98108280 SDR Common Command Summary
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Transcript of 98108280 SDR Common Command Summary
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SDR common command summary
1 CC Command
1.1 PRM Parameter configuration command Reference code Prmlpub.c):
1) ShowPrm: View BP board configuration
telnet CC type ShowPrm show the following results:
CC-> ShowPrm
bIsBpOK [0] = 0!!!
bIsBpOK [1] = 0!!!
bIsBpOK [2] = 1!!!
bIsBpOK [3] = 0!!!
bIsBpOK [4] = 0!!!
tPrmCtlVar.tBpIns [0]. tSynPnt.bySub = 0, byL2State = 0, byMskChgState = 0, dwBitmap = 0!
tPrmCtlVar.tBpIns [1]. tSynPnt.bySub = 0, byL2State = 0, byMskChgState = 0, dwBitmap = 0!
tPrmCtlVar.tBpIns [2]. tSynPnt.bySub = 255, byL2State = 1, byMskChgState = 0, dwBitmap = 0!
tPrmCtlVar.tBpIns [3]. tSynPnt.bySub = 0, byL2State = 0, byMskChgState = 0, dwBitmap = 0!
tPrmCtlVar.tBpIns [4]. tSynPnt.bySub = 0, byL2State = 0, byMskChgState = 0, dwBitmap = 0!
Arguments detailed
a) bIsBpOk [BP_MAX]:
BP said the veneer is configured, 1 represents the configuration, 0 is not configured;
BP_MAX that the location of BP board, 0 corresponds to slot 4, 1 corresponds to the slot
5, And so on 4 Corresponding slots 8
b) WORD16 byMskChgState:
byMskChgState 0 BP veneer that the parameters of all the carrier is not configured or has beenconfigured go back to the ACK a;
Low 12-bit bitmap, respectively, the BP card is not bound to the carrier frequency in theconfiguration parameters;
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Highest profile DSPAddr parameters that do not return ACK; highest participation low onethat configuration BUC
Number, there did not return ACK.
c) DWORD dwBitmap;
dwBitmap 0 carrier on behalf of BP load for all the veneer back ACK;
dwBitmap low 12 BIT with each BP 12 FUTrx corresponding veneer, bit 1 for this photo
FuTrx for carrying, is waiting for response, response to the ACK, then this bit bitmap clear0.
d) BYTE byL2State:
CC Communications and BP is normal, 1 link links, 0 links broken, FF link
status unknown;
e) tPrmCtlVar.tBpIns [3]. tSynPnt.bySub:
Examples of synchronization reference point
typedef enum tagESynbase (
SYNBASE_IDLE, / * 0: no sync * /
SYNBASE_PWRON, / * 1: power on report submitted to synchronize * /
SYNBASE_SET, / * 2: SET synchronization * /
SYNBASE_GET, / * 3: GET synchronization * /
SYNBASE_TST * 4: TST synchronization * /
) TESynbase;
2) ShowTrxInBp byBPIndex: view the wireless configuration of the cell and bindingof BP transceiver board (byBPIndex) carrier
Enter telnet CC 6 slots ShowTrxInBp 2 shows the carrier bound BP board as follows:
CC-> ShowTrxInBp 2
tOldAllTrxInPerBp.byBandTrxNum = 6!
BPTrxindex = 0, SectorNo = 1, TrxNo = 1, IPTBSetupFlag = 0, NeedIpTbFlag = 1!!
BPTrxindex = 1, SectorNo = 1, TrxNo = 2, IPTBSetupFlag = 0, NeedIpTbFlag = 1!!
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a. tOldAllTrxInPerBp.byBandTrxNum last configuration the number of carrier binding
tCurAllTrxInPerBp.byBandTrxNum The configuration of the carrier bound the number of
b. BPTrxindex corresponding BP board DSP's Index (0-11), SectorNo and TrxNo cellbinding and the corresponding carrier transceiver
c. bIPTBSetupFlag: said bearing is established, one that set up, 0 not established d. byNeedIpTbFlag:
0 binding relations have not changed;
An increase in binding relations that do not need to delete the previous IPTB bearing;
2 that changes in binding relations, need to remove the previous host, create;
3 that remove binding relationship, need to remove the bearing
3) ShowBoardFlag CellIndex view the district of thephysical configuration of all TRX relations, IQ distribution, and host is configured successfully
telnet CC type ShowBoardFlag 1 shows a plot of all the TRX configuration is as follows
CC-> ShowBoardFlag 1
tGetBoardInfoAck. [1] [0] -> bPhyLogOK = 1, bIPTBBracsOK = 1, bIQCfgOK = 1!!!
tGetBoardInfoAck. [1] [1] -> bPhyLogOK = 1, bIPTBBracsOK = 1, bIQCfgOK = 1!!!
tGetBoardInfoAck. [1] [2] -> bPhyLogOK = 1, bIPTBBracsOK = 1, bIQCfgOK = 1!!!
tGetBoardInfoAck. [1] [3] -> bPhyLogOK = 1, bIPTBBracsOK = 1, bIQCfgOK = 1!!!
tGetBoardInfoAck. [1] [4] -> bPhyLogOK = 1, bIPTBBracsOK = 1, bIQCfgOK = 1!!!
tGetBoardInfoAck. [1] [5] -> bPhyLogOK = 1, bIPTBBracsOK = 1, bIQCfgOK = 1!!!
Arguments detailed
a) tGetBoardInfoAck. [cell number] [transceiver number], where transceiver number is
started from 0
b) bPhyLogOK physical logic is configured: 1 for configuration
c) bIPTBBracsOK whether to create IPTB bearing success: 1 for success
d) bIQCfgO IQ configuration is successful: 1 for success
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4) CCShowHelp command help function
Enter CCShowHelp telnet CC
CC-> CCShowHelp
Prm-> ShowBoardFlag bySectorNo [1-24]
Prm-> ShowPrm
Prm-> ShowBitmap byBpIndex [0-4]
Prm-> ShowTrxInBp byBPIndex [0-4]
Arguments detailed
Command ShowBoardFlag, ShowPrm, ShowTrxInBp have stated above, while ShowBitmap see ShowPrm
in dwBitmap.
1.2 IQ configuration query commands refer to code prmDynAssign.C)
1) ShowIQCfg shows the logical configuration, RRU, BP carrier binding relationship between the IQ
Enter ShowIQCfg telnet CC
CC-> ShowIQCfg
Global variable [gtIQCfgGroup] record (byIQCfgGroupNum: 1)
*************************************[ 0 ]:********* **************************
bySectorNo = 1
byFHMode = 255
---------------------------------------
byPerGroupTrxNum = 1:
gtIQCfgGroup.atPerIQCfgGroupAttr [0]:
byTrxNo = 1
byTruNum = 1
byBandSta = 0
tBpTruPos: (1,1,4,0)
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tRuTruPos: (3,1,1,1)
************************************************** *************************
Arguments detailed
a. bySectorNo cell number, byFHMode configuration hopping mode: 1, said base-bandfrequency hopping, and 2 radio frequency hopping, if configured as a base-band
frequency hopping, the following also print out a list of the baseband frequency.
b. byPerGroupTrxNum: Jumping the number of sites frequently, byTrxNo wireless transceivernumber, byTruNum joint working model with multi-carrier, the carrier said the number ofthe TRX binding, byBandSta bound state the specific condition is defined as follows:
/ * BP TRU and RU TRU definition of the binding state * /
# Define BP_RRU_BAND_ACK (BYTE) 0
# Define BP_RRU_BAND_NACK (BYTE) 1
# Define BP_RRU_BAND_TIMEOUT (BYTE) 2
# Define BP_RRU_BAND_WAITTIMEOUT (BYTE) 3
# Define BP_RRU_NOBANDED (BYTE) 4
c. tBpTruPos and tRuTruPos: BP's carrier and the RRU that the carrier channelcorresponding IQ
tBpTruPos: (1,1,4,0): BpRackNo, BpShelfNo, BpSlot, CHIQID (CH IQ channel number 0,1,2 ....,11)
tRuTruPos: (3,1,1,1): RuRackNo, RuShelfNo, RuSlot, byTruNo (RU internal carrier
0,1,2 ... ...., 6)
2) dbtr 52 shows platform database access BP and FS of the corresponding relationship between IQ
telnet CC type dbtr 52
CC-> dbtr 52
Table [R_CHSWIT] record (Primary Memory: 2)
************************************************** *****************************
byRackNo (*) byShelfNo (*) bySlotNo (*) byDirection (*) byCHIQID (*) byFSPortID (*) byFSIQID (*)
byFSSlotNo (*) byFSRackNo byFSShelfNo byUsedFlg byServType dwStatus
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a. byRackNo (FS plate rack where the number) byShelfNo (chassis number) bySlotNo (slotnumber)
b. byRRURackNo (RRU board where the rack number) byRRUShelfNo (chassis number) byRRUSlotNo (slot number) byRuTxID (RU carrier No.)
c. Other parameters consistent with
db52
Supplement
a) dbtr52 Show table of contents is FSAgent Platform Module issued after the IQ distribution allocated to FS, FS response generated after the ACK.
b) dbtr53 Show table of contents is FSAgent Platform Module issued after the IQ distribution configuration to RRU, RRU response generated after the ACK.
c) If two tables are empty, there is a reported IQ distribution will fail alarm.
1.3 silent positioning command
1) BspShowUdpInfo: See bearing, bearing each carrier to create four were carrying CS services, PS business bearing, CS business with the road bearing, PS business with theroad load. G SPS in the parameter configuration, finish the IQ configuration module tothe platform for the establishment of BRACS bearing, if carrying no data, some two-way
silent.
Enter BspShowUdpInfo telnet CC
CC-> BspShowUdpInfo
index = 0, vlanid = 65535, Qos = 0x0, rncport = 16640, nodebport = 21384,
rncip = 118.18.1.3, nodebip = 118.18.1.111, bpip = 193.252.4.32,
rncmac = 00-d0-d0-a0-69-12,
bpmac = 40-00-c0-fc-04-20
index = 1, vlanid = 65535, Qos = 0x0, rncport = 16641, nodebport = 21385,
rncip = 118.18.1.3, nodebip = 118.18.1.111, bpip = 193.252.4.32,
rncmac = 00-d0-d0-a0-69-12,
bpmac = 40-00-c0-fc-04-20
index = 2, vlanid = 65535, Qos = 0x0, rncport = 16642, nodebport = 21386,
rncip = 118.18.1.3, nodebip = 118.18.1.111, bpip = 193.252.4.32,
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rncmac = 00-d0-d0-a0-69-12,
bpmac = 40-00-c0-fc-04-20
index = 3, vlanid = 65535, Qos = 0x0, rncport = 16643, nodebport = 21387,
rncip = 118.18.1.3, nodebip = 118.18.1.111, bpip = 193.252.4.32,
rncmac = 00-d0-d0-a0-69-12,
bpmac = 40-00-c0-fc-04-20
Parameter Description
a) index0 to 3 represents the 4-way bearing
b) rncport IBSC the port number, nodebport BTS port number
c) rncip IPABIS's IP address, nodebip CC's IP address, bpip BP's DSP IP address of theprimary nuclear
d) rncmac IBSC's IPBB board MAC address, bpmac BP board MAC address
2) BspShowUdpCount port (port number): see the corresponding upper and lower load line datacan be located up and down the silent
telnet CC type BspShowUdpCount port (BTS port number)
CC-> BspShowUdpCount 21384
Rnc to Bpc ETH CDESCs Statistics:
general_Cnt: 37150
noTci_Cnt: 37150
tci1_Cnt: 0
tci2_Cnt: 0
PPPoE_Cnt: 0
IPv4_Cnt: 37150
TCP_Cnt: 0
UDP_Cnt: 37150
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Bpc to Rnc ETH CDESCs Statistics:
general_Cnt: 9747
noTci_Cnt: 9747
tci1_Cnt: 0
tci2_Cnt: 0
PPPoE_Cnt: 0
IPv4_Cnt: 9747
TCP_Cnt: 0
UDP_Cnt: 9747
value = 0 = 0x0
Parameter Description
a. Rnc to Bpc ETH CDESCs Statistics: downlink data reception
Bpc to Rnc ETH CDESCs Statistics: uplink data reception
b. general_Cnt, IPv4_Cnt:, UDP_Cnt: the number of received packets c. 2 times as long as the continuous input of the command, whether the changes observed
packets can locate the specific problem is upstream or downstream silent.
1.4 Database Query command see code ACCESS.C)
1) ShowDBsVar: View the database (TDbsCtrlVar) in the current and previous
physical logical configuration
Enter ShowDBsVar telnet CC
CC-> ShowDbsVar
CurLogTrxNum: 2
OldLogTrxNum: 2
CurLogTrx [0]. SectorNo: 1
CurLogTrx [0]. TrxNo: 1
CurLogTrx [1]. SectorNo: 1
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CurLogTrx [1]. TrxNo: 2
OldLogTrx [0]. SectorNo: 1
OldLogTrx [0]. TrxNo: 1
OldLogTrx [1]. SectorNo: 1
OldLogTrx [1]. TrxNo: 2
IsNeedIQCfg: 0
IsNeedRadioReq: 1
byTrxIndex: 0
CurTruNum: 1
CurRRUPos [3,1,1,1]
OldTruNum = 1
OldRRUPos [3,1,1,1];
byTrxIndex: 1
CurTruNum: 1
CurRRUPos [3,1,1,2]
OldTruNum = 1
OldRRUPos [3,1,1,2];
Parameter Description
a. CurLogTrxNum: Current number of configurable logic carrier, OldLogTrxNum: The last timethe number of configurable logic carrier
b) byTrxIndex index number, CurRRUPos [3,1,1,1] the current physical configuration of the RRU of the rack number, chassis number, slot number, carrier number
c) bIsNeedIQCfg: the need for IQ configure flags, 0 do not
d) bIsNeedRadioReq: the need for wireless parameter signs, one needs
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# Define AV_BP (BYTE) 0x40 / * BP board state * /
# Define AV_ALM (BYTE) 0x02 / * GSPS alarm * /
# Define AV_RRU (BYTE) 0x20 / * RRU veneer state * /
# Define AV_RUDP_BREAK (BYTE) 0x80 / * RUDP link state * /
# Define AV_OFFLINE (BYTE) 0x08 / * power down, the initial state * /
# Define AV_AIF_ALM (BYTE) 0x01 / * AIF caused alarm status * /
2) ShowStateInfo1, 1,1 inquiry district 1, TRX1 state
telnet CC type ShowStateInfo 1, 1, 1
CC-> ShowStateInfo 1,1,1
(1,1,0 xff): SectorAD2, AD2, OP2, AV0x0.
(1,1,0): SectorAD2, TrxAd2, AD2, OP2, AV0x0.
(1,1,1): SectorAD2, TrxAd2, AD2, OP2, AV0x0.
(1,1,2): SectorAD2, TrxAd2, AD2, OP2, AV0x0.
(1,1,3): SectorAD2, TrxAd2, AD2, OP2, AV0x0.
(1,1,4): SectorAD2, TrxAd2, AD2, OP2, AV0x0.
(1,1,5): SectorAD2, TrxAd2, AD2, OP2, AV0x0.
(1,1,6): SectorAD2, TrxAd2, AD1, OP2, AV0x0.
(1,1,7): SectorAD2, TrxAd2, AD1, OP2, AV0x0.
Parameter Description
(1,1,0 xff): FU state
(1,1, TS): 8 time slots of the state
3) DbsShowTableRecord 5 (table number), 0 (bIsDbEx) View platform database statusand type of veneer
telnet CC type DbsShowTableRecord 5,0
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Bit9 =1 / 0
Did not shake hands with the RNC / RNC to shake handswith the success of
Bit10 ~
Bit31 Reservation
1.6 Alarm query command refer to code
GccAlmFunc.c)
1) ShowAIFAlm byBpIndex display bitmap byBpIndex AIF alarm value 0 to 4
telnet CC type ShowAIFAlm 0 4 slots display bitmap BP's AIF
CC-> ShowAIFAlm 0
AIFAlm BitMap:
0,0,0,0,0,0,0,0,0,0,0,0,0
Parameter Description
1) The first 0 downlink data is reported FPGA, 0 for no alarm, 1 for alarm.
2) representatives of the other 12 0 12 IQ channel, is detected by the DSP to the uplink data.
2) ShowBoardState (BYTE byRack, BYTE byShelf, BYTE bySlot) shows the state veneer and veneer type
Enter ShowBoardState telnet CC 1, 1,3 display rack 1, machine frame 1, slot 3 veneerstate
CC-> ShowBoardState 1,1,3
Pos = 1,1,3, Type = 151, State = 2
Parameter Description
a) Pos veneer location
b) Type veneer type: Specific type as defined in the command description DbsShowTableRecord 5,0
c) State veneer state
/ * OP state definitions * /
# Define DISABLED (BYTE) 0x01
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# Define ENABLED (BYTE) 0x02
3) ShowGspsAlm Alarm display bitmap GSPS
Enter ShowGspsAlm telnet CC
CC-> ShowGspsAlm
AL_PRM_DIF_ALMCODE: 0
AL_RD_PRM_ALMCODE: BPIndex0 ~ 4:0,0,0,0,0
AL_L3NORES_ALMCODE: BPIndex0 ~ 4:0,0,0,0,0
AL_IQ_ERROR_ALMCODE: 0
AL_IPTB_ERROR_ALMCODE: 0
AL_REQ_RFPRM_TIMEOUT: 0
Parameter Description
These are the 6 GSPS detection alarm, 0 for no warning, a report on behalf of awarning
4) OMSAlmMan: search platform database alerts help command
telnet CC type OMSAlmMan:
CC-> OmsAlmMan
>>>>>>>>>>>>>>>>>>>> Oms FM Manual
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From Poweron = 6195 s,
[RebootType]: Hard Power Off Reboot [Diff = 652]
Reset Type:
1, the watchdog reset.
2, the software reset. Divided into:
1) normal soft reset (reboot function, such as manual input, or high-level applicationsoftware download called reset function reset itself) 2) abnormal soft reset (such as
data resulting from cross-border anomalies, etc.).
3, the hardware power-down reset.
4, CPU reset pin reset pulse signal received. RST by veneer on the front panel reset
button, this is the case.
2) ShowUserMem order to retain the memory view, unusual for reset record
o Reset the record carrier is to retain the information memory and reset the log o Reset the log acquisition method re: ftp to the main control board, and from the
/ ROOT / log directory for OssRec.log (the current log) and OssRecBak.log (earlierlog backup)
Query command to run version 1.8
1) version: Displays the current running version of the specification package creationdate and other information
o Enter the version telnet CC
CC-> version
VxWorks (for ZTE MPC8360 BOARD) version 5.5.2.
Kernel: WIND version 2.6.
Made on Aug 17 2008, 01:13:02.
Boot line:
qefcc (0,0) host: vxWorks e = 192.252.1.16 h = 192.1.1.1 u = cca pw = cca tn = cca
o Parameter Description
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a. VxWorks version 5.5.2. VxWorks version of the Kernel: kernel version
b. Made on Aug 17 2008, 01:13:02. Specifications Package Created
2) ShowBMCVersion: Displays the current operating specifications package version number andstore location information
o Enter ShowBMCVersion telnet CC
CC-> ShowBMCVersion
Run BMC Version ------------- 4.00.020b
Run BMC File Length --------- 3940847
Bak BMC Version ------------- 4.00.021a
Bak BMC File Length --------- 3901559
Running Status -------------- boot normal
Run Package Path ------------ / ROOT/sw2 /
Run Package Version --------- 4.00.020b
Bak Package Path ------------ / ROOT/sw1 /
Bak Package Version --------- 4.00.021b
o Parameter Description
a. Run BMC Version is running standard package version number
b. Bak BMC Version backup specification package version number c. Run Package Path main storage path using standard packages d. Bak Package Path alternate storage path specification package
3) SwShowName: show the version of the specification package version number corresponding tothe version of the name
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D = 524385, H = 0x80061, SW_UBPG_DSP, UBPG single board DSP software
D = 00197, H = 0x000c5, SW_PRTR, PRTR veneer Software
D = 65733, H = 0x100c5, SW_PRTR_FPGA, PRTR FPGA software veneer
D = 393219, H = 0x60003, SW_PRTR_EPLD, PRTR veneer EPLD Software
D = 00133, H = 0x00085, SW_MRTR, MRTR veneer Software
D = 65669, H = 0x10085, SW_MRTR_FPGA, MRTR veneer FPGA software
D = 393218, H = 0x60002, SW_MRTR_EPLD, MRTR veneer EPLD Software
D = 131073, H = 0x20001, SW_BOOT_82XX, 82XX BOOT software
D = 131074, H = 0x20002, SW_BOOT_852, 852 BOOT software
D = 131076, H = 0x20004, SW_BOOT_RTR, RTR BOOT software
D = 131078, H = 0x20006, SW_BOOT_PRTR, PRTR BOOT software
D = 131077, H = 0x20005, SW_BOOT_MRTR, MRTR BOOT software
D = 262197, H = 0x40035, SW_SAA_MMC, SA veneer MMC Software
D = 327733, H = 0x50035, SW_SAA_MMCBOOT, SA veneer MMCBOOT Software
D = 262199, H = 0x40037, SW_PM_MMC, PM veneer MMC Software
D = 327735, H = 0x50037, SW_PM_MMCBOOT, PM veneer MMCBOOT Software
D = 262242, H = 0x40062, SW_FCE_MMC, FCE veneer MMC Software
D = 327778, H = 0x50062, SW_FCE_MMCBOOT, FCE veneer MMCBOOT Software
============== SwShowName "pattern "====================
1.9 packet capture tool for use
1) telnet CC type M88E61XXSetMonitor 0,8,1
Role: To establish a CC port to the debug port on the abis image
Note: Use the packet capture tool, need to debug port cable to connect
directly to PC, can not connect through the D-LINK card.
2) packet capture tool for use:
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a) Open the packet capture tool Ethereal, capture used in small networks where the networkcard, click the start be.
b) filter on the knock ip.addr == 118.18.1.3 (ibsc access ip address, this can
be in the background ibsc IP information in global variables found. different
circumstances will be different)
3) telnet CC type M88E61XXDelMonitor 0,8
Role: Use complete packet capture tool, to cancel the CC abis port to
the debug port on the image, or can not connect to the CC on LMT
2. UBPG comm nd
2.1 BUC command refer to code BucInfo.c)
1) BucShowPhyAndLogInfo: Display physical logic, that logic TRX binding of BP-board DSP channel (0 - 11).
o telnet BP board input BucShowPhyAndLogInfo
BUC Physical and Logic relations:
TruNo BtsNo TrxNo
------------------
0 1 2
113
214
315
416
511
621
722
823
924
1025
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1126
o Parameter Description
a. TruNo: DSP DSP channel number that corresponds to the 12-channel carrier
b. BtsNo (Cell No.) And TrxNo (transceiver No.): The logical DSP channelbonding and the transceiver cell
2) BucShowBTSAttrs (BYTE byTruNo): View thecarrier's wireless cell configuration parameters,
byTruNo can BucShowPhyAndLogInfo command query tothe
o telnet BP board input BucShowBTSAttrs 0 view the carrier's wireless cellconfiguration 0
ItfLvBnd: 0,10,15,20,25,63
ItvPrd: 31
Connetion fail Criterion: 1, value: 64,0,0
RACHLdIndPrd: 2, RACHLdThd: 80, RACHBusyThd: 47
PCHLdIndPrd: 2, PCHLdThd: 80
T3105_SDCCH: 28, T3105_TCH: 10, Ny1: 8
BCCH ARFCN: 51
bIsSateAbis: 1
BSIC: 53
bPageExtActived: 0
bExIndication: 0
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BYTE byBsic; / * BSIC value * /
BOOLEAN bPageExtActived; / * whether to support the expansion of paging * /
BOOLEAN bExIndication; / * whether to expand the carrier frequency * /
BYTE byFHMode; / * 0 indicated no frequency hopping; 1, said base-band frequencyhopping; 2, said RF frequency hopping * /
TPreMsrPrmAttr tPreMsrPrmAttr; / * report pretreatment measurement parameters * /
TPCPrmAttr tPCPrmAttr; / * Power Control parameters * /
BYTE byPCTestPeriod; / * whether to do performance measurement, 0: do not do a: to do * /
TGPRSAttrs tGprsAttrs; / * GPRS parameters * /
TEgprsSupportAbility tEgprsSupportAbility; / * EGPRS parameters * /
BYTE byPpchOvldIndPerd; / * PPCH overload cycle * /
TSetCellCfgInfoExt tSetCellCfgInfoExt; / * extension field of residential properties * /
WORD16 wTrxFuncMode; / * bit by bit from low to high: 0 ~ 3: delay count; 4: IRC; 5 ~ 7: Single / double density (expansion); 8 ~ 15: reserved * /
BYTE bySiteType; / * site type description * /
) TBTS_ATTR;
3) BucShowPwrCtrlPrm (BYTE byTruNo): View byTruNo background configuration of the powercontrol parameters
o telnet BP board input BucShowPwrCtrlPrm 0 view 0 carrier power control parameters
BucShowPwrCtrlPrm 0
bPwrCtrlUp: 1
bPwrCtrlDw: 0
byUlevHqave: 6
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byPCULIncrQualP: 3
byPCULDecrQualP: 3
byPCDLIncrLevP: 3
byPCDLDecrLevP: 3
byPCDLIncrQualP: 3
byPCDLDecrQualP: 3
byMsTxPwrMax: 39
byMsTxPwrMin: 39
byBsTxPwrMin: 10
bRapidUpPCInd: 1
bRapidDownPCInd: 0
bFastAverageInd: 2
byPCMinInterval: 0
byFreqBand: 24
abyPwrDecrLimit: 22,20,18,16,14,12,10,2
byIncreaseStep: 2
byDecreaseStep: 99
o Parameter Description
Specific parameter description, see the following power control:
typedef struct TagTPCPrmAttr
(
BOOLEAN bPwrCtrlUp; / * whether to conduct uplink power control: 1 - To control; 0 - do notcontrol * /
BOOLEAN bPwrCtrlDw; / * if you want to power down control: 1 - To control; 0 - do not control * /
BYTE byUlevHqave; / * upstream level measurement data the average cycle * /
BYTE byDlevHqave; / * down-level survey data the average cycle * /
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BYTE byUqualHqave; / * average uplink bit error rate measurement data cycles * /
BYTE byDqualHqave; / * measurement data downlink bit error rate of cycle * /
BYTE byPCDLevWeight; / * for the power control downlink RXLEV weighted coefficient * /
BYTE byPCDQualWeight; / * for the power control downlink RXQUAL weighted coefficient * /
BYTE byPCULevWeight; / * for uplink power control weighting coefficient RXLEV * /
BYTE byPCUQualWeight; / * for uplink power control weighting coefficient RXQUAL * /
BYTE byLRxLevUL; / * up power caused by the increase in RXLEV low threshold * /
BYTE byURxLevUL; / * lead to lower RXLEV high uplink power threshold * /
BYTE byLRxQualUL; / * up power caused by the increase in RXQUAL low threshold (value tends
to 7) * /
BYTE byURxQualUL; / * up power caused by reduced RXQUAL high threshold (value tended to 0) * /
BYTE byLRxLevDL; / * caused by the increased downlink power RXLEV low threshold * /
BYTE byURxLevDL; / * lead to lower RXLEV high downlink power threshold * /
BYTE byLRxQualDL; / * caused by the increased downlink power RXQUAL low threshold * /
BYTE byURxQualDL; / * lead to lower
RXQUAL high downlink power threshold
* /
BYTE byPCULIncrLevN; / * uplink L_RXLEV_UL threshold compared with the use of treatment asthe samples * /
BYTE byPCULDecrLevN; / * uplink U_RXLEV_UL threshold compared with the use of treatment asthe samples * /
BYTE byPCULIncrQualN; / * uplink L_RXQUAL_UL threshold compared with the use of treatmentas the samples * /
BYTE byPCULDecrQualN; / * uplink U_RXQUAL_UL threshold compared with the use of treatment
as the samples * /
BYTE byPCDLIncrLevN; / * L_RXLEV_DL downlink threshold compared with the use of treatmentas the samples * /
BYTE byPCDLDecrLevN; / * U_RXLEV_DL downlink threshold compared with the use of treatmentas the samples * /
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ARFCN: 51,
TN7 byChComb: 255, byTSC: 0, byHSN: 0, byMAIO: 0
ARFCN: 51,
o Parameter Description
a) byChComb channel combinations, the specific definition:
# Define TCHFULL (BYTE) 0x00
/ * TCH / F + FACCH / F + SACCH / TF * /
# Define TCHHALF (BYTE) 0x01
/ * TCH / H (0,1) + FACCH / H (0,1) + SACCH / TH (0,1) * /
# Define TCHHALF2 (BYTE) 0x02
/ * TCH / H (0) + FACCH / H (0) + SACCH / TH (0) + TCH / H (1) * /
# Define SDCCH (BYTE) 0x03
/ * SDCCH / 8 + SACCH/C8 * /
# Define MAINBCCH (BYTE) 0x04
/ * FCCH + SCH + BCCH + CCCH * /
# Define BCCHCOMB (BYTE) 0x05
/ * FCCH + SCH + BCCH + CCCH + SDCCH / 4 + SACCH/C4 * /
# Define BCH (BYTE) 0x06
/ * BCCH + CCCH * /
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UBPG-> BucShowRTPLinkID 0
CS RTP LinkID: 21384
CS RTCP LinkID: 21385
PS RTP LinkID: 21386
PS RTCP LinkID: 21387
o Parameter Description
a. CS RTP LinkID: CS service port number, investigation and need to use theport number silent
b. PS RTP LinkID: PS service port number
c) CS RTCP LinkID and PS RTCP LinkID: With road traffic channel, the currentsystem has not been achieved
6) void BucShowAIFCfg (BYTE byTruNo): View AIF channel configuration
o telnet BP board input BucShowAIFCfg 0 view 0 AIF carrier channel configuration
BucShowAIFCfg 0
There is 5 AIF Channel.
0. WARFCN: 33, wChannelBit: 0x1
1. WARFCN: 38, wChannelBit: 0x2
2. WARFCN: 42, wChannelBit: 0x4
3. WARFCN: 56, wChannelBit: 0x8
4. WARFCN: 66, wChannelBit: 0x10
o Parameters:
a. AIF Channel. Configurable number of channels, the baseband frequencyhopping carrier configuration corresponds to 5 channels
b. wARFCN and wChannelBit: Display frequency corresponding to channel bitmap, the specific data structure below:
typedef struct
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(
WORD16 wARFCN; / * frequency, if the frequency meaningless, compared to 0xFFFF * /
WORD16 wChannelBit; / * channel bitmap with 16 bits to describe the
carrier / frequency channel occupied by the situation. Bit 0 correspondsto channel 0, bit 1 corresponds to channel 1, and so on. Correspondingbit is 1, that occupy this channel * /
) TAifConfig
7) void BucShowTruState (BYTE byTruNo): View byTruNo of FU, and various state TS
o telnet BP board input BucShowTruState 0 view 0 carrier status
BucShowTruState 0
BUC AD state: 2
TN0 AD state: 2
TN1 AD state: 2
TN2 AD state: 2
TN3 AD state: 2
TN4 AD state: 2
TN5 AD state: 2
TN6 AD state: 2
TN7 AD state: 2
o Parameters:
a. BUC AD state: Fu State, 1 block, 2 solutions of closed
b. TN AD state: the state of each channel, 1 block, 2 solutions of closed
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8) void BucShowCCAddr (): see BUC access to the IP and MAC address CC,
o telnet BP board input BucShowCCAddr
BucShowCCAddr
CC IP Addr: 193.252.1.16
CC MAC Addr: 40:0: c1: fc: 1:10
9) void BucShowDspAddr (): View DSP3 a core of user plane and control plane of IP and MAC address
o telnet BP board input BucShowDspAddr ()
UBPG-> BucShowDspAddr
DSP [0] Core [0]:
DSP control IP Addr: 192.252.4.32
DSP control MAC Addr: 40:0: c0: fc: 4:20
DSP user IP Addr: 193.252.4.32
DSP control MAC Addr: 40:0: c0: fc: 4:20
DSP [0] Core [1]:
DSP control IP Addr: 192.252.4.33
DSP control MAC Addr: 40:0: c0: fc: 4:21
DSP user IP Addr: 193.252.4.33
DSP control MAC Addr: 40:0: c0: fc: 4:21
DSP [0] Core [2]:
DSP control IP Addr: 192.252.4.34
DSP control MAC Addr: 40:0: c0: fc: 4:22
DSP user IP Addr: 193.252.4.34
DSP control MAC Addr: 40:0: c0: fc: 4:22
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1) the definition of residential property, including the BSIC, whether satellite ABIS, whether the expansion of residential,
etc.
2) Set the GPRS business-related property. * /
3) EDGE service support capacity-related attributes defined
4) eight time slots of channel type and configuration, and channel state TSC
5) load configuration port
ii) FHSAttr:
1) The carrier frequency where the cell's BCCH frequency
2) frequency-hopping pattern and frequency list
3) AIF-channel configuration
iii) COMMLINK:
Effective TRU bitmap, which carrier at work, bit0 ~ bit11 respectively TRU0 ~ TRU11
iiii) TrxChnState:
Synchronized to the channel state property DBB
11) void BucShowInfoHelp (): BUC command help function, bythe command to view all the orders BUC
o telnet BP board input BucShowInfoHelp
BucShowInfoHelp
1.BucShowPhyAndLogInfo
2.BucShowBTSAttrs (BYTE byTruNo)
3.BucShowPwrCtrlPrm (BYTE byTruNo)
4.BucShowChnAttrs (BYTE byTruNo)
5.BucShowRTPLinkID (BYTE byTruNo)
6.BucShowAIFCfg (BYTE byTruNo)
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7.BucShowTruState (BYTE byTruNo)
8.BucShowCCAddr
9.BucShowDspAddr
10.BucShowDspCfgSynState (BYTE byTruNo)
o Parameter Description
Simple way to enter the command: for example, view the physical logic
command BucShowPhyAndLogInfo, can also be used BucShowInfo 1;
View the carrier state BucShowTruState 0 0 can also be used BucShowInfo 6, 0 alternative.
2.2 BP board FPGA register command
Write command: BspSetFPGAReg 0x address, 0x value
Read command: BspGetFPGAReg 0x address
Specific Parameters:
2.3 UB pool query command
1) ShowUB: see if there is one or more of the UB pool exhausted:
o telnet BP board input ShowUB
UB info for Sys Ub Pool!
#######################
-UBSize-TotalNum UsedNum-MaxUsed-Lack
6420000960
12810000100048
2561000030
320,500,010
384,120,010
448,120,010
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5121100010
576,100,000
640,100,000
704,100,000
768,100,000
832,100,010
16384200120
UB info for User Ub Pool!
#######################
-UBSize-TotalNum UsedNum-MaxUsed-Lack
64,100,000
128,100,000
256,100,000
512,400,000
960,500,000
39,681,000
o Parameters:
a) Sys Ub Pool System Pool Group: General for the message when the application memory,or internal use of OSS.
b) User Ub Pool User Pool Group: General users OSS_GetUB application from the pool.
c) UB pool run out of ways to judge: When TotalNum (the number of all UB) field value == UsedNum (the number of used UB) field value, it means you runout of a pool of
UB.
3. FS comm nd
3.1 FS board commonly used commands
1) DumpFsIQCfgPara: Display FS IQ configuration parameters panel
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o telnet FS board input DumpFsIQCfgPara
FS-> DumpFsIQCfgPara
************************************************** ******************
Total Number: 12
byServType byBspCHIQID byDirection byFsPortID byFsIQID byOpType
1540200
1541200
1560210
1561210
1570220
1571220
1580230
1581230
1590240
1,591,240
1550250
1551250
************************************************** ******************
o Parameters:
a) byServType: 0: WCDMA 1: GSM
b) byBspCHIQID: And the BP board corresponding CHIQID, the corresponding order:slot 8 (0 - 11), slot 7 (12 - 23), slot 6 (24 - 35), slot 5 (36 - 47), trough Bit 3 (48 -59)
c) byDirection: 0: Downlink 1: Uplink
d) byFsPortID: FS board optical port ID
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ucRruId: RRU ID
abyRruFiberMacAddr: RRU optical port MAC address
abyRruFiberIpAddr: RRU optical port IP address
abyRruFiberIpMask: RRU optical port IP mask
abyLeftMchIpAddr: CSA 1 slot IP address
abyRightMchIpAddr: CSA 2 slot IP address
abyFsFiberIpAddr: Fs optical port IP address
3.2 FS register address query command:
1) Check the channel configuration register in the uplink IQ, different slots in the BP board
register corresponds to a different address
o telnet FS board input d 0x610020c0, see 4 slots BP board line IQ channelconfiguration
FS-> d 0x610020c0
610020c0: 0001 0000 0002 0000 0003 0000 0005 0000 *................*
610020d0: 0004 0000 0000 0000 0030 0000 0035 0000 *......... 0 ... 5 ..*
610020e0: 0031 0000 0032 0000 0033 0000 0034 0000 *. 1 ... 2 ... 3 ... 4 ..*
610020f0: 0000 0000 0000 0000 0000 0000 0000 0000 *................*
61002100: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002110: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002120: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002130: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002140: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002150: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002160: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002170: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
61002180: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
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61002190: 0,000,000,000,000,000 0,000,000,000,000,000 *................*
610021a0: 0000 0000 0000 0000 0000 0000 0000 0000 *................*
610021b0: 0000 0000 0000 0000 0000 0000 0000 0000 *................*
o Parameters:
a) Each FS optical port 24 ports
1, the corresponding optical port port number 0-23
2 optical port corresponding to port number 24-47
3 Light exit port number corresponding to 48-51
4 optical port port number corresponding to 52-75
5, optical port corresponding to port number 76-89
Corresponding optical port on the 6th port number 90-113
b) a representative of an IQ channel WORD32 are:
000100001 1 Luminous exit port
000,200,001 Luminous exit port 2
000,300,001 Luminous exit port 3
000,500,001 Luminous exit port 5
000,400,001 Luminous exit port 4
000,000,001 Luminous exit port 0
0030000048 that corresponds to the 3rd light exit port 0
0035000053 light that corresponds to the 3rd exit port 5
0031000049 light that corresponds to the 3rd exit port 1
0032000050 light that corresponds to the 3rd exit port 2
0033000051 light that corresponds to the 3rd exit port 3
0034000052 0034000052 light that corresponds to the 3rd exit port 4
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c) address of the other slots BP board inquiry
Slots 8BP: 0x61002000
Slots 7BP: 0x61002030
Slots 6BP: 0x61002060
Slots 5BP: 0x61002090
d) downstream IQ channel configuration address offset only in the uplinkaddress 0X800, which slots 8BP downstream RQ configuration check address0x61002800, and the downlink and uplink channel configuration line.
3) Other FS register address:
4. RRU comm nd
4.1 RRU common command set
1) man: See all RRU help command
o telnet RRU enter the man, show the following:
DTR-> man
Command Parameter Help Info.
man - Prints this help list.
init9516 - Initializes Ad9516.
init6655 - Initializes Ad6655.
init9788 - Initializes Ad9788.
drst - Displays information about the board reset.
hr - Prints the run log.
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prntenv - Prints macro names of all events.
rst - Resets RRU.
dcfg - Displays parameters configurations, such as radio mode,
power-lvl, center frequence, Tx / Rx frequece, channel
bandwidth, and so on.
svi - Displays head of ther versions, such as CPU, FPGA, DSP.
dalm - Displays alarms failed to recover till now.
dalmqk - Displays all alarms in queue.
dalmcfg - Displays configurations of temperature limit, dry-node
status.
dpll - Displays status of 10M PLL.
dhi - Displays firmware version NO. of FPGA, DSP.
clk - Prints current date and time.
dcd AlarmCode Prints information of appointed AlarmCode.
value = 67 = 0x43 = 'C'
o Parameter description:
On the left show the Run command on the right shows the role of the command
description
2) drst display reset reasons
o telnet RRU enter drst
DTR-> drst
********************* RruReset Info *********************
0 2000 - 1 - 2 0: 2:23 RST_ALL_BOARD MID_CMD 0
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1 2000 - 1 - 2 0: 1:32 RST_CPU_HOT MID_BBU 100
2 2000 - 1 - 3 5:44: 2 RST_ALL_BOARD MID_RMCM 3
3 2000 - 1 - 2 2:49:58 RST_CPU_HOT MID_BBU 100
4 2000 - 1 - 2 0:13:15 RST_CPU_HOT MID_BBU 100
5 2000 - 1 - 2 20: 1: 2 RST_CPU_HOT MID_BBU 100
6 2000 - 1 - 2 0:22:23 RST_CPU_HOT MID_BBU 100
7 2000 - 1 - 2 0: 1:33 RST_CPU_HOT MID_BBU 100
8 2000 - 1 - 2 0:33:13 RST_CPU_HOT MID_BBU 100
9 2000 - 1 - 2 0: 1:34 RST_CPU_HOT MID_BBU 100
10 2000 - 1 - 2 3:24:46 RST_CPU_HOT MID_BBU 100
value = 0 = 0x0
o Reset reason description:
3) hr: Show RRU power running track, can be judged RRU unusual in that
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5. roubleshooting
5.1 Silent investigation methods
1) Check the silent TRX binding of BP board:
telnet to the CC type the following command:
a) ShowPrm: View BP board configuration
b) ShowTrxInBp byBPIndex view the configuration of the BP board binding of TRX, TRX can be found in the silent which BP bound to the plate, while carrying through bIPTBSetupFlag positioning silent TRX is created, a creation, 0 did not create, if notto create a certain quiet, need to find CC's PRM investigation.
2) Check the port number of the silent carrier
telnet to the silent TRX binding BP board:
a) BucShowPhyAndLogInfo: see silent TRX corresponding carrier number
b) BucShowRTPLinkID Carrier number: See the port number corresponding to a silent carrier (CS RTP)
3) positioning the port number is correct
Method 1: View IBSC data probe R_TRX table PORTNO value and 2) query CS RTP values are the same.
Method 2: IBSC issued by the OAM message RTP port configuration information can be confirmed,the specific message decode:
RTP port configuration information: 10 80 00 0B 03 5A 54 45 7D 00 FF FF FF 7A 01 01 01 40 08
Message Structure
Property Length Level Meaning
PKG_HEAD 4 M
MSG_HEAD 5 M
RtpPort attribute > = 6 O
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PKG_HEAD : 10 80 00 03 5A 54 45 0B
MSG_HEAD : 7D 00 FF FF FF
RtpPort attribute : 7A 01 01 01 40 08
Field Length
Meaning
Attribute
Id 1 0x7a
TrxNum 1 Configure the number of carrier frequency
TrxPort
1 4 Carrier frequency of a port resources (the carrier frequency is
allocated for each of four consecutive ports, one for CS operations RTP / RTCP, PS business, RTP / RTCP. The port resourcesfor the four consecutive ports of the first port number.)
TrxPort
2 4 Port resources, carrier frequency 2
... ....
TrxPort
N 4 Carrier frequency of n-port resources
4) Position the up and down the silent
telnet to the CC type the following command:
BspShowUdpCount port (port number): see corresponding data load of the upper andlower rows show the results
Rnc to Bpc ETH CDESCs Statistics: iBSC to the BTS downlink data reception
Bpc to Rnc ETH CDESCs Statistics: BTS uplink data reception to iBSC
2 times as long as the continuous input of the command, whether the changes observedpackets can locate the specific problem is upstream or downstream silent.
5.2 Mobile network troubleshooting methods can not
1) for inquiries BCCH carrier status
a) Background check:
In ibsc dynamic data management, see BCCH state, if the state of occlusion for themanagement of direct solution in the background manually closed; if the operation
state of occlusion, observed LMT / OMCB whether the alarm in the veneer.
b) CC Query: telnet CC type
http://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_PKG_HEAD#_PKG_HEADhttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_PKG_HEAD#_PKG_HEADhttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_PKG_HEAD#_PKG_HEADhttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_MSG_HEAD#_MSG_HEADhttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_MSG_HEAD#_MSG_HEADhttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_RtpPort_attribute#_RtpPort_attributehttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_RtpPort_attribute#_RtpPort_attributehttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_RtpPort_attribute#_RtpPort_attributehttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_MSG_HEAD#_MSG_HEADhttp://translate.googleusercontent.com/%E8%B5%84%E6%96%99/UB6000/%E8%AE%A8%E8%AE%BA%E5%BA%93%E4%B8%AD%E7%9A%84%E6%9B%B4%E6%96%B0%E6%96%87%E6%A1%A3/ZXGW%20UB6000(V4.00)%20GSM%E8%BD%AF%E4%BB%B6%E7%B3%BB%E7%BB%9F%E5%A4%96%E9%83%A8%E6%8E%A5%E5%8F%A3%E8%AF%B4%E6%98%8E%E4%B9%A60424.doc#_PKG_HEAD#_PKG_HEAD
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o ShowStateInfo 1, Cell, Trx query GSPS records FU and the logic state of each TS; o DbsShowTableRecord 5 (table number), 0 (bIsDbEx) View platform database BP
veneer state, the specific parameter description, see CC command query.
c) BP check: telnet BP type
BucShowTruState byTruNo (BCCH carrier) board recording BP query thestatus of FU and TS
2) investigation RRU
o View RRU correctly obtain frequency allocation, allocation of frequencies tomeet the requirements whether the frequency offset from positive and negative 10M
Telent RRU type: d 0x0d001600 view the frequency allocation
d 0x0d0006ec view the center frequency
o Test whether the function of the output downstream RRU
1) Telent RRU, type: input d 0x0f00010c View register values, normal to 1, if thefirst manual for the 0 to 1 (such a problem requires bsp staff look into theproblem).
2) register 0x0d000a02 revised 0xc111, if output is issued dsp power switch isoff.
o RRU downlink communication is normal investigation
1) checkblock alarm registers check: Telent RRU type d 0x0d000400
UPBG to RRU downlink communications 0x0d000400 normal conditions the low 6(bit0-bit5 order on behalf of six carriers) read as 0, if there is an alarm;
2) 60ms clock alarm register check: Telent RRU type d 0x0d000402
0x0d000402 the bit0 read as 0 (just on electricity, need to read twice to the
second date),
bit0 behalf of 60ms loss alarm bit, bit1-bit6 order on behalf of six carriers 60ms loss alarm bit, 0 no alarm, 1 with alarm
3) If the above warning, need to detect what UBPG and FS of 10ms with nowarning
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