ota105210 optix ng-sdh alarm and performance event issue 1.02
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OTA105210 OptiX NG-SDH Alarm and Performance Event
ISSUE 1.02
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Upon completion of this course, you will be able to:
>Know the mechanism of SDH Alarm and performance generation;
>Analyze and process most of common alarm and performance events.
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance
ChapterChapter 2 2 AlarmAlarm& Performance Event Clearing& Performance Event Clearing
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance1.1 1.1 TerminologyTerminology1.2 1.2 Higher Order PartHigher Order Part1.3 Lower Order Part1.3 Lower Order Part1.4 Suppression Correlation between 1.4 Suppression Correlation between SDH AlarmsSDH Alarms1.5 Generation and Detection of SDH 1.5 Generation and Detection of SDH Performance EventsPerformance Events
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Terminology
SDHInterface cross-connect
unit
SDHInterface
PDH interface
Higher order part
Downlink signal flow
Downlink signal flow & Higher order partDownlink signal flow & Higher order part
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Terminology
SDHInterface cross-connect
unit
SDHInterface
PDH interface
Lower order part
Uplink signal flow & Lower order partUplink signal flow & Lower order part
Uplink signal flow
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Terminology
Two Common AlarmsTwo Common Alarms
z AIS (Alarm Indication Signal)
> Inserts the all 1s signal into the lower level circuits, Indicating that the signal is
>unavailable. Common AIS alarms include MS_AIS, AU_AIS, TU_AIS and E1_AIS.
z RDI (Remote Defect Indication)
> Indicates the alarm transferred back to the home station from the opposite station after the opposite station has detected alarms of LOS (loss of signal), AIS and TIM (trace identifier mismatch). Common RDI alarms include MS_RDI, HP_RDI and LP_RDI.
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance1.1 1.1 TerminologyTerminology1.2 1.2 Higher Order PartHigher Order Part1.3 Lower Order Part1.3 Lower Order Part1.4 Suppression Correlation between 1.4 Suppression Correlation between SDH AlarmsSDH Alarms1.5 Generation and Detection of SDH 1.5 Generation and Detection of SDH Performance EventsPerformance Events
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A B C D E F G
STM-N Cross-connect Unit
SPISPI RSTRST MSTMST MSPMSP MSAMSA HPTHPT
Uplink signal Flow
Downlink signal Flow
SDHSDH Interface to CrossInterface to Cross--connect Unitconnect Unit
Alarms& Performance of Higher Order Part
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Frame synchronizer& RS overhead processor
(RST)
MS overhead processor
(MST)
Pointer processor& HP overhead processor
(MSA, HPT)
LOS
LOF
B1 ErrA1,A2
B1
AIS
MS_AISB2 Err
K2B2
MS_REIM1
MS_RDIK2
1 AIS
AU_AISAU_LOP
H1,H2
H4B3 Err
J1
HP_SLMC2
1
HP_LOM
HP_TIMHP_UNEQ
HP_REIHP_RDI
H1,H2
C2
B3
G1G1
1 XCS
STM-N
Optical Signal
Downlink signal flow Alarm report or returnSignal transfer point (Insert down
all "1"s signal)Alarm termination point
(Report to SCC unit)
Alarms& Performance of Higher Order Part
Diagram of Alarm GenerationDiagram of Alarm Generation
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Downlink Signal FlowDownlink Signal Flow
z Frame synchronizer and RS overhead processorz Optical receiving>Optical/electrical conversion (O/E)>O/E module checks Optical signal (If no light in the input signal, optical
power excessively low or high or the code type mismatch, R_LOS alarm will be reported)
z A1, A2 and J0 bytes detecting>Search the framing bytes (R_OOF, R_LOF)>Extract the line synchronous timing source>J0 byte (J0_MM)>Scramble
z B1 byte detecting >BIP-8 computing to check bit error (B1_SD, B1_EXC, SES, RSUAT)>Process F1, D1 - D3 and E1 bytes
Alarms& Performance of Higher Order Part
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DownDownlink Signal Flowlink Signal Flow
z MS overhead processorz K1 and K2 bytes detecting> SF and SD detection > Process D4 ~ D12, S1 and E2 bytes> MSP protection function> MS_AIS, MS_RDI
z B2 byte detecting> BIP-24 computing to check bit error (B2_SD and B2_OVER)> M1 bytes (MS_REI)
Alarms& Performance of Higher Order Part
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DownDownlink Signal Flowlink Signal Flow
z Pointer processor and HP overhead processorz H1 and H2 bytes detecting> Frequency and phase alignment> Locate each VC-4 and send it to higher order path overhead processor> Generate AU_AIS, AU_LOP
z J1, C2, B3 and G1 bytes detecting> J1 Bytes (HP_TIM)> C2 Bytes (HP_UNEQ, HP_SLM)> B3 bit error detecting (B3_SD, B3_OVER, SES, HVCUAT)> H4 Bytes (For VC12 signal, HP_LOM)> G1 Bytes (HP_RDI, HP_REI)> F3, K3, N1 Bytes (Reserved)
Alarms& Performance of Higher Order Part
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UpUplink Signal Flowlink Signal Flow
z Pointer processor and HP overhead processorz Generates N higher order path overhead bytes> J1, C2, B3, G1, F2, F3 and N1 Bytes
z Return alarm to the remote end> HP_RDI (G1)> HP_REI (G1)
z AU-4 pointers generating> Pointer processor generates N AU-4 pointers
Alarms& Performance of Higher Order Part
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UpUplink Signal Flowlink Signal Flow
Alarms& Performance of Higher Order Part
z MS overhead processor
z Set multiplex section overhead (MSOH) Bytes
>K1, K2, D4-D12, S1, M1, E2 and B2 Bytesz Return alarm to the remote end
>MS_RDI (K2)>MS_REI (M1)
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UpUplink Signal Flowlink Signal Flow
Alarms& Performance of Higher Order Part
z Frame synchronizer and RS overhead processor
z Set regenerator section overhead (RSOH) Bytes
>A1, A2, J0, E1, F1, D1-D3 and B1 Bytes>Frame synchronizer and scrambler scrambles STM-N
electrical signals
>E/O
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance1.1 1.1 TerminologyTerminology1.2 1.2 Higher Order PartHigher Order Part1.3 Lower Order Part1.3 Lower Order Part1.4 Suppression Correlation between 1.4 Suppression Correlation between SDH AlarmsSDH Alarms1.5 Generation and Detection of SDH 1.5 Generation and Detection of SDH Performance EventsPerformance Events
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G H I J K
PDH InterfaceCross-connect Unit
HPAHPA LPTLPT LPALPA PPIPPI
Uplink signal Flow
Downlink signal Flow
PDH Interface to CrossPDH Interface to Cross--connect Unitconnect Unit
Alarms & Performance of Lower Order Part
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PDH Physical InterfaceLower Order Path AdaptationHigher Order Path Adaptation& Lower Order Path Termination
E1 Interface
E1 Interface
Diagram of Alarm GenerationDiagram of Alarm Generation
(PPI)(LPA)(HPA, LPT)
LP_TFIFO
All 1
LP_SLM
LP_UNEQ
V1,V2
H4
BIP 2
J2
TU_AIS
V5
HP_LOM
LP_TIMTU_LOP
LP_REI
LP_RDI
V5
V5
XCS
V5
V1,V2
LP_RFIFO
E1_AIS All 1 T_ALOS
E1_AISXCS
Downlink signal flow Alarm report or returnSignal transfer point (Insert down
all "1"s signal)Alarm termination point
(Report to SCC unit)
Alarms & Performance of Lower Order Part
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Downlink Signal FlowDownlink Signal Flow
Alarms & Performance of Lower Order Part
zV1, V2 and V3 bytes detecting
>Demap the VC-4 into VC-12s>Pointers of all VC-12s are decoded>TU_AIS, TU_LOP
zV5 Bytes detecting
>LP_RDI( b8), LP_UNEQ, LP_SLM( b5-b7), LP_REI( b3)
>BIP-2 computing to check bit error( b1-b2)zH4 Bytes detecting
>HP_LOMzJ2 Bytes detecting
>LP_TIM
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DownDownlink Signal Flowlink Signal Flow
z Lower Order Path Adaptation& PDH Physical Interfacez Lower Order Path Adaptation> Recover data stream and the related clock reference signals> Detect LP_RFIFO alarm
z PDH Physical Interface> Forming a 2048 kbit/s signal
Alarms & Performance of Lower Order Part
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UpUplink Signal Flowlink Signal Flow
z Lower Order Path Adaptation& PDH Physical Interfacez Lower Order Path Adaptation> Data adaptation> Detect LP_TFIFO alarm
z PDH Physical Interface> Clock extraction and dada regeneration> Detect and terminate the T_ALOS alarm> Detect E1_AIS alarm
Alarms & Performance of Lower Order Part
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UpUplink Signal Flowlink Signal Flow
z Higher Order Path Adaptation& Lower Order Path Terminationz Lower Order Path Termination> Insert POH in the C-12 (C-12 to VC-12)> V5 byte (Insert "signal label" in the b5-b7, calculate BIP-2, set the result to the b1
and b2)
z Higher Order Path Adaptation> Adapt VC-12 into TU-12> Map TU-12 into higher order VC-4
Alarms & Performance of Lower Order Part
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Difference between E3/E4 and E1 Alarm Signal
z For E3 and E4 PDH services, the flow of signal processing is the same as that of E1 PDH service But there are still some differences:
>Same Type of Alarms with Different Names2Mbit/s T_ALOS TU_AIS
34Mbit/s P_LOS E3_AIS
140Mbit/s EXT_LOS C4_R_LAISD/C4_T_LAISD
>Path Overhead Bytes Used for Alarm& Performance Monitoring are Different
2Mbit/s: V5 Byte
34Mbit/s, 140Mbit/s: B3, J1, C2 and G1 Bytes
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance1.1 1.1 TerminologyTerminology1.2 1.2 Higher Order PartHigher Order Part1.3 Lower Order Part1.3 Lower Order Part1.4 Suppression Correlation between 1.4 Suppression Correlation between SDH AlarmsSDH Alarms1.5 Generation and Detection of SDH 1.5 Generation and Detection of SDH Performance EventsPerformance Events
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R_LOS
R_LOF
R_OOF
AU_AIS
AU_LOP
B1_SD B2_SD
HP_TIM
HP_SLM HP_LOM HP_UNEQB3_EXEC
B3_SD TU_AIS
TU_LOP
BIP_EXEC
LP_UNEQ LP_TIM
LP_SLM
BIP_SD
MS_RDI
HP_RDI
LP_RDILegen
d:A B A suppress B
J0_MM MS_AIS
B1_EXEC B2_EXEC
A1, A2 Bytes
RSOH, MSOH (Except A1,A2)
Suppression Correlation between SDH Alarms
z Suppression Relationship
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance1.1 1.1 TerminologyTerminology1.2 1.2 Higher Order PartHigher Order Part1.3 Lower Order Part1.3 Lower Order Part1.4 Suppression Correlation between 1.4 Suppression Correlation between SDH AlarmsSDH Alarms1.5 Generation and Detection of SDH1.5 Generation and Detection of SDHPerformance EventsPerformance Events
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Bit Error Generation MechanismBit Error Generation Mechanism
Notice: The Sequence of descramble& BIPNotice: The Sequence of descramble& BIP
Generation and Detection of SDH Performance
z Mechanism: Bit interleaved parity (BIP)
z Transmit end: The result of BIP is placed in the relevant bytes of the next frame
z Receive end: Compare the result of BIP with the bytes of the next frame
z B1: BIP8 for the regenerator section error monitoring function
z B2: BIP24 for multiplex section error monitoring function
z B3: BIP8 for monitoring the bit error performance of VC-4
z V5: BIP2 for monitoring the bit error performance of VC-12
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B1
B2
B3
V5
RSTMSTHPTLPT LPTHPTMSTRST
Error Detection and ReportError Detection and Report
Generation and Detection of SDH Performance
z Errors occurring in lower order path will not be detected in higher order path, higher order bit errors will trigger lower order errors.
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TermsTerms
Generation and Detection of SDH Performance
Term Description
BE Errored block, in which one or more bits are in error.
BBE Background block error, it is an errored block occurring outside of the period of UAT and SES. FEBBE Far end block of background error, it is a BBE event detected at the far end.
ES Errored second, it is a certain second with one or more errored blocks detected. FEES Far end errored second, in which an ES event detected at the far end.
SES
Severely errored second, it is a certain second which contains 30% erroredblocks or at least one serious disturbance period (SDP). Here, the SDP is a period of at least four consecutive blocks or 1ms (taking the longer one) where the error ratios of all the consecutive blocks are 10-2 or loss of signal occurs.
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TermsTerms
Generation and Detection of SDH Performance
Term Description
FESES Far end severely errored second, in which an SES event detected at the remote end.
CSES Consecutive severely errored second, in which the SES events consecutively occur, but last less than 10 seconds.
FECSES Far end consecutive severely errored second, in which a CSES event detected at the far end.
UAS
Unavailable second, it is a period of 10 consecutive seconds during which the bit error ratio per second of the digital signal in either of the transmission directions of a transmission system is inferior to 10-3 . These ten seconds are considered to be part of unavailable time.
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Generation and Detection of SDH Performance
z Mechanism
>Adjust pointers as required in practice, so as to tolerate rate asynchronization and phase difference of payload signals. That is, perform pointer justification on information payloads to make the payloads synchronous with the STM-N frame
z Sort
>Administrative unit pointer (AU_PTR)>Tributary unit pointer (TU_PTR)
PointerPointer JustificationJustification
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Generation and Detection of SDH Performance
H1 Y Y H2 F F H3 H3 H3 VC4
10270 Column
91
9
row
>Location:
>Causation: Network is out of synchronization
>Pointer justification state:Byte numbering and content of the fourth row in STM-1
frameName
7 8 9 10 11 12
Zero H3 H3 H3 Info Info Info Information = container
Positive H3 H3 H3 Stuffing Stuffing Stuffing Information< container
Negative Info Info Info Info Info Info Information> container
Rate relation
GenerationGeneration MechanismMechanism of AU Pointer Justificationof AU Pointer Justification
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>Causation: Transformed from AU pointer justification
The system clock is not consistent with the received clock
Pointer justification occurs at the upstream NE where the service passes
Generation and Detection of SDH Performance
>Remote detection: Occur at the local station, report at the remote station
>Local detection: Generate at the local station, report locally
Generation Mechanism of TU Pointer JustificationGeneration Mechanism of TU Pointer Justification
Detection and Reporting of Pointer JustificationDetection and Reporting of Pointer Justification
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Relationship between Alarms and Performance
z Relationship
>Alarm and Performance are belong to different levels. Alarm indicates the fault of transmission, performance indicates the signal degrade of transmission. If the value of performance is high than threshold it will translate into alarm. For example bit error can translate into EXC alarm then causes the traffic interrupt.
z Functions of alarm and performance for bit error threshold crossing
Item Performance Event Alarm Event
Local end Remote end Local end Remote endRS RSBBE - B1_OVER -MS MSBBE MSFEBBE B2_OVER MS_REIHP HPBBE HPFEBBE HPCROSSTR HP_REILP LPBBE LPFEBBE LPCROSSTR LP_REI
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Question
zPlease describe the suppression correlation between SDH alarms?
zWhats the mechanism of Pointer justification?
zWhats the relationship between Performance event and Alarm?
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ChapterChapter 1 1 GenerationGeneration of of AlarmAlarm& Performance& Performance
ChapterChapter 2 2 AlarmAlarm& Performance Event Clearing& Performance Event Clearing
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ChapterChapter 1 1 Alarm& Performance Event ClearingAlarm& Performance Event Clearing2.1 SDH Unit 2.1 SDH Unit 2.2 2.2 PDH UnitPDH Unit2.3 Ethernet Unit2.3 Ethernet Unit2.4 Cross2.4 Cross--connect and timing Unitconnect and timing Unit2.5 SCC Unit2.5 SCC Unit
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SDH Unit
z R_LOF
> Introduction: R_LOF alarm indicates receive loss of frame, critical alarm.
>Probable Causes: The received signal attenuation is excessive.
There is no frame structure in the signal from the opposite station.
The receiver of the board fails.
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SDH Unitz R_LOS
> Introduction: R_LOS alarm indicates receive loss of signal, critical alarm.
Probable Causes
>There is a fiber cut. The line attenuation is excessive.
The receiver of the board fails.
The transmitter of the opposite station or line transmission fails.
The XCS cards on the opposite station fails or is offline.
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z R_LOF/R_LOS Clearing Procedure:
SDH Unit
Step Action
1Check whether there is any higher-level R_LOS alarm on the T2000. Clear these higher-level alarms first.If the alarm does not clear, continue with the next step.
2Check whether the received optical power of the board reporting the alarm is normal. If yes, turn to Step 9.If not, continue with the next step.
3 Clean the fiber connector and the receiving optical interface of the board. If the alarm does not clear, continue with the next step.
4Check if the connection between local flange and the optical attenuator is correct, and if the attenuation value is too high. If there is a fault, clear it. Then, check if the alarm clears. If the alarm persists, continue with the next step.
5Check if the transmitting optical power of the opposite station is normal. If not, replace the line board. If yes, clean the fiber connector of the opposite station.
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z R_LOF/R_LOS Clearing Procedure:
SDH Unit
Step Action
6
If the alarm persists, check if the connection between local flange and the optical attenuator of the opposite station is correct, and if the attenuation value is too high. If there is a fault, clear it. Then, check if the alarm clears. If the alarm persists, continue with the next step.
7 Check the fiber. If there is a problem, clear it. Then, check if the alarm clears. If the alarm persists, continue with the next step.
8 Replace the line board reporting the alarm at the local station. If the alarm does not clear, continue with the next step.
9 Replace the GXCS, EXCS, UXCS, or XCE on the local station. If the alarm does not clear, continue with the next step.
10 Replace the line board on the opposite station. If the alarm does not clear, continue with the next step.11 Replace the GXCS, EXCS, UXCS, or XCE on the opposite station.
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SDH Unit
z B2_OVER
> Introduction: B2_OVER alarm indicates indication of excessive B2
errors in the multiplex section, major alarm.
>Probable Causes : The received signal attenuation is excessive.
The fiber end is not clean.
The fiber connector is connected incorrectly.
The receiver of the local station fails.
The transmitter of the opposite station fails.
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SDH Unit
z B2_OVER Clearing Procedure
Step Action
1Check whether there are any higher-level alarms, such as R_LOS, R_LOF or B1_EXC on the T2000. Clear these higher-level alarms first.If the alarm does not clear, continue with the next step.
2Check whether the working temperature of the equipment is too high. If yes, lower the temperature.Then, if the alarm persists, continue with the next step.
3 Replace the line board reporting the alarm at the local station.If the alarm does not clear, continue with the next step.
4 Replace the GXCS, EXCS, UXCS, or XCE on the local station.If the alarm does not clear, continue with the next step.
5 Replace the line board on the opposite station.If the alarm does not clear, continue with the next step.
6 Replace the GXCS, EXCS, UXCS, or XCE on the opposite station.
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SDH Unit
z MS_AIS
z Introduction:
z MS_AIS alarm indicates multiplex section alarm indication, which is a major alarm.
z Probable Causes
z The opposite station transmits the MS_AIS signal.
z The GXCS, EXCS, UXCS, or XCE of the opposite station fails.
z A fault occurs in the receiver of the board.
:
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SDH Unit
z MS_AIS Clearing Procedure
Step Action
1
Check whether the corresponding line board reports R_LOS or R_LOF alarm on the T2000. If there is a R_LOS or R_LOF, clear it.
Then, check if the alarm clears. If the alarm persists, continue with the next step.
2Reset or replace the line board on the local station.
If the alarm does not clear, continue with the next step.
3Reset or replace the line board on the opposite station.
If the alarm does not clear, continue with the next step.
4Reset or replace the GXCS, EXCS, UXCS, or XCE on the opposite station.
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SDH Unitz AU_AIS
> Introduction:>AU_AIS alarm indicates AU alarm indication, which is a
major alarm.
z Probable Causes:
>The opposite station sends AU_AIS.>The transmitter of the opposite station fails.>The receiver of the local station fails.
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SDH Unit
z AU_AIS Clearing ProcedureStep Action
1Check whether there are any higher-level alarms, such as R_LOS, R_LOF, B1_EXC or B2_OVER, on the T2000. Clear these higher-level alarms first. If the alarm does not clear, continue.
2Check whether the NE is under the protection switching. If yes, remove the fault. If the alarm does not clear, continue.
3Check whether the service configuration of the NE is correct. If not, modify the incorrect configuration. Then, check whether the alarm clears. If not, continue.
4 Use the alarm analysis and loopback methods to find the NE on which a fault occurs.
5Replace the line board reporting alarms on the faulty NE. If the alarm does not clear, continue.
6 Replace the XCS board on the faulty NE. If the alarm does not clear, continue.
7 Replace the line board of the opposite station. If the alarm does not clear, continue.
8 Replace the GXCS, EXCS, UXCS, or XCE board on the opposite station.
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SDH Unit
z BD_STATUS
z Introduction:
z BD_STATUS alarm indicates board offline, major alarm.
z Probable Causes:
z The board is not inserted.
z The board is not fully inserted.
z The mailbox fails.
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SDH Unit
z BD_STATUS Clearing Procedure
Step Action
1 Check whether the corresponding board is in the slot.
2 Remove and re-insert the board.If the alarm does not clear, continue with the next step.
3 Replace the board.If the alarm does not clear, continue with the next step.
4 Replace the backplane of the local station.
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SDH Unit
z Other AlarmsName Description
MS_RDI Multiplex section remote defect indication, minor alarm.
MS_REI Multiplex section remote error indication, warning
AU_LOP AU loss of pointer, minor alarm.HP_TIM Higher order path tracking identification mismatch, minor alarm.HP_SLM Higher order path signal identification mismatch, minor alarm.HP_RDI Higher order path remote defect indication, minor alarm.HP_REI Higher order path remote error indication, minor alarm.
HP_UNEQ No loading error in the higher order path, minor alarm.IN_PWR_ABN Input power abnormal, major alarm.LASER_SHUT Laser shut down, major alarm.
LOOP_ALM Loop alarm, minor alarm.COMMUN_FAIL Board serial port communication failure, major alarm.
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ChapterChapter 1 1 Alarm& Performance Event ClearingAlarm& Performance Event Clearing2.1 SDH Unit2.1 SDH Unit2.2 2.2 PDH UnitPDH Unit2.3 Ethernet Unit2.3 Ethernet Unit2.4 Cross2.4 Cross--connect and timing Unitconnect and timing Unit2.5 SCC Unit2.5 SCC Unit
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PDH Unit
z TU_AIS
> Introduction: TU_AIS alarm indicates TU alarm indication, which is a
major alarm.
>Probable Causes There are errors in configuration data.
The corresponding path at the opposite station fails.
There is a higher level alarm.
The cross-connect board fails.
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PDH Unit
z TU_AIS Clearing Procedure
Step Action
1Check whether there are any higher-level alarms, such as R_LOS, R_LOF or HP_SLM, on the T2000. Clear these higher-level alarms first.If the alarm does not clear, continue with the next step.
2Check whether the NE is in the protection switching state. If yes, remove the fault causing the switching.Then, check whether the alarm clears. If not, continue with the next step.
3Check whether the service configuration of the NE is correct. If not, modify the incorrect configuration. Then, check whether the alarm clears. If not, continue with Step 4.
4Replace the alarm reporting tributary board.If the alarm does not clear, continue with the next step.
5 Replace the GXCS, EXCS, UXCS, or XCE.
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PDH Unit
z TU_LOP
> Introduction: TU_LOP alarm indicates TU Loss of Pointer, which is
a major alarm.
>Probable Causes: The interface between the tributary board and the cross-
connect board fails.
There are errors in configuration data.
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PDH Unit
z TU_LOP Clearing Procedure
Step Action
1Check whether there are any higher-level alarms, such as R_LOS, R_LOF or HP_SLM, on the T2000. Clear these higher-level alarms first.
If the alarm does not clear, continue with the next step.
2Check whether the NE is in the protection switching state. If yes, remove the fault causing the switching.
Then, check whether the alarm clears. If not, continue with the next step.
3Check whether the service configuration of the NE is correct. If not, modify the incorrect configuration.
4If the alarm persists, replace the alarm reporting tributary board and then view whether the alarm is removed.
5 If the alarm persists, replace the GXCS, EXCS, UXCS, or XCE.
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PDH Unit
z T_ALOS
> Introduction: T_ALOS alarm indicates E1 interface loss of analog
signal, which is a major alarm.
>Probable Causes: No E1 service is accessed.
The output port of the E1 interface on the DDF side is disconnected or loosened.
The input port of the E1 interface at the local station is disconnected or loosened.
Board failure.
Cable fails.
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PDH Unit
z T_ALOS Clearing Procedure
Step Action
1Check whether the corresponding path of the tributary board reports the TU_AIS or TU_LOP alarm on the T2000. If yes, clear the alarm.Then, check if the T_ALOS clears. If not, continue with the next step.
2Perform self-loop (hardware inloop) for the path reporting the alarm at the DDF. If the alarm clears, the fault lies in the equipment of the opposite end. Remove the fault.Then, check if the alarm clears. If not, continue with the next step.
3Perform self-loop (hardware inloop) for the path at the interface board. If the alarm clears, the fault lies in the signal cable connection. Remove the fault.Then, check if the alarm clears. If not, continue with the next step.
4Perform inloop for the path on the T2000. If the alarm clears, the fault lies in the interface board. Remove and then re-insert or replace the interface board.Then, check if the alarm clears. If not, continue with the next step.
5 Replace the service processing board.
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PDH Unit
z Other Alarms
Name Description
LP_RDI Lower order path remote defect indication, minor alarm.
LP_REI Lower order path remote error indication, minor alarm.
NO_BD_SOFT No board software, critical alarm.
PS Protection switching is initiated, major alarm.
UP_E1_AIS 2M signal alarm indication, minor alarm.
DOWN_E1_AIS E1 down signal alarm, minor alarm.
ALM_SUBCARD_ABN Find the fault of sub-board, major alarm.
BD_STATUS Board offline, major alarm.
COMMUN_FAIL Serial port communication failure, major alarm.
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ChapterChapter 1 1 Alarm& Performance Event ClearingAlarm& Performance Event Clearing2.1 SDH Unit2.1 SDH Unit2.2 2.2 PDH UnitPDH Unit2.3 Ethernet Unit2.3 Ethernet Unit2.4 Cross2.4 Cross--connect and timing Unitconnect and timing Unit2.5 SCC Unit2.5 SCC Unit
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Ethernet Unit
z ALM_SUBCARD_ABN
> Introduction: ALM_SUBCARD_ABN alarm indicates find the fault of sub-
board, which is a major alarm.
>Probable Causes: The interface board does not match the processing board.
Clearing Procedure:
Step Action
1Check whether the interface board is inserted correctly. If not, re-insert the board.
2If the alarm persists, check the configuration of the corresponding service processing board on the T2000. Modify the incorrect configuration.
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Ethernet Unit
z Other AlarmsName DescriptionAU_AIS AU alarm indication, major alarm.
ETH_LOS Ethernet Receive loss of input signal, critical alarm.
PROTOCOL_MM Encapsulation protocol types mismatched, critical alarm.
NO_BD_SOFT No board software, critical alarm.
BD_STATUS Board not in position alarm, major alarm.
COMMUN_FAIL Serial port communication failure, major alarm.
LOOP_ALM Loop alarm, minor alarm.
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ChapterChapter 1 1 Alarm& Performance Event ClearingAlarm& Performance Event Clearing2.1 SDH Unit2.1 SDH Unit2.2 2.2 PDH UnitPDH Unit2.3 Ethernet Unit2.3 Ethernet Unit2.4 Cross2.4 Cross--connect and timing Unitconnect and timing Unit2.5 SCC Unit2.5 SCC Unit
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Cross-connect and timing Unit
z APS_FAIL
> Introduction: APS_FAIL alarm indicates APS protection switching
failed, which is a major alarm.
>Probable Causes:>The multiplex section protection (MSP) parameters of the
nodes are incorrect.
>The MSP parameters of the nodes are lost.
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Cross-connect and timing Unit
z Clearing Procedure
Step Action
1Check whether the MSP parameters of the nodes are correct. If not, modify the incorrect parameters.
If the alarm does not clear, continue with the next step.
2Check whether the MSP protocol is normal. If not, stop and then restart the protocol.
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Cross-connect and timing Unitz APS_INDI
> Introduction: APS_INDI alarm indicates APS protection switching
indication, which is a major alarm.
>Probable Causes: MSP switching is initiated.
Clearing ProcedureStep Action
1For an MSP ring, this alarm indicates that MSP switching is initiated. Remove the fault.
2For a non-ring MSP network, this alarm indicates that the APS protocol is initiated abnormally. Check whether the MSP parameters of the nodes are correct. If not, modify the incorrect parameters.
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Cross-connect and timing Unit
z EXT_SYNC_LOS> Introduction:
The EXT_SYNC_LOS alarm indicates loss of external synchronous source, which is a minor alarm.
The external clock source is lost.
>Probable Causes: Clearing Procedure:
Step Action
1Check whether the equipment that provides the external clock works efficiently.
2Check whether the external clock cable is connected correctly and whether the connectors are in good contact. If there is a fault, remove it.
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Cross-connect and timing Unit
z LTI> Introduction:
LTI alarm indicates loss of synchronization source, which is a major alarm.
> Probable Causes:> Non S1 mode:
There is a fiber cut (the line clock is traced).
No external clock source is input (the external clock is traced).
The synchronization source is set as non-retrieve, is blocked or is set incorrectly.
> S1 mode: There is a fiber cut.
The free-run mode is in active.
The synchronization source is set incorrectly.
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Cross-connect and timing Unitz Clearing Procedure:
Step Action
1 View the clock source traced by the NE. Clock source could be external clock source, line clock source, and tributary clock source.External clock source
2Check whether the output signal of the external clock device is normal. If not, replace the device.Then, check if the alarm clears. If the alarm persists, continue with the next step.
3Check whether the external clock input mode is proper (2 MHz or 2 Mbit/s). If the mode mismatches each other, correct the setting.Then, check if the alarm clears. If the alarm persists, continue with the next step.
4Check whether the external clock input impedance is proper ( 75-ohm or 120-ohm). If the impedance mismatches each other, correct the setting.Then, check if the alarm clears. If the alarm persists, continue with the next step.
5 Check whether the clock input cable is connected correctly. If not, connect the cable correctly. Then, check if the alarm clears. If the alarm persists, continue with the next step.6 Reset or replace the GXCS, EXCS, UXCS, or XCE.
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Cross-connect and timing Unit
z Clearing Procedure:
Step Action
Line clock source
7Check whether the corresponding line board reports R_LOS alarm through the T2000. If there is a R_LOS alarm, clear it.
Then, check if the alarm clears. If the alarm persists, continue with the next step.
8Reset or replace the line board.
If the alarm does not clear, continue with the next step.
9 Reset or replace the GXCS, EXCS, UXCS, or XCE.
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Cross-connect and timing Unit
z Other Alarms
Name Description
BUS_ERR Bus error, major alarm.
CLK_NO_TRACE_MODE Clock entering into non-tracing running mode, minor alarm.
S1_SYN_CHANGE Clock reference source change in S1_Mode, minor alarm.
SYN_BAD Synchronization source deteriorated, minor alarm.
SYNC_C_LOS Synchronization source level loss, warning.
NO_BD_SOFT No board software, critical alarm.
COMMUN_FAIL Serial port communication failure, major alarm.
BD_STATUS Board not in position alarm, major alarm.
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ChapterChapter 1 1 Alarm& Performance Event ClearingAlarm& Performance Event Clearing2.1 SDH Unit2.1 SDH Unit2.2 2.2 PDH UnitPDH Unit2.3 Ethernet Unit2.3 Ethernet Unit2.4 Cross2.4 Cross--connect and timing Unitconnect and timing Unit2.5 SCC Unit2.5 SCC Unit
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SCC Unit
z NESTATE_INSTALL
> Introduction: NESTATE_INSTALL alarm indicates NE in install state,
which is a critical alarm.
>Probable Causes: The NE is under installation.
Clearing Procedure:
Step Action
1 Correct the configuration data and re-send the data.
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SCC Unit
z WRG_BD_TYPE
> Introduction: WRG_BD_TYPE alarm indicates wrong inserted board
type, which is a minor alarm.
>Probable Causes: A wrong board is inserted.
There are errors in the board configuration.
Clearing ProcedureStep Action
1 Check whether the board is of the right type. If not, insert a right one.
2If the alarm persists, check whether the board configuration is correct. If not, modify the incorrect configuration.
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SCC Unit
z Other Alarms
Name Description
HARD_BAD The HARD_BAD alarm indicates hardware fails, critical alarm.
NESF_LOST Lost of one nesoft, critical alarm.
NODEID_MM Multiplex section node ID mismatch, Major alarm.
POWER_ABNORMAL Power is abnormal, major alarm
POWER_FAIL Power failure, major alarm
COMMUN_FAIL Serial port communication failure, major alarm.
BD_STATUS Board not in position alarm, major alarm.
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NE2
NE4
NE3 NE1 NE5SNCP
E
E
E
E
W
W
W
W
W2 W
z Case of 2 fiber SNCP ring with no protection chain. NE1, NE2, NE4, NE5 is OSN 3500 equipment, NE3 is OSN 2500 REG.
NE5 NE1 NE2 NE4
T11-16 T11-16
T21-16 T11-16
T21-16 T21-16
T11-15 T31-15
All of the traffic are unidirectional
1#-16#VC12
17#-32# VC12
33#-48#VC12
49#-63# VC12
Exercise
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Exercise
PQ1 (NE1)WE
NE5NE4NE3NE2NE1Card\NE
- MS_RDI - - -
- - R_LOS MS_AIS -
- - - -
z If the Tx fiber between NE2 and NE3 is broken, please fill in the blank. If no alarm please fill in with - .
A. R_LOS; B. MS_AIS; C. MS_RDI; D. TU_AIS; E. LP_RDI;
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z Generation of Alarm& Performance
z Alarm& Performance Event Clearing
z Case of Ring with Chain
Summary
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Thank You
OTA105210 OptiX NG-SDH Alarm and Performance EventTerminology Terminology TerminologyAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms& Performance of Higher Order PartAlarms & Performance of Lower Order PartAlarms & Performance of Lower Order PartAlarms & Performance of Lower Order PartAlarms & Performance of Lower Order PartAlarms & Performance of Lower Order PartAlarms & Performance of Lower Order PartDifference between E3/E4 and E1 Alarm SignalSuppression Correlation between SDH AlarmsGeneration and Detection of SDH PerformanceGeneration and Detection of SDH PerformanceGeneration and Detection of SDH PerformanceGeneration and Detection of SDH PerformanceGeneration and Detection of SDH PerformanceGeneration and Detection of SDH PerformanceGeneration and Detection of SDH PerformanceRelationship between Alarms and PerformanceQuestionSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitSDH UnitPDH UnitPDH UnitPDH UnitPDH UnitPDH UnitPDH UnitPDH UnitEthernet UnitEthernet UnitCross-connect and timing UnitCross-connect and timing UnitCross-connect and timing UnitCross-connect and timing UnitCross-connect and timing UnitCross-connect and timing UnitCross-connect and timing UnitCross-connect and timing UnitSCC UnitSCC UnitSCC UnitExerciseExercise
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