TRAINING TARGET 1)To confirm where have issue 2)To know how to solve the alarm 3)Clear about the command relationship TRAINING CONTENT 1)how to check the configuration 2)how to modify the configuration 3)how to check the ALM 4)how to check the site status 5)how to troubleshooting
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TRAINING TARGET
1)To confirm where have issue
2)To know how to solve the alarm
3)Clear about the command relationship
TRAINING CONTENT
1)how to check the configuration
2)how to modify the configuration
3)how to check the ALM
4)how to check the site status
5)how to troubleshooting
NodeB and RNC
UTRAN SYSTEM STRUCTURE
IP transmission data configurationIP transmission data configurationIUB interface protocol structure
Requirement
1)All the FM EG must install the updated LMT, which must match with the NodeB version. Because if the LMT version is not match with each other may cause some commands can not execute.
2) Take all the tools which will use on the site.
3) confirm the alarms with MNOC, and take the related spare parts
• SCTP LINK Configuration• -----------------------• SCTP LINK No. = 0• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Local IP Address = 10.233.83.98• Second Local IP Address = 0.0.0.0• Local SCTP Port No. = 3980• Peer IP Address = 10.235.13.201• Second Peer IP Address = 0.0.0.0• Peer SCTP Port No. = 58080• Auto Switch to MasAddr = ENABLE
• SCTP LINK No. = 1• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Local IP Address = 10.233.83.98• Second Local IP Address = 0.0.0.0• Local SCTP Port No. = 3981• Peer IP Address = 10.235.13.201• Second Peer IP Address = 0.0.0.0• Peer SCTP Port No. = 58080• Auto Switch to MasAddr = ENABLE• (Number of results = 2)
• IP Route Table• --------------• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Subboard Type = BASE_BOARD• Destination IP Address = 10.235.13.0• Destination IP Mask = 255.255.255.0• Route Type = NEXTHOP(Field of Next Hop IP is valid)• Next Hop IP = 10.233.83.102( PEAGG IP)• Preference = 60
• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Subboard Type = BASE_BOARD• Destination IP Address = 172.20.43.0• Destination IP Mask = 255.255.255.0• Route Type = NEXTHOP(Field of Next Hop IP is valid)• Next Hop IP = 10.233.83.102• Preference = 60• (Number of results = 2)
• --- END
PING FROM NodeB to RNC
• From NodeB to PEAGG• PING: SRN=0, SN=12, IP="10.233.83.102", SRCIP="10.233.83.98",
• List NodeB• ----------• NodeB Name = "GND157"• NodeB ID = 1918• Subrack No. = 0• Subrack name = WRSS• Slot No. = 4• Subsystem No. = 5• IUB Trans Bearer Type = IP transmission• IP Trans Apart Ind = Not support• IUB Trans Delay = 10• Satellite Trans Ind = False• NodeB Protocol Version = R7• Resource Management Mode = Share• NodeB Host Type = SingleHost• Peer RNC ID = <NULL>• Peer NodeB ID = <NULL>• Sharing Type Of NodeB = Dedicated• Cn Operator Index = 0• Administrative state = UNBLOCKED• (Number of results = 1)
• List NodeB• ----------• Cell ID = 7384• Cell Name = GND157A
• Cell ID = 7385• Cell Name = GND157B
• Cell ID = 7386• Cell Name = GND157C
• Cell ID = 20191• Cell Name = GND157E
• Cell ID = 20192• Cell Name = GND157F
• Cell ID = 20193• Cell Name = GND157G
• Cell ID = 34827• Cell Name = GND157I
• Cell ID = 34828• Cell Name = GND157J
• Cell ID = 34829• Cell Name = GND157K• (Number of results = 9)
• List NodeB• ----------• NodeB Name = "GND157"• Bearing Link Type = SCTP Link Type• SAAL link No. = <NULL>• SCTP link No. = 436• Main Link Type = <NULL>• Subrack No. = 0• Subrack name = WRSS• Slot No. = 4• Subsystem No. = 5• Iub Interface Port Type = NCP• (Number of results = 1)
• List NodeB• ----------• Subrack No. = 0• Subrack name = WRSS• Slot No. = 4• SCTP link No. = 436• Signalling link mode = SERVER MOD• Application type = NBAP• Differentiated Service Codepoint = 46• Local SCTP port No. = <NULL>• First local IP address = 10.235.13.201• Second local IP address = <NULL>• First destination IP address = 10.233.83.98• Second destination IP address = <NULL>• Destination SCTP port No. = 3980• Logic Port Flag = NO• Logic Port Slot No. = <NULL>• Logic Port No. = <NULL>• RTO min value = 1000• RTO max value = 3000• RTO initial value = 1000• RTO alpha value = 12• RTO beta value = 25• Heartbeat interval = 5000• Association max retrans = 10• Path max retrans = 5• Calculate checksum when send message = NO• Calculate checksum when receive message = NO• Checksum arithmetic = CRC32• MTU value = 800• VLANID Flag of First Local IP address = DISABLE• VLAN ID of First Local IP address = <NULL>• VLANID Flag of Second Local IP address = DISABLE• VLAN ID of Second Local IP address = <NULL>• Cross IP address available flag = UNAVAILABLE• Switch primary IP address flag = YES• Switch back HB number = 10• Bundling Flag = NO• (Number of results = 1)
• List NodeB• ----------• IP address = 10.235.13.201• Subrack No. = 0• Subrack name = WRSS• Slot No. = 18• Device IP Address Type = Logical IP Address• Subnet mask = <NULL>• MTU[Byte] = <NULL>• (Number of results = 1)
• List NodeB• ----------• NodeB Name = "GND157"• Port No. = 0• Bearing Link Type = SCTP Link Type• SAAL link No. = <NULL>• SCTP link No. = 437• Main Link Type = <NULL>• Subrack No. = 0• Subrack name = WRSS• Slot No. = 4• Subsystem No. = 5• Iub Interface Port Type = CCP• (Number of results = 1)
• List NodeB• ----------• Subrack No. = 0• Subrack name = WRSS• Slot No. = 4• SCTP link No. = 437• Signalling link mode = SERVER MOD• Application type = NBAP• Differentiated Service Codepoint = 46• Local SCTP port No. = <NULL>• First local IP address = 10.235.13.201• Second local IP address = <NULL>• First destination IP address = 10.233.83.98• Second destination IP address = <NULL>• Destination SCTP port No. = 3981• Logic Port Flag = NO• Logic Port Slot No. = <NULL>• Logic Port No. = <NULL>• RTO min value = 1000• RTO max value = 3000• RTO initial value = 1000• RTO alpha value = 12• RTO beta value = 25• Heartbeat interval = 5000• Association max retrans = 10• Path max retrans = 5• Calculate checksum when send message = NO• Calculate checksum when receive message = NO• Checksum arithmetic = CRC32• MTU value = 800• VLANID Flag of First Local IP address = DISABLE• VLAN ID of First Local IP address = <NULL>• VLANID Flag of Second Local IP address = DISABLE• VLAN ID of Second Local IP address = <NULL>• Cross IP address available flag = UNAVAILABLE• Switch primary IP address flag = YES• Switch back HB number = 10• Bundling Flag = NO• (Number of results = 1)
• List NodeB• ----------• IP address = 10.235.13.201• Subrack No. = 0• Subrack name = WRSS• Slot No. = 18• Device IP Address Type = Logical IP Address• Subnet mask = <NULL>• MTU[Byte] = <NULL>• (Number of results = 1)
• List NodeB• ----------• Adjacent Node ID = 1918• Adjacent Node Name = GND157• Adjacent Node Type = Iub Interface• NodeB ID = 1918• SGSN FLAG = <NULL>• Transport Type = IP• DPX Index = <NULL>• Is Root Node = <NULL>• Upper Ani = <NULL>• Subrack No. = <NULL>• Slot No. = <NULL>• SAAL link No. = <NULL>• Qaal2 Protocol Version = <NULL>• (Number of results = 1)
• List NodeB• ----------• Adjacent Node ID = 1918• IP path ID = 1• Interface Type = Iub Interface• Transport Type = IP• IP path type = EF• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>• (Number of results = 1)
• List NodeB• ----------• IP address = 10.235.13.201• Subrack No. = 0• Subrack name = WRSS• Slot No. = 18• Device IP Address Type = Logical IP Address• Subnet mask = <NULL>• MTU[Byte] = <NULL>• (Number of results = 1)
• List NodeB• ----------• Adjacent Node ID = 1918• IP path ID = 2• Interface Type = Iub Interface• Transport Type = IP• IP path type = AF43• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>• (Number of results = 1)
• List NodeB• ----------• IP address = 10.235.13.201• Subrack No. = 0• Subrack name = WRSS• Slot No. = 18• Device IP Address Type = Logical IP Address• Subnet mask = <NULL>• MTU[Byte] = <NULL>• (Number of results = 1)
• List NodeB• ----------• Adjacent Node ID = 1918• IP path ID = 3• Interface Type = Iub Interface• Transport Type = IP• IP path type = AF23• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>• (Number of results = 1)
• List NodeB• ----------• IP address = 10.235.13.201• Subrack No. = 0• Subrack name = WRSS• Slot No. = 18• Device IP Address Type = Logical IP Address• Subnet mask = <NULL>• MTU[Byte] = <NULL>• (Number of results = 1)
• List NodeB• ----------• Adjacent Node ID = 1918• IP path ID = 4• Interface Type = Iub Interface• Transport Type = IP• IP path type = AF13• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>• (Number of results = 1)
• List NodeB• ----------• IP address = 10.235.13.201• Subrack No. = 0• Subrack name = WRSS• Slot No. = 18• Device IP Address Type = Logical IP Address• Subnet mask = <NULL>• MTU[Byte] = <NULL>• (Number of results = 1)
• List IP Path• ------------• Adjacent Node ID = 1918• IP path ID = 1• Interface Type = Iub Interface• Transport Type = IP• IP path type = EF• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>
• Adjacent Node ID = 1918• IP path ID = 2• Interface Type = Iub Interface• Transport Type = IP• IP path type = AF43• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>
• Adjacent Node ID = 1918• IP path ID = 3• Interface Type = Iub Interface• Transport Type = IP• IP path type = AF23• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>
• Adjacent Node ID = 1918• IP path ID = 4• Interface Type = Iub Interface• Transport Type = IP• IP path type = AF13• Local IP address = 10.235.13.201• Peer IP address = 10.233.83.98• Peer subnet mask = 255.255.255.255• Forward Bandwidth = 100000• Backward Bandwidth = 100000• Carry Flag = NULL• IP Logic Port Slot No. = <NULL>• IP Logic Port No. = <NULL>• Rscgrp No. = <NULL>• TRM load threshold index = 2• VLANID Flag = Disable• VLAN ID. = <NULL>• IP path check flag = Disabled• Check IP address = <NULL>• Ping Check Period = <NULL>• Ping Check Timeout Counts = <NULL>• ICMP packet Length = <NULL>• (Number of results = 4)
PING TEST FROM RNC TO NodeB• To NE40E• PING IP: SRN=0, SN=18, SIPADDR="10.235.13.201",
DESTIP="10.235.13.193", CONTPING=NO;• 3RD07• Reply from 10.235.13.193: bytes=56 Sequence=1 ttl=255 time=4 ms• Reply from 10.235.13.193: bytes=56 Sequence=2 ttl=255 time=4 ms• Reply from 10.235.13.193: bytes=56 Sequence=3 ttl=255 time=5 ms• Reply from 10.235.13.193: bytes=56 Sequence=4 ttl=255 time=6 ms• --- 10.235.13.193 ping statistics ---• 4 packet(s) transmitted• 4 packet(s) received• Percent 0.00 packet lost• round-trip min/avg/max = 4/4/6 ms• 10 reports in total • (Number of results = 1)
• --- END• Total: 11 packet(s) received.
• to PEAGG• PING IP: SRN=0, SN=18, SIPADDR="10.235.13.201",
DESTIP="10.233.83.102", CONTPING=NO;• 3RD07• Reply from 10.233.83.102: bytes=56 Sequence=1 ttl=251 time=5 ms• Reply from 10.233.83.102: bytes=56 Sequence=2 ttl=251 time=3 ms• Reply from 10.233.83.102: bytes=56 Sequence=3 ttl=251 time=3 ms• Reply from 10.233.83.102: bytes=56 Sequence=4 ttl=251 time=4 ms• --- 10.233.83.102 ping statistics ---• 4 packet(s) transmitted• 4 packet(s) received• Percent 0.00 packet lost• round-trip min/avg/max = 3/3/5 ms• 10 reports in total • (Number of results = 1)
• --- END• Total: 11 packet(s) received.
• TO NodeB• PING IP: SRN=0, SN=18, SIPADDR="10.235.13.201",
DESTIP="10.233.83.98", CONTPING=NO;• 3RD07• Reply from 10.233.83.98: bytes=56 Sequence=1 ttl=251 time=7 ms• Reply from 10.233.83.98: bytes=56 Sequence=2 ttl=251 time=5 ms• Reply from 10.233.83.98: bytes=56 Sequence=3 ttl=251 time=9 ms• Reply from 10.233.83.98: bytes=56 Sequence=4 ttl=251 time=4 ms• --- 10.233.83.98 ping statistics ---• 4 packet(s) transmitted• 4 packet(s) received• Percent 0.00 packet lost• round-trip min/avg/max = 4/6/9 ms• 10 reports in total • (Number of results = 1)
• --- END• Total: 11 packet(s) received.
How to check NodeB status at RNC side• DSP UNODEB: DSPT=BYNAME, NodeBName="GND157";• 3RD07• +++ Dahran_3RD07 2011-04-03 15:54:35• O&M #467179• %%/*616768*/DSP UNODEB: DSPT=BYNAME, NodeBName="GND157";%%• RETCODE = 0 Execution succeeded.
• NodeB ID = 1918• NodeB name = GND157• Flag of NodeB controllable = YES• NodeB state = Available• SAAL link No. = <NULL>• SCTP link No. = 436• NCP operation state = Available• (Number of results = 1)
• NodeB CCP information• ---------------------• CCP ID = 0• SAAL link No. = <NULL>• SCTP link No. = 437• CCP operation state = Available• (Number of results = 1)
• --- END
How to check cell status at RNC side• DSP UCELL: DSPT=BYNODEB, NodeBName="GND157", LSTFORMAT=VERTICAL;• 3RD07• +++ Dahran_3RD07 2011-04-03 15:52:54• O&M #467177• %%/*616617*/DSP UCELL: DSPT=BYNODEB, NodeBName="GND157",
• Cell state information• ----------------------• Cell ID = 7384• Cell name = GND157A• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 7385• Cell name = GND157B• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 7386• Cell name = GND157C• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 20191• Cell name = GND157E• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 20192• Cell name = GND157F• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 20193• Cell name = GND157G• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 34827• Cell name = GND157I• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 34828• Cell name = GND157J• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled
• Cell ID = 34829• Cell name = GND157K• Operation state = Available• Administrative state = Unblocked• State explanation = Cell is setup and enabled• (Number of results = 9)
• Local Cell Configuration(Summary)• ---------------------------------• Local Cell ID Cell ID Site No. Sector No. BB Resource Pool Type UL BB Resource Group No. DL BB Resource Group No. Local Cell Radius(m)
Local Cell Inner Handover Radius(m) Two Tx Way Reserved Cell
• 1 34827 157 0 General Resource Pool 1 1 4000 150 No FALSE• 2 34828 157 1 General Resource Pool 1 1 4000 150 No FALSE• 3 34829 157 2 General Resource Pool 1 1 4000 150 No FALSE• 4 7384 157 0 General Resource Pool 0 0 4000 150 No FALSE• 5 7385 157 1 General Resource Pool 0 0 4000 150 No FALSE• 6 7386 157 2 General Resource Pool 0 0 4000 150 No FALSE• 7 20191 157 0 General Resource Pool 1 1 4000 150 No FALSE• 8 20192 157 1 General Resource Pool 1 1 4000 150 No FALSE• 9 20193 157 2 General Resource Pool 1 1 4000 150 No FALSE• (Number of results = 9)
• Local Cell ID = 5• Cell ID = 7385• T Cell(256chips) = 1• UL Frequency Channel Number = 9888• DL Frequency Channel Number = 10838• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 38• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 1• Cell ID = 34827• T Cell(256chips) = 3• UL Frequency Channel Number = 9808• DL Frequency Channel Number = 10758• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 30• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 2• Cell ID = 34828• T Cell(256chips) = 4• UL Frequency Channel Number = 9808• DL Frequency Channel Number = 10758• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 38• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 6• Cell ID = 7386• T Cell(256chips) = 2• UL Frequency Channel Number = 9888• DL Frequency Channel Number = 10838• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 46• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 8• Cell ID = 20192• T Cell(256chips) = 4• UL Frequency Channel Number = 9783• DL Frequency Channel Number = 10733• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 38• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 3• Cell ID = 34829• T Cell(256chips) = 5• UL Frequency Channel Number = 9808• DL Frequency Channel Number = 10758• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 46• Cell Transmit Diversity Indication = Inactive
•
• Local Cell ID = 7• Cell ID = 20191• T Cell(256chips) = 3• UL Frequency Channel Number = 9783• DL Frequency Channel Number = 10733• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 30• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 9• Cell ID = 20193• T Cell(256chips) = 5• UL Frequency Channel Number = 9783• DL Frequency Channel Number = 10733• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 46• Cell Transmit Diversity Indication = Inactive
• Local Cell ID = 4• Cell ID = 7384• T Cell(256chips) = 0• UL Frequency Channel Number = 9888• DL Frequency Channel Number = 10838• Max Transmission Power(0.1dBm) = 460• Primary Scrambling Code = 30• Cell Transmit Diversity Indication = Inactive
• (Number of results = 9)
How to slove the clock source alarm%%/*59976*/DSP E1T1:;%%
RETCODE = 0 Succeed.
E1T1 Status
Cabinet No. = Master Cabinet No. = Master
Subrack No. = 0 Subrack No. = 0
Slot No. = 12 Slot No. = 12
Subboard Type = BASE_BOARD Subboard Type = BASE_BOARD
Port No. = 0 Port No. = 3
Link Status = Normal Link Status = Normal
Cabinet No. = Master Cabinet No. = Master
Subrack No. = 0 Subrack No. = 0
Slot No. = 12 Slot No. = 12
Subboard Type = BASE_BOARD Subboard Type = BASE_BOARD
Port No. = 1 Port No. = 4
Link Status = Normal Link Status = Normal
Cabinet No. = Master Cabinet No. = Master
Subrack No. = 0 Subrack No. = 0
Slot No. = 12 Slot No. = 12
Subboard Type = BASE_BOARD Subboard Type = BASE_BOARD
Port No. = 2 Port No. = 5
Link Status = Normal Link Status = Normal
• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Subboard Type = BASE_BOARD• Port No. = 6• Link Status = Loss of Signal
• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Subboard Type = BASE_BOARD• Port No. = 7• Link Status = Loss of Signal• (Number of results = 8)
• IMA Group Status• ----------------• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Subboard Type = BASE_BOARD• IMA Group No. = 0• NE State = Operational• FE State = Operational• Group Failure Status = No failure• Tx Available Bandwidth(KBPS) = 11424• Rx Available Bandwidth(KBPS) = 11424• Number of Tx Links Configured = 6• Number of Rx Links Configured = 6• Number of Tx Links Activated = 6• Number of Rx Links Activated = 6• (Number of results = 1)
• IP Clock Link Configuration• ---------------------------• Cabinet No. = Master• Subrack No. = 0• Slot No. = 12• Link No. = 0• Protocol Type = HW_DEFINED• Client IP Address = 10.233.83.98( NodeB device IP address)• Server IP Address = 10.235.13.85(IP clock IP address)• (Number of results = 1)
• SET ALDPWRSW: SRN=3, CASE=REGULAR, AST=RET_ONLY_COAXIAL, PSP=N0A, PWRSW=ON;
• SET ANTTILT: OPMODE=NAME, NAME="0_0N0A0RET_3G", TILT=85;
• All of the SMBT is connected at the slot 0,2,4.• When you finish the software configuration but the alarm
is not solved, please RST(RST BRD: CN=0, SRN=2, SN=0; ) RELATED MTRU or WRFU board.
• It is also not solved( It need observe at least 10 minutes), please first change the cable, and then do the software configuration again and RST board.
• Not solved,Reconnect SMBT, then software configuration again and RST board.
• Not solved, change new SMBT, then software configuration again and RST board.
• Not solved, Change RUC, then software configuration again and RST board.
If it has the RET Antenna Not Calibrated alarm, please use this command to solve it.
CLB ANT: OPMODE=NAME, NAME="0_0N0A0RET_3G";
If the alarm is solved, please execute the command again:
SET ANTTILT: OPMODE=NAME, NAME="0_0N0A0RET_3G", TILT=85;
• RTWP ALARM
1)The Received Total Wideband Power (RTWP) is the received wideband power in an uplink channel band measured at the UMTS Terrestrial Radio Network Access (UTRAN) access point. You can calibrate the gain of uplink RF channels through RTWP measurement. The NodeB RTWP test has impact on the services.
2)The reference standards for the RTWP measurement are as follows:
a.If the NodeB is disconnected from the antenna system or carries a unmatched load, the reported RTWP is about -108 dBm. If the NodeB is connected to the antenna system with the TMA started or carries a matched load, the reported RTWP is about -105 dBm.
b.If the services are normal and the UL load reaches 75%, the RTWP is 6 dB higher than the RTWP measured when the NodeB carries no service.
• Alarm name : ALM-1103 Rx Branch RTWP Difference too High
• Alarm Meaning• 1. Description : The RRU measures the RTWP
of the main RX channel and diversity RX channel. This alarm is reported when the difference between the RTWP of the main RX channel and the RTWP of the diversity RX channel exceeds 6 dB.
• log in the NodeB LMT. Click “Maintenance” “Real time Specific Monitoring” “RTWP Measurement” to test.
1-11-1: frequency : frequency
1-21-2: the RTWP of the main RX channel : the RTWP of the main RX channel
1-3: 1-3: the RTWP of the diversity RX channel the RTWP of the diversity RX channel
the RTWP of the diversity RX the RTWP of the diversity RX channelchannel
This alarm is reported when the difference This alarm is reported when the difference between the RTWP of the main RX between the RTWP of the main RX channel and the RTWP of the diversity channel and the RTWP of the diversity RX channel exceeds 6dB. RX channel exceeds 6dB. (“1-2” – “1-(“1-2” – “1-3”)/103”)/10
• check the alarm due to External interference exists or not• BLK BRD, block the board which have RTWP alarm ;• Click “Maintenance” “Real time Specific Monitoring” “RX
frequency scanning” select the alarm slot number.• Our NodeB maybe have 3 frequencies (1st: 9888(slot 0,2,4); 2nd
9783(slot 1,3,5);3rd 9808(slot 1,3,5))
The following picture is the RX frequency scanning of the site. The alarm frequency is 9888.
• If the alarm is caused by the external, then you can refer TT to OPT let them test the external interference
If it is not caused by the external interference, it has to checking all the RF parts. MTRU \ MAFU \ CABLES BETWEEN MTRU and MAFU \ JUMPER \ FEEDER \ connector \ ANTENNA or others.
Please check one by one, you can swap the good part to the issue sector and then checking the alarm and test the RTWP.
No external interference, please checking below picture: