv6 address.72..0.e. i. When the PPP IP Address the Gateway ethernet link IP link is used. 172. you cannot is used.e. i.72.When Used Physical Layer Port VLAN ID Used PPP link configured.1. It can string[0.254 000:1319:8a2e:03 0 2208 172.72.30. IP address of the base refPhyLayerPort vid refPppLink station. exclusive. IPv6 exclusive. dotted decimal notation.15] configure the IP address string[0. PhyLayerPort sheet. configuration. format is dotted refPhyLayerPort refPhyLayerPort and refPhyLayerPort and 10.0. it can be long:[0.40. 172.127] information. refPppLink are mutually refPppLink are mutually colon hexadecimal notation.10. i. the IPv6 address.161 be configured with the IP 2011:0db8:85a3:0 0 2308 10.30.30. . address is colon R-W R-W R 2011:0db8:85a3:0000:1319: R-W hexadecimal R-W 0 2809 8a2e:0370:7366. the 127 172.127] configured.e.40..162 It cannot notation. 10.. IPv6 address is decimal notation. it can be Gateway. eg: 1.. R 255. Only IPv6 will create the corresponding Subnet mask. 1:UMTS.8> [0. except LTE.. the attribute string[0. domain.252 16 255 4:TD-SCDMA 255. need not fill IPv4 address can be address belongs to. Only domain which IP address can be configured. UMTS or TDS. 255 indicates that it unconfigurable in PPP multimode format. "ServiceMap" record.255. This parameter is "ServiceMap" sheet.255.3].. Prefix length If the attribute is filled.255(Invalid) can be filled.252 16 255 255.2 does not belong to any mode. UMTS need fill. configured.127] long:[1..255. networkMask prefixLength ipField radioMode Network Mask Prefix length IP Domain Radio Standard long: If GSM.252 16 255 .128] sequence<long. R-W R-W R-W 2:GSM. the system The information of the configuration.255.255.255. 4:FDD X2 UP.the attribute can be filled。 X2 self-setup enabled 1:FDD X2 CP.5> default:0 If x2SelfSetup is set to 1. 8:TDD X2 UP. x2SelfSetup x2SelfSetupConfig X2 self-setup X2 self-setup enabled configuration long:0:No.1:Yes sequence<long. 2:TDD X2 CP. R-W R-W 16:Relay SCTP . RESULT MODIND SubNetwork MEID staticRouteNo Modify Indication SubNetwork ID ManagedElement ID Static routing number Result S:Success A. Primary Key Primary Key Primary Key .99] F:Fail The unique ID of static A:Add.999999999] long:[0.M long:[0. D:Delete... It cannot be M:Modify.D.999999] long:[0. SubNetwork ID unique in subnetwork routing.. P:Pass duplicated. It can be IPv4 or IPv6 address. The It can be IPv4 or IPv6 address.1. next hop.0. such as 10.127] static routing. such as colon.. such as 2011:0db8:85a3:0000:1319:8a2e:03 2011:0db8:85a3:0000:1319:8a2e:037 R-W-I R-W-I R-W-I 70:7366.127] The destination network address of string[0. The IPv4 format is decimal separated by IPv4 format is decimal separated by The destination network dots.0.1. address is hexadecimal separated by address is hexadecimal separated by colon.127] The gateway address configuration of string[0. . The IPv6 dots. 0:7366.. such as 10.0.. The IPv6 mask of static routing. ipAddress nextHopIpAddr networkMask IpAddress Destination IP address Network mask string[0.0. . R-I R-W R-W R-W . refPppLink are mutually exclusive.. only for IPv6 addresses.254] The value is "phyLayerPortNo" of the PhyLayerPort Combined with The prefix length The routing distance sheet.128] long:[1. refPhyLayerPort configuration.. refPhyLayerPort vid prefixLength routeDistance Used Physical Layer VLAN ID Prefix length Routing distance Port long:[0..4094] long:[1. for IPv6 addresses. Configured only refPhyLayerPort and configuration. Configured configuration.17] long:[1. userLabel routePriority Static route description Routing priority information string:[0. The priority of IP routing.128] long:[0. 0 Cannot use invalid indicates the highest character &'"<> priority...7] Default:0 User-defined information. R-W R-W . which must be A:Add.P:Pass mode. RESULT MODIND SubNetwork MEID groupNo Bandwidth resource group Modify Indication SubNetwork ID ManagedElement ID Result number S:Success A.D. D:Delete. Primary Key Primary Key Primary Key ..999999] long:[0.. the number can be set to 0-7. unique in the same bearer SubNetwork ID unique in subnetwork M:Modify.15] F:Fail Specify the bandwidth resource group number.999999999] long:[0.M long:[0.. In the Ethernet bearer mode. bandwidth of ingress. The value is "phyLayerPortNo" of the Indicate maximum available PhyLayerPort sheet..10000] Indicate on which Ethernet link the bandwidth If radio mode is LTE. bandwidth of egress. filled.17] long:[1. the allocation rule is applied. must be Indicate maximum available It is mutually exclusive with refPppLink.10000] long:[1. refPhyLayerPort egressMBR ingressMBR Maximum bandwidth of Maximum bandwidth of Used Physical Layer Port egress (Mbps) ingress (Mbps) long:[0. attribute is valid... R R-W R-W . .6].resourceNo. maximum bandwidth of outlet can be configured or … not. refPhyLayerPort. R R .15] sequence<long:[1. It is mutually exclusive with number. Indicate on which PPP link the bandwidth allocation Specify bandwidth resource rule is applied. eg:1.2 The value is "pppLinkNo" of the Ppp sheet. If the PPP link is used. refPppLink resourceNoList Used PPP link Bandwidth resource number long:[0. the Format:resourceNo. 24> The attribute is valid if CDMA.. 24> sequence<long:[0. 0:No It is an array.. array length is consistent Indicate whether the with resourceNoList.1 Format:isCDMA.1]. bandwidth resource is used Format:weight. Unit:%.. eg:0. R-W Eg:1.24> The attribute is valid if CDMA. weightList isCDMAList Whether used for CDMA or Transmission bandwidth weight not sequence<long:[0..isCDMA.100].… for CDMA.1 R . Configure transmission bandwidth 1:Yes. weight.weight. .63] F:Fail SCTP link number.999999999] long:[0. Primary Key Primary Key Primary Key 41 27 3 41 27 1 41 27 0 . SubNetwork ID unique in subnetwork You can set it within M:Modify... A:Add.M long:[0.999999] long:[0.D. RESULT MODIND SubNetwork MEID sctpNo Modify Indication SubNetwork ID ManagedElement ID SCTP link number Result S:Success A. P:Pass the value range. D:Delete. It is the parameter.. localPort refIpLayerConfig remotePort Local port number Used IP Layer Configuration Remote port number long:[1.2 R-W-I R-W-I R-W-I 2073 1 2073 27 2 14598 27 1 27 . interconnection parameter.65535] sequence<long:[0. bears SCTP.4> long:[1.ipNo.19].65535] The value is "ipNo" of Local port number of SCTP link. IpLayerConfig sheet. eg:1.. Format:ipNo. Remote port number of It is the interconnection Configuration of IP layer that SCTP link.. the IPv4 address format is maximum of six incoming and outgoing 8:CDMA{CDMA}. R-W-I multimode format.6. IPv6 address is colon Default:2 32:TD-LTE{LTE TDD} hexadecimal notation.9. A SCDMA}.32 R-W 2011:0db8:85a3:0000:1319:8a2e:0 370:7366.1.7 1 2 . dotted decimal notation..ip.e. Number of incoming and outgoing 4:TD-SCDMA{TD- It can be IPv4 address or IPv6 streams of SCTP association. streams can be configured.9.6. i.25.18.0. address. sequence<string. 172.8> long:[2.1 2 6 172. Remote IP address of SCTP link.ip.7 1 2 118.6] eg:20.25. 2:GSM{GSM}. It is the interconnection parameter.4> sequence<long. R-I eg: 4.1.ip.10.2 1:UMTS{UMTS}.10.0. 10. 16:LTE FDD{LTE FDD}.e. remoteAddr radioMode inOutStreamNum Remote Address Radio standard Number of in-and-out Streams Format:ip.1. i.20. eg:0. R-W R-W R-W 46 SCTP 46 SCTP 46 SCTP ..63] string string:[0.128] The value is "groupNo.1 according to the actual scenario. Format:groupNo. dscp refBandwidthResource userLabel Sctp description DSCP Used Bandwidth Resource information long:[0. User-defined the BandwidthResource sheet.resourceNo" of IP service model configuration.. Cannot use invalid Configure the bandwidth resource used Default:46 character &'"<> for SCTP.resourceNo. Different models are chosen information. D:Delete.999999] long:[0. Primary Key Primary Key Primary Key 41 27 0 ..P:Pass within the value range. You can set it M:Modify. RESULT MODIND SubNetwork MEID omcChannelNo OMC Interface Link Modify Indication SubNetwork ID ManagedElement ID Result number S:Success A.999999999] long:[0.D.M long:[0.15] F:Fail Itf-UniBTS channel A:Add. SubNetwork ID unique in subnetwork number... 0 0 10. IPINIP mode.19] string 2:Independent Networking Itf-UniBTS packet encapsulation type. omcChannelType refIpLayerConfig innerIp Type of Operation and Maintenance Used IP Layer Configuration Base station inner IP Interface 0:IPINIP.30 . The value is "ipNo" of The O&M packet can use IPINIP mode The inner IP address of base IpLayerConfig sheet. It is used for itfUniBts.10. long:[0.72. The O&M packet can use the OMC and it is an eg: 0 independent networking mode without interconnection parameter RNC/BSC resolution. This attribute is valid when IPINIP or IP (independent networking).. R-W-I R-W-I (interconnected R-W with OMC). through RNC/BSC resolution station configured in the Configuration of IP layer for transferring. itfUniBtsType is 0. 9. It can be IPv4 mode.0. gatewayIp omcServerIp omcServerIpPrefixLenth omcNetworkMask OMC GateWay IP OMC Server IP OMC Prefix Length OMC Network Mask string string long:[1. R-W R-W address can R-W be configured.. R-W 10. itfUniBtsType is 0.0.128] string This attribute is valid when This attribute is valid This attribute is valid This attribute is valid when itfUniBtsType is 2 and IPv6.63 0. when itfUniBtsType is 2.0. Subnet mask of the OMC IP address of the OMC Subnet mask of the OMC IP address of the OMC Server server configured in the server configured in the server configured in the GateWay configured in the IP in independent networking independent networking independent networking IP networking mode.0.0 16 0. address or IPv6 address. It can be mode. when itfUniBtsType is 2.0 . Only IPv6 omcServerIP address or IPv6 address. mode.1. It can be IPv4 IPv4 address or IPv6 address. it to '46:EF service. accelerated eg:0. . dscp refBandwidthResource dscp Used Bandwidth Resource The transmission long:[0.1 forwarding.resourceNo" of the recommended to set BandwidthResource sheet. It is customized by the The value is user.resourceNo. It is "groupNo. minimum R-W delay. Format:groupNo. and R-W maximum 0 flow'..63] string quality priority of O&M packet. Primary Key Primary Key Primary Key ..M long:[0.999999999] long:[0.. D:Delete. You can set it within SubNetwork ID unique in subnetwork M:Modify.. RESULT MODIND SubNetwork MEID tcpNo TCP connection Modify Indication SubNetwork ID ManagedElement ID Result number S:Success A. P:Pass the value range.D.1] F:Fail A:Add.999999] long:[0. is the interconnection parameter. the actual scenario..0. format is dotted decimal notation. You can choose Configuration of IP layer that is IPv4 address. refIpLayerConfig remoteAddr qos Used IP Layer Configuration Remote Address QoS long:[0.6.8] eg:20.1.e. It configuration. i.19] string long:[7. 10.1 The value is "ipNo" of Remote IP address of TCP link.. R-I R-I R-I . the IPv4 address different model according to bears TCP. It IP service model IpLayerConfig sheet.9.0. eg:0. Format:groupNo.1 Configure the bandwidth resource used for TCP.resourceNo. refBandwidthResource Used Bandwidth Resource string The value is "groupNo. R-W .resourceNo" of the BandwidthResource sheet. .999999] long:[0.M long:[0. D:Delete.999999999] long:[1.P:Pass "IpLayerConfig "sheet is filled.. Primary Key Primary Key Primary Key 41 27 1 41 27 2 . need not fill this sheet. of Service Modify Indication SubNetwork ID ManagedElement ID Result Map S:Success A. RESULT MODIND SubNetwork MEID serviceMapNo Object No..D. except LTE.32] F:Fail Service and DSCP mapping No. If the "radioMode" A:Add. SubNetwork ID unique in subnetwork attribute of the M:Modify. IpLayerConfig sheet.19] sequence<string.CUCC the bandwidth is configured.1 Format:operatorName.. services.operatorNa Configure the IP parameter of Configure the bandwidth resource of bearer me bearer services.resourceNo" of the The value is "operatorName" of The value is "ipNo" of BandwidthResource sheet. This parameter must be configured if eg:CMCC.resourceNo. eg:0. R-W-I R-I R-W 1 NA 2 NA . Format:groupNo. Operator sheet.3> string The value is "groupNo. refIpLayerConfig refOperator refBandwidthResource Used IP Layer Configuration Operator Name Used Bandwidth Resource long:[0. 13.39.58.26.61. sequence<long:[0. 255(invalid)].15. 48.3 8.30.24. 64> default: default: 0.20.21.53.51.9.26.28.38.1 .37.17.50.28.23.36..44.37.34.40.34.46.20.19.45.63 Mapping rule between LTE FDD service and Mapping rule between TD-LTE service and DSCP.6 . It indicates with which QoS priority R-W IP layer bears the corresponding service.39.55. 255(invalid)].24.3. 64> sequence<long:[0. can not fill the LTE TDD use.63.54.42.41.50. .8.10. can not fill the ServiceDscpMap of other radio mode. DSCP is set to 255.32.57.17.60.29.44.5.6.18 0.59.56.41.1. ServiceDscpMap of other radio mode.31.23.47.11.63.52.31.25.13.36.43.4. layer does not bear the corresponding service. If fill the field.25.3.29.. If fill the field.46.54.4.51.9.58.45.35.32 3.14.8. If the IP layer bears theR-W corresponding service.16.11.14.2.2. it indicates that this IP If DSCP is set to 255. .15.5.33.30.16.59.19.52.38. it indicates that this IP layer does not bear the corresponding service. It indicates with which QoS priority the DSCP.53.57.7.48.27.62 47.60.10.42.12.49.55.22.62.12.1.35.40.27.7.43.22.56.49.63 1.21. fddServiceDscpMap tddServiceDscpMap LTE FDD service and DSCP mapping LTE TDD service and DSCP mapping LTE FDD use.6. .0 It indicates with which QoS priority the IP layer Mapping rule between UMTS service and DSCP.rrcConnDscp. default: 46. If fill the field.r99St Format:cs2GDscp.36.20. can not fill the ServiceDscpMap of other GSMsequence<long:[0.20 value:[0..63].255:Invalid.hspaInteractiveDscp. corresponding service.r99BackgroundDscp.ps2GDscp reamingDscp.255.hspaStreamingDscp. use.22.255:Invalid scp..36.63. it indicates thatR-Wthis IP layer does not R-W DSCP is set to 255.hspaBackgroundDscp.r99ConverDscp.38. 10> radio mode.63]. Format:commonTransChanDscp.0. gsmServiceDscpMap umtsServiceDscpMap GSM service DSCP mapping UMTS service and DSCP mapping UMTS use. If fill the field.36.hspaConverD value:[0. 255(invalid)]. 255(invalid)].38. If DSCP is set which QoS priority the IP layer bears the corresponding service.22. can not fill the 2> sequence<long:[0..20.36. 46.36. default: 36.0. ServiceDscpMap of other radio mode. If to 255.38. It indicates with bears the corresponding service.63.0 36.36.20 .r99InteractiveDscp. it indicates that this IP layer does not bear the bear the corresponding service. Mapping rule between GSM service and DSCP. 36. 255(invalid)].. tdsServiceDscpMap TD-SCDMA service and DSCP mapping TDS use.hspaConv erDscp.rrcConnDscp. . it indicates that this IP layer does not bear the corresponding service.hspaBackgroundD scp.0 Mapping rule between TD-SCDMA service and DSCP.hspaInteractiveDscp.22. value:[0.255:Invalid default: 46.hspaStreamingDscp. If fill the field.r99ConverDscp. sequence<long:[0. It indicates with which QoS priority the IP layer R-W bears the corresponding service.20. If DSCP is set to 255.0.r99InteractiveDscp.38.r99BackgroundDscp. can not fill the ServiceDscpMap of other radio mode..38.r99 StreamingDscp.36.36.63. 10> Format:commonTransChanDscp.63]. and 351~431.. 202. 351~431. except for 201.999999] long:[0. Primary Key Primary Key Primary Key . SubNetwork ID unique in subnetwork The new value is P:Pass recommended from 21 to 600. A:Add.D.. 251~255. 251~255.. 202.999999999] long:[1. D:Delete. of antenna Modify Indication SubNetwork ID ManagedElement ID Result attribute S:Success A.600] F:Fail Default value is from 1 to 20. 201.P long:[0. RESULT MODIND SubNetwork MEID antProfileNo Object No. ..255] long:[0..255] long:[0.8] 1: GuoXin 2: HaiTian 3: GCI 4: TTCOM Intelligent antenna type. antFactory antType antGain antGap antUnitsNumber Number of Antennaantenna Intelligent Factory Antenna Type Antenna Gain Antenna Gap Antenna Units vendor.. 0: default long:[0. Antenna interval(for line 5: COMBA 0:smart antennas circular array Intelligent array) or Quantity of 6: MOBI 1:smart antennas liner array antenna semidiameter(for circle intelligent units 7: Tongyu 2:distributed antenna gain(dBi) array)(mm) 8: ANDREW 3:smart biploar anetennas 9: ShengLu 10:HongXin 100:SunRise R-I R-I R-I R-I R-I 101:KATHREIN 201:CMCC Recommended .65535] long:[1.255] long:[0.. antModel Antenna mode string:[1..40] Type of the antenna.Should not use invalid character &'"<> R-I RESULT MODIND SubNetwork MEID refSdrDeviceGroup Modify Indication SubNetwork ID ManagedElement ID Connected RRU Result S:Success A,D,P long:[0..999999] long:[0..999999999] string F:Fail Connected RRU, A:Add, D:Delete, SubNetwork ID unique in subnetwork Format:RackNo P:Pass eg:51 Primary Key Primary Key Primary Key irAntGroupNo refRfDevice Ir Antenna Group No. Connected Tx Device long:[1..8] sequence<string,8> Smart antennas: Tx device which connects to RF cable, which is the radio 1. A IrAntGroup correspond to an AntEntity. frequency port of the RRU. 2. an antEntity is configured an antprofile, "refRfDevice" is Format:rack:port&rack:port;rack:port&rack:port an array, array length is consistent with "number" attribute The value refer "irAntGroupNo". of "antprofile". Rule: Distributed antenna: 1. A "antEntity" corresponds to n "refRfDevice"(n>=1, 1. A IrAntGroup correspond to n AntEntity.(n>=1), an consistent with the "number" attribute of "antprofile"). antEntity is configured an antprofile, "antEntity" is an 2. Multiple "antEntity" corresponds to "refRfDevice" array, length according the real situation . using ";" separation. 2. refRfDevice is an array, length using ";" separation is 3. An "antEntity" corresponds to multiple "refRfDevice" consistent with the array length of "antEntity", length using using "&" separation. "&" separation is consistent with the "number" attribute of rule 2, eg: 51:1;51:2;51:3;51:4 "antprofile". rule 3, eg:51:1&51:2 Primary Key R-I Format:antEntityNo.antEntityNo eg:1.4 R-I .3.antEntity No.8> Unique in NE. sequence<long. The value refer "irAntGroupNo".2. antEntityNo Antenna Entity No.antEntityNo. gain is 18dBi.type is smart antennas liner array. 379:vendor is Tongyu. 376:vendor is Tongyu. period or distance is 65 mm.type is smart biploar anetennas.type is smart antennas circular array. gain is 8dBi. gain is 15dBi. period or distance is 81 mm.number is 8. 360:vendor is MOBI.number is 2. 8: vendor is default. period or distance is 95 mm.type is smart biploar anetennas.number is 4.type is smart biploar anetennas.type is smart antennas liner array. period or distance is 65 mm. period or distance is 65 mm. period or distance is 65 mm. period or distance is 65 mm.number is 2. period or distance is 65 mm. gain is 15dBi.type is smart biploar anetennas.type is smart biploar anetennas.number is 8.number is 8. 5: vendor is default.number is 8.number is 8.type is smart biploar anetennas.type is smart biploar anetennas. 366:vendor is MOBI.type is smart biploar anetennas. 375:vendor is MOBI. period or distance is 65 mm. 2: vendor is default.number is 8.type is smart biploar anetennas. period or distance is 65 mm. 369:vendor is MOBI.number is 6. eg:1. 351:vendor is default. 201:vendor is default. 254:vendor is default.number is 6.type is smart biploar anetennas. gain is 8dBi.number is 4. 12:vendor is default.number is 8. period or distance is 88 mm.number is 8.number is 4.type is smart antennas liner array. 370:vendor is MOBI.3.number is 2.8> The value refer "irAntGroupNo". period or distance is 65 mm. AntProfile Used antProfileNo sequence<long.number is 8. period or distance is 75 mm. period or distance is 65 mm.number is 8. period or distance is 88 mm.type is smart biploar anetennas. gain is 15dBi.type is smart antennas liner array. gain is 15dBi. 4: vendor is default. period or distance is 65 mm. 13:vendor is default. gain is 18dBi. 359:vendor is MOBI.number is 8.type is smart biploar anetennas.number is 8.type is smart biploar anetennas. 372:vendor is MOBI. 378:vendor is Tongyu. period or distance is 65 mm.type is smart biploar anetennas. gain is 15dBi. period or distance is 65 mm.type is smart biploar anetennas.antProfileNo.number is 8.number is 8.type is smart biploar anetennas. gain is 8dBi. 20:vendor is default.number is 8.number is 8.number is 8. 17:vendor is default. 364:vendor is MOBI. 380:vendor is Tongyu. gain is 15dBi.number is 8.type is smart antennas liner array. period or distance is 75 mm. gain is 15dBi. gain is 15dBi.number is 4.gain is 18dBi. 374:vendor is MOBI. gain is 8dBi. period or distance is 65 mm. gain is 15dBi. period or distance is 65 mm. 202:vendor is default.gain is 15dBi.number is 8.number is 8. 368:vendor is MOBI.type is smart biploar anetennas.type is smart biploar anetennas. gain is 15dBi.number is 6.type is smart biploar anetennas. period or distance is 65 mm.type is smart antennas liner array. period or distance is 65 mm. 16:vendor is default. gain is 15dBi.type is smart biploar anetennas.number is 2.type is smart biploar anetennas.type is smart antennas liner array. period or distance is 95 mm.number is 1. 371:vendor is MOBI. period or distance is 65 mm. 365:vendor is MOBI. 367:vendor is MOBI.type is smart antennas liner array. gain is 15dBi. period or distance is 65 mm.number is 8. gain is 15dBi. period or distance is 65 mm. gain is 15dBi.number is 8.type is smart biploar anetennas.4. 14:vendor is default.type is smart biploar anetennas. 10: vendor is default.period or distance is 75mm. 355:vendor is MOBI.number is 8.type is smart biploar anetennas. 363:vendor is MOBI. period or distance is 75 mm. period or distance is 65 mm.period or distance is 65mm. gain is 15dBi.number is 8. gain is 18dBi. gain is 15dBi. period or distance is 65 mm. period or distance is 65 mm.number is 8. 377:vendor is Tongyu. gain is 15dBi.type is smart biploar anetennas. gain is 15dBi. the value list is as follows: 1: vendor is default. gain is 15dBi. 352:vendor is GuoXin. gain is 8dBi. 255:vendor is default.type is smart antennas liner array.2. period or distance is 88 mm.type is smart biploar anetennas.number is 4. 19:vendor is default. period or distance is 65 mm.number is 8.gain is 15dBi. gain is 15dBi.type is smart biploar anetennas.number is 8.type is smart biploar anetennas. gain is 15dBi.period or distance is 65mm.type is smart biploar anetennas. gain is 15dBi.type is distributed antenna. period or distance is 65 mm.type is smart biploar anetennas.number is 8.type is smart biploar anetennas. 6: vendor is default.type is smart antennas liner array.type is smart biploar anetennas. period or distance is 65 mm. gain is 18dBi. gain is 15dBi. gain is 15dBi.type is smart biploar anetennas.number is 8. 357:vendor is MOBI. 11:vendor is default.type is smart biploar anetennas. 9: vendor is default. period or distance is 75 mm.number is 8.type is smart antennas circular array. gain is 15dBi.number is 8.number is 8.type is smart biploar anetennas. 381:vendor is Tongyu. gain is 18dBi. period or distance is 65 mm.number is 6. gain is 15dBi. gain is 15dBi. period or distance is 65 mm.antProfileNo. . 3: vendor is default.type is smart biploar anetennas. period or distance is 65 mm. gain is 18dBi. 356:vendor is MOBI. gain is 15dBi. period or distance is 75 mm. 358:vendor is MOBI. gain is 15dBi.number is 8.type is smart antennas liner array. 15:vendor is default. gain is 15dBi. The default value of antProfileNo. 361:vendor is MOBI. 353:vendor is COMBA.type is smart biploar anetennas. period or distance is 65 mm.number is 8.number is 8. gain is 15dBi. 7: vendor is default. gain is 15dBi. gain is 8dBi. period or distance is 65 mm. 252:vendor is default. 18:vendor is default. gain is 15dBi.type is smart biploar anetennas. period or distance is 75 mm. period or distance is 65 mm.number is 8. period or distance is 65 mm.type is smart biploar anetennas. 354:vendor is COMBA.number is 8.number is 8. period or distance is 75 mm. period or distance is 65 mm. 253:vendor is default. gain is 18dBi.number is 2. gain is 18dBi.number is 4. 362:vendor is MOBI. period or distance is 65 mm.numberR-I is 8.type is smart antennas circular array.type is smart biploar anetennas. gain is 15dBi.number is 2. period or distance is 65 mm. Format:antProfileNo. gain is 15dBi.antProfileNo. period or distance is 65 mm. period or distance is 75 mm. 251:vendor is default.type is smart antennas liner array. gain is 15dBi. 373:vendor is MOBI.period or distance is 75mm. period or distance is 65 mm.gain is 18dBi.number is 8.type is distributed antenna.type is smart antennas circular array.number is 8. gain is 15dBi. gain is 15dBi. P:Pass SubNetwork ID unique in subnetwork Primary Key Primary Key . RESULT MODIND SubNetwork MEID Result Modify Indication SubNetwork ID ManagedElement ID S:Success A. M:Modify. D:Delete..M long:[0.D.999999999] F:Fail A:Add..999999] long:[0. . Used PhyLayerPort Time Slot No..the value is equal to PHYLAYERPORTNO R-I R-I R-I . channelizedStm1No refPhyLayerPort timeSlot IP Parameter Link No.. set it within the value range.[1..15] long:[0. long long:[0.63] IP configuration ID. physical layer port must be STM-1. You can The transmission media used by Time Slot No.17] [255.255]. D.999999999] F:Fail A:Add. D:Delete. P:Pass Primary Key Primary Key .M long:[0... RESULT MODIND SubNetwork MEID Result Modify Indication SubNetwork ID ManagedElement ID S:Success A. SubNetwork ID unique in subnetwork M:Modify.999999] long:[0. 11] sequence<long:[0.. The transmission media used by physical layer port must be STM-1 when ATM layer protocol is STM-1. Used ATM Port long:[0. You can 1. E1 or T1 when ATM layer protocol is IMA or TC.PHYLAYERPORTNO. atmLayerLinkNo refPhyLayerPort AtmLayer Link No. The transmission media used by physical layer port must be set it within the value range..32> AtmLayer link No.17]...3 Primary Key R-W .eg:1. TC or STM- for IMA Group No.the value format is "PHYLAYERPORTNO. Only one physical layer port is used when ATM layer protocol is TC or STM-1.especailly It is valid when ATM layer protocol is set as IMA.PHYLAYERP ORTNO".2. refChannelizedStm1 Used Channlized STM-1 sequence<string.3/ 4 R .32> It is valid when ATM layer protocol is set as IMA or TC. Only one physical layer port is used when ATM layer protocol is TC.the value format is "PHYLAYERPORTNO/timeSlot".Eg:2/1. LTE FDD TD-LTE TD-SCDMA CDMA R8880-L268 R8924DT R01 R8841 C804(RTRA) R8882-L268 R8928D R11 R8841 C804(RTRB) R8882-L188 R8928E R21 R8860 C806(RTRA) R8882-L808 R8928F R21A R8860 C806(RTRB) R8882-L708 R8928FA R08i RSU60 C80(RTRA) R8882-L718 R8962 R08A RSU60 C80(RTRB) R8882 S2600(B4A) R8964 S2300 R8918 R8860 C808(RTRB) R8882 S8000(B4A) R8964 S2600 R8918A RSU80 C80(RTRA) R8882 L108 R8964T S2600 R8928A RSU80 C80(RTRB) R8882 S2600(B6A) R8964 S3500 R31A2 RSU105 C80(RTRB) R8884 L268(A) R8964 S3600 R31E2 R8860 C858(RTRB) R8884 S2600(A4A) R8968 S2600 R31A RSU80 C85(RTRB) R8884 M1826(A4A) R8968 M1920 R8860 C196(RTRA) R8884 M8026(A4A) R8968C S2600 R8860 C196(RTRB) A8808 H2600(A4A) R8968 S1400 RSU60 C19(RTRA) R8882-GUL9012 R8968 S1800 RSU60 C19(RTRB) R8882-GUL1812 R8968 S0400 R8860 C216(RTRB) R8882 S2100(B) R8968E M1920 RSU60 C21(RTRB) R8882 S1800(B) R8968i M1920 R8860 C206(RTRA) R8884 M1826(AFA) R8978 S2600 R8860 C206(RTRB) R8882 S1800(B6B) R8972 S2600 RSU60 C20(RTRA) R8882 S1700(B6A) R8972 M192023 RSU60 C20(RTRB) R8882 S1800(B6C) R8972 M1920 R8860 C426(RTRA) R8882 S8100(B6B) R8972 S2300 R8860 C426(RTRB) R8882 S1800(G6B) R8972E M192023 RSU60 C42(RTRA) R8882 S2100(G6B) R8972i M192023 RSU60 C42(RTRB) R8862A S1800(A6A) R8972E M1920 R8860 C456(RTRA) R8862A S2100(A6A) R8972E S2300 R8860 C456(RTRB) R8862A S2100(A6B) R8972E S2600 RSU60 C45(RTRA) R8882 S8500(B6B) R8972S M1920 RSU60 C45(RTRB) R8861 S2100(B8C) R31AE RSU82 C806(RTRD) R8861 S1800(B8C) R31F RSU82 C196(RTRD) R8861 S2100(B8B) R31FA RSU82 C216(RTRD) R8861 S1800(B8B) R8972E S1400 RSU82 C808(RTRD) A8808 A21P1826(A6A-B) R8972E S7500 RSU82 C808(RTRG) R8862A S1800(A6B) R8972E S8000 R8882 S8500(B6A) R8972E S6000 R8862A S1800(A4A) R8974T S2600 R8862A S1800(A4B) BOP R8862 S1800(A6A) R8204 T2500 R8862 S1800(A6B) R8972E S2600U R8862 S2100(A6A) R8972E S2600C R8862 S2100(A6B) R8972E S7500U R8862A S2100(A4A) R8972E S7500C . R8862A S2100(A4B) R8972E S7500W R8882 S7200(B6A) R8978 S2600U R8862A S1800(B6A) R8978 S2600C R8862A S1800(B6B) R8202 T2300 R8862 S1800(B6A) 8972E S2300W R8862 S1800(B6B) 8978 M1920 R8862A S8500(A6A) 8978 S2600L R8862A S8500(A6B) R8978T S3500 R8862 S9000(A6B) R8978 S2300 R8862 S9000(A6A) R8972E S1800 R8812 S1800(A1A) R8968E M1920A R8812 S1800(A1B) R8978 M1920A R8812 S2100(A1A) R8972E M192023A R8812 S2100(A1B) R8972E M1920A R8102 F2100(A1A) R8972S M1920A R8102 F2100(A5A) R8988 S2600 R8108 F851821T26(A1A) R8988 M1920 R8108 F851821T26(A5A) R8982 S2300 RSU82 S2600(B4A) R8972E S2300U R8862 S1800(C6A) R8972E S2300C R8862 S1800(C6B) R8108 T2023 R8862A S1800(C6A) R8984E S3500 R8862A S1800(C6B) R8984E S2600 R8882D S4500(B6A) R8984E S2300 R8108 F851821(A5A) R8978 S2600M R8108 F1821(A5A) R8972E S2000 R8862 S8000(A4A) R8502 S2300 R8862 S8000(A4B) R8502 S2600 R8882 S1900(B6B) A8712 M192026 R8862A S2600(A4A) A8712 S2600 R8862A S2600(A4B) R8119 T2600 R8872A S9000(A8A) R8119 T3500 R8872A S2100(A8A) R8119 M182023 R8872A S2600(A6A) A8988 S2600 R8872A S8500(A8A) BOP1 R8402 S1800(A5A) R8502 S2600U R8402 S1800(A5B) R8502 S2600C R8402 S2100(A5A) R8502 S2300U R8402 S2100(A5B) R8502 S2300C A8602 M1821(A4A) R8972E S5000 A8602 M1821(A4B) R8984E S3700 R8412 M1821(A1A) R8984E S3600 R8412 M1821(A1B) R8108 T2300 R8862A S1700(A6A) R8108 T2300B R8862A S1700(A6B) R8108 T2600 . R8862 S7200(A6A) R8108 T2600B R8862 S7200(A6B) R8892E M1821(BAA) R8872A S1900(A8A) A8602 S1800(A4A) A8602 S1800(A4B) A8602 S2100(A4A) A8602 S2100(A4B) R8892E M8090(B8A) A8808 A18P1826(A6A-B) R8108 F182126(A5A) R8119 F851821T26(A5A) R8119 F1821T23(A5A) R8119 M182126(A5A) R8119A M182126(A5A) R8862A S7200(A6A) R8862A S7200(A6B) A8602 S9000(A4A) A8602 S9000(A4B) R8862A S2100(D6A) R8862A S2100(D6B) R8862A S2100(D4A) R8862A S2100(D4B) RSU82 S8500(B8B) R8862A S2601(A6A) R8862A S2601(A6B) . . GUL FTL RTR-U212 R8880-L268 RTR-U214 R8882-L268 RTR-U854 R8882-L188 RTR-U904 R8882-L808 RTR-U216 R8882-L708 RTR-U856 R8882-L718 RTR-U176 R8882 S2600(B4A) RSU40-U214 R8882 S8000(B4A) RSU40-U216 R8882 L108 RSU40-U218 R8882 S2600(B6A) RSU40-U178 R8884 L268(A) TRB-G904 R8884 S2600(A4A) TRB-G184 R8884 M1826(A4A) TRB-G194 R8884 M8026(A4A) TRB-G854 A8808 H2600(A4A) TRB-G904-RU R8924DT TRB-G184-RU R8928D TRB-G194-RU R8928E TRB-G854-RU R8928F DTR-GU856 R8928FA DTR-GU906 R8962 DTR-GU186 R8964 S2300 DTR-GU196 R8964 S2600 DTR-GU908 R8964T S2600 DTR-GU188 R8964 S3500 RSU60-GU908 R8964 S3600 RSU60-GU188 R8968 S2600 RSU60-GU906 R8968 M1920 RSU60-GU186 R8968C S2600 TTR-G902 R8968 S1400 TTR-G182 R8968 S1800 TTR-G904 R8968 S0400 TTR-G184 R8968E M1920 RSU02-G902 R8968i M1920 RSU02-G182 R8978 S2600 RSU02-G904 R8972 S2600 RSU02-G184 R8972 M192023 ADTR-GU858 R8972 M1920 ADTR-GU908 R8972 S2300 ADTR-GU188 R8972E M192023 ADTR-GU198 R8972i M192023 RSU60E-GU858 R8972E M1920 RSU60E-GU908 R8972E S2300 RSU60E-GU188 R8972E S2600 . RSU60E-GU198 R8972S M1920 RSU82-GUL9016 R31AE RSU82-GUL1816 R31F RSU82-GUL8516 R31FA RSU82-GUL1916 BSTRQA RSU82-U2112 R8882-GUL9012 RSU82-GUL9018D R8882-GUL1812 R8880A-U2112 R8882 S2100(B) R8880A-U1712 R8882 S1800(B) R8882-GUL9012 R8884 M1826(AFA) R8882-GUL1812 R8882 S1800(B6B) R8882-GUL8512 R8882 S1700(B6A) R8882-GUL1912 R8882 S1800(B6C) R8882-GUL9018D R8882 S8100(B6B) R8882 S9000(B) R8972E S1400 R8882 S1800(B) R8972E S7500 R8882 S8500(B6B) R8972E S8000 R8882 S1900(B6B) R8882 S1800(G6B) R8882 S2100(B) R8882 S2100(G6B) R8882-S9000C R8862A S1800(A6A) R8882-S1800C R8862A S2100(A6A) R8882 S8500(B6A) R8862A S2100(A6B) R8882 S9000(C6B) R8882 S8500(B6B) R8882 S1800(C6B) R8861 S2100(B8C) R8882 S1900(B5A) R8861 S1800(B8C) R8884 M1826(AFA) R8861 S2100(B8B) RSU82 S9000(B8A) R8861 S1800(B8B) RSU82 S1800(B8A) A8808 A21P1826(A6A-B) RSU82 S8500(B8B) R8204 T2500 RSU82 S1900(B6B) R8862 S1800(A6A) RSU82 S2100(B6A) R8862 S1800(A6B) RSU82 S8500(B8A) R8862 S2100(A6A) RSU82 S1900(B6A) R8862 S2100(A6B) RSU82 S2100(B8A) R8862A S2100(A4A) RSU82 S1800(B8B) R8862A S2100(A4B) R8881 S2100(B8B) R8974W S2600 R8881 S9000(B8B) R8978 S2600W R8881 S9000(B8C) R8972E S2600W R8881 S1800(B8B) R8984 M192026 R8881 S1800(B8C) R8862A S1800(B6A) R8881 S2100(B8C) R8862A S1800(B6B) R8881 S8500(B8B) R8862 S1800(B6A) R8881 S8500(B8C) R8862 S1800(B6B) R8881 S1700(B8B) R8972E S2600U R8881 S1900(B8B) R8972E S2600C . R8881 S1900(B8C) R8972E S7500U R8882 S1800(B6B) R8972E S7500C RSU60E GU90E R8972E S7500W RSU60E GU18E R8978 S2600U RSU82 S2100(B8B) R8978 S2600C R8882 S9000(B6C) R8974T S2600 R8882 S1800(B6C) R8862A S8500(A6A) R8882 GUL9018D(B6B) R8862A S8500(A6B) RSU82 S1800(B8C) R8862 S9000(A6B) R8892 M8090 R8862 S9000(A6A) R8881 S2100(B8D) 8972E S2300W R8861 S8500(B8B) 8978 M1920 R8861 S1900(B8B) 8978 S2600L R8861 S2100(B8B) R8978T S3500 R8861 S8500(B8C) R8978 S2300 R8861 S1900(B8C) R8812 S1800(A1A) R8861 S2100(B8C) R8812 S1800(A1B) P19BTA21A R8812 S2100(A1A) R8862 S1800(A6A) R8812 S2100(A1B) R8863 S2100(A6A) R8972E S1800 R8861 S1700(B8B) BOP R8861 S9000(B8B) R8968E M1920A R8861 S1800(B8B) R8978 M1920A R8861 S9000(B8C) R8972E M192023A R8861 S1800(B8C) R8972E M1920A R8863 S1800(A6A) R8972S M1920A R8863 S9000(A6A) RSU82 S2600(B4A) RSU82 S9000(B8C) R8862 S1800(C6A) R8881 S1801(BCB) R8862 S1800(C6B) R8881 S9001(BCB) R8862A S1800(C6A) R8862 S9000(A6A) R8862A S1800(C6B) R8862 S2100(A6A) R8882D S4500(B6A) R8863 S2100(A8A) R8108 F851821T26(A1A) R8863 S1800(A8A) R8108 F851821T26(A5A) R8863 S9000(A8A) R8108 F851821(A5A) R8862 S1800(A6B) R8108 F1821(A5A) R8862 S9000(A6B) R8862 S8000(A4A) R8862 S2100(A6B) R8862 S8000(A4B) R8881 S2100(B8E) R8984E S3500 R8861 S9000(B8D) R8984E S2600 R8861 S9000(B8E) R8984E S2300 R8861 S1800(B8D) R8978 S2600M R8861 S1800(B8E) R8972E S2000 R8863 S2100(B8A) R8972E S6000 R8863 S1800(B8A) R8502 S2300 . R8863 S9000(B8A) R8502 S2600 R8863 S9000(B8N) A8712 M192026 R8862A S1800(A6A) A8712 S2600 R8862A S1800(A6B) R8119 T2600 R8862A S1800(B6A) R8119 T3500 R8862A S1800(B6B) R8119 M182023 R8862 S1800(B6A) R8872A S1900(A8A) R8862 S1800(B6B) A8602 S1800(A4A) R8881 S2101(BCB) A8602 S1800(A4B) R8872A S1800(A8A) A8602 S2100(A4A) R8812 S2100(A1A) A8602 S2100(A4B) R8812 S2100(A1B) R8892E M8090(B8A) R8862 S1800 C6A A8808 A18P1826(A6A-B) R8862 S1800 C6B BOP1 R8862A S1800 C6A R8862A S2100(D4A) R8862A S1800 C6B R8862A S2100(D4B) RSU82 S8500(B8B) R8984E S3700 R8984E S3600 R8862A S2601(A6A) R8862A S2601(A6B) .