159930386-rtn-950-maintenance-guide-u2000-v100r002c00-05
TRANSCRIPT
OptiX RTN 950 Radio Transmission SystemV100R002C00
Maintenance Guide (U2000)
Issue 05
Date 2010-07-30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2010. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior writtenconsent of Huawei Technologies Co., Ltd. Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders. NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and thecustomer. All or part of the products, services and features described in this document may not be within thepurchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,and recommendations in this document are provided "AS IS" without warranties, guarantees or representationsof any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in thepreparation of this document to ensure accuracy of the contents, but all statements, information, andrecommendations in this document do not constitute the warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.Address: Huawei Industrial Base
Bantian, LonggangShenzhen 518129People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
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About This Document
Related VersionsThe following table lists the product versions related to this document.
Product Name Version
OptiX RTN 950 V100R002C00
iManager U2000 V100R001C00
Intended AudienceThis document provides the guidelines to maintaining the OptiX RTN 950. It also describes thealarms and performance events that are required for troubleshooting during the maintenance.
This document is intended for:
l Network planning engineer
l Data configuration engineer
l System maintenance engineer
Symbol ConventionsThe symbols that may be found in this document are defined as follows.
Symbol Description
Indicates a hazard with a high level of risk,which if not avoided, will result in death orserious injury.
Indicates a hazard with a medium or low levelof risk, which if not avoided, could result inminor or moderate injury.
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Symbol Description
Indicates a potentially hazardous situation,which if not avoided, could result inequipment damage, data loss, performancedegradation, or unexpected results.
Indicates a tip that may help you solve aproblem or save time.
Provides additional information to emphasizeor supplement important points of the maintext.
GUI ConventionsThe GUI conventions that may be found in this document are defined as follows.
Convention Description
Boldface Buttons, menus, parameters, tabs, window, and dialog titlesare in boldface. For example, click OK.
> Multi-level menus are in boldface and separated by the ">"signs. For example, choose File > Create > Folder.
Update HistoryUpdates between document issues are cumulative. Therefore, the latest document issue containsall updates made in previous issues.
Updates in Issue 05 (2010-07-30) Based on Product Version V100R002C00
This document is the fifth release for the V100R002C00 product version.
Compared with the fourth release, the updated contents are follows.
Update Description
A.3 Alarms and Handling Procedures Added the BIOS_STATUS,LASER_MOD_ERR_EX alarm.Changed the LASER_SHUT alarm to theLASER_CLOSED alarm.
About This DocumentOptiX RTN 950
Maintenance Guide (U2000)
iv Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
Issue 05 (2010-07-30)
Updates in Issue 04 (2010-04-20) Based on Product Version V100R002C00This document is the fourth release for the V100R002C00 product version.
Compared with the third release, the updated contents are follows.
Update Description
6.12 Replacing the SFP The description of replacing the SFP is added.
Updates in Issue 03 (2010-01-30) Based on Product Version V100R002C00This document is the third release for the V100R002C00 product version.
Compared with the second release, the updated contents are follows.
Update Description
A.2 Alarm List (Classified by LogicalBoards)
Added the alarm list of each board.
C.2 Performance Events (by LogicalBoard)
Added the performance event list of eachboard.
A.3.26 COMMUN_FAIL Added the COMMUN_FAIL alarm.
A.3.36 ETH_EFM_DF Changed the ETH_EFM_Discover alarm tothe ETH_EFM_DF alarm.
A.3.39 ETH_EFM_REMFAULT Changed the ETH_EFM_Fault alarm to theETH_EFM_REMFAULT alarm.
A.3.123 RPS_INDI Revised the possible causes and handlingprocedure of the RPS_INDI alarm.
Updates in Issue 02 (2009-10-30) Based on Product Version V100R002C00This document is the second release for the V100R002C00 product version.
Compared with the first release, the updated contents are follows.
Update Description
7 Database Backup and Restoration Added the backup and restoration of NEdatabases.
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Update Description
A Alarm Reference l Deleted the alarms POWER_FAIL andRELAY_ALARM.
l Added the alarms associated with the CFcard: CFCARD_OFFLINE,CFCARD_FAILED,CFCARD_W_R_DISABLED, andCFCARD_FULL.
l Added the alarms associated with therelay: RELAY_ALARM_CRITICAL,RELAY_ALARM_MAJOR,RELAY_ALARM_MINOR, andRELAY_ALARM_IGNORE.
l Added the LCS_MISMATCH alarmindicating the license file mismatch for theN+1 protection.
Updates in Issue 01 (2009-06-30) Based on Product Version V100R002C00This document is the first release for the V100R002C00 product version.
About This DocumentOptiX RTN 950
Maintenance Guide (U2000)
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Issue 05 (2010-07-30)
Contents
About This Document...................................................................................................................iii
1 Safety Precautions......................................................................................................................1-11.1 General Safety Precautions.............................................................................................................................1-21.2 Warning and Safety Symbols..........................................................................................................................1-31.3 Electrical Safety..............................................................................................................................................1-41.4 Environment of Flammable Gas.....................................................................................................................1-71.5 Storage Batteries.............................................................................................................................................1-71.6 Radiation.........................................................................................................................................................1-9
1.6.1 Safe Usage of Optical Fibers..................................................................................................................1-91.6.2 Electromagnetic Exposure....................................................................................................................1-111.6.3 Forbidden Areas...................................................................................................................................1-121.6.4 Laser.....................................................................................................................................................1-121.6.5 Microwave............................................................................................................................................1-13
1.7 Working at Heights.......................................................................................................................................1-131.7.1 Hoisting Heavy Objects.......................................................................................................................1-141.7.2 Using Ladders......................................................................................................................................1-15
1.8 Mechanical Safety.........................................................................................................................................1-171.9 Other Precautions..........................................................................................................................................1-18
2 Guides to High-Risk Operations............................................................................................2-12.1 Operation Guide to the Toggle Lever Switch.................................................................................................2-22.2 Operation Guide to the IF Jumper...................................................................................................................2-42.3 Operation Guide to the IF Cable.....................................................................................................................2-52.4 Operation Guide to the IF Board.....................................................................................................................2-6
3 Routine Maintenance................................................................................................................3-13.1 Routine Maintenance Items.............................................................................................................................3-23.2 Operation Guide to the Routine Maintenance Items.......................................................................................3-3
3.2.1 Checking the NE Status..........................................................................................................................3-43.2.2 Browsing the Current Alarms................................................................................................................3-53.2.3 Browsing the History Alarms.................................................................................................................3-63.2.4 Browsing the Abnormal Events.............................................................................................................3-73.2.5 Browsing Current Performance Events..................................................................................................3-73.2.6 Browsing the History Performance Events............................................................................................3-8
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3.2.7 Browsing the History Transmit Power and Receive Power...................................................................3-93.2.8 Testing the IF 1+1 Switching...............................................................................................................3-103.2.9 Testing the IF N+1 Switching..............................................................................................................3-113.2.10 Checking the Telecommunications Room.........................................................................................3-123.2.11 Checking the ODU.............................................................................................................................3-123.2.12 Checking the Hybrid Coupler............................................................................................................3-133.2.13 Checking the Antenna........................................................................................................................3-133.2.14 Checking the IF Cable........................................................................................................................3-143.2.15 Checking the LOS Condition.............................................................................................................3-15
4 Emergency Maintenance...........................................................................................................4-14.1 Definition of Emergency.................................................................................................................................4-24.2 Purposes of Emergency Maintenance.............................................................................................................4-24.3 Procedure of Emergency Maintenance............................................................................................................4-2
5 Troubleshooting.........................................................................................................................5-15.1 General Troubleshooting Procedure................................................................................................................5-35.2 Troubleshooting Service Interruptions............................................................................................................5-55.3 Troubleshooting the Radio Link...................................................................................................................5-105.4 Troubleshooting Bit Errors in TDM Services...............................................................................................5-185.5 Troubleshooting Pointer Justifications..........................................................................................................5-245.6 Troubleshooting the Interconnection with SDH Equipment.........................................................................5-285.7 Troubleshooting the Interconnection with PDH Equipment.........................................................................5-315.8 Troubleshooting Ethernet Service Faults......................................................................................................5-335.9 Troubleshooting Orderwire Faults................................................................................................................5-38
6 Part Replacement........................................................................................................................6-16.1 Removing a Board...........................................................................................................................................6-36.2 Inserting a Board.............................................................................................................................................6-56.3 Replacing the SDH Optical Interface Board...................................................................................................6-76.4 Replacing the PDH Interface Board................................................................................................................6-86.5 Replacing the Ethernet Interface Board..........................................................................................................6-96.6 Replacing the IF Board.................................................................................................................................6-106.7 Replacing the CF Card..................................................................................................................................6-116.8 Replacing the System Control, Switch&Clock Board..................................................................................6-136.9 Replacing the Auxiliary Board......................................................................................................................6-156.10 Replacing the Fan Tray...............................................................................................................................6-166.11 Replacing the Power Board.........................................................................................................................6-176.12 Replacing the SFP.......................................................................................................................................6-186.13 Replacing the ODU.....................................................................................................................................6-196.14 Replacing the IF Cable................................................................................................................................6-20
7 Database Backup and Restoration..........................................................................................7-17.1 NE Database....................................................................................................................................................7-27.2 Backing Up the Database Manually................................................................................................................7-3
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7.3 Setting the Database Backup Policy................................................................................................................7-37.3.1 Setting the Default Backup Policy.........................................................................................................7-47.3.2 Setting the User-Defined Backup Policy............................................................................................... 7-47.3.3 Executing the Backup Policy of the Device...........................................................................................7-57.3.4 Suspending the Backup Policy of the Device........................................................................................ 7-6
7.4 Restoring the Database....................................................................................................................................7-6
8 Supporting Task.........................................................................................................................8-18.1 Hardware Loopback........................................................................................................................................8-38.2 Cleaning Fiber Connectors and Adapters........................................................................................................8-3
8.2.1 Cleaning Fiber Connectors by Using Cartridge Cleaners......................................................................8-38.2.2 Cleaning Fiber Connectors by Using Lens Tissue.................................................................................8-68.2.3 Cleaning Fiber Adapters by Using Optical Cleaning Sticks..................................................................8-7
8.3 Browsing Alarms, Abnormal Events, and Performance Events..................................................................... 8-88.3.1 Checking the NE Status..........................................................................................................................8-88.3.2 Checking the Board Status.....................................................................................................................8-98.3.3 Browsing Current Alarms....................................................................................................................8-108.3.4 Browsing Abnormal Events.................................................................................................................8-108.3.5 Browsing Current Performance Events................................................................................................8-118.3.6 Browsing History Alarms.....................................................................................................................8-128.3.7 Browsing History Performance Events................................................................................................8-138.3.8 Browsing the Performance Event Threshold-Crossing Records..........................................................8-13
8.4 Querying a Report.........................................................................................................................................8-148.4.1 Querying the Board Information Report .............................................................................................8-148.4.2 Querying the Board Manufacturing Information Report ....................................................................8-158.4.3 Querying the Microwave Link Information Report.............................................................................8-15
8.5 Software Loopback.......................................................................................................................................8-168.5.1 Setting Loopback for the SDH Optical Interface Board......................................................................8-168.5.2 Setting Loopback for the Tributary Board...........................................................................................8-188.5.3 Setting a Loopback for the Ethernet Interface Board...........................................................................8-208.5.4 Setting Loopback for the IF Board.......................................................................................................8-218.5.5 Locating a Fault by Performing Loopback Operations........................................................................8-24
8.6 Reset..............................................................................................................................................................8-258.6.1 Cold Reset............................................................................................................................................8-258.6.2 Warm Reset..........................................................................................................................................8-26
8.7 PRBS Test.....................................................................................................................................................8-278.7.1 Performing a PRBS Test for the Tributary Board................................................................................8-278.7.2 Performing a PRBS Test for the IF Board...........................................................................................8-29
8.8 Querying the License Capacity.....................................................................................................................8-318.9 Setting the On/Off State of the Laser............................................................................................................8-318.10 Setting the ALS Function............................................................................................................................8-328.11 Setting the Automatic Release Function.....................................................................................................8-328.12 Configuring the Performance Monitoring Status of NEs............................................................................8-33
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8.13 Querying the Impedance of an E1 Channel.................................................................................................8-348.14 Monitoring Ethernet Packets Through Port Mirroring................................................................................8-348.15 Querying the Attributes of an Ethernet Port................................................................................................8-368.16 Switching the System Control Unit and the Cross-Connect Unit...............................................................8-37
A Alarm Reference.......................................................................................................................A-1A.1 Alarm List (in Alphabetical Order)...............................................................................................................A-2A.2 Alarm List (Classified by Logical Boards)...................................................................................................A-9
A.2.1 CST.......................................................................................................................................................A-9A.2.2 CSH....................................................................................................................................................A-10A.2.3 IF1.......................................................................................................................................................A-11A.2.4 IFU2....................................................................................................................................................A-11A.2.5 IFX2....................................................................................................................................................A-12A.2.6 SL1D...................................................................................................................................................A-12A.2.7 EM6T..................................................................................................................................................A-12A.2.8 EM6F..................................................................................................................................................A-13A.2.9 SP3S/SP3D.........................................................................................................................................A-13A.2.10 AUX.................................................................................................................................................A-13A.2.11 PIU....................................................................................................................................................A-14A.2.12 FAN..................................................................................................................................................A-14A.2.13 ODU.................................................................................................................................................A-14
A.3 Alarms and Handling Procedures................................................................................................................A-14A.3.1 A_LOC...............................................................................................................................................A-14A.3.2 AM_DOWNSHIFT............................................................................................................................A-15A.3.3 APS_FAIL..........................................................................................................................................A-16A.3.4 APS_INDI..........................................................................................................................................A-17A.3.5 APS_MANUAL_STOP.....................................................................................................................A-19A.3.6 AU_AIS..............................................................................................................................................A-20A.3.7 AU_LOP.............................................................................................................................................A-21A.3.8 B1_EXC.............................................................................................................................................A-22A.3.9 B1_SD................................................................................................................................................A-24A.3.10 B2_EXC...........................................................................................................................................A-26A.3.11 B2_SD..............................................................................................................................................A-28A.3.12 B3_EXC...........................................................................................................................................A-31A.3.13 B3_SD..............................................................................................................................................A-33A.3.14 BD_NOT_INSTALLED..................................................................................................................A-35A.3.15 BD_STATUS...................................................................................................................................A-36A.3.16 BIOS_STATUS................................................................................................................................A-38A.3.17 BIP_EXC..........................................................................................................................................A-39A.3.18 BIP_SD.............................................................................................................................................A-40A.3.19 BOOTROM_BAD............................................................................................................................A-42A.3.20 BUS_ERR.........................................................................................................................................A-43A.3.21 CFCARD_FAILED..........................................................................................................................A-44
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A.3.22 CFCARD_FULL..............................................................................................................................A-45A.3.23 CFCARD_OFFLINE........................................................................................................................A-47A.3.24 CFCARD_W_R_DISABLED..........................................................................................................A-48A.3.25 CONFIG_NOSUPPORT..................................................................................................................A-49A.3.26 COMMUN_FAIL.............................................................................................................................A-50A.3.27 DBMS_ERROR...............................................................................................................................A-52A.3.28 DBMS_PROTECT_MODE.............................................................................................................A-54A.3.29 DOWN_E1_AIS...............................................................................................................................A-55A.3.30 E1_LOC............................................................................................................................................A-56A.3.31 E1_LOS............................................................................................................................................A-57A.3.32 ETH_CFM_LOC..............................................................................................................................A-58A.3.33 ETH_CFM_MISMERGE.................................................................................................................A-60A.3.34 ETH_CFM_RDI...............................................................................................................................A-62A.3.35 ETH_CFM_UNEXPERI..................................................................................................................A-64A.3.36 ETH_EFM_DF.................................................................................................................................A-66A.3.37 ETH_EFM_EVENT.........................................................................................................................A-67A.3.38 ETH_EFM_LOOPBACK.................................................................................................................A-68A.3.39 ETH_EFM_REMFAULT.................................................................................................................A-69A.3.40 ETH_LOS.........................................................................................................................................A-71A.3.41 ETHOAM_SELF_LOOP.................................................................................................................A-72A.3.42 EXT_SYNC_LOS............................................................................................................................A-74A.3.43 FAN_AGING...................................................................................................................................A-75A.3.44 FAN_FAIL.......................................................................................................................................A-75A.3.45 FLOW_OVER..................................................................................................................................A-76A.3.46 HARD_BAD....................................................................................................................................A-77A.3.47 HP_CROSSTR.................................................................................................................................A-79A.3.48 HP_LOM..........................................................................................................................................A-80A.3.49 HP_RDI............................................................................................................................................A-81A.3.50 HP_REI.............................................................................................................................................A-82A.3.51 HP_SLM...........................................................................................................................................A-83A.3.52 HP_TIM............................................................................................................................................A-84A.3.53 HP_UNEQ........................................................................................................................................A-85A.3.54 HPAD_CROSSTR...........................................................................................................................A-86A.3.55 IF_CABLE_OPEN...........................................................................................................................A-87A.3.56 IF_INPWR_ABN.............................................................................................................................A-89A.3.57 IF_MODE_UNSUPPORTED..........................................................................................................A-90A.3.58 IN_PWR_HIGH...............................................................................................................................A-91A.3.59 IN_PWR_LOW................................................................................................................................A-92A.3.60 J0_MM.............................................................................................................................................A-94A.3.61 K1_K2_M.........................................................................................................................................A-95A.3.62 K2_M................................................................................................................................................A-96A.3.63 LAG_BWMM..................................................................................................................................A-98
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A.3.64 LAG_DOWN...................................................................................................................................A-99A.3.65 LAG_MEMBER_DOWN..............................................................................................................A-100A.3.66 LASER_CLOSED..........................................................................................................................A-102A.3.67 LASER_MOD_ERR......................................................................................................................A-102A.3.68 LASER_MOD_ERR_EX...............................................................................................................A-104A.3.69 LCS_LIMITED..............................................................................................................................A-105A.3.70 LCS_MISMATCH.........................................................................................................................A-106A.3.71 LICENSE_LOST............................................................................................................................A-108A.3.72 LOOP_ALM...................................................................................................................................A-109A.3.73 LP_CROSSTR................................................................................................................................A-111A.3.74 LP_R_FIFO....................................................................................................................................A-112A.3.75 LP_RDI...........................................................................................................................................A-113A.3.76 LP_REI...........................................................................................................................................A-114A.3.77 LP_RFI...........................................................................................................................................A-114A.3.78 LP_SIZE_ERR...............................................................................................................................A-115A.3.79 LP_SLM.........................................................................................................................................A-116A.3.80 LP_T_FIFO....................................................................................................................................A-117A.3.81 LP_TIM..........................................................................................................................................A-118A.3.82 LP_UNEQ......................................................................................................................................A-119A.3.83 LPS_UNI_BI_M.............................................................................................................................A-120A.3.84 LSR_NO_FITED............................................................................................................................A-121A.3.85 LTI..................................................................................................................................................A-122A.3.86 MS_AIS..........................................................................................................................................A-123A.3.87 MS_CROSSTR...............................................................................................................................A-124A.3.88 MS_RDI.........................................................................................................................................A-125A.3.89 MS_REI..........................................................................................................................................A-126A.3.90 MSAD_CROSSTR.........................................................................................................................A-127A.3.91 NESOFT_MM................................................................................................................................A-128A.3.92 MULTI_RPL_OWNER.................................................................................................................A-130A.3.93 MW_BER_EXC.............................................................................................................................A-131A.3.94 MW_BER_SD................................................................................................................................A-132A.3.95 MW_FEC_UNCOR.......................................................................................................................A-133A.3.96 MW_LIM.......................................................................................................................................A-137A.3.97 MW_LOF.......................................................................................................................................A-139A.3.98 MW_RDI........................................................................................................................................A-144A.3.99 NESF_LOST..................................................................................................................................A-145A.3.100 NESTATE_INSTALL..................................................................................................................A-147A.3.101 NP1_MANUAL_STOP................................................................................................................A-148A.3.102 NP1_SW_FAIL............................................................................................................................A-149A.3.103 NP1_SW_INDI.............................................................................................................................A-150A.3.104 POWER_ALM.............................................................................................................................A-151A.3.105 POWER_ABNORMAL...............................................................................................................A-152
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A.3.106 R_F_RST......................................................................................................................................A-154A.3.107 R_LOC.........................................................................................................................................A-155A.3.108 R_LOF..........................................................................................................................................A-156A.3.109 R_LOS..........................................................................................................................................A-158A.3.110 R_S_ERR.....................................................................................................................................A-159A.3.111 RADIO_FADING_MARGIN_INSUFF......................................................................................A-161A.3.112 RADIO_MUTE............................................................................................................................A-162A.3.113 RADIO_RSL_BEYONDTH........................................................................................................A-163A.3.114 RADIO_RSL_HIGH....................................................................................................................A-164A.3.115 RADIO_RSL_LOW.....................................................................................................................A-165A.3.116 RADIO_TSL_HIGH....................................................................................................................A-166A.3.117 RADIO_TSL_LOW.....................................................................................................................A-167A.3.118 RELAY_ALARM_CRITICAL....................................................................................................A-168A.3.119 RELAY_ALARM_MAJOR.........................................................................................................A-169A.3.120 RELAY_ALARM_MINOR.........................................................................................................A-170A.3.121 RELAY_ALARM_IGNORE.......................................................................................................A-171A.3.122 RP_LOC.......................................................................................................................................A-172A.3.123 RPS_INDI.....................................................................................................................................A-173A.3.124 RS_CROSSTR.............................................................................................................................A-175A.3.125 RTC_FAIL...................................................................................................................................A-176A.3.126 S1_SYN_CHANGE.....................................................................................................................A-177A.3.127 SWDL_ACTIVATED_TIMEOUT..............................................................................................A-178A.3.128 SWDL_AUTOMATCH_INH......................................................................................................A-179A.3.129 SWDL_CHGMNG_NOMATCH.................................................................................................A-179A.3.130 SWDL_COMMIT_FAIL.............................................................................................................A-180A.3.131 SWDL_INPROCESS...................................................................................................................A-181A.3.132 SWDL_NEPKGCHECK..............................................................................................................A-182A.3.133 SWDL_PKG_NOBDSOFT..........................................................................................................A-183A.3.134 SWDL_PKGVER_MM................................................................................................................A-184A.3.135 SWDL_ROLLBACK_FAIL........................................................................................................A-184A.3.136 SYNC_C_LOS.............................................................................................................................A-185A.3.137 T_ALOS.......................................................................................................................................A-186A.3.138 T_F_RST......................................................................................................................................A-187A.3.139 T_LOC..........................................................................................................................................A-188A.3.140 TEMP_ALARM...........................................................................................................................A-189A.3.141 THUNDERALM..........................................................................................................................A-191A.3.142 TU_AIS........................................................................................................................................A-191A.3.143 TU_LOP.......................................................................................................................................A-193A.3.144 UP_E1_AIS..................................................................................................................................A-194A.3.145 VOLT_LOS..................................................................................................................................A-195A.3.146 WRG_BD_TYPE.........................................................................................................................A-196A.3.147 WRG_DEV_TYPE.......................................................................................................................A-197
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A.3.148 XPIC_LOS...................................................................................................................................A-198
B Abnormal Event Reference.....................................................................................................B-1B.1 Major Abnormal Performance Event List......................................................................................................B-2B.2 Abnormal Performance Events and Handling Procedures.............................................................................B-2
B.2.1 Intermediate Frequency 1+1 Protection Switching...............................................................................B-2B.2.2 N+1 Protection Switching.....................................................................................................................B-4B.2.3 SNCP Switching...................................................................................................................................B-6B.2.4 Linear MS Switching............................................................................................................................B-8B.2.5 System Control Board Switching........................................................................................................B-10B.2.6 RMON Performance Value Below the Lower Limit..........................................................................B-12B.2.7 RMON Performance Value Above the Upper Limit..........................................................................B-13
C Performance Event Reference................................................................................................C-1C.1 Performance Events (by Event Type)............................................................................................................C-2
C.1.1 SDH/PDH Performance Events............................................................................................................C-2C.1.2 Radio Performance Events....................................................................................................................C-4C.1.3 Other Performance Events....................................................................................................................C-6
C.2 Performance Events (by Logical Board)........................................................................................................C-7C.2.1 CST/CSH..............................................................................................................................................C-8C.2.2 IF1.........................................................................................................................................................C-8C.2.3 IFU2....................................................................................................................................................C-10C.2.4 IFX2....................................................................................................................................................C-12C.2.5 SL1D...................................................................................................................................................C-14C.2.6 SP3S/SP3D.........................................................................................................................................C-16C.2.7 ODU....................................................................................................................................................C-17
C.3 Performance Events and Handling Procedures............................................................................................C-18C.3.1 AMDOWNCNT and AMUPCNT......................................................................................................C-18C.3.2 ATPC_P_ADJUST and ATPC_N_ADJUST.....................................................................................C-19C.3.3 AUPJCHIGH, AUPJCLOW, and AUPJCNEW.................................................................................C-20C.3.4 BDTEMPMAX, BDTEMPMIN, and BDTEMPCUR........................................................................C-21C.3.5 FEC_BEF_COR_ER, FEC_UNCOR_BLOCK_CNT and FEC_COR_BYTE_CNT........................C-21C.3.6 HPBBE, HPES, HPSES, HPCSES, and HPUAS...............................................................................C-22C.3.7 HPFEBBE, HPFEES, HPFESES, HPFECSES, and HPFEUAS........................................................C-23C.3.8 IF_BBE, IF_ES, IF_SES, IF_CSES, and IF_UAS.............................................................................C-24C.3.9 LPBBE, LPES, LPSES, LPCSES, and LPUAS..................................................................................C-25C.3.10 LPFEBBE, LPFEES, LPFESES, LPFECSES, and LPFEUAS........................................................C-27C.3.11 MSBBE, MSES, MSSES, MSCSES, and MSUAS..........................................................................C-28C.3.12 MSFEBBE, MSFEES, MSFESES, MSFECSES, and MSFEUAS...................................................C-29C.3.13 QPSKWS, QAMWS16, QAMWS32, QAMWS64, QAMWS128, and QAMWS256.....................C-30C.3.14 RPLMAX, RPLMIN, and RPLCUR................................................................................................C-31C.3.15 RSBBE, RSES, RSSES, RSCSES, and RSUAS..............................................................................C-31C.3.16 RSL_MAX, RSL_MIN, RSL_CUR, and RSL_AVG......................................................................C-33C.3.17 RSOOF and RSOFS..........................................................................................................................C-33
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C.3.18 RLHTT, RLLTT, TLHTT, TLLTT..................................................................................................C-34C.3.19 TPLMAX, TPLMIN, and TPLCUR.................................................................................................C-35C.3.20 TSL_MAX, TSL_MIN, TSL_CUR, and TSL_AVG.......................................................................C-36C.3.21 TUPJCHIGH, TUPJCLOW, and TUPJCNEW................................................................................C-36
D RMON Event Reference.........................................................................................................D-1D.1 List of RMON Alarm Entries........................................................................................................................D-2D.2 List of RMON Performance Entries..............................................................................................................D-2D.3 RMON Events and Handling Procedures......................................................................................................D-4
D.3.1 ETHCOL.............................................................................................................................................. D-4D.3.2 ETHDROP............................................................................................................................................D-5D.3.3 ETHEXCCOL...................................................................................................................................... D-6D.3.4 ETHFCS...............................................................................................................................................D-7D.3.5 ETHFRG...............................................................................................................................................D-8D.3.6 ETHJAB...............................................................................................................................................D-9D.3.7 ETHLATECOL....................................................................................................................................D-9D.3.8 ETHOVER.........................................................................................................................................D-11D.3.9 ETHUNDER.......................................................................................................................................D-11D.3.10 RXBBAD.........................................................................................................................................D-12D.3.11 TXDEFFRM.....................................................................................................................................D-13
E Alarm Management..................................................................................................................E-1E.1 NE Alarm Management..................................................................................................................................E-2E.2 Board Alarm Management.............................................................................................................................E-2
E.2.1 Setting the Alarm Level........................................................................................................................E-3E.2.2 Alarm Suppression................................................................................................................................E-3E.2.3 Alarm Auto-Report................................................................................................................................E-3E.2.4 Alarm Reversion....................................................................................................................................E-3E.2.5 Setting of the Bit Error Alarm Threshold..............................................................................................E-4E.2.6 AIS Insertion.........................................................................................................................................E-4E.2.7 UNEQ Insertion.....................................................................................................................................E-5
F Performance Event Management............................................................................................F-1F.1 NE Performance Event Management.............................................................................................................F-2F.2 Board Performance Event Management.........................................................................................................F-2
G Alarm Suppression Relationship.........................................................................................G-1
H Glossary.....................................................................................................................................H-1H.1 0-9..................................................................................................................................................................H-2H.2 A-E................................................................................................................................................................ H-2H.3 F-J..................................................................................................................................................................H-7H.4 K-O..............................................................................................................................................................H-10H.5 P-T...............................................................................................................................................................H-12H.6 U-Z..............................................................................................................................................................H-16
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Figures
Figure 1-1 Wearing an ESD wrist strap...............................................................................................................1-7Figure 1-2 Slanting optical interface..................................................................................................................1-11Figure 1-3 Level optical interface......................................................................................................................1-11Figure 1-4 Hoisting heavy objects......................................................................................................................1-15Figure 1-5 Slanting a ladder...............................................................................................................................1-16Figure 1-6 Ladder top being one meter higher than the roof.............................................................................1-16Figure 2-1 Toggle lever switch............................................................................................................................2-2Figure 4-1 Main procedure of emergency maintenance.......................................................................................4-3Figure 4-2 Field troubleshooting sub-procedure..................................................................................................4-5Figure 5-1 General troubleshooting procedure.....................................................................................................5-4Figure 5-2 General procedure for troubleshooting the service interruption.........................................................5-6Figure 5-3 Field troubleshooting sub-procedure..................................................................................................5-8Figure 5-4 Procedure for troubleshooting the radio link....................................................................................5-14Figure 5-5 Procedure for troubleshooting bit errors...........................................................................................5-22Figure 5-6 Procedure for troubleshooting pointer justifications........................................................................5-26Figure 5-7 Procedure for troubleshooting the interconnection with SDH equipment........................................5-30Figure 5-8 Procedure for troubleshooting the interconnection with PDH equipment........................................5-32Figure 5-9 Procedure for troubleshooting Ethernet service faults .....................................................................5-35Figure 5-10 Procedure for troubleshooting an RMON performance event .......................................................5-37Figure 5-11 Procedure for troubleshooting orderwire faults..............................................................................5-39Figure 6-1 Removing a board (1) ........................................................................................................................6-3Figure 6-2 Removing a board (2) ........................................................................................................................6-4Figure 6-3 Removing the System control Switch&Clock board..........................................................................6-4Figure 6-4 Removing a board (3) ........................................................................................................................6-4Figure 6-5 Inserting a board (1)...........................................................................................................................6-6Figure 6-6 Inserting a board (2)...........................................................................................................................6-6Figure 6-7 Inserting a board (3)...........................................................................................................................6-7Figure 8-1 Using the CLETOP cassette cleaner...................................................................................................8-4Figure 8-2 Dragging the fiber tip slightly on one cleaning area ..........................................................................8-5Figure 8-3 Dragging the fiber tip slightly on the other cleaning area..................................................................8-5Figure 8-4 Cleaning the fiber with the lens tissue ...............................................................................................8-6Figure 8-5 Optical interface inloop....................................................................................................................8-16Figure 8-6 Optical interface outloop..................................................................................................................8-17
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Figure 8-7 VC-4 path outloop............................................................................................................................8-17Figure 8-8 VC-4 path inloop..............................................................................................................................8-17Figure 8-9 Tributary inloop................................................................................................................................8-19Figure 8-10 Tributary outloop............................................................................................................................8-19Figure 8-11 Ethernet port inloop........................................................................................................................8-20Figure 8-12 IF port inloop..................................................................................................................................8-21Figure 8-13 IF port outloop................................................................................................................................8-22Figure 8-14 Composite port inloop....................................................................................................................8-22Figure 8-15 Composite port outloop..................................................................................................................8-22Figure 8-16 Service trail.....................................................................................................................................8-24Figure 8-17 PRBS test in the tributary direction................................................................................................8-27Figure 8-18 PRBS test in the cross-connect direction .......................................................................................8-28Figure 8-19 PRBS test of the IF board...............................................................................................................8-29Figure 8-20 Schematic diagram of Ethernet port mirroring...............................................................................8-35
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Tables
Table 1-1 Warning and safety symbols of the OptiX RTN 950...........................................................................1-3Table 4-1 Description of the main procedure of emergency maintenance...........................................................4-4Table 4-2 Field maintenance operation sheet.......................................................................................................4-4Table 4-3 Description of the field troubleshooting sub-procedure.......................................................................4-6Table 5-1 General troubleshooting procedure......................................................................................................5-5Table 5-2 Description of the general procedure for troubleshooting the service interruption.............................5-7Table 5-3 Description of the field troubleshooting sub-procedure.......................................................................5-9Table 5-4 Causes of radio link faults..................................................................................................................5-12Table 5-5 Description of the procedure for troubleshooting the radio link........................................................5-15Table 5-6 Causes of bit errors.............................................................................................................................5-20Table 5-7 Description of the procedure for troubleshooting bit errors...............................................................5-23Table 5-8 Description of the procedure for troubleshooting pointer justifications............................................5-27Table 5-9 Description of the procedure for troubleshooting the interconnection with SDH equipment........... 5-31Table 5-10 Description of the procedure for troubleshooting the interconnection with PDH equipment......... 5-33Table 5-11 Common faults of Ethernet services................................................................................................5-34Table 5-12 Description of the procedure for troubleshooting Ethernet service faults ...................................... 5-36Table 5-13 Description of the procedure for troubleshooting an RMON performance event ...........................5-38Table 5-14 Description of the procedure for troubleshooting orderwire faults..................................................5-40Table 6-1 Part replacement description ...............................................................................................................6-1Table A-1 Alarm list............................................................................................................................................A-2Table B-1 Major performance event list..............................................................................................................B-2Table C-1 Pointer justification performance events............................................................................................C-2Table C-2 Regenerator section error performance events...................................................................................C-2Table C-3 Multiplex section error performance events.......................................................................................C-3Table C-4 Higher order path error performance events.......................................................................................C-3Table C-5 Lower order path error performance events.......................................................................................C-4Table C-6 Radio power performance events.......................................................................................................C-4Table C-7 FEC performance events....................................................................................................................C-5Table C-8 Radio link error performance events..................................................................................................C-5Table C-9 ATPC performance events..................................................................................................................C-6Table C-10 AM performance events...................................................................................................................C-6Table C-11 Optical power performance events...................................................................................................C-6Table C-12 Board temperature performance events............................................................................................C-7
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Table C-13 Board temperature performance events............................................................................................C-8Table C-14 Pointer justification performance events..........................................................................................C-8Table C-15 Regenerator section error performance events.................................................................................C-8Table C-16 Multiplex section error performance events.....................................................................................C-9Table C-17 Higher order path error performance events.....................................................................................C-9Table C-18 FEC performance events................................................................................................................C-10Table C-19 Board temperature performance events..........................................................................................C-10Table C-20 Lower order path error performance events...................................................................................C-10Table C-21 FEC performance events................................................................................................................C-11Table C-22 Radio link error performance events..............................................................................................C-11Table C-23 AM performance events.................................................................................................................C-11Table C-24 Board temperature performance events..........................................................................................C-12Table C-25 Lower order path error performance events...................................................................................C-12Table C-26 FEC performance events................................................................................................................C-13Table C-27 Radio link error performance events..............................................................................................C-13Table C-28 AM performance events.................................................................................................................C-13Table C-29 Board temperature performance events..........................................................................................C-14Table C-30 Pointer justification performance events........................................................................................C-14Table C-31 Regenerator section error performance events...............................................................................C-14Table C-32 Multiplex section error performance events...................................................................................C-15Table C-33 Higher order path error performance events...................................................................................C-15Table C-34 Optical power performance events.................................................................................................C-16Table C-35 Board temperature performance events..........................................................................................C-16Table C-36 Pointer justification performance events........................................................................................C-16Table C-37 Lower order path error performance events...................................................................................C-17Table C-38 Radio power performance events...................................................................................................C-17Table C-39 ATPC performance events..............................................................................................................C-18Table D-1 List of RMON alarm entries...............................................................................................................D-2Table D-2 List of RMON performance entries ...................................................................................................D-3Table E-1 Setting of the bit error alarm threshold...............................................................................................E-4Table E-2 Setting of the AIS insertion.................................................................................................................E-4Table E-3 Setting of the UNEQ insertion............................................................................................................E-5Table F-1 Board performance event management function.................................................................................F-2Table G-1 Suppression relationship between intra-board alarms........................................................................G-1Table G-2 Suppression relationship between intra-board alarms........................................................................G-2
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1 Safety Precautions
About This Chapter
This topic describes the safety precautions that you must follow when installing, operating, andmaintaining Huawei devices.
1.1 General Safety PrecautionsThis topic describes essential safety precautions that instruct you in the selection of measuringand testing instruments when you install, operate, and maintain Huawei devices.
1.2 Warning and Safety SymbolsBefore using the equipment, note the following warning and safety symbols on the equipment.
1.3 Electrical SafetyThis topic describes safety precautions for high voltage, lightning strikes, high leakage current,power cables, fuses, and ESD.
1.4 Environment of Flammable GasThis topic describes safety precautions for the operating environment of a device.
1.5 Storage BatteriesThis topic describes safety precautions for operations of storage batteries.
1.6 RadiationThis topic describes safety precautions for electromagnetic exposure and lasers.
1.7 Working at HeightsThis topic describes safety precautions for working at heights.
1.8 Mechanical SafetyThis topic describes safety precautions for drilling holes, handling sharp objects, operating fans,and carrying heavy objects.
1.9 Other PrecautionsThis topic describes safety precautions for removing and inserting boards, binding signal cables,and routing cables.
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1.1 General Safety PrecautionsThis topic describes essential safety precautions that instruct you in the selection of measuringand testing instruments when you install, operate, and maintain Huawei devices.
All Safety PrecautionsTo ensure the safety of humans and a device, follow the marks on the device and all the safetyprecautions in this document when installing, operating, and maintaining a device.
The "CAUTION", "WARNING", and "DANGER" marks in this document do not cover all thesafety precautions that must be followed. They are supplements to the safety precautions.
Local Laws and RegulationsWhen operating a device, always comply with the local laws and regulations. The safetyprecautions provided in the documents are in addition/supplementary to the local laws andregulations.
Basic Installation RequirementsThe installation and maintenance personnel of Huawei devices must receive strict training andbe familiar with the proper operation methods and safety precautions before any operation.
l Only trained and qualified personnel are permitted to install, operate, and maintain a device.
l Only certified professionals are permitted to remove the safety facilities, and to troubleshootand maintain the device.
l Only the personnel authenticated or authorized by Huawei are permitted to replace orchange the device or parts of the device (including software).
l The operating personnel must immediately report the faults or errors that may cause safetyproblems to the person in charge.
Grounding RequirementsThe grounding requirements are applicable to the device that needs to be grounded.
l When installing the device, always connect the grounding facilities first. When removingthe device, always disconnect the grounding facilities last.
l Ensure that the grounding conductor is intact.
l Do not operate the device in the absence of a suitably installed grounding conductor.
l The device must be connected to the PGND permanently. Before operating the device,check the electrical connections of the device, and ensure that the device is properlygrounded.
Human Safetyl When there is a risk of a lightning strike, do not operate the fixed terminal or touch the
cables.l When there is risk of a lightning strike, unplug the AC power connector. Do not use the
fixed terminal or touch the terminal or antenna connector.
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NOTEThe preceding requirements apply to wireless fixed station terminals.
l To avoid electric shocks, do not connect safety extra-low voltage (SELV) circuits totelephone-network voltage (TNV) circuits.
l Do not look into optical ports without eye protection. Otherwise, human eyes may be hurtby laser beams.
l Before operating the device, wear an ESD protective coat, ESD gloves, and an ESD wriststrap. In addition, you need to get off the conductive objects, such as jewelry and watches,to prevent electric shock and burn.
l In case of fire, escape from the building or site where the device is located and press thefire alarm bell or dial the telephone number for fire alarms. Do not enter the burning buildingagain in any situation.
Device Safetyl Before any operation, install the device firmly on the ground or other rigid objects, such as
on a wall or in a rack.l When the system is working, ensure that the ventilation hole is not blocked.
l When installing the front panel, use a tool to tighten the screws firmly, if required.
l After installing the device, clean up the packing materials.
1.2 Warning and Safety SymbolsBefore using the equipment, note the following warning and safety symbols on the equipment.
Table 1-1 lists the warning and safety symbols of the OptiX RTN 950 and their meanings.
Table 1-1 Warning and safety symbols of the OptiX RTN 950
Symbol Indication
This symbol is for anti-static protection.A notice with this symbol indicates that youshould wear an anti-static wrist strap or glovewhen you touch a board. Otherwise, you maycause damage to the board.
CLASS 1LASER
PRODUCT
LASERRADIATION
DO NOT VIEW DIRECTLYWITH OPTICALINSTRUMENTS
CLASS 1M LASERPRODUCT
This symbol is for the laser class.A notice with this symbol indicates the classof the laser. Avoid direct exposure to the laserbeams. Otherwise, it may damage you eyes orskin.
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Symbol Indication
A notice with this symbol indicates where thesubrack is grounded.
ATTENTION 警告
CLEAN PERIODICALLY定期清洗
A notice with this symbol indicates that theair filter should be cleaned periodically.
严禁在风扇高速旋转时接触叶片
DON'T TOUCH THEFAN LEAVES BEFORETHEY SLOW DOWN !
This symbol is for fan safety.A notice with this symbol indicates that thefan leaves should not be touched when the fanis rotating.
1.3 Electrical SafetyThis topic describes safety precautions for high voltage, lightning strikes, high leakage current,power cables, fuses, and ESD.
High Voltage
DANGERl A high-voltage power supply provides power for device operations. Direct human contact
with the high voltage power supply or human contact through damp objects can be fatal.l Unspecified or unauthorized high voltage operations could result in fire or electric shock, or
both.
ThunderstormThe requirements apply only to wireless base stations or devices with antennas and feeders.
DANGERDo not perform operations on high voltage, AC power, towers, or backstays in stormy weatherconditions.
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High Leakage Current
WARNINGBefore powering on a device, ground the device. Otherwise, the safety of humans and the devicecannot be ensured.
If a high leakage current mark is labeled near the power connector of the device, you mustconnect the PGND terminal on the shell to the ground before connecting the device to an A/Cinput power supply. This is to prevent the electric shock caused by leakage current of the device.
Power Cables
DANGERDo not install or remove the power cable with a live line. Transient contact between the core ofthe power cable and the conductor may generate electric arc or spark, which may cause fire oreye injury.
l Before installing or removing power cables, you must power off the device.
l Before connecting a power cable, you must ensure that the label on the power cable iscorrect.
Device with Power On
DANGERInstalling or removing a device is prohibited if the device is on.
DANGERDo not install or remove the power cables of the equipment when it is powered on.
Short Circuits
When installing and maintaining devices, place and use the associated tools and instruments inaccordance with regulations to avoid short-circuits caused by metal objects.
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CAUTIONTo avoid short-circuits when using a tool (such as a screwdriver), do not place the tool on theventilation plate of the subrack.
CAUTIONPrevent any screws from dropping into the subrack or chassis to avoid short-circuits.
Fuse
WARNINGIf the fuse on a device blows, replace the fuse with a fuse of the same type and specifications toensure safe operation of the device.
Electrostatic Discharge
CAUTIONThe static electricity generated by the human body may damage the electrostatic sensitivecomponents on the board, such as the large-scale integrated circuit (LSI).
l The human body can generate static electromagnetic fields in the following situations:physical movement, clothing friction, friction between shoes and the ground, plastics inthe hand. Such static electromagnetic effects can remain for an appreciable time.
l Before operating a device, circuit boards, or ASICs, wear an ESD wrist strap that is properlygrounded. The ESD wrist strap can prevent the electrostatic-sensitive components frombeing damaged by the static electricity in the human body.
Figure 1-1 shows the method of wearing an ESD wrist strap.
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Figure 1-1 Wearing an ESD wrist strap
1.4 Environment of Flammable GasThis topic describes safety precautions for the operating environment of a device.
DANGERDo not place or operate devices in an environment of flammable or explosive air or gas.
Operating an electronic device in an environment of flammable gas causes a severe hazard.
1.5 Storage BatteriesThis topic describes safety precautions for operations of storage batteries.
DANGERBefore operating a storage battery, you must read the safety precautions carefully and be familiarwith the method of connecting a storage battery.
l Incorrect operations of storage batteries cause hazards. During operation, prevent any short-circuit, and prevent the electrolyte from overflowing or leakage.
l If the electrolyte overflows, it causes potential hazards to the device. The electrolyte maycorrode metal parts and the circuit boards, and ultimately damage the circuit boards.
l A storage battery contains a great deal of energy. Misoperations may cause a short-circuit,which leads to human injuries.
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Basic Precautions
To ensure safety, note the following points before installing or maintaining the storage battery:
l Use special insulation tools.
l Wear an eye protector and take effective protection measures.
l Wear rubber gloves and a protection coat to prevent the hazard caused by the overflowingelectrolyte.
l When handling the storage battery, ensure that its electrodes are upward. Leaning orreversing the storage battery is prohibited.
l Before installing or maintaining the storage battery, ensure that the storage battery isdisconnected from the power supply that charges the storage battery.
Short-Circuit
DANGERA battery short-circuit may cause human injuries. Although the voltage of an ordinary batteryis low, the instantaneous high current caused by a short-circuit emits a great deal of energy.
Avoid any short-circuit of batteries caused by metal objects. If possible, disconnect the workingbattery before performing other operations.
Hazardous Gas
CAUTIONDo not use any unsealed lead-acid storage battery. Lay a storage battery horizontally and fix itproperly to prevent the battery from emitting flammable gas, which may cause fire or deviceerosion.
Working lead-acid storage batteries emit flammable gas. Therefore, ventilation and fireproofingmeasures must be taken at the sites where lead-acid storage batteries are placed.
Battery Temperature
CAUTIONIf a battery overheats, the battery may be deformed or damaged, and the electrolyte mayoverflow.
When the temperature of the battery is higher than 60°C, you need to check whether theelectrolyte overflows. If the electrolyte overflows, take appropriate measures immediately.
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Battery Leakage
CAUTIONIn the event of acid overflow or spillage, neutralize the acid and clean it up appropriately.
When handling a leaky battery, protect against the possible damage caused by the acid. Whenyou find the electrolyte leaks, you can use the following substances to counteract and absorb theleaking electrolyte:
l Sodium bicarbonate (NaHCO3)
l Sodium carbonate (Na2CO3)
In the event of acid overflow or spillage, neutralize the acid and clean it up as recommended bythe battery manufacturer and any local regulations for acid disposal.
If a person contacts battery electrolyte, clean the skin that contacts the battery electrolyteimmediately by using water. In case of a severe situation, the person must be sent to a hospitalimmediately.
1.6 RadiationThis topic describes safety precautions for electromagnetic exposure and lasers.
1.6.1 Safe Usage of Optical FibersThe laser beam can cause damage to your eyes. Hence, you must exercise caution when usingoptical fibers.
1.6.2 Electromagnetic ExposureThis topic describes safety precautions for electromagnetic exposure.
1.6.3 Forbidden AreasThe topic describes requirements for a forbidden area.
1.6.4 LaserThis topic describes safety precautions for lasers.
1.6.5 MicrowaveWhen installing and maintaining the equipment of Huawei, follow the safety precautions ofmicrowave to ensure the safety of the human body and the equipment.
1.6.1 Safe Usage of Optical FibersThe laser beam can cause damage to your eyes. Hence, you must exercise caution when usingoptical fibers.
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DANGERWhen installing or maintaining an optical interface board or optical fibers, avoid direct eyeexposure to the laser beams launched from the optical interface board or fiber connectors. Thelaser beam can cause damage to your eyes.
Cleaning Fiber Connectors and Optical Interfaces
CAUTIONIf fiber connectors or flanges are contaminated, optical power commissioning is seriouslyaffected. Therefore, the two endfaces and flange of every external fiber must be cleaned beforethe fiber is led into the equipment through the ODF for being inserted into an optical interfaceon the equipment.
The fiber connectors and optical interfaces of the lasers must be cleaned with the followingspecial cleaning tools and materials:
l Special cleaning solvent: It is preferred to use isoamylol. Propyl alcohol, however, can alsobe used. It is prohibited that you use alcohol and formalin.
l Non-woven lens tissue
l Special compressed gas
l Cotton stick (medical cotton or long fiber cotton)
l Special cleaning roll, used with the recommended cleaning solvent
l Special magnifier for fiber connectors
For cleaning steps, see Task Collection "Cleaning Fiber Connectors and Adapters" in the OptiXRTN 950 Radio Transmission System Maintenance and Troubleshooting.
Replacing Optical Fibers
When replacing an optical fiber, cover the fiber connector of the unused optical fiber with aprotective cap.
Connecting Optical Fibersl Use an attenuator if the optical power is excessively high. A high received optical power
damages the optical interface.
l Directly connect an attenuator to a slanting optical interface. Install the attenuator on theIN port instead of the OUT port.
l Do not directly connect an attenuator to the level optical interface. Use the opticaldistribution frame (ODF) to connect an attenuator to a level optical interface.
Figure 1-2 shows a slanting optical interface, and Figure 1-3 shows a level optical interface.
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Figure 1-2 Slanting optical interface
Slanting opticalinterface
Figure 1-3 Level optical interface
Level opticalinterface
1.6.2 Electromagnetic ExposureThis topic describes safety precautions for electromagnetic exposure.
DANGERDanger indicates a hazard that, if not avoided, will result in death or serious injury.
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WARNINGWarning indicates a hazard that, if not avoided, could result in moderate or serious injury.
CAUTIONCaution indicates a hazard that, if not avoided, could result in minor or moderate injury.
If multiple transmit antennas are installed on a tower or backstay, keep away from the transmitdirections of the antennas when you install or maintain an antenna locally.
CAUTIONEnsure that all personnel are beyond the transmit direction of a working antenna.
1.6.3 Forbidden AreasThe topic describes requirements for a forbidden area.
l Before entering an area where the electromagnetic radiation is beyond the specified range,the associated personnel must shut down the electromagnetic radiator or stay at least 10meters away from the electromagnetic radiator, if in the transmit direction.
l A physical barrier and an eye-catching warning flag should be available in each forbiddenarea.
1.6.4 LaserThis topic describes safety precautions for lasers.
WARNINGWhen handling optical fibers, do not stand close to, or look into the optical fiber outlet directlywithout eye protection.
Laser transceivers are used in the optical transmission system and associated test tools. The lasertransmitted through the bare optical fiber produces a small beam of light, and thus it has veryhigh power density and is invisible to human eyes. When a beam of light enters eyes, the eyesmay be damaged.
In normal cases, viewing an un-terminated optical fiber or a damaged optical fiber without eyeprotection at a distance greater than 150 mm does not cause eye injury. Eye injury may occur,however, if an optical tool such as a microscope, magnifying glass, or eye loupe is used to viewan un-terminated optical fiber.
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Safety Instructions Regarding LasersTo avoid laser radiation, obey the following instructions:
l All operations should be performed by authorized personnel who have completed therequired training courses.
l Wear a pair of eye-protective glasses when you are handling lasers or fibers.
l Ensure that the optical source is switched off before disconnecting optical fiber connectors.
l Do not look into the end of an exposed fiber or an open connector when you are not surewhether the optical source is switched off.
l Use an optical power meter to measure the optical power and ensure that the optical sourceis switched off.
l Before opening the front door of an optical transmission device, ensure that you are notexposed to laser radiation.
l Do not use an optical tool such as a microscope, a magnifying glass, or an eye loupe toview the optical connector or fiber that is transmitting optical signals.
Instructions Regarding Fiber HandlingRead and abide by the following instructions before handling fibers:
l Only trained personnel are permitted to cut and splice fibers.
l Before cutting or splicing a fiber, ensure that the fiber is disconnected from the opticalsource. After disconnecting the fiber, cap to the fiber connectors.
1.6.5 MicrowaveWhen installing and maintaining the equipment of Huawei, follow the safety precautions ofmicrowave to ensure the safety of the human body and the equipment.
WARNINGStrong radio frequency can harm the human body.
When installing or maintaining an aerial on the tower or mast that is installed with multipleaerials, switch off the transmitter in advance.
1.7 Working at HeightsThis topic describes safety precautions for working at heights.
WARNINGWhen working at heights, be cautious to prevent objects from falling down.
The requirements for working at heights are as follows:
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l The personnel who work at heights must be trained.
l Carry and handle the operating machines and tools with caution to prevent them from fallingdown.
l Safety measures, such as wearing a helmet and a safety belt, must be taken.
l Wear cold-proof clothes when working at heights in cold areas.
l Check all lifting appliances thoroughly before starting the work, and ensure that they areintact.
1.7.1 Hoisting Heavy ObjectsThis topic describes the safety precautions for hoisting heavy objects that you must follow wheninstalling, operating, and maintaining Huawei devices.
1.7.2 Using LaddersThis topic describes safety precautions for using ladders.
1.7.1 Hoisting Heavy ObjectsThis topic describes the safety precautions for hoisting heavy objects that you must follow wheninstalling, operating, and maintaining Huawei devices.
WARNINGWhen heavy objects are being hoisted, do not walk below the cantilever or hoisted objects.
l Only trained and qualified personnel can perform hoisting operations.
l Before hoisting heavy objects, check that the hoisting tools are complete and in goodcondition.
l Before hoisting heavy objects, ensure that the hoisting tools are fixed to a secure object orwall with good weight-bearing capacity.
l Issue orders with short and explicit words to ensure correct operations.
l Ensure that the angle between the two cables is less than or equal to 90 degrees during thelifting, as shown in Figure 1-4.
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Figure 1-4 Hoisting heavy objects
1.7.2 Using LaddersThis topic describes safety precautions for using ladders.
Checking Laddersl Before using a ladder, check whether the ladder is damaged. After checking that the ladder
is in good condition, you can use the ladder.l Before using a ladder, you should know the maximum weight capacity of the ladder. Avoid
overweighing the ladder.
Placing LaddersThe proper slant angle of the ladder is 75 degrees. You can measure the slant angle of the ladderwith an angle square or your arms, as shown in Figure 1-5. When using a ladder, to prevent theladder from sliding, ensure that the wider feet of the ladder are downward, or take protectionmeasures for the ladder feet. Ensure that the ladder is placed securely.
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Figure 1-5 Slanting a ladder
Climbing Up a Ladder
When climbing up a ladder, pay attention to the following points:
l Ensure that the center of gravity of your body does not deviate from the edges of the twolong sides.
l Before operations, ensure that your body is stable to reduce risks.
l Do not climb higher than the fourth rung of the ladder (counted from up to down).
If you want to climb up a roof, ensure that the ladder top is at least one meter higher than theroof, as shown in Figure 1-6.
Figure 1-6 Ladder top being one meter higher than the roof
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1.8 Mechanical SafetyThis topic describes safety precautions for drilling holes, handling sharp objects, operating fans,and carrying heavy objects.
Drilling Holes
WARNINGDo not drill holes on the cabinet without prior permission. Drilling holes without complyingwith the requirements affects the electromagnetic shielding performance of the cabinet anddamages the cables inside the cabinet. In addition, if the scraps caused by drilling enter thecabinet, the printed circuit boards (PCBs) may be short-circuited.
l Before drilling a hole on the cabinet, remove the cables inside the cabinet.
l Wear an eye protector when drilling holes. This is to prevent eyes from being injured bythe splashing metal scraps.
l Wear protection gloves when drilling holes.
l Take measures to prevent the metallic scraps from falling into the cabinet. After the drilling,clean up the metallic scraps.
Sharp Objects
WARNINGWear protection gloves when carrying the device. This is to prevent hands from being injuredby the sharp edges of the device.
Fansl When replacing parts, place the objects such as the parts, screws, and tools properly. This
is to prevent them from falling into the operating fans, which damages the fans or device.
l When replacing the parts near fans, keep your fingers or boards from touching operatingfans before the fans are powered off and stop running. Otherwise, the hands or the boardsare damaged.
Carrying Heavy Objects
Wear protection gloves when carrying heavy objects. This is to prevent hands from being hurt.
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WARNINGl The carrier must be prepared for load bearing before carrying heavy objects. This is to prevent
the carrier from being strained or pressed by the heavy objects.l When you pull a chassis out of the cabinet, pay attention to the unstable or heavy objects on
the cabinet. This is to prevent the heavy objects on the cabinet top from falling down, whichmay hurt you.
l Generally, two persons are needed to carry a chassis. It is prohibited that only one personcarries a heavy chassis. When carrying a chassis, the carriers should stretch their backs andmove stably to avoid being strained.
l When moving or lifting a chassis, hold the handles or bottom of the chassis. Do not holdthe handles of the modules installed in the chassis, such as the power modules, fan modules,and boards.
1.9 Other PrecautionsThis topic describes safety precautions for removing and inserting boards, binding signal cables,and routing cables.
Removing and Inserting a Board
CAUTIONWhen inserting a board, wear an ESD wrist strap or ESD gloves, and handle the board gently toavoid distorting pins on the backplane.
l Slide the board along the guide rails.
l Do not contact one board with another to avoid short-circuits or damage.
l When holding a board in hand, do not touch the board circuits, components, connectors,or connection slots of the board to prevent damage caused by ESD of the human body tothe electrostatic-sensitive components.
Binding Signal Cables
CAUTIONBind the signal cables separately from the high-current or high-voltage cables.
Routing CablesIn the case of extremely low temperature, heavy shock or vibration may damage the plastic skinof the cables. To ensure the construction safety, comply with the following requirements:
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l When installing cables, ensure that the environment temperature is above 0°C.
l If the cables are stored in a place where the ambient temperature is below 0°C, transferthem to a place at room temperature and store the cables for more than 24 hours beforeinstallation.
l Handle the cables gently, especially in a low-temperature environment. Do not performany improper operations, for example, pushing the cables down directly from a truck.
High Temperature
WARNINGIf the ambient temperature exceeds 55°C, the temperature of the front panel surface marked the
flag may exceed 70°C. When touching the front panel of the board in such an environment,you must wear the protection gloves.
IF Cables
WARNINGBefore installing or removing an IF cable, you must turn off the power switch of the IF board.
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2 Guides to High-Risk Operations
About This Chapter
This chapter provides guides to the operations that may cause injury on human bodies anddamage on the equipment if they are misconducted during the commissioning and maintenanceof microwave equipment.
2.1 Operation Guide to the Toggle Lever SwitchThe ODU-PWR switch on the IF board is a toggle lever switch. When you turn on or turn offthe toggle lever switch, perform the operations in strict compliance with the guidelines.Otherwise, the IF board may be damaged.
2.2 Operation Guide to the IF JumperBefore removing or installing an IF jumper, turn off the ODU-PWR. Otherwise, the body injurymay be caused, and the IF board or the ODU may be damaged.
2.3 Operation Guide to the IF CableBefore removing or installing an IF cable, turn off the ODU-PWR. Otherwise, the body injurymay be caused, and the IF board or the ODU may be damaged.
2.4 Operation Guide to the IF BoardBefore removing or installing an IF board, turn off the ODU-PWR. Otherwise, the IF board orthe ODU may be damaged.
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2.1 Operation Guide to the Toggle Lever SwitchThe ODU-PWR switch on the IF board is a toggle lever switch. When you turn on or turn offthe toggle lever switch, perform the operations in strict compliance with the guidelines.Otherwise, the IF board may be damaged.
Position and Description of the Toggle Lever SwitchThe toggle lever switch resides on the IF board and controls the power that is fed to the ODU,as shown in Figure 2-1.
Figure 2-1 Toggle lever switch
I : ON
O: OFF
Turning On the Toggle Lever Switch1. Pull the toggle lever switch out slightly.
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2. Turn it to the left.
3. Release the toggle lever switch.
Turning Off the Toggle Lever Switch1. Pull the toggle lever switch out slightly.
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2. Turn it to the right.
3. Release the toggle lever switch.
2.2 Operation Guide to the IF JumperBefore removing or installing an IF jumper, turn off the ODU-PWR. Otherwise, the body injurymay be caused, and the IF board or the ODU may be damaged.
Procedure
Step 1 Turn off the ODU power switch on the IF board. For details, see 2.1 Operation Guide to theToggle Lever Switch.
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DANGERDo not remove the IF jumper before the ODU is powered off!
Step 2 Remove or install the IF jumper.
----End
2.3 Operation Guide to the IF CableBefore removing or installing an IF cable, turn off the ODU-PWR. Otherwise, the body injurymay be caused, and the IF board or the ODU may be damaged.
Procedure
Step 1 Turn off the ODU power switch on the IF board. For details, see 2.1 Operation Guide to theToggle Lever Switch.
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DANGERDo not remove or install the IF cable before the ODU is powered off!
Step 2 Install or remove the IF cable.
----End
2.4 Operation Guide to the IF BoardBefore removing or installing an IF board, turn off the ODU-PWR. Otherwise, the IF board orthe ODU may be damaged.
Procedure
Step 1 Turn off the ODU power switch on the IF board. For details, see 2.1 Operation Guide to theToggle Lever Switch.
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DANGERDo not remove or install the IF board before the ODU is powered off!
Step 2 Disconnect the IF jumper or IF cable.
Step 3 Remove or install the IF board.
----End
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3 Routine Maintenance
About This Chapter
The routine maintenance operations are performed to detect and rectify hidden faults before thehidden faults result in the damage to the equipment and thus affect the services.
3.1 Routine Maintenance ItemsRoutine maintenance items are classified into three categories: routine maintenance items carriedout through the NMS, field maintenance items for indoor equipment, and field maintenanceitems for outdoor equipment.
3.2 Operation Guide to the Routine Maintenance ItemsThis topic describes the operation guidelines to each routine maintenance item.
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3.1 Routine Maintenance ItemsRoutine maintenance items are classified into three categories: routine maintenance items carriedout through the NMS, field maintenance items for indoor equipment, and field maintenanceitems for outdoor equipment.
Routine Maintenance Items Carried Out Through the NMSMaintenance Item Recomm
endedMaintenanceCycle
Remarks
3.2.1 Checking the NE Status Every day -
3.2.2 Browsing the Current Alarms Every day -
3.2.3 Browsing the History Alarms Everyweek
-
3.2.4 Browsing the Abnormal Events Everyweek
-
3.2.5 Browsing CurrentPerformance Events
Everyweek
-
3.2.6 Browsing the HistoryPerformance Events
Everyweek
-
3.2.7 Browsing the History TransmitPower and Receive Power
Everyweek
-
3.2.8 Testing the IF 1+1 Switching Half ayear
Applies only to the equipment that isconfigured in 1+1 protection mode.During the 1+1 protection switching(< 200 ms), the protected services areinterrupted. Hence, it is recommendedthat you perform the 1+1 protectionswitching when the traffic is light.
3.2.9 Testing the IF N+1 Switching Half ayear
Applies only to the equipment that isconfigured in N+1 protection mode.
Field Maintenance Items for Indoor EquipmentMaintenance Item Recommended
Maintenance CycleRemarks
3.2.10 Checking theTelecommunications Room
Every two months -
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Field Maintenance Items for Outdoor Equipment
Maintenance Item RecommendedMaintenanceCycle
Remarks
3.2.11 Checking the ODU Half a year Carry out acomplete checkafter a level-8 orhigher hurricane,an earthquake, orother exceptionalcircumstances.
3.2.12 Checking the Hybrid Coupler Half a year
3.2.13 Checking the Antenna Half a year
3.2.14 Checking the IF Cable Half a year
3.2.15 Checking the LOS Condition Half a year
3.2 Operation Guide to the Routine Maintenance ItemsThis topic describes the operation guidelines to each routine maintenance item.
3.2.1 Checking the NE StatusThis topic describes how to check the NE status. By periodically checking the NE status, youcan detect the NE faults in time.
3.2.2 Browsing the Current AlarmsA current alarm is an alarm that is not cleared. Periodically browsing the current alarms helpsin detecting and rectifying faults in time.
3.2.3 Browsing the History AlarmsA history alarm is an alarm that is cleared. Periodically browsing and storing the history alarminformation helps in locating and rectifying faults.
3.2.4 Browsing the Abnormal EventsThis topic describes how to browse the abnormal events. An abnormal event is an abnormalitythat arises in the system at a particular time and not an abnormality that persists for a long time.Periodically browsing the abnormal events helps in detecting equipment faults in time.
3.2.5 Browsing Current Performance EventsPeriodically browsing the performance events helps you to check the long-term running statusof the equipment. Hence, the latent hazards can be detected and cleared in time. The count ofcurrent performance events measures all the performance events that arise between the start timeof the monitoring period and the current time.
3.2.6 Browsing the History Performance EventsPeriodically browsing and storing the history performance events helps in locating faults.
3.2.7 Browsing the History Transmit Power and Receive PowerBy periodically browsing the history transmit power and receive power, you can know the changetrend of the history transmit power and receive power, which provides references fortroubleshooting the radio link.
3.2.8 Testing the IF 1+1 SwitchingPeriodically testing the IF 1+1 switching helps in checking whether switchings can be performedon the equipment normally.
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3.2.9 Testing the IF N+1 SwitchingPeriodically testing the IF N+1 switching helps in checking whether switchings can be performedon the equipment normally.
3.2.10 Checking the Telecommunications RoomPeriodically checking the telecommunications room not only ensures that the equipment canoperate normally in appropriate temperature and humidity conditions, but also reduces the faultrate and increases the service life of the equipment.
3.2.11 Checking the ODUPeriodically checking the ODU helps in detecting the faults and hidden troubles of the ODU intime.
3.2.12 Checking the Hybrid CouplerPeriodically checking the hybrid coupler helps in detecting the faults and hidden troubles of thehybrid coupler in time.
3.2.13 Checking the AntennaPeriodically checking the antenna helps in detecting the faults and hidden troubles of the antennain time.
3.2.14 Checking the IF CableChecking the IF cable periodically helps you detect the faults in and hidden troubles of the IFcable in a timely manner.
3.2.15 Checking the LOS ConditionPeriodically checking the LOS condition of the transmission link helps to detect hidden LOSobstacles on the transmission link.
3.2.1 Checking the NE StatusThis topic describes how to check the NE status. By periodically checking the NE status, youcan detect the NE faults in time.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
PrecautionsNOTE
By default, the color of the NE icon on the NMS indicates the NE status.
Procedure
Step 1 Check the NE icon in the Main Topology.TIP
In the toolbar of the Main Topology, click the icon, and click the Legend tab in the window that isdisplayed on the right. By moving the vertical scrolling bar, you can view all the status legends of the NE.
The NE icon should be green. In other cases, you can infer as follows:
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l Gray: indicates that the communication between the NE and the NMS is interrupted.
l Purple: indicates that the NE status is unknown.
l Red: indicates that a critical alarm is generated.
l Orange: indicates that a major alarm is generated.
l Yellow: indicates that a minor alarm is generated.
l Light blue: indicates that a warning is generated.
Step 2 Double-click the NE. Then, the NE Panel is displayed. The NE should be in Running Status.
NOTE
If the NE is in another state, query the current alarms based on A Alarm Reference.
Step 3 Click the icon. Then, the legend description is displayed.
Step 4 Check the running status of the boards by referring to the legend description. If a board is runningnormally, the board icon should be green.
----End
Postrequisite
If the NE status indicates that alarms exist on the NE, check the current alarms to locate thefaults on the NE.
3.2.2 Browsing the Current AlarmsA current alarm is an alarm that is not cleared. Periodically browsing the current alarms helpsin detecting and rectifying faults in time.
Prerequisite
You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 Choose Fault > Browse Current Alarm from the Main Menu.TIP
In the toolbar, click the icon to browse the current alarms.
Then, the Filter dialog box is displayed.
Step 2 Set the alarm filter conditions according to the requirements. Click OK. Then, the filtered alarmsare displayed in the Current Alarms window.
Step 3 Select Display latest alarms.
Step 4 Browse the displayed alarms.
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Step 5 Select the newly generated alarms, record the details about the alarms, and clickAcknowledge.
Step 6 Notify the fault handling personnel of the alarms in time.
----End
Related InformationYou can browse the network-wide alarms based on alarm severity, by clicking the alarmindicators in the upper right corner.
l You can click (red) to browse the network-wide current critical alarms.
l You can click (orange) to browse the network-wide current major alarms.
l You can click (yellow) to browse the network-wide current minor alarms.
l You can click (light blue) to browse the network-wide current warnings.
NOTE
l By default, the number in the icon of each indicator indicates the number of network-wide current alarmsof the specific severity that are not cleared.
l If a square frame is displayed around an alarm indicator, it indicates that there are unacknowledged alarms.
3.2.3 Browsing the History AlarmsA history alarm is an alarm that is cleared. Periodically browsing and storing the history alarminformation helps in locating and rectifying faults.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Choose Fault > Browse History Alarm from the Main Menu.Then, the Filter dialog box is displayed.
Step 2 Set the alarm filter conditions according to the requirements.1. Click the Basic Setting tab. Specify the parameters, including Generated Time and
Cleared Time.
NOTEThe start time should be the time when the last history alarm browsing operation was performed, andthe end time should be the current time.
2. Click OK.Then, the filtered alarms are displayed in the History Alarms window.
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Step 3 Browse the displayed history alarms.
----End
3.2.4 Browsing the Abnormal EventsThis topic describes how to browse the abnormal events. An abnormal event is an abnormalitythat arises in the system at a particular time and not an abnormality that persists for a long time.Periodically browsing the abnormal events helps in detecting equipment faults in time.
Prerequisite
You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 Choose Fault > Browse Event from the Main Menu.Then, the Filter dialog box is displayed.
Step 2 Set the event filter conditions according to the requirements. Click OK.Then, the filtered abnormal events are displayed in the Events window.
Step 3 Select Display latest events.
Step 4 Browse the abnormal events.
For details on how to handle an abnormal event, see B.2 Abnormal Performance Events andHandling Procedures.
----End
Related Information
Compared with an alarm, an abnormal event has only the occurrence time and has no clearancetime.
3.2.5 Browsing Current Performance EventsPeriodically browsing the performance events helps you to check the long-term running statusof the equipment. Hence, the latent hazards can be detected and cleared in time. The count ofcurrent performance events measures all the performance events that arise between the start timeof the monitoring period and the current time.
Prerequisitel The performance monitoring function must be enabled. For details about how to enable the
performance monitoring function, see 8.12 Configuring the Performance MonitoringStatus of NEs.
l You must be an NM user with NE monitor authority or higher.
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Tools, Equipment, MaterialsU2000
Procedure
Step 1 Choose Performance > Browse SDH Performance from the Main Menu, and then selectCurrent Performance Data.
Step 2 Select one or multiple NEs from the left pane, and click .
Step 3 Select All in Monitored Object Filter Condition.
Step 4 Select 15-Minute in the Monitor Period field.
Step 5 Select Gauge, select Select All in the displayed tab page, and select Display Current Valueand Display Maximum and Minimum Values in the right pane.
Step 6 Click Query to browse the current performance events.Compared with the history records, the gauge indicators, such as board temperature, do notchange drastically.
Step 7 Select Count, select Select All in the displayed tab page, and select Display ContinuousSeverely Errored Seconds in the right pane.
Step 8 Click Query to browse the current performance events.In normal cases, no bit error performance events are displayed, and the number of pointerjustification events is less than six per day on each port.
Step 9 Redefine the time span by setting Monitor Period to 24-Hour.
Step 10 Repeat Step 5 to Step 8 to query the performance events in a period of 24 hours.
----End
3.2.6 Browsing the History Performance EventsPeriodically browsing and storing the history performance events helps in locating faults.
Prerequisitel The performance monitoring function must be enabled. If the performance monitoring
function is not enabled, see 8.12 Configuring the Performance Monitoring Status ofNEs and enable the function.
l You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Choose Performance > Browse SDH Performance from the Main Menu. Click the HistoryPerformance Data tab.
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Step 2 Select one or multiple NEs from the left pane, and click .
Step 3 Select All in Monitored Object Filter Condition.
Step 4 Set Monitor Period to 15-Minute.
Step 5 Specify the start time and end time of a specific time span.The time span ranges from the time when the last history performance event browsing operationwas performed to the current time.
Step 6 Specify Data Source.
NOTE
If this is the first browsing operation, you should select Query from NE and Save to Database. Otherwise,you should select Query from NMS. As a result, the history performance databases on the NMS and NEare synchronized.
Step 7 Select Gauge, select Select All in the displayed tab page, and select Display Current Valueand Display Maximum and Minimum Values in the right pane.
Step 8 Click Query to browse the history performance events.
Step 9 Set Monitor Period to 24-Hour.
Step 10 Repeat Step 5 to Step 8 to query the history performance events that occur during the period of24 hours.
----End
Related InformationCurrently, U2000 can query six 24-hour history performance events and sixteen 15-minutehistory performance events from the NE side and query the history performance data of monthsfrom the NMS side.
3.2.7 Browsing the History Transmit Power and Receive PowerBy periodically browsing the history transmit power and receive power, you can know the changetrend of the history transmit power and receive power, which provides references fortroubleshooting the radio link.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 In the NE Explorer, select the ODU whose history transmit power and receive power need to bequeried from the Object Tree and choose Configuration > Performance Graph Analyse fromthe Function Tree.
Step 2 Specify the start time and the end time of a specific time span.
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The time span ranges from the last routine maintenance time to the current time.
Step 3 Set Monitoring Period to 15M.
Step 4 Click Draw.Then, the history transmit and receive power curve of the ODU in the specified time span isdisplayed.
Step 5 Analyze the power curve. If the receive power fading of two adjacent points exceeds 20 dB andthe weather does not change, contact the troubleshooting engineers.
----End
3.2.8 Testing the IF 1+1 SwitchingPeriodically testing the IF 1+1 switching helps in checking whether switchings can be performedon the equipment normally.
PrerequisiteYou must be an NM user with NE operator authority or higher.
Tools, Equipment, and MaterialsU2000
Precautionsl In this task, the IF 1+1 switching is performed manually. That is, the IF 1+1 switching is
an HSB switching (switching of the equipment). During the 1+1 protection switching (<200 ms), the protected services are interrupted. Hence, you are recommended to performthe IF 1+1 protection switching when the traffic is light.
l Before you perform the switching, ensure that the standby equipment is normal. If theswitching fails, contact Huawei engineers for troubleshooting.
Procedure
Step 1 In the NE Explorer, select the NE from the Object Tree and choose Configuration > IF 1+1Protection from the Function Tree.
Step 2 In Protection Group, select the IF 1+1 protection group that is to be switched over.
Step 3 In Slot Mapping Relation, right-click the main IF board and choose Manual to Protectionfrom the shortcut menu.
Step 4 Click OK to start the protection switching.
Step 5 Close the dialog box that is displayed.
Step 6 Click Query Switch Status to check the protection switching status.After the switching is completed, the Switching Status of Device of the main IF board shouldbe Manual Switching. At this time, in Protection Group, the main IF board on the equipmentside is the standby board.
Step 7 After the equipment runs normally for a period, query the current alarms and performance events.There should be no new alarms or performance events.
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Step 8 Repeat Step 1 to Step 2.
Step 9 In Slot Mapping Relation, right-click the IF board and choose Clear from the shortcut menu.
Step 10 Click OK to switch the services back to the main IF board.
Step 11 Close the dialog box that is displayed.
Step 12 Click Query Switch Status to check the protection switching status.Then, in Protection Group, Switching Status of Device of the main IF board should beNormal.
Step 13 After the equipment runs normally for a period, query the current alarms and performance events.There should be no new alarms or performance events.
----End
3.2.9 Testing the IF N+1 SwitchingPeriodically testing the IF N+1 switching helps in checking whether switchings can be performedon the equipment normally.
Prerequisite
You must be an NM user with NE operator authority or higher.
Tools, Equipment, and MaterialsU2000
Precautionsl This task is performed as an exercise switching to check whether the NE can implement
the IF N+1 switching. Hence, the service signals are actually not switched.l Before you perform the switching, ensure that the standby equipment is working properly.
If the switching fails, contact Huawei engineers for troubleshooting.
Procedure
Step 1 In the NE Explorer, select the NE and choose Configuration > N+1 Protection from theFunction Tree.
Step 2 In Slot Mapping Relation, right-click a working unit and choose Exercise from the shortcutmenu.The system displays a prompt message, indicating that the switching command is issuedsuccessfully.
Step 3 Click Query Switch Status to check the protection switching status.The status of the working unit should be Exercise.
Step 4 Repeat Step 1.
Step 5 In Slot Mapping Relation, right-click the protection unit or a working unit and choose Clearfrom the shortcut menu.
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The system displays a prompt message, indicating that the switching command is issuedsuccessfully.
Step 6 Click Query Switch Status to check the protection switching status.The status of the working unit should be Normal.
----End
3.2.10 Checking the Telecommunications RoomPeriodically checking the telecommunications room not only ensures that the equipment canoperate normally in appropriate temperature and humidity conditions, but also reduces the faultrate and increases the service life of the equipment.
PrerequisiteNone.
Tools, Equipment, and Materials
None.
Procedure
Step 1 Record the reading of the thermometer in the telecommunications room.The normal temperature should be between -5ºC and +55ºC.
Step 2 Record the reading of the humidity meter in the telecommunications room.The normal humidity should be between 5% and 95%.
Step 3 Check whether the telecommunications room meets the disaster protection requirements.Ensure the following points:
l There are portable foam fire extinguishers in the telecommunications room. The fireextinguishers should be in their service life.
l There is no rain leakage or water penetration in the telecommunications room.
l There are no mice or insects in the telecommunications room.
Step 4 Clean the telecommunications room.Ensure that there is no dust on the cabinets, on the equipment shelves, in the equipment, on thedesks, or on the floor. The equipment should be tidy.
----End
3.2.11 Checking the ODUPeriodically checking the ODU helps in detecting the faults and hidden troubles of the ODU intime.
PrerequisiteNone.
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Tools, Equipment, and MaterialsNone.
Procedure
Step 1 Ensure that the ODU is located within the protected area of the lightning arrester.In plain areas, the lightning arrester protects the areas within an angle of 45° under it. Inmountainous areas and the areas where lightning frequently occurs, the lightning arrester protectsthe area within an angle of 30° under it.
Step 2 Ensure that the ODU is properly fixed on the antenna.
Step 3 Ensure that the ODU is not damaged.
Step 4 Ensure that the interface between the ODU and the hybrid coupler/antenna is waterproof.
Step 5 Ensure that the protection grounding cable of the ODU is firmly and reliably grounded.
----End
3.2.12 Checking the Hybrid CouplerPeriodically checking the hybrid coupler helps in detecting the faults and hidden troubles of thehybrid coupler in time.
PrerequisiteNone.
Tools, Equipment, and MaterialsNone.
Procedure
Step 1 Ensure that the hybrid coupler is located within the protected area of the lightning arrester.In plain areas, the lightning arrester protects the areas within an angle of 45° under it. Inmountainous areas and the areas where lightning frequently occurs, the lightning arrester protectsthe area within an angle of 30° under it.
Step 2 Ensure that the hybrid coupler is properly fixed on the antenna.
Step 3 Ensure that the hybrid coupler is not damaged.
Step 4 Ensure that the interface between the hybrid coupler and the antenna is waterproof.
Step 5 Ensure that the interface between the hybrid coupler and the ODU is waterproof.
----End
3.2.13 Checking the AntennaPeriodically checking the antenna helps in detecting the faults and hidden troubles of the antennain time.
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PrerequisiteNone.
Tools, Equipment, and MaterialsNone.
Procedure
Step 1 Ensure that the antenna is located within the protected area of the lightning arrester.In plain areas, the lightning arrester protects the areas within an angle of 45° under it. Inmountainous areas and the areas where lightning frequently occurs, the lightning arrester protectsthe area within an angle of 30° under it.
Step 2 Ensure that the antenna is reliably fixed on the pole.
Step 3 Ensure that the antenna radome is not damaged.
Step 4 Ensure that there is no accumulated water in the antenna.
Step 5 Ensure that the fastening bolts are fastened. Ensure that the azimuth angle and the elevationangle of the antenna meet the design requirements
Step 6 In the case of separate mounting, ensure that the installation parts are installed firmly and thatthe connectors are fastened.
Step 7 Check and ensure that the interface of the feed boom is sealed and waterproofed properly.
----End
3.2.14 Checking the IF CableChecking the IF cable periodically helps you detect the faults in and hidden troubles of the IFcable in a timely manner.
PrerequisiteNone.
Tools, Equipment, and MaterialsNone.
Procedure
Step 1 Check the IF cable.l The IF cable must not be bent or twisted.
l There must be no bare copper wire.
l The bending radius of the IF cable must be larger than 30 cm.
l The IF cables are bound in accordance with IF Cable Routing and Binding Specificationsspecified in the Installation Reference. The feeder clip or binding strap is not loose.
Step 2 Check the connectors of the IF cable.
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l The connectors of the IF cable must be securely connected to the ODU.
l The connectors of the IF cable must be waterproof.
Step 3 Check the grounding of the IF cable.l The grounding clip must be waterproof.
l The grounding cable must be routed from top downwards. The angle between the groundingcable and the IF cable must not be more than 15 degrees.
----End
3.2.15 Checking the LOS ConditionPeriodically checking the LOS condition of the transmission link helps to detect hidden LOSobstacles on the transmission link.
PrerequisiteNone.
Tools, Equipment, and MaterialsTelescope.
Procedure
Step 1 Use the telescope to search for the antenna at the opposite end from a location nearby the localantenna. No buildings or mountains exist on the transmission link, which may block the LOS.
Step 2 Check whether the spanning tree in the transmission path blocks the LOS.
Step 3 Check whether any new buildings exist in the transmission path.
----End
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4 Emergency Maintenance
About This Chapter
Emergency maintenance operations are performed in the case of emergencies or natural factorsthat may result in emergencies during the operation of the equipment.
4.1 Definition of EmergencyIn the case of the microwave equipment, an emergency refers to the interruption of microwaveservices.
4.2 Purposes of Emergency MaintenanceEmergency maintenance operations are performed to restore the services quickly. This isdifferent from troubleshooting, whose purposes are to locate and rectify the faults.
4.3 Procedure of Emergency MaintenanceThe procedure of emergency maintenance consists of a main procedure and a sub-procedure forfield troubleshooting.
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4.1 Definition of EmergencyIn the case of the microwave equipment, an emergency refers to the interruption of microwaveservices.
4.2 Purposes of Emergency MaintenanceEmergency maintenance operations are performed to restore the services quickly. This isdifferent from troubleshooting, whose purposes are to locate and rectify the faults.
4.3 Procedure of Emergency MaintenanceThe procedure of emergency maintenance consists of a main procedure and a sub-procedure forfield troubleshooting.
NOTE
In the case of emergency events, the customers in China can contact the 24-hour technical support center ofHuawei at 400-830-2118, and the customers in areas outside China can contact the local Huawei offices.
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Main Procedure of Emergency Maintenance
Figure 4-1 Main procedure of emergency maintenance
Start
Is there any backuptransmission resource?
Yes Switch the service tothe backup resource
Is the Ethernetservice interrupted?
No
Is the power down?
No
Yes
Troubleshoot the Ethernet servicefault
No
Is the service configuredwith protection?
Contact the power supplyengineer
YesTroubleshoot the switching
failure
Is there any alarm onthe NE?
No
Clear the alarm
Is there an incorrectoperation?
Cancel the operation1
Yes
No
Yes
Is the interconnectionfaulty?
Troubleshoot theinterconnection fault
Yes
Yes
No
Is the service restored? Contact Huawei engineersNo
Proceed with the next step Is the servicerestored?
NoLocate the fault by performingloopback operations section by
section
End
Yes
Check the troubleshooting result
3
4
5
2
Yes
No
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Table 4-1 Description of the main procedure of emergency maintenance
CommentNo.
Description
1 The common incorrect operations are as follows:l Modifying the data configuration
l Performing loopback operations
l Shutting down the laser
l Muting the ODU
l Changing boards/cables
l Loading the software
2 Faults owing to external factors, including the power supply, optical fibers,environment, and terminal equipment (such as switch devices)
3 The procedure is as follows:1. Check the NE status.2. If the NE is unreachable to the NMS, perform the field troubleshooting
according to Figure 4-2. If alarms are reported on the NE, browse thecurrent alarms.
4 Generally, the following alarms can be cleared on the NMS:APS_MANUAL_STOP, APS_FAIL, BD_NOT_INSTALLED,DBMS_ERROR, HP_TIM, HP_UNEQ, J0_MM, LOOP_ALM,LPS_UNI_BI_M, LP_SIZE_ERR, LP_SLM, LP_TIM, LP_UNEQ,NESOFT_MM, NESF_LOST, RADIO_MUTE, WRG_BD_TYPE, andWRG_DEV_TYPE.
5 After the fault is rectified, proceed as follows:1. Check the alarms, and ensure that the system is running normally.2. Assign personnel to monitor the operation of the system during the peak
service hour, ensuring that subsequent faults can be handled in time.3. Fill in the field maintenance operation sheet, record the fault symptoms
and troubleshooting results, and then send them to Huawei. Table 4-2shows the field maintenance operation sheet.
Table 4-2 Field maintenance operation sheet
Maintained on Maintained by
Actual Step Step in the EntireProcedure
TroubleshootingResult
Remarks
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Field Troubleshooting Sub-Procedure
Figure 4-2 Field troubleshooting sub-procedure
Equipmentalarm?
3
No
4
YesClear the alarm
YesClear the alarm
No
5 YesClear the alarm
No
6 YesClear the alarm
No
End
Proceed to the nextstep
Is the servicerestored?
Yes
No
Start
Obvious equipmentdamage?
Yes Repair or replacethe equipment
No Troubleshoot thepower input
Browse alarmslocally by using the
LCT
2
1
No
Yes Clear the alarm
Locate the fault byperforming loopbackoperations section by
section
7
YesClear the alarm
8
Radio linkalarm?
No
Yes
Is the PWR indicatoron the PIU on?
High orderpath alarm?
Low orderpath alarm?
Faulty inter-connection with SDH/
PDH equipment?
Ethernetservice fault?
No
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Table 4-3 Description of the field troubleshooting sub-procedure
CommentNo.
Description
1 The troubleshooting procedure is as follows:1. Check whether the air circuit breaker for the input power is off. If the air
circuit breaker is automatically turned off, locate the cause (such as shortcircuits or insufficient fuse capacity), and rectify the fault accordingly.
2. Check the power cables, especially the connectors of the power cables. Ifthe power cables or connectors of the power cables are incorrect, replacethe power cables or remake the connectors of the power cables.
3. Check the voltage and polarization of the input power. If the voltage orpolarization of the input power does not meet the requirements, contact thepower engineers for troubleshooting.
NOTEThe fuse capacity can be no less than 20A. The standard voltage of the input power is-48 V and the permitted voltage ranges from -38.4 V to -57.6 V.
2 The troubleshooting procedure is as follows:1. Connecting the Web LCT to the IDU.2. Creating NEs by Using the Search Method.3. Logging In to an NE.4. Checking Alarms.NOTE
If you fail to log in to the created NE, ensure that the operations you performed arecorrect, and then locate and rectify the fault according to the indicators of the Systemcontrol Switch&Clock board. For details about the indicators, see the OptiX RTN 950Hardware Description.
3 Pay special attention to the following alarms:l HARD_BAD
l POWER_ALM
l FAN_FAIL
l BD_STATUS
l NESF_LOST
l TEMP_ALARM
l RADIO_RSL_HIGH
l RADIO_RSL_LOW
l RADIO_TSL_HIGH
l RADIO_TSL_LOW
l IF_INPWR_ABN
l IF_CABLE_OPEN
l VOLT_LOS
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CommentNo.
Description
4 Pay special attention to the following alarms:l MW_LIM
l MW_LOF
l R_LOS
l R_LOF
l R_LOC
l MS_AIS
l AU_AIS
l AU_LOP
l B1_EXC
l B2_EXC
l MW_BER_EXC
5 Pay special attention to the following alarms:l HP_LOM
l B3_EXC
l HP_UNEQ
6 Pay special attention to the following alarms:l TU_AIS
l TU_LOP
l BIP_EXC
l LP_UNEQ
l T_ALOS
l E1_LOC
7 See 5.6 Troubleshooting the Interconnection with SDH Equipment or 5.7Troubleshooting the Interconnection with PDH Equipment.
8 See 5.8 Troubleshooting Ethernet Service Faults.
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5 Troubleshooting
About This Chapter
This guide describes the general troubleshooting procedure and the methods of rectifying thecommon faults.
5.1 General Troubleshooting ProcedureWhen handling a fault, make a detailed record of the fault phenomena. The customers in Chinacan contact our 24-hour technical support center at 400-830-2118, and the customers in areasoutside China can contact the local Huawei offices.
5.2 Troubleshooting Service InterruptionsThe service interruption fault indicates the service transmission failure due to an equipment faultor a link fault.
5.3 Troubleshooting the Radio LinkWhen an NE reports MW_LOF or MW_FEC_UNCOR due to failure or performancedeterioration of a radio link, there is a radio link fault.
5.4 Troubleshooting Bit Errors in TDM ServicesWhen an NE reports an alarm or a performance event on the IF board, regenerator section (RS),multiplex section (MS), higher order path (HP), or lower order path (LP), there are bit errors inservices.
5.5 Troubleshooting Pointer JustificationsWhen an NE reports a large number of justification events about the administrative unit (AU)pointer or the tributary unit (TU) pointer, there are pointer justification faults.
5.6 Troubleshooting the Interconnection with SDH EquipmentAn interconnection fault occurs when the NE fails in transmitting SDH services with other SDHequipment.
5.7 Troubleshooting the Interconnection with PDH EquipmentAn interconnection fault occurs when the NE fails in transmitting PDH services with other PDHequipment.
5.8 Troubleshooting Ethernet Service FaultsAn Ethernet service fault may be the Ethernet service interruption or Ethernet servicedeterioration.
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5.9 Troubleshooting Orderwire FaultsIf orderwire calls cannot get through when services are normal, there is an orderwire fault.
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5.1 General Troubleshooting ProcedureWhen handling a fault, make a detailed record of the fault phenomena. The customers in Chinacan contact our 24-hour technical support center at 400-830-2118, and the customers in areasoutside China can contact the local Huawei offices.
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General Troubleshooting Procedure
Figure 5-1 General troubleshooting procedure
Start
Record the fault phenomena
Analyze fault causes and locatethe fault
Is the faultrectified?
Report to Huawei
Make a solution together
Attempt to rectify the fault
Is the service restored?
Observe the operation
Is the faultrectified?
Fill in the troubleshootingreport
End
Other troubleshootingprocedures
No
Yes
Yes
Yes
No
No
No
Caused by external factors?
Yes
4
3
2
1
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Table 5-1 General troubleshooting procedure
CommentNo.
Description
1 When recording the fault phenomena, make a true and detailed record of theentire process of the fault. Record the exact time when the fault occurs andthe operations performed before and after the fault occurs. Save the alarms,performance events, and other important information.
2 Faults owing to external factors, including the power supply, cables,environment, and terminal equipment (such as switch devices)
3 If the fault is caused by the equipment, see 5.2 Troubleshooting ServiceInterruptions.
4 The customers in China can contact the 24-hour technical support center at400-830-2118, and the customers in areas outside China can contact the localHuawei offices.
5.2 Troubleshooting Service InterruptionsThe service interruption fault indicates the service transmission failure due to an equipment faultor a link fault.
Fault Causesl The operation is improper.
The configuration data changes, the loopback is performed, the cable is replaced, or theboard is replaced.
l The transmission NE or link is faulty.
l The interconnection is improper.
If the transmission equipment functions normally and the connection is normal, checkwhether the interconnection between the transmission equipment is proper and whether theswitch equipment is faulty.
Fault Locating Methods1. Check the operations before the service interruption to determine whether the service
interruption results from an incorrect operation.
2. Query alarms on the centralized NMS or the NMS that is used on the site, and then locatethe fault based on the alarm analysis.
If multiple NEs report alarms, analyze the alarms in the following order: equipment alarm,line alarm, higher order path alarm, and lower order path alarm.
3. If the fault cannot be located through the alarm analysis method, locate the fault byperforming loopback section by section or replacing the corresponding parts.
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CAUTIONIf the fault cannot be rectified immediately, restore the services quickly by adjusting the serviceroute or performing a forced switching.
Troubleshooting Procedure
Figure 5-2 General procedure for troubleshooting the service interruption
Cancel the operation
Contact relateddepartments to solve
the problem
Proceed with thenext step Service restored?
Yes
No
Clear the alarm
Start
Incorrectoperation?
Service interruptedby external causes?
End
Query NE status and alarmsby using the centralized NMS
NE access successfuland alarms cleared?
Rectify the fault on site
Yes
Yes
No
No
No
Yes
4
3
2
1
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Table 5-2 Description of the general procedure for troubleshooting the service interruption
CommentNo.
Description
1 The common incorrect operations are as follows:l Modifying the data configuration
l Loopback
l Shutting down the laser
l Muting the ODU
l Changing the board or cable
l Loading the software
2 Faults owing to external factors, including the power supply, cables,environment, and terminal equipment (such as switch devices)
3 For details, see 8.3.1 Checking the NE Status and 8.3.3 Browsing CurrentAlarms.
4 Generally, the following alarms can be cleared on the NMS:APS_MANUAL_STOP, APS_FAIL, BD_NOT_INSTALLED,DBMS_ERROR, HP_TIM, HP_UNEQ, J0_MM, LOOP_ALM,LPS_UNI_BI_M, LP_SIZE_ERR, LP_SLM, LP_TIM, LP_UNEQ,NESOFT_MM, NESF_LOST, NESTATE_INSTALL, RADIO_MUTE,WRG_BD_TYPE, and WRG_DEV_TYPE.
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Figure 5-3 Field troubleshooting sub-procedure
Equipmentalarm?
3
No
4
YesClear the alarm
YesClear the alarm
No
5 YesClear the alarm
No
6 YesClear the alarm
No
End
Proceed to the nextstep
Is the servicerestored?
Yes
No
Start
Obvious equipmentdamage?
Yes Repair or replacethe equipment
No Troubleshoot thepower input
Browse alarmslocally by using the
LCT
2
1
No
Yes Clear the alarm
Locate the fault byperforming loopbackoperations section by
section
7
YesClear the alarm
8
Radio linkalarm?
No
Yes
Is the PWR indicatoron the PIU on?
High orderpath alarm?
Low orderpath alarm?
Faulty inter-connection with SDH/
PDH equipment?
Ethernetservice fault?
No
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Table 5-3 Description of the field troubleshooting sub-procedure
CommentNo.
Description
1 The troubleshooting procedure is as follows:1. Check whether the air circuit breaker for the input power is off. If the air
circuit breaker is automatically turned off, locate the cause (such as shortcircuits or insufficient fuse capacity), and rectify the fault accordingly.
2. Check the power cables, especially the connectors of the power cables. Ifthe power cables or connectors of the power cables are incorrect, replacethe power cables or remake the connectors of the power cables.
3. Check the voltage and polarization of the input power. If the voltage orpolarization of the input power does not meet the requirements, contact thepower engineers for troubleshooting.
NOTEThe fuse capacity can be no less than 20A. The standard voltage of the input power is-48 V and the permitted voltage ranges from -38.4 V to -57.6 V.
2 The troubleshooting procedure is as follows:1. Connecting the Web LCT to the IDU.2. Creating NEs by Using the Search Method.3. Logging In to an NE.4. Checking Alarms.NOTE
If you fail to log in to the created NE, ensure that the operations you performed arecorrect, and then locate and rectify the fault according to the indicators of the Systemcontrol Switch&Clock board. For details about the indicators, see the OptiX RTN 950Hardware Description.
3 Pay special attention to the following alarms:l HARD_BAD
l POWER_ALM
l FAN_FAIL
l BD_STATUS
l NESF_LOST
l TEMP_ALARM
l RADIO_RSL_HIGH
l RADIO_RSL_LOW
l RADIO_TSL_HIGH
l RADIO_TSL_LOW
l IF_INPWR_ABN
l IF_CABLE_OPEN
l VOLT_LOS
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CommentNo.
Description
4 Pay special attention to the following alarms:l MW_LIM
l MW_LOF
l R_LOS
l R_LOF
l R_LOC
l MS_AIS
l AU_AIS
l AU_LOP
l B1_EXC
l B2_EXC
l MW_BER_EXC
5 Pay special attention to the following alarms:l HP_LOM
l B3_EXC
l HP_UNEQ
6 Pay special attention to the following alarms:l TU_AIS
l TU_LOP
l BIP_EXC
l LP_UNEQ
l T_ALOS
l E1_LOC
7 See 5.6 Troubleshooting the Interconnection with SDH Equipment or 5.7Troubleshooting the Interconnection with PDH Equipment.
8 See 5.8 Troubleshooting Ethernet Service Faults.
Experience and SummaryThe maintenance personnel need to perform the routine maintenance operations periodically, todetect and rectify faults before the faults affect the services and thus to reduce the equipmentfault rate.
5.3 Troubleshooting the Radio LinkWhen an NE reports MW_LOF or MW_FEC_UNCOR due to failure or performancedeterioration of a radio link, there is a radio link fault.
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Context
The key to locating a radio link fault is to check whether the transmit power and the receivepower are normal and whether there is an external interference.
In the following two cases, the transmit power is abnormal. The first case is that the transmitpower exceeds the range that the ODU supports. The second case is that the difference betweenthe actual transmit power and the preset value is more than 2 dB when the ATPC is disabled.The relevant alarms and performance events are as follows:
l RADIO_TSL_HIGH
l RADIO_TSL_LOW
l TSL_CUR
l TSL_MAX
l TSL_MIN
l TSL_AVG
NOTE
For the range of the transmit power, see the OptiX RTN 950 Radio Transmission System ProductDescription.
In the following two cases, the receive power is abnormal. In the first case, the receive poweris lower than the normal value (Normal value = Planned value - 3 dB). In the second case, thereceive power is lower than the receiver sensitivity or higher than the free space receive powerdue to fading. The relevant alarms and performance events are as follows:
l RADIO_RSL_HIGH
l RADIO_RSL_LOW
l RSL_CUR
l RSL_MAX
l RSL_MIN
l RSL_AVG
NOTE
In the case of the radio link whose AM function is enabled, the receiver sensitivity is the specific receiversensitivity at the guaranteed capacity.
For details on the receiver sensitivity, see the OptiX RTN 950 Radio Transmission System ProductDescription.
Generally, external interference is classified into co-channel interference and adjacent channelinterference.
l Co-channel interference refers to crosstalk from two different radio transmitters that usethe same frequency channel. Hence, the entire spectrum may be affected.
l Adjacent channel interference refers to signal impairment to one frequency, due to presenceof another signal on a nearby frequency. Hence, a part of the spectrum is affected.
Interference is closely related to the frequency. Hence, the radio link may be faulty in onedirection if interference exists on the radio link.
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Fault Causes
Table 5-4 Causes of radio link faults
Fault Common Fault Cause
The transmit power is abnormal. The ODU is faulty.
The receive power is always lower than thenormal value.
l The antenna direction is not adjustedproperly.
l The antennas have different polarizationdirections.
l There is a mountain or building in thetransmit direction.
l The antenna is faulty or the connectionbetween the antenna and the ODU isabnormal (for example, the waveguideinterface of the ODU is wet or the flexiblewaveguide is not connected properly).
l The ODU is faulty.
The receive power is abnormal due to slow upfading.
There is external interference.
The receive power is abnormal due to slowdown fading.
The fading margin is insufficient.
The receive power is abnormal due to fastfading.
The multipath fading is fast.
The receive power is normal, but faults occuron the radio link intermittently.
There is external interference.
NOTE
Based on the RSL, fading is classified into up fading and down fading.
l Up fading
The RSL is higher than the RSL in the free space. The difference can be 10-odd decibels.
l Down fading
The RSL is lower than the RSL after free space fading. The difference can be tens of decibels.
Based on the fading time, fading is classified into fast fading and slow fading.
l Fast fading
The fading lasts from several milliseconds to tens of seconds.
l Slow fading
The fading lasts from tens of seconds to several hours.
Generally, slow down fading and fast fading are caused by factors related to the transmission link. Hence,the radio link may be faulty in both directions in the case of slow down fading or fast fading.
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Fault Locating Methods1. Check whether the ODU is muted, powered off, or looped back. Check whether the data
configuration is correct.2. Check whether the ODU and the IF board are faulty.3. If the transmit power is abnormal, replace the ODU.4. If the receive power is abnormal, analyze and locate the causes according to the fading
type.5. If the receive power is normal but faults occur on the radio link intermittently, check
whether there is interference before you proceed.6. If the transmit power and receive power are normal, perform loopback operations.
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Troubleshooting Procedure
Figure 5-4 Procedure for troubleshooting the radio link
Start
ODU or IF relatedalarm?
Yes
Clear the alarm
No
Proceed tothe next step
Is the faultrectified?
End
Yes
No
Transmit powernormal?
Yes
No
2
Rectify the fault
Perform loopbackoperations
9
No
Rectify the fault
YesRectify the fault
Slow up fadingcauses abnormal
RSL?
No
Rectify the fault
3
Cancel theoperation
1
4
5
6
Yes
No
Yes
No
Rectify the fault
8Yes
Yes
No
No
Rectify the fault
7Yes
Incorrect operation?
RSL always lowerthan the normal
value?
Slow down fadingcauses abnormal
RSL?
Fast fadingcauses abnormal
RSL?
Radio linkfaulty in onedirection?
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Table 5-5 Description of the procedure for troubleshooting the radio link
Comment No. Description
1 Rectifyincorrectoperations.
Check the following points:l Check whether the ODU is powered off.
l Check whether the ODU is muted.
l Check whether the IF board is looped back.
l Check whether the data configuration at the transmit end is the sameas the data configuration at the receive end.
l Check whether the data configuration matches the types of the ODUand the hybrid coupler.
2 Rectifyequipment faults.
Pay special attention to the following alarms:l VOLT_LOS
l CONFIG_NOSUPPORT
l HARD_BAD
l TEMP_ALARM
l IF_INPWR_ABN
l RADIO_MUTE
l RADIO_TSL_HIGH
l RADIO_TSL_LOW
l RADIO_RSL_HIGH
l RADIO_RSL_LOW
l IF_CABLE_OPEN
3 Troubleshootthe anomaly ofthe transmitpower.
Replace the ODU.
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Comment No. Description
4 Troubleshootthe anomaly thatthe receive poweris lower than thenormal value.
The troubleshooting procedure is as follows:1. If the receive power decreases sharply and does not recover, check the
installation of the antenna. Ensure that the azimuth angle of the antennameets the requirement.Check whether the antenna is aligned properly. Check whether thereceived signal is from the main lobe.If the antenna direction is not aligned properly, adjust the antenna in awide range.
2. If the difference between the receive power of the main ODU andstandby ODU at one end of the 1+1 HSB radio link is beyond the rangefrom 0 dB to 9 dB (in the case of an unbalanced hybrid coupler) orbeyond the range from 0 dB to 5 dB (in the case of a balanced hybridcoupler), perform 1+1 HSB switching or replace the ODUs and hybridcoupler to narrow down the fault to a specific part.
3. If the difference between the RSL at the receive end and transmit endis larger than 10 dB, replace the ODUs to check whether the main orstandby ODU is faulty.
4. Check whether the setting of the polarization direction of the antennais correct. Rectify the wrong polarization direction.
5. Replace the ODUs and hybrid coupler to narrow down the fault to aspecific part.
6. Check whether there is a mountain or building in the transmit direction.7. Check whether the gains of the antennas at the receive and transmit
ends comply with the specifications. Replace the antenna whose gaindoes not comply with the specifications.
5 Troubleshootslow up fading.
The troubleshooting procedure is as follows:1. Check whether there is co-channel interference.
1. Mute the ODU at the opposite end.2. Check the RSL at the local end. If the RSL exceeds -90 dBm, it
indicates that there is co-channel interference that may affect thelong-term availability and performance of the system.
2. Use a spectrum analyzer to analyze the interference source.3. Contact the spectrum management department to clear the interference
spectrum or change plans to reduce the interference.
6 Troubleshootslow downfading.
Contact the network planning department to make the following changes:l Increase the installation height of the antenna.
l Reduce the transmission distance.
l Increase the antenna gain.
l Increase the transmit power.
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Comment No. Description
7 Troubleshootfast fading.
Contact the network planning department to make the following changes:l Adjust the position of the antenna to block the reflected wave or make
the reflection point fall on the ground that has a small reflectioncoefficient, thus reducing the multipath fading.
l Adjust the RF configuration to change the radio link to the 1+1 SDmode.
l In the case of a 1+1 SD radio link, adjust the height difference betweentwo antennas to ensure that the receive power of one antenna is higherthan the receive power of the other antenna.
l Increase the fading margin, by replacing the original antennas withantennas of a larger diameter or increasing the transmit power of theoriginal antennas.
8 Troubleshootinterference.
The troubleshooting procedure is as follows:1. Check whether there is co-channel interference.
1. Mute the ODU at the opposite end.2. Check the RSL at the local end. If the RSL exceeds -90 dBm, it
indicates that there is co-channel interference that may affect thelong-term availability and performance of the system.
2. Check whether there is adjacent channel interference.1. Mute the ODU at the opposite end.2. Adjust the microwave working mode at the local end and use the
minimum channel spacing.3. Decrease the receive frequency at the local end by a half of the
channel spacing.4. Test and record the RSL.5. Increase the receive frequency at the local end, with a step of 0.5
MHz or 1 MHz. Record the RSL accordingly until the receivefrequency is equal to the original receive frequency plus a half ofthe channel spacing.
6. Compare the recorded RSL values, and check whether the RSL ina certain spectrum is abnormal if the received frequency is withinthe permitted range.
3. Use a spectrum analyzer to analyze the interference source.4. Contact the spectrum management department to clear the interference
spectrum or change plans to reduce the interference.
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Comment No. Description
9 Performloopbackoperations tolocate the fault.
The troubleshooting procedure is as follows:1. Perform an inloop at the IF port.
If the fault persists after the inloop is performed, replace the IFboard.
2. Check whether the cable connector is made in accordance withspecifications. If any cable connectors do not comply with thespecifications, see the Installation Reference and remake cableconnectors.
3. Check whether the IF cable is soggy, broken, or pressed. If yes, replacethe IF cable.
4. Replace the ODU.If the fault is rectified after the ODU is replaced, it indicates that theODU is faulty.
Experience and Summaryl During the commissioning, ensure that the antenna is aligned properly, to prevent possible
incipient faults.l Periodically collect and analyze the data about the changes in the transmit power and receive
power so that you can detect and then rectify the incipient faults accordingly in time.
5.4 Troubleshooting Bit Errors in TDM ServicesWhen an NE reports an alarm or a performance event on the IF board, regenerator section (RS),multiplex section (MS), higher order path (HP), or lower order path (LP), there are bit errors inservices.
Fault PhenomenaThe IF bit errors refer to the bit errors that the Hybrid IF board detects through the self-definedoverhead byte in the microwave frame. The related alarms and performance events are asfollows:
l MW_BER_EXC
l MW_BER_SD
l IFBBE
l IFES
l IFSES
l IFCSES
l IFUAS
The RS bit errors refer to the bit errors that the line processing unit or the IF board that worksin SDH mode through the B1 overhead byte in the RS overhead. The related alarms andperformance events are as follows:
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l B1_EXC
l B1_SD
l RS_CROSSTR
l RSBBE
l RSES
l RSSES
l RSCSES
l RSUAS
NOTE
The IF board that works in PDH mode may also detect the previous RS bit error alarms and performanceevents. In this case, the IF board detects bit error alarms and performance events in the PDH microwaveframe through the self-defined B1 byte.
The MS bit errors refer to the bit errors that the line board detects through the B2 byte in the MSoverhead. The related alarms and performance events are as follows:
l B2_EXC
l B2_SD
l MS_CROSSTR
l MSBBE
l MSES
l MSSES
l MSCSES
l MSUAS
The HP bit errors refer to the bit errors that the line processing unit or the IF board that worksin SDH mode through the B3 byte in the HP overhead. The related alarms and performanceevents are as follows:
l B3_EXC
l B3_SD
l HP_CROSSTR
l HPBBE
l HPES
l HPSES
l HPCSES
l HPUAS
The LP bit errors refer to the bit errors that the tributary board or Hybrid IF board detects throughthe V5 byte in the VC-12 overhead. The related alarms and performance events are as follows:
l BIP_EXC
l BIP_SD
l LP_CROSSTR
l LPBBE
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l LPES
l LPSES
l LPCSES
l LPUAS
Fault Causes
Table 5-6 Causes of bit errors
Fault Common Fault Cause
There are IF bit errors. l The radio link is faulty.Check whether the MW_FEC_UNCORor RPS_INDI alarm is reported. If yes, theradio link is faulty.
l The IF board at the local end or oppositeend is faulty.
There are RS bit errors. l The line is faulty.– The common causes for bit errors on the
optical line are as follows: the opticalfiber line, the optical power is abnormal,the fiber performance deteriorates, orthe fiber connector is not clean.
– In the case of bit errors on the radio link,check whether theMW_FEC_UNCOR or RPS_INDIalarm is reported. If yes, the radio linkis faulty.
l The line processing unit or IF board isfaulty.
l The clock unit is faulty.
l The quality of the clock over the networkdeclines.When the quality of the clock over thenetwork declines, a pointer justificationevent occurs.
There are not any RS bit errors but there areMS bit errors or HP bit errors.
l The line processing unit or IF board isfaulty.
l The quality of the clock over the networkdeclines.When the quality of the clock over thenetwork declines, a pointer justificationevent occurs.
l The working temperature of the lineprocessing unit or IF board is excessivelyhigh.
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Fault Common Fault Cause
There are only LP bit errors. l The tributary board is faulty.
l The cross-connect unit is faulty.
l The working temperature of the board isexcessively high.
l The working temperature of the cross-connect unit is excessively high.
l There is a power surge or an externalinterference source, or the equipment is notproperly grounded. (This cause does notneed to be considered during thetroubleshooting of a Hybrid IF board.)
Fault Locating Methods1. Analyze the equipment alarms and performance events that are related to bit errors.2. When there are many types of alarms and performance events on a service path, first analyze
RS bit errors, then MS bit errors, HP bit errors, and finally LP bit errors.3. When multiple paths have bit errors, first check whether the overlapping part of the service
paths is faulty.4. If you fail to locate the fault by analyzing the alarms and performance events, perform
loopback operations section by section.5. Replace the parts whose performance may deteriorate with new ones.
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Troubleshooting Procedure
Figure 5-5 Procedure for troubleshooting bit errors
Start
Is there anequipment alarm?
No
Yes Clear the alarm
Is there an RS bit error alarm or a
performanceevent?
Yes
Troubleshoot RS bit errorson the IF board
No
Is there anMS/ HP alarm or
performanceevent?
Yes Troubleshoot MS/HP biterrors
No
Is there an LPalarm?
Yes Troubleshoot LP biterrors
Locate the fault by performingloopback operations section
by section
No
Proceed with the next stepIs the faultrectified?
End
Yes
No
Is there a pointerjustification event?
Yes Troubleshoot the pointerjustification
No
If thealarmingboard is
Troubleshoot RS bit errorson the SDH optical interface
board
IF board
SDH opticalinterface board
2
3
4
5
6
1
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Table 5-7 Description of the procedure for troubleshooting bit errors
CommentNo.
Description
1 Pay special attention to the following alarms:l TEMP_ALARM
l HARD_BAD
2 See 5.5 Troubleshooting Pointer Justifications.
3 The troubleshooting procedure is as follows:1. Check whether the line board reports the B1_EXC, B1_SD, or
RS_CROSSTR alarm.2. Interchange the Tx fiber core and the Rx fiber core at both ends of the
service path. If bit errors change after the exchange, it indicates that thefiber is faulty. Otherwise, the equipment at both ends of the service path isfaulty.
3. In the case of a fiber fault, check whether the fiber between the equipmentand the ODF and the section of the fiber that is led out of thetelecommunications room are pressed. In addition, check whether the fiberconnectors are clean.
4. In the case of faults at both ends of the service path, use a fiber jumper toloop back the optical ports. If the fault persists after the loopback, the lineboard may be faulty.
5. In the case of faults at both ends of the service path, you can also replacethe board where the line unit is located or interchange between the boardand another board of the same type that is working normally. If the alarmchanges after the exchange, it indicates that the board is faulty.
4 The troubleshooting procedure is as follows:1. Check whether the IF board reports the MW_FEC_UNCOR,
RPS_INDI, B1_EXC, B1_SD, or RS_CROSSTR alarm.2. If the MW_FEC_UNCOR and RPS_INDI alarms are reported, see 5.3
Troubleshooting the Radio Link and rectify the fault.3. If none of the alarms occurs, replace the IF board.
5 The troubleshooting procedure is as follows:1. Perform a loopback on the line board that reports the alarm.
If the fault persists after the loopback, replace the line board.If the fault is rectified after the loopback, replace the line board at thetransmit end.
2. If you fail to rectify the fault by replacing the line board, check whetherthere is a power surge or an external interference source or whether theequipment is not properly grounded.
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CommentNo.
Description
6 The troubleshooting procedure is as follows:1. Replace the board where the services are configured based on how the
service paths that have bit errors overlap each other.2. If you fail to rectify the fault by replacing the board, check whether there
is a power surge or an external interference source or whether theequipment is not properly grounded.
Experience and Summaryl During the routine maintenance, check bit error performance events periodically and handle
them in time.
l To locate a fault, prefer the method of analyzing alarms and performance events to themethod of performing loopback operations and the method of replacing the parts.
5.5 Troubleshooting Pointer JustificationsWhen an NE reports a large number of justification events about the administrative unit (AU)pointer or the tributary unit (TU) pointer, there are pointer justification faults.
Fault Phenomena
When the position of the first byte of the VC-4 in the AU-4 payload changes, the AU pointermakes a justification accordingly. The performance events related to the AU pointer justificationare as follows:
l AUPJCHIGH
l AUPJCLOW
l AUPJCNEW
NOTE
The AU pointer justification is made at an upstream NE but is detected and reported at a downstream NE.
When the service is configured to be at the VC-12 level, apply the reframing process to terminatethe AU pointer justification. The terminating method is to transform the AU pointer justificationinto the TU pointer justification. The performance events related to the TU pointer justificationare as follows:
l TUPJCHIGH
l TUPJCLOW
l TUPJCNEW
NOTE
The TU pointer justification is made at the NE where the AU pointer is transformed into the TU pointer,but is detected and reported by the tributary board of the NE where services are terminated.
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Fault Causesl The clock sources or the clock source levels are configured incorrectly. As a result, there
are two clock sources on the same network or a timing loop occurs.l The fiber connections are incorrect. As a result, a timing loop occurs.
l The quality of the clock source declines, the clock unit is faulty, or there are other clock-related faults.
l The tributary board is faulty (only for the TU pointer justification).
Fault Locating MethodsWhen there are both AU pointer justifications and TU pointer justifications on a service path,first handle the AU pointer justifications and then the TU pointer justifications.
Fault Fault Locating Method
AU pointer justification 1. Analyze and clear clock alarms.2. Rectify the incorrect data configuration
and incorrect fiber connections.3. Change the clock configuration to locate
the station whose clock is asynchronouswith the entire network.
4. Replace the parts whose performance maydeteriorate with new ones.
TU pointer justification 1. Analyze and clear clock alarms.2. Rectify the incorrect data configuration
and incorrect fiber connections.3. Change the clock and service
configuration to locate the station whoseclock is asynchronous with the entirenetwork.
4. Replace the parts whose performance maydeteriorate with new ones.
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Troubleshooting Procedure
Figure 5-6 Procedure for troubleshooting pointer justifications
Start
Is there a clock-relatedalarm?
No
YesClear the alarm
Incorrect fiberconnection?
YesReconnect the fibers
No
An AU pointerjustification event?
Yes
No
A TU pointerjustification event?
Yes
Proceed with thenext step Is the fault rectified?
End
Yes
No
Incorrectconfiguration?
Modify the dataconfiguration
No
Check the clockconfiguration
Yes
Check the fiberconnection
Locate the faulty boardLocate the NE whose clockis out of synchronization
Locate the faulty boardLocate the NE whose clockis out of synchronization
No
1
2
3
4
6
5
7
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Table 5-8 Description of the procedure for troubleshooting pointer justifications
CommentNo.
Description
1 Pay special attention to the following alarms:l TEMP_ALARM
l HARD_BAD
l LTI
l SYNC_C_LOS
l S1_SYN_CHANGE
l EXT_SYNC_LOS
2 Check the following points:l Check whether there are two clock reference sources on the entire network.
l Check whether a timing loop is generated.
3 Query ECC routes to check whether the fibers are connected correctly. Checkthe fiber connections in the east and west directions of the NE that reports thepointer justification event.
4 The troubleshooting procedure is as follows:1. Locate a VC-4 channel that reports an AU pointer justification event.2. Along the service source direction of the VC-4 channel, locate the source
NE of the entire VC-4 service (not the source NE of a timeslot in the VC-4).3. Set the clock of the source NE to the free-run mode. Set the other NEs to
trace the clock of the source NE along the direction of the VC-4 service.4. Along the clock tracing direction, locate the line board that is the first to
report the AU pointer justification of the VC-4 path.The clock of the remote NE to which the line board is connected isasynchronous with the reference clock. Hence, the line board on the remoteNE that receives the clock signal, the line board that sends the clock signalto the remote NE, and the clock unit of the remote NE, may be faulty.
5. Set the clock of the sink NE to the free-run mode. Set the other NEs to tracethe clock of the sink NE along the direction of the VC-4 service.
6. Along the clock tracing direction, locate the line board that is the first toreport the AU pointer justification of the VC-4 path.The clock of the remote NE to which the line board is connected isasynchronous with the reference clock. Hence, the line board on the NEthat receives the clock signal, the line board that sends the clock signal tothe NE, and the clock unit of the NE, may be faulty.
7. Compare the results and find out the common points.
5 Replace the possibly faulty boards.
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CommentNo.
Description
6 The troubleshooting procedure is as follows:1. Modify the service configuration to ensure that the NE where the clock
reference source functions as the central NE and that the other NEs havethe E1 services of the central NE.
2. Along the clock tracing direction, locate the NE that is the first to reportthe TU pointer justification event.The clock of the NE is asynchronous with the reference clock. Hence, theline board on the NE that receives the clock signal, the line board that sendsthe clock signal to the NE, and the clock unit of the NE, may be faulty.
3. Modify the configuration data to ensure that all the NEs trace the clockalong the other direction.
4. Along the clock tracing direction, locate the NE that is the first to reportthe TU pointer justification event.The clock of the NE is asynchronous with the reference clock. Hence, theline board on the NE that receives the clock signal, the line board that sendsthe clock signal to the NE, and the clock unit of the NE, may be faulty.
5. Compare the results and find out the common points.NOTE
This method is also applicable to locating an AU pointer justification event.
7 Replace the possibly faulty boards. In the case of a TU pointer justificationevent, check whether the line board, the clock board, and the tributary boardare faulty.
Experience and Summary
On a properly synchronized network, there are few pointer justifications (less than six per dayon each port). Hence, monitoring the pointer of an SDH transmission system is an effective wayto check the synchronization status of the system.
5.6 Troubleshooting the Interconnection with SDHEquipment
An interconnection fault occurs when the NE fails in transmitting SDH services with other SDHequipment.
Fault Causesl The VC-12 numbering method of the OptiX equipment is different from the numbering
method of the equipment of certain vendors.
The OptiX equipment applies the timeslot numbering method. The numbering formula is:VC-12 number = TUG-3 number + (TUG-2 number - 1) x 3 + (TU-12 number - 1) x 21.This method is also called as the method of numbering by order.
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Certain equipment applies the line numbering method. The numbering formula is: VC-12number = (TUG-3 number - 1) x 21 + (TUG-2 number - 1) x 3 + TU-12 number. Thismethod is also called as the interleaved method.
l The overhead bytes at both ends are inconsistent.
l The indexes of the SDH interfaces do not meet the requirements.
NOTE
In the case of interconnection with ATM or Ethernet equipment, the common cause for an interconnectionfailure is that the service is not set to the VC-4 pass-through service and thus the overheads are processedin the terminating mode instead of the pass-through mode.
Fault Locating MethodsAnalyze the fault phenomena and alarms that are generated on the equipment. Check the possiblefault causes one after another.
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Troubleshooting Procedure
Figure 5-7 Procedure for troubleshooting the interconnection with SDH equipment
Start
Interconnected with ATM/IP equipment?
No
Yes Set the interconnectedservice to be the VC-4 pass-
through service
An alarm related to theoverhead settings?
YesClear the alarm
No
Proceed with the next step Is the fault rectified?
End
Yes
No
Line numbering?Modify the data configuration.and use the line numbering
method to set the VC-12
No
Query the VC-12 numberingmethod of the interconnected
equipment
Yes
Test the indexes of interfaces
Do the interfaces meetrelevant standards?
Handle the faults of the localequipment
Troubleshoot the faults on theinterconnected equipment
No
Yes
2
1
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Table 5-9 Description of the procedure for troubleshooting the interconnection with SDHequipment
CommentNo.
Description
1 Pay special attention to the following alarms:l J0_MM
l HP_TIM
l LP_TIM
l HP_SLM
l LP_SLM
2 Common indexes of the optical interfaces are as follows:l Mean launched optical power
l Receiver sensitivity
l Overload optical power
l Permitted frequency deviation of the input interface
Experience and SummaryTo rectify an interconnection fault, you must be familiar with the characteristics of the interfaceson the interconnected equipment.
5.7 Troubleshooting the Interconnection with PDHEquipment
An interconnection fault occurs when the NE fails in transmitting PDH services with other PDHequipment.
Fault Causesl There is an impedance mismatch between interfaces.
l The equipment is not grounded properly.
l The cable performance deteriorates.
l The indexes of the PDH interfaces do not meet the requirements.
Fault Locating MethodsAnalyze the fault phenomena and alarms that are generated on the equipment. Check the possiblefault causes one after another.
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Troubleshooting Procedure
Figure 5-8 Procedure for troubleshooting the interconnection with PDH equipment
Start
Is there animpedance mismatch?
Yes Replace the cable or thetributary board
Check the cables
Is in good conditions?No
Yes
Proceed with the next step Is the fault rectified?
End
Yes
No
Is the cable acoaxial cable?
No
Check the impedance ofthe interfaces
Yes
Adjust the cables
Test the indexes ofinterfaces
Do the interfacesmeet standards?
Troubleshoot the faultson the local equipment
Troubleshoot the faults onthe interconnected
equipment
Yes
No
Check the grounding
No
1
2
3
4
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Table 5-10 Description of the procedure for troubleshooting the interconnection with PDHequipment
CommentNo.
Description
1 Check the impedance of the E1 path. Ensure that the impedance of the E1path is consistent with the cable type.
2 Check the following points:l Check whether all the equipment and the DDF in the telecommunications
room are jointly grounded.l Check whether the shielding layers of the coaxial cable connectors on the
DDF are connected to the protection ground.l Check whether the shielding layers of coaxial cables are grounded in the
same manner.NOTE
Disconnect all the signal cables between the interconnecting equipment sets. Use amultimeter to measure the level between the shielding layers of the coaxial cables at thereceive and transmit ends of the PDH equipment and the level between the shieldinglayers of the coaxial cables at the receive and transmit ends of the equipment at theopposite end. If the potential difference is large (about 0.5 V), the fault may be causeddue to the improper grounding.
3 Check the following points:l Check whether the wires of the cable are correctly connected.
l Check whether the cable is broken or pressed.
l Check whether the cable signal is interfered (for example, when the trunkcable is bound with the power cable, the cable signal is interfered by thepower signal).NOTE
Checking the cables involves checking the cables from the DDF to the client sideand checking the cables from the DDF to the transmission equipment side.
4 Check the following indexes:l Input jitter tolerance
l Permitted frequency deviation of the input interface
l Output jitter
l Output frequency deviation
Experience and SummaryIn the case of interconnection with PDH equipment, improper grounding is the most commoncause for an interconnection failure.
5.8 Troubleshooting Ethernet Service FaultsAn Ethernet service fault may be the Ethernet service interruption or Ethernet servicedeterioration.
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Prerequisite
The Ethernet service interruption indicates that the Ethernet service is completely interrupted.The Ethernet service deterioration indicates that the Ethernet service is abnormal. For example,the network access speed is low, the equipment delay is long, the packet loss occurs, or incorrectpackets exist in the received or transmitted data.
Fault Phenomena
The Ethernet service interruption indicates that the Ethernet service is completely interrupted.The Ethernet service deterioration indicates that the Ethernet service is abnormal. For example,the network access speed is low, the equipment delay is long, the packet loss occurs, or incorrectpackets exist in the received or transmitted data.
Table 5-11 Common faults of Ethernet services
Symptom Alarm Board
Ethernet services areinterrupted.
HARD_BAD,TEMP_ALARM,MWRG_BD_TYPE, orBD_STATUS
EM6F or EM6T
COMMUN_FAIL,LAG_DOWN
EM6F or EM6T
ETH_LOS,ETH_EFM_LOOPBACK,or LOOP_ALM
EM6F or EM6T
LASER_MOD_ERR EM6F
Ethernet services aredegraded.
HARD_BAD orTEMP_ALARM
EM6F or EM6T
FLOW_OVER orLAG_MEMBER_DOWN
EM6F or EM6T
AM_DOWNSHIFT IFU2 or IFX2
Fault Causesl The possible human factors are as follows:
– An Ethernet board loopback or a transmission line loopback occurs.
– The parameter settings of the Ethernet ports, such as the port enabled state, workingmode, and flow control, are different from the parameter settings of the Ethernet portson the interconnected equipment.
– The service configuration is incorrect.
l The equipment at the local end is faulty.
l The line board is faulty or has bit errors.
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l When the AM function is enabled, the Ethernet service bandwidth decreases due to thedownward AM switch.
l The interconnected equipment is faulty.
l The network cable is faulty.
l The external electromagnetic interference is severe.
Fault Locating Methods1. Rectify the human-caused faults such as a loopback and a data configuration error.2. Locate the fault cause according to the equipment alarms.3. Locate the fault cause according to the RMON performance events and alarms.
Troubleshooting Procedure
Figure 5-9 Procedure for troubleshooting Ethernet service faults
Any bnormal RMONperformance events?
Clear the alarm
5
No
YesAn equipment alarm oralarm on the radio link?
An Ethernet alarm?Yes Query the port and service traffic
and analyze the fault causes
No
Fault on theopposite equipment?
Yes Troubleshoot the fault according tothe flow of handling RMON
performance events
Yes Troubleshoot faults on theopposite equipment
No
3
2
Troubleshoot equipmentfaults by performing
loopbacks section bysection or replacing boards
Proceedwith thenext step
Is the faultrectified?
End
Yes
No
A loop formed by theE-LAN service trails?
No
No
YesRelease the loop
Start
Incorrect operation?1
Cancel this operation
No
Yes
Clear the alarm
4
5
4
3
2
1
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Table 5-12 Description of the procedure for troubleshooting Ethernet service faults
CommentNo.
Description
1 Check the following points:l Whether a loopback is set for the Ethernet port
l Whether a loopback is set for the transmission line
l Whether the parameter settings of the Ethernet port, such as the portenabled state, working mode, and flow control, are the same as theparameter settings of the Ethernet port on the interconnected equipment
l Check whether the Ethernet protocol and the Ethernet service configuration(especially the attributes of the Ethernet port) are correct.
2 Pay special attention to the following equipment alarms:l POWER_ALM
l FAN_FAIL
l HARD_BAD
l BD_STATUS
l NESF_LOST
l TEMP_ALARM
l RADIO_RSL_HIGH
l RADIO_RSL_LOW
l RADIO_TSL_HIGH
l RADIO_TSL_LOW
l IF_INPWR_ABN
l AM_DOWNSHIFT
Pay special attention to the following line alarms:l MW_LIM
l MW_LOF
l MW_BER_EXC
l MW_BER_SD
l MW_RDI
l MW_FEC_UNCOR
3 Pay special attention to the following alarms:l ETH_LOS
l LAG_DOWN
l LAG_MEMBER_DOWN
l FLOW_OVER
4 Querying the AM Status, and check whether sufficient service bandwidth isavailable in the current microwave working mode. If not, replan the servicedata of the site.
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CommentNo.
Description
5 If the ETH_EFM_LOOPBACK alarm is reported after the configuring theAdvanced Attributes of Ethernet Interfaces operation is performed, itindicates that the network to which Ethernet ports are connected has loops.
6 For RMON performance events, see the Feature Description.
Figure 5-10 Procedure for troubleshooting an RMON performance event
Is it a MTU settingproblem?
Yes Modify the MTUvalue
No
Proceed withthe next step
Is the faultrectified?
End
Yes
No
No
Is the test passed?
No
Yes
Use a meter to perform the test
Rectify the fault of theinterconnected equipment
Rectify the equipment fault byloopback section by section or
replacing the board
5
Are broadcast packetsexcessive?
No
Yes Handle the problem onexcessive broadcast
packets
4
Start
Rectify the fault of line biterrors
No
YesIs there any FCS error?
Is there any collisionor fragment?
Yes Check the working modeof the port
2
3
View the statistics groupperformance on an Ethernet port
1
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Table 5-13 Description of the procedure for troubleshooting an RMON performance event
CommentNo.
Description
1 View the statistics group performance on an Ethernet port to obtain the real-time performance statistics data of the Ethernet port.
2 The troubleshooting procedure is as follows:l Check the Ethernet cable. If the Ethernet cable is not qualified, replace it
with a new one.l Change the Ethernet port that accesses the services on the Ethernet board.
If the new port does not have the RMON performance of an FCS error, itindicates that the hardware of the original port is faulty. Otherwise, thehardware of the Ethernet port on the equipment at the opposite end is faulty.
3 Check the following points:l Whether the port operating rates on the equipment at both ends are the same
l Whether the working modes (full duplex or half duplex) of the Ethernetport on the equipment at both ends are the same
l Whether the Ethernet port is set to auto-negotiation mode at one end andthe Ethernet port is set to full duplex mode at the opposite end (When theEthernet port is set to auto-negotiation mode at one end, the Ethernet portmust not be set to full duplex mode at the opposite end.)
4 Check for the cause for excessive broadcast packets (for example, you haveset the loopback for the Ethernet interface board or set the VB filteringtable incorrectly) and solve the problem. If the problem is caused on theequipment at the opposite end, set the threshold of broadcast packetsuppression for an Ethernet port to reduce broadcast packets.
5 Test the MTU of the network by using a test meter. The maximum framelength that is set for a port should be longer than the MTU of the network.
Experience and Summary
To troubleshoot an Ethernet service fault, you must be familiar with the characteristics, workingmode, and configured protocols of interfaces on the Ethernet equipment.
5.9 Troubleshooting Orderwire FaultsIf orderwire calls cannot get through when services are normal, there is an orderwire fault.
Fault Causesl The phone set is set incorrectly.
l The phone line is connected incorrectly.
l The orderwire is configured incorrectly.
l The orderwire unit is faulty.
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l The system control unit is faulty.
l The line unit or radio link is faulty.
Fault Locating Methodsl Check whether the phone set is set correctly, whether the phone line is connected correctly,
and whether the orderwire is configured correctly.l Replace the possibly faulty board to locate the fault.
Troubleshooting Procedure
Figure 5-11 Procedure for troubleshooting orderwire faults
Start
Is the phonecorrectly set?
NoModify the phone setting
Check the orderwireconfiguration
Is the configurationcorrect?
No
Yes
Proceed with the next step Is the fault rectified?
End
Yes
No
Is the phone linecorrectly connected?
Yes
Check the phone setting
No
Modify the configuration
Replace the possibly faultyboard
Reconnect the phone line
Yes
3
2
1
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Table 5-14 Description of the procedure for troubleshooting orderwire faults
CommentNo.
Description
1 Check the following points:l Check whether the ring current switch "RING" on the phone set is set to
"ON".l Check whether the dialing mode switch is set to "T", namely, the dual tone
multi-frequency mode.l An orderwire phone set should be in on-hook state when it is not in
communication, and the upper-right red indicator in the front view of theorderwire phone set should be off.If the red indicator is on, it indicates that the phone set is in off-hook state.Press the "TALK" button in the front of phone set to hook it up. In certainoccasions, the maintenance personnel press the "TALK" button is pressedby mistake. As a result, the phone set stay in off-hook state all the time andthe orderwire call from the other NEs cannot get through.
2 Check the following points:l Whether all orderwire phone numbers on a subnet are of the same length
l Whether all orderwire phone numbers on a subnet are unique
l Whether the overhead bytes of all the NEs on a subnet are the same
l Whether the orderwire port is set correctly
3 Replace the boards where the orderwire unit, system control unit, andline unit are located to locate the fault.
Experience and SummaryTo troubleshoot orderwire faults, you must check the orderwire phone periodically.
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6 Part Replacement
About This Chapter
Part replacement is a method frequently used to locate faults. The replacement operation variesaccording to the specific part type.
Background Information
Table 6-1 Part replacement description
Part Name Operation Tool
SL1D 6.3 Replacing the SDH OpticalInterface Board
l ESD wrist strapl Screwdriverl U2000SP3D and SP3S 6.4 Replacing the PDH Interface
Board
EM6T andEM6F
6.5 Replacing the EthernetInterface Board
IF1, IFU2, andIFX2
6.6 Replacing the IF Board
CF card 6.7 Replacing the CF Card
CST and CSH 6.8 Replacing the System Control,Switch&Clock Board
AUX 6.9 Replacing the AuxiliaryBoard
FAN 6.10 Replacing the Fan Tray
PIU 6.11 Replacing the Power Board
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Part Name Operation Tool
ODU 6.13 Replacing the ODU l Ejector lever (torque wrench)
l U2000
l Silicon
l Waterproof adhesive tape
Replacing theIF cable
6.14 Replacing the IF Cable l Ejector lever
l Electro-technical knife
l File
l Installation parts and accessoriesof the connector
l IF cable
l Waterproof adhesive tape
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6.1 Removing a BoardRemoving a board is a basic operation for replacing a board.
ProcedureStep 1 Insert one end of the ESD wrist strap into the ESD connector on the cabinet. Wear the ESD wrist
strap.
Step 2 Optional: If cables are connected to the board, make labels for the cables and then remove thecables.
Step 3 Remove the board.l Remove the fan tray assembly.
1
2
l Remove the other boards.
1. Loosen the screws on the panel of the board.
Figure 6-1 Removing a board (1)
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2. Hold the left and right ejector levers with hands. Push them outwards to disengage the
board from the backplane.
Figure 6-2 Removing a board (2)
NOTE
As shown in Figure 6-3, there is a tack switches on each ejector lever of the System controlSwitch&Clock board. To remove the System control Switch&Clock board, you need to pushthe tack switches when pulling the ejector levers outward.
Figure 6-3 Removing the System control Switch&Clock board
3. Pull out the board gently along the slot guide rail.
Figure 6-4 Removing a board (3)
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CAUTIONRemove the board slowly to prevent the components on the boards from colliding.
Step 4 Put the removed board into the antistatic box or bag.
----End
6.2 Inserting a BoardInserting a board is a basic operation for replacing a board.
Procedure
Step 1 Insert one end of the ESD wrist strap into the ESD connector on the cabinet. Wear the ESD wriststrap.
Step 2 Insert the board.
l Insert the fan tray assembly.
1
2
l Insert the other boards.
1. Hold the ejector levers on the panel with both hands. Push them outwards so that theangle between the ejector lever and the panel is about 45 degrees.
2. Push the board gently along the slot guide rail until the board cannot slide further.
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Figure 6-5 Inserting a board (1)
CAUTIONInsert the board slowly to prevent the components on the boards from colliding.
3. Press the two ejector levers inward with force.
Figure 6-6 Inserting a board (2)
4. Tighten screws on the panel.
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Figure 6-7 Inserting a board (3)
Step 3 Optional: If cables are connected to the board, recover the original cable connections accordingto the labels that are made previously.
----End
6.3 Replacing the SDH Optical Interface BoardWhen the SDH optical interface board is replaced, the unprotected services on the board areinterrupted.
Prerequisitel You must know the impact of board replacement.
l You must know the specific position of the board to be replaced.
l You must know the service protection and protection channels of the board to be replaced.
l The spare SDH optical interface board must be available, and the version and type of thespare board must be the same as the version and type of the board to be replaced. You canquery the board manufacturing information to obtain the version of the board to bereplaced.
Tools, Equipment, and Materials
l ESD wrist strap
l Screwdriver
l U2000
Procedure
Step 1 Query the current alarms of the board.
Step 2 Optional: If the services on the board are configured with SNCP, ensure that the services arealready switched to the protection channel.
1. Query the SNCP protection group.
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2. Perform the forced switching, if the port on the board functions as the current workingchannel, the current protection channel is not on the board, and the state of the currentprotection channel is normal or SD.
Step 3 Optional: If the services on the board are configured with linear MSP, ensure that the servicesare already switched to the protection channel.
1. Query the linear MSP group.
2. Perform the forced switching, if the port on the board functions as the current workingchannel, the current protection channel is not on the board, and the state of the currentprotection channel is normal or SD.
Step 4 Remove the board.
Step 5 Check whether the version and SFP type of the spare board are the same as the version and SFPtype of the board to be replaced.
Step 6 Insert the board.
Step 7 After the board starts to work, check the STAT indicator on the board. The STAT indicatorshould be on and green.
Step 8 Query the current alarms of the board.There should be no new alarms on the board.
Step 9 Optional: If the forced switching has been performed on the board, release the forced switching.
Step 10 Optional: If the linear MSP switching has been performed for the services, release the forcedswitching.
----End
6.4 Replacing the PDH Interface BoardWhen the PDH interface board is replaced, the services on the board are interrupted.
Prerequisitel You must know the impact of board replacement.
l You must know the specific position of the board to be replaced.
l You must know the service protection and protection channels of the board to be replaced.
l The spare board must be made available, and the version and type of the spare board mustbe the same as those of the board to be replaced. You can query the board manufacturinginformation to obtain the version of the board to be replaced.
Tools, Equipment, and Materials
l ESD wrist strap
l Screwdriver
l U2000
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Procedure
Step 1 Query the current alarms of the board.
Step 2 Remove the board.
Step 3 Check and ensure that the version and type of the spare board are the same as the version andtype of the board to be replaced.
Step 4 Insert the board.
Step 5 After the board starts to work, check the indicators on the board. The STAT indicator should beon and green.
Step 6 Query the current alarms of the board.There should be no new alarms on the board.
----End
6.5 Replacing the Ethernet Interface BoardWhen the Ethernet interface board is replaced, the unprotected services on the board areinterrupted.
Prerequisitel You must know the impact of board replacement.
l You must know the specific position of the board to be replaced.
l You must know the service protection and protection channels of the board to be replaced.
l The spare board must be made available, and the version and type of the spare board mustbe the same as those of the board to be replaced. You can query the board manufacturinginformation to obtain the version of the board to be replaced.
Tools, Equipment, and Materialsl ESD wrist strap
l Screwdriver
l U2000
Procedure
Step 1 Query the current alarms of the board.
Step 2 Remove the board.
Step 3 Check and ensure that the board version and the model of the SFP module on the spare boardare the same as the board version and the model of the SFP module on the board to be replaced.
Step 4 Insert the board.
Step 5 After the board starts to work, check the indicators on the board. The STAT indicator should beon and green.
Step 6 Query the current alarms of the board.
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There should be no new alarms on the board.
----End
6.6 Replacing the IF BoardWhen the IF board is replaced, the unprotected services on the board are interrupted.
Prerequisitel You must know the impact of board replacement.
l You must know the specific position of the board to be replaced.
l You must know the service protection and protection channels of the board to be replaced.
l The spare board must be available, and the version and type of the spare board must be thesame as the version and type of the board to be replaced. You can query the boardmanufacturing information to obtain the version of the board to be replaced.
Tools, Equipment, and Materialsl ESD wrist strap
l Screwdriver
l U2000
Procedure
Step 1 Query the current alarms of the board.
Step 2 Optional: If the services on the board are configured with SNCP, ensure that the services arealready switched to the protection channel.
1. Query the SNCP protection group.
2. If the port on the board functions as the current working channel, the current protectionchannel is not on the board, perform the forced switching.
Step 3 Optional: If the services on the radio link are configured with 1+1 protection, switch the serviceto the protection IF board.
1. Query the IF 1+1 protection group.
2. If the board functions as the current working board, perform the forced switching.
Step 4 Optional: If the services on the radio link are configured with N+1 protection, ensure that theservices are already switched to the protection IF board.
1. Query the IF N+1 protection group.
2. If the board functions as the current working board, perform the forced switching.
Step 5 If the IF board is configured with the XPIC function, see Setting the State of an ODU Transmitterand mute the ODU at the opposite end.
Step 6 Turn off the ODU-PWR switch on the front panel of the IF board to be replaced.
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CAUTIONTo turn off the ODU-PWR switch, you need to pull the switch lever outwards slightly and thenset the switch to the "O" position.
Step 7 Remove the board.
Step 8 Check and ensure that the version and type of the spare board are the same as the version andtype of the board to be replaced.
Step 9 Ensure that the ODU-PWR switch on the front panel of the spare IF board is turned off.
Step 10 Insert the board.
Step 11 After the board starts to work, check the indicators on the board. The STAT indicator should beon and green.
Step 12 Turn on the ODU-PWR switch on the front panel of the IF board.
CAUTIONTo turn on the ODU-PWR switch, you need to pull the switch lever outwards slightly and thenset the switch to the "I" position.
Step 13 Query the current alarms of the board.There should be no new alarms on the board.
Step 14 Optional: If the forced SNCP switching has been performed for the services, release the forcedswitching.
Step 15 Optional: If the forced protection switching has been performed for the radio link, release theforced switching.
Step 16 If the IF board is configured with the XPIC function, see Setting the State of an ODU Transmitterand unmute the ODU at the opposite end.
----End
6.7 Replacing the CF CardIf the NE is configured with only one System control Switch&Clock board, all the services areinterrupted during the replacement of the CF card.
Prerequisitel You must be aware of the impact of CF card replacement.
l You must know the specific position of the CF card to be replaced.
l You must be a user with "NE maintainer" authority or higher.
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Tools, Equipment, and Materials
l ESD wrist strap
l U2000
Procedure
Step 1 Query the current alarms of the board.
Step 2 Optional: If the board is configured with 1+1 protection, ensure that the services are switchedfrom the current working board to the protection board.1. See 8.16 Switching the System Control Unit and the Cross-Connect Unit, and ensure
that the current working board functions as the protection board.2. If the board functions as the current working board, perform the manual switching.
Step 3 Remove the board.
Step 4 Remove the CF card according to the illustration in the following figure.
Step 5 Check the spare CF card.
Step 6 Install the spare CF card according to the illustration in the following figure.
Step 7 Insert the board.
Step 8 After the board starts to work, observe the indicators on the board. The STAT indicator shouldbe on and green.
Step 9 Query the current alarms of the board.There should be no new alarms.
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Step 10 Optional: If the manual switching has been performed on the board, release the manualswitching.
----End
6.8 Replacing the System Control, Switch&Clock BoardAll the services are interrupted during the period of replacing the System control Switch&Clockboard, if the NE is configured with only one System control Switch&Clock board.
Prerequisitel You must be aware of the impact of board replacement.
l You must know the specific position of the board to be replaced.
l You must know the service protection and protection channels of the board to be replaced.
l The spare board must be made available, and the version and type of the spare board mustbe the same as those of the board to be replaced. You can query the board manufacturinginformation to learn about the version of the board to be replaced.
Impact on SystemIf no protection board is available, the replacement of the System control Switch&Clock boardresults in service interruption.
Tools, Equipment, and Materialsl ESD wrist strap
l Screwdriver
l U2000
ContextNOTE
After the NE database is restored successfully, a cold reset is automatically performed on the NE.
Procedure
Step 1 Query the current alarms of the board.
Step 2 Replace the System control Switch&Clock board.
Option Description
If... Then...
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Option Description
One System control Switch&Clock board isconfigured
1. Notify the onsite maintenance personnel toremove the board.
2. Check and ensure that the version and typeof the spare board (including the patchversion) are correct.NOTE
If the spare board and the board to be replacedhave different patch versions, contact Huaweiengineers for loading correct patches.
3. Remove the CF card from the original boardand then install the CF card to the spareboard. For details about how to install theCF card, see 6.7 Replacing the CF Card.NOTE
After the NE starts up normally, the STATindicator on the board is green, and the PROGindicator on the board is off.
4. Insert the spare board into the chassis.5. Press and hold the CF RCV button on the
board for 8 seconds so that the boardautomatically restores the NE databases,system parameters, software packages, andNE logs from the CF card.NOTE
l In the process of restoring the NE database,the PROG indicator on the board blinks greenfor about 20 minutes.
l If the database restoration is successful, theNE resets automatically. After the NE resetssuccessfully, the STAT indicator is on andgreen and the PROG indicator is off.
l If the database restoration fails, the NE doesnot reset, and the PROG is off. In this case,contact Huawei technical support engineersfor rectifying the fault.
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Option Description
Two System control Switch&Clock boardsare configured
1. Before replacing the main system controlboard, switch the system control unit andcross-connect unit to the protection board.For details, see 8.16 Switching the SystemControl Unit and the Cross-ConnectUnit.NOTE
Replacing the standby system control boarddoes not need to switch the system control unitand cross-connect unit to the protection board.
2. Remove the board to be replaced.3. Check whether the version and type of the
spare board are the same as the version andtype of the board to be replaced.
4. Insert the spare board.5. Wait for about 10 minutes to complete the
backup of the data on the main and standbysystem control units.
6. Switch the system control unit and cross-connect unit to the working board. Fordetails, see 8.16 Switching the SystemControl Unit and the Cross-ConnectUnit.
Step 3 Query the current alarms of the board. There should be no new alarms.
----End
6.9 Replacing the Auxiliary BoardWhen the auxiliary board is replaced, the services on the auxiliary board are interrupted.
Prerequisitel You must know the impact of board replacement.
l You must know the specific position of the board to be replaced.
l The spare board must be made available, and the version and type of the spare board mustbe the same as those of the board to be replaced. You can query the board manufacturinginformation to obtain the version of the board to be replaced.
Tools, Equipment, and Materials
l ESD wrist strap
l Screwdriver
l U2000
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Procedure
Step 1 Query the current alarms of the board.
Step 2 Remove the board.
Step 3 Check and ensure that the version and type of the spare board are the same as the version andtype of the board to be replaced.
Step 4 Insert the board.
Step 5 After the board starts to work, check the indicators on the board. The STAT indicator should beon and green.
Step 6 Query the current alarms of the board.There should be no new alarms on the auxiliary board.
----End
6.10 Replacing the Fan TrayThe IDU cannot perform air cooling in the process of replacing the fan tray. Therefore, you needto replace the fan tray quickly.
Prerequisitel You must be aware of the impact of board replacement.
l You must know the specific position of the board to be replaced.
l The spare board must be made available, and the version and type of the spare board mustbe the same as those of the board to be replaced. You can query the board manufacturinginformation to learn about the version of the board to be replaced.
l You must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and Materialsl ESD wrist strap
l Screwdriver
l U2000
Precautions
WARNINGDo not touch the blades until the fan has stopped rotating.
Procedure
Step 1 Query the current alarms of the board.
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Step 2 Move the cables away from the front panel of the fan tray assembly.
Step 3 Remove the board.
Step 4 Check and ensure that the version and type of the spare board are the same as the version andtype of the board to be replaced.
Step 5 Insert the board.
Step 6 After the board starts to work, observe the indicators on the board. The STAT indicator shouldbe on and green.
Step 7 Query the current alarms of the board.There should be no new alarms.
----End
6.11 Replacing the Power BoardIf another power board works normally during the replacement period, the services at the IDUare not affected.
Prerequisitel You must be aware of the impact of board replacement.
l You must know the specific position of the board to be replaced.
l The spare chassis must be made available, and the version and type of the spare chassismust be the same as the version and type of the board to be replaced. The chassis isconfigured with the power board and the fan tray. You can query the boardmanufacturing information to learn about the version of the board to be replaced.
Tools, Equipment, and Materials
l ESD wrist strap
l Screwdriver
l U2000
Precautions
WARNINGBefore replacing the board, you must turn off the power switch of the PDU. Do not connect theinterface to the power plug. After inserting the PIU properly, insert the power plug, and thenturn on the power switch of the PDU.
Procedure
Step 1 Query the current alarms of the board.
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Step 2 Notify the onsite maintenance personnel to turn off the output power switch on the equipment.
Step 3 Remove the cables connected to the board.
Step 4 Remove the power board gently and horizontally along the guide rail.
Step 5 Check and ensure that the version and type of the spare board are the same as the version andtype of the board to be replaced.
Step 6 Insert the spare board steadily along the guide rail.
Step 7 Reconnect the cables between the board and the power supply equipment.
Step 8 Notify the onsite maintenance personnel to turn on the output power switch on the equipment.
Step 9 After the board starts to work, observe the indicators on the board. The STAT indicator shouldbe on and green.
----End
6.12 Replacing the SFPWhen the small form pluggable (SFP) is replaced, the unprotected services on the optical/electrical port are interrupted.
Prerequisitel You must know the impact of SFP replacement.
l You must know the specific position of the SFP to be replaced.
l You must know the service protection and protection channels of the SFP to be replaced.
l The spare SFP must be available, and the version and type of the spare SFP must be thesame as the version and type of the SFP to be replaced. You can query the boardmanufacturing information to obtain the version of the SFP to be replaced.
ContextNOTE
The SL1D can be equipped with the SFP to provide 2xSTM-1 optical interfaces. The EM6F can be equippedwith the SFP to provide 2xGE optical interfaces or 2xGE electrical interfaces.
Tools, Equipment and Materialsl ESD wrist strap
l Screwdriver
l U2000
Procedure
Step 1 Query the current alarms of the board.
Step 2 Optional: If SNCP is configured for services at the optical interface, ensure that the servicesare already switched to the protection channel.1. Query the status of the SNCP group.
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2. If the port on the local board functions as the working channel, the protection channel doesnot involve the local board, and the protection channel is in the normal or SD state, performforced switching.
Step 3 Optional: If linear MSP is configured for services at the optical interface, ensure that the servicesare already switched to the protection channel.1. Query the status of the linear MSP group.2. If the port on the local board functions as the working channel, the protection channel does
not involve the local board, and the protection channel is in the normal or SD state, performforced switching.
Step 4 Record the cable connections of the SFP, and then disconnect cables.
Step 5 Check the types of the spare SFP and the SFP to be replaced.
Step 6 Reconnect cables based on the record.
Step 7 Query the current alarms of the board.There should be no new alarms on the board.
Step 8 Optional: If the forced switching has been performed on the board, release the forced switching.
Step 9 Optional: If the linear MSP switching has been performed for the services, release the forcedswitching.
----End
6.13 Replacing the ODUWhen the ODU is replaced, the unprotected services on the ODU are interrupted.
Prerequisitel You must know the impact of ODU replacement.
l You must know the specific positions of the ODU to be replaced and the IF board connectedto the ODU.
l The spare ODU must be at hand, whose type must be the same as the type of the ODU tobe replaced.
Tools, Equipment, and Materialsl Ejector lever (torque spanner)
l U2000
l Silicon
l Waterproof adhesive tape
PrecautionsBefore you replace an ODU that is installed on the coupler, power off the ODU to be replaced,but do not power off or mute the other ODU. Otherwise, the services may be affected. Theinterface of the coupler ejects little RF radiation, thus meeting the safety standards for microwaveradiation.
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Procedure
Step 1 Query the current alarms on the ODU and then record the results.
Step 2 Turn off the ODU-PWR switch on the front panel of the IF board.
Step 3 Remove the IF cable and the PGND cable from the ODU.
Step 4 Remove the ODU.
Option Description
If... Then...
You need to remove the ODU with awaveguide interface
Loosen the four latches of the ODU anddisconnect the ODU from the antenna, thehybrid coupler, or ODU adapter.
You need to remove the ODU with acoaxial interface
Remove the ODU from the post.
You need to remove the RTN XMC ODU Loosen the captive screws on the ODU anddisconnect the ODU from the antenna, thehybrid coupler, or ODU adapter.
Step 5 Ensure the type of the spare ODU is the same as the type of the ODU to be replaced.
Step 6 Install the ODU.
Option Description
If... Then...
You need to install a new ODU with awaveguide interface
See the RTN 600 ODU Quick InstallationGuide.
You need to install a new ODU with acoaxial interface
See the RTN 600 ODU Quick InstallationGuide.
You need to install a new RTN XMC ODU See the RTN XMC ODU Installation Guide.
Step 7 Connect the PGND cable and the IF cable to the ODU.
Step 8 Waterproof the IF interface on the ODU.
Step 9 Turn on the ODU-PWR switch on the front panel of the IF board.
Step 10 After the ODU starts to work, check the ODU indicator and LINK indicator on the IF board.The ODU indicator and LINK indicator should be on and green.
Step 11 Query the current alarms of the ODU. There should be no new alarms on the ODU.
----End
6.14 Replacing the IF CableWhen the IF cable is replaced, the unprotected services on the IF cable are interrupted.
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Prerequisitel You must know the impact of IF cable replacement.
l You must know the specific positions of the IF cable to be replaced and the IF boardconnected to the IF jumper.
l In the case of the RG-8U IF cable or the 1/2-inch IF cable, an IF jumper is required toconnect the IF cable to the IDU and both ends of the IF cable should be terminated withtype-N connectors. In the case of the 5D IF cable, the IF cable is connected directly to theIDU and the cable end connecting to the IDU should be terminated with the TNC connectorand the cable end connecting to the ODU should be terminated with the type-N connector.
Tools, Equipment, and Materialsl Multimeter
l Ejector lever
l Electro-technical knife
l File
l Installation parts and accessories of the connector
l IF cable
l Waterproof adhesive tape
Procedure
Step 1 Query and record the current alarm of the IDU.
Step 2 Turn off the ODU-PWR switch on the front panel of the IF board.
Step 3 Disconnect the IF cable from the IF jumper and from the ODU.
Step 4 Use a multimeter to test the connectivity of the IF cable to determine whether you need to makenew connectors for the IF cable or replace the IF cable with a new one.
If... Then...
You need to make new connectors for theIF cable
See the Installation Reference and make newconnectors for the IF cable.
You need to replace the IF cable with a newone
Replace the IF cable with a new one.
Step 5 Connect the IF cable to the IF jumper and to the ODU.
Step 6 Waterproof the connectors at the two ends of the IF cable with the waterproof adhesive tape.
Step 7 Turn on the ODU-PWR switch on the front panel of the IF board.
Step 8 After the ODU starts to work, check the ODU and LINK indicators on the IF board.The ODU indicator and LINK indicator should be on and green.
Step 9 Query the current alarms of the IDU.There should be no new alarms on the IDU.
----End
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7 Database Backup and Restoration
About This Chapter
The OptiX RTN 950 supports database backup and restoration through the NMS.
7.1 NE DatabaseAn NE database stores the communication data, security data, alarm data, performance data, andconfiguration data of an NE in a certain structure to facilitate the relevant query and modification,hence ensuring that the data can be restored after the NE is reset.
7.2 Backing Up the Database ManuallyThe NE configuration data is stored in the database of an NE. To prevent the database frombeing damaged due to certain risky operations such as replacing a faulty system control, cross-connect, and timing board or upgrading the software, you need to manually back up the databaseon a regular basis and before performing any risk operation.
7.3 Setting the Database Backup PolicyYou can set the policy of backing up a database to realize the function of periodically backingup the database.
7.4 Restoring the DatabaseIf the database is damaged, you can restore the NE database by using the database files that aresaved previously.
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7.1 NE DatabaseAn NE database stores the communication data, security data, alarm data, performance data, andconfiguration data of an NE in a certain structure to facilitate the relevant query and modification,hence ensuring that the data can be restored after the NE is reset.
An NE database includes the following types:
l Memory database (MDB)The data in the MDB varies according to the configuration and is lost when the systemcontrol unit is reset or when the NE is powered off.
l Dynamic random database (DRDB)The DRDB automatically stores the data that is checked successfully. The DRDB is residentin the reserved memory. Hence, the data in the DRDB is not lost when a warm reset isperformed on the system control unit. The data, however, is lost when a cold reset isperformed on the system control unit or when the NE is powered off.
l Flash database (FDB)The FDB includes FDB0 and FDB1. The FDB is resident in the flash memory on the board.Hence, the data in the FDB is permanently stored.
After being delivered to the system control unit, the NE configuration data is stored in the MDB.After checking the NE configuration data successfully, the system control unit automaticallycopies the data from the MDB to the DRDB and delivers the board configuration data generatedafter successful check to the relevant board.
The NE supports two backup schemes:l Five minutes after the data configuration on the NE is completed, the NE backs up the
DRDB database into the FDB0 and FDB1 databases of the flash memory.l The NE backs up the DRDB database into the FDB0 and FDB1 databases of the flash
memory at an interval of 30 minutes.After the NE is restarted because of power-off, the system control unit checks whether theconfiguration data in the DRDB is available. If yes, the system control unit restores the data. Ifthe configuration data in the DRDB is damaged, the system control unit restores the data fromFDB0 or FDB1.
The system control, switching and timing board on the OptiX RTN 950 is installed with a CFcard. When automatically copying data to the FDB, the DRDB in the system control unit copiesthe data to the database on the CF card accordingly.
On the CF card, NE databases, system parameters (including NE-IP, NE-ID, and subnet mask),software packages, and NE logs are stored. After the CRV button on the system control,switching and timing board is pressed and held for eight seconds, the data stored on the CF cardis loaded to the board. To synchronize the data on the CF card with the NE databases, systemparameters, and NE logs on the system control, switching and timing board, the regular backupfunction needs to be enabled.
NOTE
The software packages on the CF card are updated with those on the system control, switching and timing boardduring package diffusion. Therefore, no automatic or manual operation is performed to synchronize the softwarepackages. When the system control, switching and timing board and the CF card have different software packagesor data, the SWDL_PKGVER_MM alarm is reported.
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7.2 Backing Up the Database ManuallyThe NE configuration data is stored in the database of an NE. To prevent the database frombeing damaged due to certain risky operations such as replacing a faulty system control, cross-connect, and timing board or upgrading the software, you need to manually back up the databaseon a regular basis and before performing any risk operation.
Prerequisitel You must be an NM user with NE operator authority or higher.
l You must log in to the NE.
Tools, Equipment, and MaterialsU2000
ProcedureStep 1 On the NMS, choose Administration > NE Software Management > NE Data Backup/
Restoration from the Main Menu.
Step 2 In NE View, click Search.
Step 3 In the Search Device(s) dialog box, set the search conditions and search for the NE that requiresdatabase backup.
Step 4 Close the Search Device(s) dialog box.
Step 5 Click Backup.NOTE
You can select multiple NEs to back up the data at one time.
Step 6 Set the data backup path to NMS Server or NMS Client according to the requirements.NOTE
If NMS Client is selected, you can click to set the path in which the client data is stored.
Step 7 Click Start to start backing up the NE data. In NE View, Operation Status indicates the progressof backing up the data. After the data backup is successful, Operation Status displays a message,indicating that the operation is successful.
----End
7.3 Setting the Database Backup PolicyYou can set the policy of backing up a database to realize the function of periodically backingup the database.
7.3.1 Setting the Default Backup PolicyThrough this task, you can set the default backup policy for all the NEs on the network.
7.3.2 Setting the User-Defined Backup Policy
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Through this task, you can set the backup policy for a specific NE.
7.3.3 Executing the Backup Policy of the DeviceThrough this task, you can set the backup policy of a device to the running state.
7.3.4 Suspending the Backup Policy of the DeviceThrough this task, you can set the backup policy of a device to the suspended state.
7.3.1 Setting the Default Backup PolicyThrough this task, you can set the default backup policy for all the NEs on the network.
Prerequisitel You must be an NM user with NE operator authority or higher.
l You must log in to the NE.
Tools, Equipment, and MaterialsU2000
ContextThe backup policy refers to the method of backing up the data stored in the flash memory ofNEs to the databases of the NMS.
Procedure
Step 1 Choose Administration > NE Software Management > Default Policy from the Main Menu.Then, the Default Policy dialog box is displayed.
Step 2 Click Backup Policy, and set Period, Day, Time, and Policy Status.NOTE
l If Policy Status is set to Running, the NMS performs the backup operation within the specified period,day, and time.
l If Policy Status is set to Suspended, the backup policy is still in the Paused state although the policyperiod reaches the specified period, day, and time.
Step 3 Click OK, and close the dialog box.
----End
7.3.2 Setting the User-Defined Backup PolicyThrough this task, you can set the backup policy for a specific NE.
Prerequisitel You must be an NM user with NE operator authority or higher.
l You must log in to the NE.
Tools, Equipment, and MaterialsU2000
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Procedure
Step 1 Choose Administration > NE Software Management > User-Defined Policy from the MainMenu.Then, the User-Defined Policy dialog box is displayed.
Step 2 In the NE Tree, set NE type and Device Version.In NE View, the version, name, and IP address of the selected NE are displayed.
Step 3 Optional: Click to import the IP addresses of the NEs.The imported IP addresses of the NEs are displayed in Device View.
Step 4 Optional: Click to export the IP address information of the NEs.The IP addresses of the selected NEs are stored in the specified location.
Step 5 In NE Table, select one or more NEs.
Step 6 Click Next.Then, the User-Defined Policy dialog box is displayed.
Step 7 Set Period, Day, Time, and Policy Status.
NOTE
l If Policy Status is set to Running, the NMS performs the backup operation within the specified period,day, and time.
l If Policy Status is set to Suspended, the backup policy is still in the Paused state although the policyperiod reaches the specified period, day, and time.
Step 8 Click Finish.
Step 9 Close the prompt dialog box.
----End
7.3.3 Executing the Backup Policy of the DeviceThrough this task, you can set the backup policy of a device to the running state.
PrerequisiteYou must be an NM user with NE operator authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 On the NMS, choose Administration > NE Software Management > NE Data Backup/Restoration from the Main Menu.The NE Data Backup/Restoration window is displayed.
Step 2 In NE View, click Search.
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Then, the Search Device(s) dialog box is displayed.
Step 3 Set the search conditions to search for the NEs that need to execute the backup policy.
Step 4 Close the Search Device(s) dialog box.
Step 5 Select and right-click the NE. Choose Backup Policy > Run Policy from the shortcut menu.
Step 6 Close the prompt dialog box.
----End
7.3.4 Suspending the Backup Policy of the DeviceThrough this task, you can set the backup policy of a device to the suspended state.
Prerequisite
You must be an NM user with NE operator authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 On the NMS, choose Administration > NE Software Management > NE Data Backup/Restoration from the Main Menu.The NE Data Backup/Restoration window is displayed.
Step 2 In NE View, click Search.Then, the Search Device(s) dialog box is displayed.
Step 3 Set the search conditions to search for the NEs that need to execute the backup policy.
Step 4 Close the Search Device(s) dialog box.
Step 5 Select and right-click the NE. Choose Backup Policy > Suspend Policy from the shortcut menu.
Step 6 Close the prompt dialog box.
----End
7.4 Restoring the DatabaseIf the database is damaged, you can restore the NE database by using the database files that aresaved previously.
Prerequisitel You must be an NM user with NE operator authority or higher.
l The data to be restored must be backed up.
l You must log in to the NE.
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Tools, Equipment, and MaterialsU2000
Procedure
Step 1 On the NMS, choose Administration > NE Software Management > NE Data Backup/Restoration from the Main Menu.The NE Data Backup/Restoration window is displayed.
Step 2 In NE View, click Search.Then, the Search Device(s) dialog box is displayed.
Step 3 Set the search conditions to search for the NEs that need to restore databases.
Step 4 Close the Search Device(s) dialog box.
Step 5 Select the NE whose data needs to be recovered, and click Recover.Then, the Recover dialog box is displayed.
Step 6 Select Browse in File Name.Then, the Select File dialog box is displayed.
Step 7 Select files from NMS Server or NMS Client, and then choose the files to be recovered. ClickOK.
Step 8 In the Recover dialog box, click Start.
Step 9 Click Yes in the prompt dialog box.The system starts recovering the selected data files on the specified NE.In the NE list of NE View, Operation Status indicates the progress of recovering the data.After the data is recovered, Operation Status displays a message, indicating that the operationis successful.
Step 10 In NE View, right-click the NE and choose Activation Database from the shortcut menu.The Activation Database dialog box is displayed.
Step 11 Click Start to start activating the database.
NOTE
Do not select Deliver to Board.
In NE View, Operation Status indicates the progress of activating the database. After thedatabase is activated, Operation Status indicates that the operation is successful.
----End
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8 Supporting Task
About This Chapter
This topic describes the common maintenance operations.
8.1 Hardware LoopbackHardware loopback refers to the loopback operation performed by changing the physicalconnection.
8.2 Cleaning Fiber Connectors and AdaptersThe optical connectors are easily contaminated in the maintenance process. The minute dustparticles that can be seen only in the microscope can also affect the quality of optical signals. Inthis case, the system performance deteriorates. Hence, the fiber connectors or adapters that areterminated need to be cleaned in time.
8.3 Browsing Alarms, Abnormal Events, and Performance EventsThe U2000 is used to browse alarms, abnormal events, and performance events at the networklayer.
8.4 Querying a ReportYou can obtain the version, manufacture, and microwave link information of all the boards byquerying the corresponding report.
8.5 Software LoopbackSoftware loopback refers to the loopback operation that is implemented by using the NMS.During software loopback, you need not visit the engineering site. Hence, software loopback isused more widely than hardware loopback.
8.6 ResetReset is an important method of troubleshooting software faults. Reset is classified into coldreset, warm reset.
8.7 PRBS TestThe pseudorandom binary sequence (PRBS) test is an important method of network maintenanceand self-check.
8.8 Querying the License CapacityYou can check whether the loaded license file meets the requirements by querying the licensecapacity.
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8.9 Setting the On/Off State of the LaserWhen performing operations such as testing a fiber cut, you can set the on/off state of the laserrather than removing and re-inserting the optical fiber on site.
8.10 Setting the ALS FunctionThe SDH optical interface board supports the automatic laser shutdown (ALS) function. Thisfunction enables the board to turn off a laser when the board does not transmit services, theoptical fiber is faulty, or the received optical signals are lost.
8.11 Setting the Automatic Release FunctionTo protect the communication between the NMS and NE against improper operations, an NEsupports the automatic release of the ODU muting, software loopback, and other operations thatrequire you to exercise caution. The automatic release time is five minutes by default. You canset whether to enable the automatic release function and the automatic release time through theNMS.
8.12 Configuring the Performance Monitoring Status of NEsBy default, the performance monitoring of NEs is enabled. You can disable or enable thisfunction manually and set the period of the performance monitoring of NEs manually.
8.13 Querying the Impedance of an E1 ChannelThe impedance of an E1 channel is 75 ohms or 120 ohms, which cannot be set through the NMS.
8.14 Monitoring Ethernet Packets Through Port MirroringTo monitor and analyze the Ethernet packets at a port, you can enable the port mirroring functionso that the received or transmitted packets on the port are duplicated to another Ethernet port towhich the Ethernet tester is connected. Then, you can monitor and analyze the packets.
8.15 Querying the Attributes of an Ethernet PortThrough the operation, you can learn about the attributes of an Ethernet port, such as rate, MACaddress, and actual working mode.
8.16 Switching the System Control Unit and the Cross-Connect UnitWhen the OptiX RTN 950 is configured with two system control, cross-connect, and timingboards, you can manually switch the system control unit and the cross-connect unit as required.
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8.1 Hardware LoopbackHardware loopback refers to the loopback operation performed by changing the physicalconnection.
Background Information
Hardware loopback is classified into optical cable loopback, PDH cable loopback, and Ethernetport loopback.
l Optical cable loopback indicates that the receive and transmit optical fibers are connectedthrough a fiber jumper on the ODF. In certain occasions, an optical attenuator is addedbased on the actual situation, to prevent the optical board from being damaged by theexcessive receive optical power.
l PDH cable loopback indicates that the receive and transmit PDH cables are connectedthrough a short-circuiting cable or connector on the DDF.
l Ethernet port loopback indicates that the receive and transmit service signals on oneEthernet port are looped back through a special loopback Ethernet cable.
8.2 Cleaning Fiber Connectors and AdaptersThe optical connectors are easily contaminated in the maintenance process. The minute dustparticles that can be seen only in the microscope can also affect the quality of optical signals. Inthis case, the system performance deteriorates. Hence, the fiber connectors or adapters that areterminated need to be cleaned in time.
8.2.1 Cleaning Fiber Connectors by Using Cartridge CleanersWhen there are special cartridge cleaners (such as the CLETOP cassette cleaner), use them forcleaning the fiber connectors.
8.2.2 Cleaning Fiber Connectors by Using Lens TissueWhen there is no cartridge cleaners, use the lens tissue for cleaning fiber connectors.
8.2.3 Cleaning Fiber Adapters by Using Optical Cleaning SticksThe fiber adapters need to be cleaned with optical cleaning sticks. This topic describes themethod of cleaning fiber adapters on the optical interface board. The same method can be usedto clean fiber adapters on the optical attenuators and flanges.
8.2.1 Cleaning Fiber Connectors by Using Cartridge CleanersWhen there are special cartridge cleaners (such as the CLETOP cassette cleaner), use them forcleaning the fiber connectors.
Prerequisitel Disconnect both ends of the fiber. Ensure that there is no laser light on the fiber connectors.
l Inspect the fiber connector with a fiber microscope to ensure that the fiber connectors arecontaminated.
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Tools, Equipment, and MaterialsCartridge cleaner
Procedure
Step 1 Press down and hold the lever. Then, the shutter slides back and exposes a new cleaning area.
Figure 8-1 Using the CLETOP cassette cleaner
Step 2 Position the fiber tip slightly against the cleaning area and drag the fiber tip slightly in thedownward direction.
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Figure 8-2 Dragging the fiber tip slightly on one cleaning area
Step 3 Repeat the same in the other cleaning area in the same direction as Step 2.
Figure 8-3 Dragging the fiber tip slightly on the other cleaning area
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Step 4 Release the lever to close the cleaning area.
----End
8.2.2 Cleaning Fiber Connectors by Using Lens TissueWhen there is no cartridge cleaners, use the lens tissue for cleaning fiber connectors.
Prerequisitel Disconnect both ends of the fiber. ensure that there is no laser light on the fiber connectors.l Inspect the fiber connector with a fiber microscope to ensure that the fiber connectors are
contaminated.
Tools, Equipment, and Materialsl Clean solventl Non-woven lens tissuel Special compressed gas
NOTE
l The isoamylol is preferred as the clean solvent, and the propyl can also be used as the clean solvent.Do not use alcohol or formalin.
l The fiber cleaning tissue or lint-free wipes can substitute the non-woven lens tissue.
l The special cleaning roll can substitute the special compressed gas.
ProcedureStep 1 Place a small amount of cleaning solvent on the lens tissue.
Step 2 Drag the fiber tip slightly on the lens tissue.
Figure 8-4 Cleaning the fiber with the lens tissue
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Step 3 Repeat Step 2 several times on the areas of the lens tissue that have not been used.
Step 4 Use the compressed gas to blow the fiber tip.When using compressed gas, note the following points:l First spray it into the air because the initial spray of condensation may contain certain
sediment.l Ensure that the injector nozzle is as close as possible to (but does not toubch) the connector
surface.
----End
8.2.3 Cleaning Fiber Adapters by Using Optical Cleaning SticksThe fiber adapters need to be cleaned with optical cleaning sticks. This topic describes themethod of cleaning fiber adapters on the optical interface board. The same method can be usedto clean fiber adapters on the optical attenuators and flanges.
Prerequisitel Before you clean the fiber adapter, remove the optical fiber and shut down the laser. For
details about how to shut down a laser, see 8.9 Setting the On/Off State of the Laser.l Inspect the fiber adapter with a fiber microscope to ensure that the fiber adapter is
contaminated.
Tools, Equipment, and Materialsl Optical cleaning sticks
l Clean solvent
l Special compressed gas
NOTE
l In the case of the SC and FC optical interface, use the cleaning stick with a diameter of 2.5 mm. In thecase of the LC optical interface, use the cleaning stick with a diameter of 1.25 mm.
l The medical cotton or long fiber cotton can substitute the optical cleaning stick.
l The isoamylol is preferred as the clean solvent, and the propyl can also be used as the clean solvent.Do not use alcohol or formalin.
l The special cleaning roll can substitute the special compressed gas.
Procedure
Step 1 Apply a small amount of cleaning solvent on the optical cleaning stick.
Step 2 Touch the adapter gently with the optical cleaning stick and turn the stick clockwise four to fivetimes.Ensure that there is direct contact between the stick tip and fiber tip so that the solvent can cleanthe adapter tip.
Step 3 Use the compressed gas to blow the fiber adapter.When using compressed gas, note the following points:
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l First spray the compressed gas into the air because the initial spray of condensation gas maycontain some sediment.
l Ensure that the injector nozzle is as close as possible to (but does not touch) the inner surfaceof the connector.
----End
8.3 Browsing Alarms, Abnormal Events, and PerformanceEvents
The U2000 is used to browse alarms, abnormal events, and performance events at the networklayer.
8.3.1 Checking the NE StatusYou can learn about the basic information such as whether the NE fails to communicate withthe NMS and whether any alarms are reported by checking the NE status.
8.3.2 Checking the Board StatusYou can learn about the board status in a visual manner by checking the slot diagram.
8.3.3 Browsing Current AlarmsYou can find the faults that occur on the equipment by browsing current alarms.
8.3.4 Browsing Abnormal EventsYou can find the faults that occur on the equipment in a specific time by browsing abnormalevents. An abnormal event refers to an exception that occurs on the system at a particular timerather than an exception that persists for a certain time of period.
8.3.5 Browsing Current Performance EventsYou can know the running status of the equipment by browsing current SDH/PDH performanceevents.The counter of current performance events measures all the performance events that arisebetween the start time of the monitoring period and the current time.
8.3.6 Browsing History AlarmsYou can know the faults that occur on the equipment in a past period of time by browsing historyalarms. A history alarm refers to an alarm that is already cleared.
8.3.7 Browsing History Performance EventsYou can know the faults that occur on the equipment in a past period of time by browsing historyperformance events.
8.3.8 Browsing the Performance Event Threshold-Crossing RecordsYou can learn about the threshold-crossing information of the performance events of an NE bybrowsing the performance event threshold-crossing records.
8.3.1 Checking the NE StatusYou can learn about the basic information such as whether the NE fails to communicate withthe NMS and whether any alarms are reported by checking the NE status.
Prerequisite
You must be an NM user with NE monitor authority or higher.
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PrecautionsNOTE
By default, the color of the NE icon on the NMS indicates the NE status.
Procedure
Step 1 Check the NE icon on the Main Topology.
The NE icon is green. The other colors indicate the following situations:
l Gray: indicates that the communication between the NE and the NMS is interrupted.
l Purple: indicates that the NE status is unknown.
l Red: indicates that a critical alarm is generated.
l Orange: indicates that a major alarm is generated.
l Yellow: indicates that a minor alarm is generated.
l Light blue: indicates that a warning is generated.
Step 2 Double-click the NE. The slot diagram is displayed. The NE is in Running Status.
Step 3 Click the icon. The legend description is displayed.
----End
8.3.2 Checking the Board StatusYou can learn about the board status in a visual manner by checking the slot diagram.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 On the Main Topology, double-click the desired NE. The NE Panel is displayed. The NE is inRunning Status.
Step 2 Click the icon. The legend description is displayed.
Step 3 In the NE Explorer, click the NE Panel tab.
Step 4 Check the running status of the boards based on the legend description. If a board is runningnormally, the board icon is green.
----End
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8.3.3 Browsing Current AlarmsYou can find the faults that occur on the equipment by browsing current alarms.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
ProcedureStep 1 Choose Fault > Browse Current Alarm from the Main Menu.
Step 2 In the Filter dialog box, click the Alarm Source tab.
Step 3 Optional: Select one or more NEs from the left pane, and click .
Step 4 Click OK.
Step 5 Browse the displayed alarms.
Step 6 Select the newly generated alarms, record the details of the alarms, and click OK.
Step 7 Notify the troubleshooting personnel to clear the alarms in time.For the details, see A.3 Alarms and Handling Procedures.
----End
Related InformationA current alarm refers to an alarm that is not cleared.
You can browse the network-wide alarms based on the alarm severity by clicking the alarmindicators in the upper right corner.
l You can click (red) to browse the network-wide critical alarms.
l You can click (orange) to browse the network-wide major alarms.
l You can click (yellow) to browse the network-wide minor alarms.
l You can click (light-blue) to browse the network-wide warning alarms.
NOTE
By default, the number shown by each indicator indicates the number of current network-wide alarms, whichare not cleared, of the specific severity.
8.3.4 Browsing Abnormal EventsYou can find the faults that occur on the equipment in a specific time by browsing abnormalevents. An abnormal event refers to an exception that occurs on the system at a particular timerather than an exception that persists for a certain time of period.
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PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Choose Fault > Browse Event from the Main Menu.
Step 2 In the Filter dialog box, click the Event Source tab.
Step 3 Select one or more NEs from the left pane, and click .
Step 4 Click OK.
Step 5 Browse the abnormal events.
For details on how to handle an abnormal event, see B.2 Abnormal Performance Events andHandling Procedures.
----End
Related InformationBeing different from an alarm that has both the occurrence time and the clearance time, anabnormal event has only the occurrence time.
8.3.5 Browsing Current Performance EventsYou can know the running status of the equipment by browsing current SDH/PDH performanceevents.The counter of current performance events measures all the performance events that arisebetween the start time of the monitoring period and the current time.
Prerequisitel The performance monitoring function must be enabled. For details about how to enable the
performance monitoring function, see 8.12 Configuring the Performance MonitoringStatus of NEs.
l You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Choose Performance > Browse SDH Performance from the Main Menu, and then click theCurrent Performance Data tab.
Step 2 Select one or more NEs from the left pane, and click .
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Step 3 Select All in Monitored Object Filter Condition.
Step 4 Select 15-Minute in the Monitor Period field.
Step 5 Click the Count tab, and then select Display Continuous Severely Errored Seconds.
Step 6 Click Query to browse the current performance events.In normal cases, no bit error performance events should be displayed, and the number of pointerjustification events should be less than six per day.
Step 7 Click the Gauge tab, select All for the performance event type, and then select Display CurrentValue and Display Maximum and Minimum Values in the right pane.
Step 8 Click Query to browse the displayed performance events.In normal cases, compared with the history records, the gauge indicators, such as the boardtemperature, do not change drastically.
Step 9 Re-define the time span by setting Monitor Period to 24-Hour.
Step 10 Repeat Step 5 through Step 8 to query the current performance events in a period of 24 hours.
----End
8.3.6 Browsing History AlarmsYou can know the faults that occur on the equipment in a past period of time by browsing historyalarms. A history alarm refers to an alarm that is already cleared.
Prerequisite
You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 Choose Fault > Browse History Alarms from the Main Menu.
Step 2 Optional: In the Filter dialog box, click the Basic Settings tab.1. In Severity, select the alarm severity to be queried.2. In Type, select the alarm type.3. In Generated Time, specify the alarm generation time.4. In Cleared Time, specify the alarm clearance time.
The time span starts from the time when the last history alarm browsing operation wasperformed to the current time.
Step 3 In the Filter dialog box, click the Alarm Source tab.
Step 4 Select one or more NEs from the left pane, and click .
Step 5 Click OK.
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Step 6 Browse the displayed history alarms.
----End
8.3.7 Browsing History Performance EventsYou can know the faults that occur on the equipment in a past period of time by browsing historyperformance events.
Prerequisitel The performance monitoring function must be enabled. For details about how to enable the
performance monitoring function, see 8.12 Configuring the Performance MonitoringStatus of NEs.
l You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Choose Performance > Browse SDH Performance from the main menu, and then click theHistory Performance Data tab.
Step 2 Select one or more NEs from the left pane, and click .
Step 3 Set the parameters, such as Monitored Object Filter Condition, Monitor Period, DataSource.
Step 4 Click the Gauge tab, and set Performance Event Type.
Step 5 Click the Count tab, and set Performance Event Type.
Step 6 Click Query.
----End
8.3.8 Browsing the Performance Event Threshold-Crossing RecordsYou can learn about the threshold-crossing information of the performance events of an NE bybrowsing the performance event threshold-crossing records.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Browse the performance event threshold-crossing records that is displayed.
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Step 2 Choose Performance > Browse SDH Performance from the Main Menu.
Step 3 Select an NE from the Object Tree in the NE Explorer. Click .
Step 4 Click the Performance Threshold-Crossing Record tab.
Step 5 Set the parameters such as Monitored Object Filter Condition, Monitor Period, andPerformance Event Type.
Step 6 Click Query.
----End
8.4 Querying a ReportYou can obtain the version, manufacture, and microwave link information of all the boards byquerying the corresponding report.
8.4.1 Querying the Board Information ReportYou can obtain the PCB version, logic version, and software version of each board by queryingthe board information report.
8.4.2 Querying the Board Manufacturing Information ReportYou can obtain the manufacturing information about each board and the SFP module by queryingthe board manufacturing information report.
8.4.3 Querying the Microwave Link Information ReportYou can obtain the the current and recent transmit/receive power of microwave links by queryingthe microwave link information report.
8.4.1 Querying the Board Information ReportYou can obtain the PCB version, logic version, and software version of each board by queryingthe board information report.
PrerequisiteYou must be an NM user with NE monitor authority or higher.
Tools, Equipment, and MaterialsU2000
ProcedureStep 1 Choose Inventory > Physical Inventory > Board from the Main Menu.
Step 2 In Physical Inventory, click the Board List tab.
Step 3 Click Filter.In Set Board Filter Criteria window, set the board attributes that need to be queried. ClickOK.
Step 4 Optional: Click Save As. Then, you can save and archive the board information as a text file.
----End
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8.4.2 Querying the Board Manufacturing Information ReportYou can obtain the manufacturing information about each board and the SFP module by queryingthe board manufacturing information report.
Prerequisite
You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 Choose Inventory > Project Document > Board Manufacture Information from the MainMenu.
Step 2 In Board Manufacture Information, click the Board Manufacture Information tab.
Step 3 Select one or multiple NEs from the left pane, and click .
Step 4 Optional: Click Save As. Then, you can save and archive the board manufacturing informationas a text file.
----End
8.4.3 Querying the Microwave Link Information ReportYou can obtain the the current and recent transmit/receive power of microwave links by queryingthe microwave link information report.
Prerequisite
You must be an NM user with NE monitor authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 In Main Menu, choose Inventory > Microwave Report > Microwave Link Report.
Step 2 In the left pane of the Microwave Link Information Report tab page, choose one or more NEs,
and click .
Step 3 Optional: Click Save As. Then, you can save and archive the microwave link information reportas a text file.
----End
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8.5 Software LoopbackSoftware loopback refers to the loopback operation that is implemented by using the NMS.During software loopback, you need not visit the engineering site. Hence, software loopback isused more widely than hardware loopback.
8.5.1 Setting Loopback for the SDH Optical Interface BoardThe SDH optical interface board supports the optical interface inloop/outloop and the VC-4 pathinloop/outloop.
8.5.2 Setting Loopback for the Tributary BoardThe tributary board supports the tributary inloop and outloop.
8.5.3 Setting a Loopback for the Ethernet Interface BoardThe Ethernet interface board supports the Ethernet port inloop (at the MAC layer and PHY layer).
8.5.4 Setting Loopback for the IF BoardLoopbacks on the IF board are classified into IF port loopback, composite port loopback, andIF_ETH port MAC loopback. The IF1 board supports the IF port inloop, and IF port outloop.The IFU2 board supports the IF port inloop, IF port outloop, composite port inloop, compositeport outloop, and IF_ETH port MAC inloop. The IFX2 board supports the IF port inloop, IFport outloop, composite port inloop, composite port outloop, and IF_ETH port MAC inloop.
8.5.5 Locating a Fault by Performing Loopback OperationsLoopback is a common method of locating the fault.
8.5.1 Setting Loopback for the SDH Optical Interface BoardThe SDH optical interface board supports the optical interface inloop/outloop and the VC-4 pathinloop/outloop.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
ContextThe optical interface inloop is a process wherein the signals over an SDH port are looped backat the overhead processing unit towards the backplane.
Figure 8-5 Optical interface inloop
SDH opticalinterface boardBackplane
SDH
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The optical interface outloop is a process wherein the signals over an SDH port are looped backat the overhead processing unit towards the remote equipment.
Figure 8-6 Optical interface outloop
SDH opticalinterface boardBackplane
SDH
The VC-4 path outloop is a process wherein the signals on a VC-4 path are looped back at thelogic processing unit towards the remote equipment.
Figure 8-7 VC-4 path outloop
SDH opticalinterface boardBackplane
VC-4
The VC-4 path inloop is a process wherein the signals on a VC-4 path are looped back at thelogic processing unit towards the backplane.
Figure 8-8 VC-4 path inloop
SDH opticalboardBackplane
VC-4
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Precautions
CAUTIONl The services may be interrupted at the port or on the path where the loopback is performed.
l A software loopback may be released automatically after a certain period (five minutes, bydefaults). For details, see 8.11 Setting the Automatic Release Function.
Procedure
Step 1 Select the SDH optical interface board from the Object Tree.
Step 2 Choose Configuration > SDH Interface from the Function Tree.
Step 3 Select By Function, and select the loopback mode from the drop-down list.
To Perform... Choose...
Optical interface loopback Optical(Electrical) Interface Loopback
VC-4 path loopback VC4 Loopback
Step 4 Set the loopback status of the port or path based on the requirements.
Step 5 Click Apply.Then, the Confirm dialog box is displayed.
Step 6 Click OK.
Step 7 Close the dialog box that is displayed.
----End
8.5.2 Setting Loopback for the Tributary BoardThe tributary board supports the tributary inloop and outloop.
Prerequisite
You must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and Materials
U2000
Context
The tributary inloop is a process wherein the signals over a PDH port are looped back at thecoding/decoding unit towards the backplane.
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Figure 8-9 Tributary inloop
PDH interface boardBackplane
PDH
The tributary outloop is a process wherein the signals on a tributary path are looped back at thePDH interface board of the local IDU towards the remote equipment.
Figure 8-10 Tributary outloop
PDH
PDH interface boardBackplane
Precautions
CAUTIONThe services may be interrupted on the port or on the path where the loopback is performed.
Procedure
Step 1 Select the PDH interface board from the Object Tree.
Step 2 Choose Configuration > PDH Interface from the Function Tree.
Step 3 Select By Function, and select Tributary Loopback from the drop-down list.
Step 4 Set the loopback status of the path based on the requirements.
Step 5 Click Apply.Then, the Confirm dialog box is displayed.
Step 6 Click OK.
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Step 7 Close the dialog box that is displayed.
----End
8.5.3 Setting a Loopback for the Ethernet Interface BoardThe Ethernet interface board supports the Ethernet port inloop (at the MAC layer and PHY layer).
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
ContextThe Ethernet port MAC inloop is a process wherein the Ethernet physical signals are loopedback at the service processing module of the board at the MAC layer towards the backplane.The Ethernet port PHY inloop is a process wherein the Ethernet frame signals are looped backat the interface module of the board at the PHY layer towards the backplane.
Figure 8-11 Ethernet port inloop
Ethernet serviceprocessing boardBackplane
PHYMAC
Precautions
CAUTIONl A loopback operation results in service interruption.
l A software loopback may be released automatically after a certain period (five minutes, bydefaults). For details, see 8.11 Setting the Automatic Release Function.
Procedure
Step 1 Select an Ethernet processing board from the Object Tree.
Step 2 Select the corresponding function options from the Function Tree based on the loopback type.
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To Perform... Choose...
PHY loopback 1. Choose Configuration > Interface Management > EthernetInterface from the Function Tree.
2. Click the Advanced Attributes tab.
MAC loopback 1. Choose Configuration > Interface Management > EthernetInterface from the Function Tree.
2. Click the Advanced Attributes tab.
Step 3 Set the loopback status of the port based on the requirements.
Step 4 Click Apply.Then, the Confirm dialog box is displayed.
Step 5 Click OK.
Step 6 Close the dialog box that is displayed.
----End
8.5.4 Setting Loopback for the IF BoardLoopbacks on the IF board are classified into IF port loopback, composite port loopback, andIF_ETH port MAC loopback. The IF1 board supports the IF port inloop, and IF port outloop.The IFU2 board supports the IF port inloop, IF port outloop, composite port inloop, compositeport outloop, and IF_ETH port MAC inloop. The IFX2 board supports the IF port inloop, IFport outloop, composite port inloop, composite port outloop, and IF_ETH port MAC inloop.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
ContextThe IF port inloop is a process wherein the IF signals are looped back at the modem unit towardsthe backplane.
Figure 8-12 IF port inloop
IF boardBackplane
IF signal
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The IF port outloop is a process wherein the IF signals are looped back at the modem unit of theboard towards the remote equipment.
Figure 8-13 IF port outloop
IF boardBackplaneIF signal
The composite port inloop is a process wherein the microwave baseband signal is looped backat the MUX/DEMUX unit of the board towards the backplane.
Figure 8-14 Composite port inloop
IF boardBackplaneMicrowave
baseband signal
The composite outloop is a process wherein the microwave baseband signal is looped back atthe MUX/DEMUX unit of the board towards the remote equipment.
Figure 8-15 Composite port outloop
IF boardBackplaneMicrowavebaseband
signal
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Precautions
CAUTIONl The services may be interrupted at the port or on the path where the loopback is performed.
l A software loopback may be released automatically after a certain period (five minutes, bydefaults). For details, see 8.11 Setting the Automatic Release Function.
l To perform the software loopback on the standby IF board of the 1+1 HSB/FD/SD protectiongroup, switch the standby IF board to the working state forcedly. Otherwise, the operationmay fail.
l Before performing the loopback operation for the IFU2/IFX2 board, disable the AM functionat both ends of the radio link.
Procedure
Step 1 Select the corresponding operation object from the Object Tree.
Option Description
To Perform... Choose...
IF port loopback IF board
Composite port loopback Hybrid IF board
MAC loopback NE
Step 2 Select the corresponding function options from the Function Tree based on the loopback type.
Option Description
To Perform... Choose...
IF port loopback 1. Choose Configuration > IF Interface from the Function Tree.2. Select By Function.3. Choose IF Port Loopback from the drop-down list.4. Select the port where the loopback needs to be performed and
set IF Port Loopback.
Composite port loopback 1. Choose Configuration > Digital Interface from the FunctionTree.
2. Select By Function.3. Choose Optical(Electrical) Interface Loopback from the
drop-down list.4. Select the port where the loopback needs to be performed and
set Optical (Electrical) Interface Loopback.
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Option Description
MAC loopback 1. Choose Configuration > Interface Management >Microwave Interface from the Function Tree.
2. Select Advanced Attributes.3. Select the port where the loopback needs to be performed and
set MAC Loopback.
Step 3 Click Apply.Then, the Confirm dialog box is displayed.
Step 4 Click OK to close the dialog box.Then, a dialog box is displayed.
Step 5 Close the dialog box that is displayed.
----End
8.5.5 Locating a Fault by Performing Loopback OperationsLoopback is a common method of locating the fault.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
Service TrailFigure 8-16 shows how to locate a fault by performing a loopback operation.
Figure 8-16 Service trail
IFboard
Cross-connectboard
SDHtributaryboard
ODU
NE2
IFboard
Cross-connectboard
SDHtributaryboard
ODU
NE3
Optical cable
IFboard
Cross-connectboard ODU
NE4
PDHtributaryboard
IFboard
Cross-connectboard ODU
NE1
PDHtributaryboard
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Procedure
Step 1 If the services are available on the radio links, perform the inter-station loopbacks to narrowdown the fault to a specific hop.
1. Set the outloops for the SDH optical interface boards on NE2 and NE3, and then performthe inter-station loopbacks to locate the fault.
Step 2 After the fault is located on the specific radio link, perform the intra-station loopbacks to narrowdown the fault to a specific NE or board.
1. Set inloop for the IF board on the NEs at both ends of the radio link where the fault occurs,to check whether the service receiver or the radio link is faulty.
2. If the fault is located in the service receiver, set outloop for the PDH tributary board tocheck whether the interface board or cross-connect board is faulty.
3. If the radio link is faulty, replace the IF board and ODU to check whether the IF board orODU is faulty.
----End
8.6 ResetReset is an important method of troubleshooting software faults. Reset is classified into coldreset, warm reset.
8.6.1 Cold ResetCold reset is a process wherein the board software is reset and the board is re-initiated. Thesoftware of each board runs as a software module in the CPU on the system control, cross-connect, and timing board. During the board initialization, the FPGA, if any, is re-loaded.
8.6.2 Warm ResetWarm reset is a process wherein the board software is reset but the board is not re-initiated. Thesoftware of each board runs as a software module in the CPU on the integrated board of thesystem control unit, cross-connect unit, and timing unit.
8.6.1 Cold ResetCold reset is a process wherein the board software is reset and the board is re-initiated. Thesoftware of each board runs as a software module in the CPU on the system control, cross-connect, and timing board. During the board initialization, the FPGA, if any, is re-loaded.
Prerequisite
You must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and Materials
U2000
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Precautions
CAUTIONCold reset causes service interruption because it is similar to the procedure of removing andinserting a board.
Procedure
Step 1 In NE Panel, right-click the board where the cold reset needs to be performed.
Step 2 Choose Cold Reset from the shortcut menu.Then, the Warning dialog box is displayed.
Step 3 Click OK.
Step 4 Close the dialog box that is displayed.
----End
8.6.2 Warm ResetWarm reset is a process wherein the board software is reset but the board is not re-initiated. Thesoftware of each board runs as a software module in the CPU on the integrated board of thesystem control unit, cross-connect unit, and timing unit.
Prerequisite
You must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and Materials
U2000
Precautions
During warm reset, the board software is reset but the services are not interrupted.
Procedure
Step 1 In NE Panel, right-click the board where the warm reset needs to be performed.
Step 2 Choose Warm Reset from the shortcut menu.Then, the Warning dialog box is displayed.
Step 3 Click OK.
Step 4 Close the dialog box that is displayed.
----End
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8.7 PRBS TestThe pseudorandom binary sequence (PRBS) test is an important method of network maintenanceand self-check.
8.7.1 Performing a PRBS Test for the Tributary BoardIf a special test tool is unavailable, you can perform the PRBS test by using the embedded testsystem on the tributary board.
8.7.2 Performing a PRBS Test for the IF BoardIf a special test tool is unavailable, you can perform the PRBS test by using the embedded testsystem on the IF board.
8.7.1 Performing a PRBS Test for the Tributary BoardIf a special test tool is unavailable, you can perform the PRBS test by using the embedded testsystem on the tributary board.
Prerequisite
You must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and Materials
U2000
Context
The OptiX RTN 950 supports the PRBS test in the tributary direction and in the cross-connectdirection.
The PRBS test in the tributary direction can be performed to check the connection between thetributary board and the DDF, as shown in Figure 8-17.
Figure 8-17 PRBS test in the tributary direction
PRBSTransmitter
PRBSRecevicer
PDH interface boardDDF frame
1
1 Loopback at the DDF frame
The PRBS test in the cross-connect direction can be performed to check the connection betweenthe tributary board and the remote NE, as shown in Figure 8-18.
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Figure 8-18 PRBS test in the cross-connect direction
Cross-connectboard
PRBStransmitter
PRBSreceiver
PDH interfaceboard IF board
NE at the local end NE at the opposite end
IN
OUT
VC-4 inloop orcomposite port inloop
IF port inloop IF port outloop1
2 3
2 3
IF board
1
a) IF board working as the line board
Cross-connect board
PRBStransmitter
PRBSreceiver
PDH interface board
NE at the local end NE at the opposite end
IN
OUT
VC-4 inloop Port inloop Port outloop1
2 3
2 3
SDH opticalinterface board
1
b) Line board working as the SDH optical interface board
Precautions
CAUTIONl During the PRBS test, the services in the tested path are interrupted.
l The PRBS test can be performed only in one path and in one direction at one time.
Procedure
Step 1 Set the loopback at the proper location. For details, see Figure 8-17 and Figure 8-18.
Step 2 Select the E1 interface board from the Object Tree.
Step 3 Choose Configuration > PRBS Test from the Function Tree.
Step 4 Select the port to be tested.
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Step 5 Set Duration and Measured in Time.NOTE
l The PRBS test supports three time units: one second, 10 minutes, and one hour.
l A maximum of 255 test cycles is permissible for the PRBS test.
Step 6 Optional: Select Accumulating Mode.
Step 7 Click Start to Test.A prompt is displayed.
Step 8 Click OK.
Step 9 When Process is displayed as 100%, click Query to check the test result.NOTE
The result of a PRBS test can be normal, error, or invalid.
l Invalid: indicates that no bit is received. In this case, the curve is yellow.
l Normal: indicates that the path is in normal state. In this case, the number of PRBSs is zero, and thecurve is green.
l Error: indicates that the path has errors. In this case, the number of total PRBSs is a non-zero number,and the curve is red.
----End
8.7.2 Performing a PRBS Test for the IF BoardIf a special test tool is unavailable, you can perform the PRBS test by using the embedded testsystem on the IF board.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
Precautions
Figure 8-19 PRBS test of the IF board
11
PRBStransmitter
PRBS
ODU
1
ODU
NE at the local end NE at the opposite endIF port outloop1
transmitter
IF board IF board
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CAUTIONl During the PRBS test, the services in the tested path are interrupted.
l The PRBS test can be performed only in one path and in one direction at one time.
l Before you perform the PRBS test for the standby IF board of a 1+1 HSB/FD/SD protectiongroup, you must switch the standby IF board to the working state.
l The standby IF unit does not support the PRBS test. To test the standby radio link, you needto power off the main ODU and perform the PRBS test on the main IF board. In this case,the PRBS signals are sent out of the standby IF board through the protection bus, thusimplementing the PRBS test of the radio link.
Procedure
Step 1 Perform an outloop on the IF board. For details, see 8.5.4 Setting Loopback for the IFBoard.
Step 2 Select the IF board from the Object Tree.
Step 3 Choose Configuration > PRBS Test from the Function Tree.
Step 4 Select the port to be tested.
Step 5 Set Duration and Measured in Time.
NOTE
l The time unit of the PRBS test can be one second, 10 minutes, or one hour.
l A maximum of 255 test cycles is permissible for the PRBS test.
Step 6 Optional: Select Accumulating Mode.
Step 7 Click Start to Test.A prompt is displayed.
Step 8 Click OK.
Step 9 When Process is displayed as 100%, click Query to check the test result.
NOTE
The result of a PRBS test can be normal, error, or invalid.
l Invalid: indicates that no bit is received. In this case, the curve is yellow.
l Normal: indicates that the path is in normal state. In this case, the number of PRBSs is zero, and thecurve is green.
l Error: indicates that the path has errors. In this case, the number of total PRBSs is a non-zero number,and the curve is red.
----End
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8.8 Querying the License CapacityYou can check whether the loaded license file meets the requirements by querying the licensecapacity.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Select the NE from the Object Tree in the NE Explorer.
Step 2 Choose Configuration > License Management.
Step 3 Click Query, browse the license capacity of the NE.
----End
8.9 Setting the On/Off State of the LaserWhen performing operations such as testing a fiber cut, you can set the on/off state of the laserrather than removing and re-inserting the optical fiber on site.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Select the desired SDH optical interface board from the Object Tree.
Step 2 Choose Configuration > SDH Interface from the Function Tree.
Step 3 Select By Function.
Step 4 Select Laser Switch from the drop-down list.
Step 5 Select a port, and then set Laser Switch.
Step 6 Click Apply.A confirmation dialog box is displayed.
Step 7 Click OK.
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A prompt is displayed.
Step 8 Click OK.
----End
8.10 Setting the ALS FunctionThe SDH optical interface board supports the automatic laser shutdown (ALS) function. Thisfunction enables the board to turn off a laser when the board does not transmit services, theoptical fiber is faulty, or the received optical signals are lost.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Select the desired SDH optical interface board from the Object Tree.
Step 2 Choose Configuration > Automatic Laser Shutdown from the Function Tree.
Step 3 Select a port, and then set Automatic Shutdown to Enabled.
Step 4 Click Apply to save the settings.
----End
8.11 Setting the Automatic Release FunctionTo protect the communication between the NMS and NE against improper operations, an NEsupports the automatic release of the ODU muting, software loopback, and other operations thatrequire you to exercise caution. The automatic release time is five minutes by default. You canset whether to enable the automatic release function and the automatic release time through theNMS.
PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Choose Configuration > NE Batch Configuration > Automatic Disabling of NE Functionfrom the Main Menu.
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Step 2 Select the desired NE from the Object Tree. Click .
Step 3 In Automatic Disabling of NE Function, set Auto Disabling and Auto Disabling Time(min).
Step 4 Click Apply to complete the settings for the automatic release function.
----End
8.12 Configuring the Performance Monitoring Status of NEsBy default, the performance monitoring of NEs is enabled. You can disable or enable thisfunction manually and set the period of the performance monitoring of NEs manually.
PrerequisiteYou must be an NM user with NE operator authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 In the NE Explorer, select the NE from the Object Tree, and then choose Performance > NEPerformance Monitoring Time from the Function Tree.
Step 2 Configure the parameters of the performance monitoring of NEs.1. Select 15-Minute or 24-Hour.2. Select Enabled or Disabled in Set 15-Minute Monitoring or Set 24-Hour Monitoring.3. Set the start time and end time of the performance monitoring of NEs.
NOTE
l Generally, both Set 15-Minute Monitoring and Set 24-Hour Monitoring are enabled.
l You can specify the start time of the performance monitoring function, only after selecting Enable inthe Set 15-Minute Monitoring or Set 24-Hour Monitoring area.
l You can specify the end time of the performance monitoring function, only after selecting Enable andthen selecting To in the Set 15-Minute Monitoring or Set 24-Hour Monitoring area.
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4. Click Apply, and then close the dialog box that is displayed.
----End
8.13 Querying the Impedance of an E1 ChannelThe impedance of an E1 channel is 75 ohms or 120 ohms, which cannot be set through the NMS.
Prerequisite
You must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and Materials
U2000
Procedure
Step 1 Select a PDH tributary board from the Object Tree.
Step 2 Choose Configuration > PDH Interface from the Function Tree.
Step 3 Select By Board/Port(Channel).
Step 4 Select Port in the list.
Step 5 Select a port, and check Port Impedance.
----End
8.14 Monitoring Ethernet Packets Through Port MirroringTo monitor and analyze the Ethernet packets at a port, you can enable the port mirroring functionso that the received or transmitted packets on the port are duplicated to another Ethernet port towhich the Ethernet tester is connected. Then, you can monitor and analyze the packets.
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PrerequisiteYou must be an NM user with NE maintainer authority or higher.
Tools, Equipment, and MaterialsU2000
ContextThe OptiX RTN 950 supports the mirroring, monitoring, and analyzing of the Ethernet packetsthat are received or transmitted on the port.
Figure 8-20 Schematic diagram of Ethernet port mirroring
Mirroringport
Ethernet processing unit
Monitoringport
Ethernetequipment
Ethernet testerDuplication
To monitor the data in different directions, port mirroring can be performed in the ingressdirection and in the egress direction.
l In the ingress directionAlso in the upstream direction. The equipment duplicates the packets received from themirroring port to the observing port, and then transmits the packets from the observing portto the Ethernet tester.
l In the egress directionAlso in the downstream direction. The equipment duplicates the packets transmitted by themirroring port to the observing port, and then transmits the packets from the observing portto the Ethernet tester.
NOTEThe Ethernet packets at Ethernet ports and IF_ETH ports can be monitored through the port mirroring function.
Procedure
Step 1 Select the desired NE from the Object Tree.
Step 2 Choose Configuration > Port Mirroring from the Function Tree.
Step 3 Click New. Set Direction, Mirror Listener Port, and Listened Port.
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Step 4 Click OK.
Step 5 Choose Configuration > Ethernet Interface Management > Port Mirroring from theFunction Tree.
----End
8.15 Querying the Attributes of an Ethernet PortThrough the operation, you can learn about the attributes of an Ethernet port, such as rate, MACaddress, and actual working mode.
Prerequisite
You must be an NM user with NE maintainer authority or higher.
Tools, Instruments, and Materials
U2000
Procedure
Step 1 Optional: Query the attributes of the FE or GE port.
1. In NE Explorer, select the required NE from the Object Tree.
2. Choose Configuration > Interface Management > Ethernet Interface from the FunctionTree.
3. Click the Advanced Attributes tab.
4. Check the parameters such as Port Physical Parameters, Transmitting Rate, andReceiving Rate.
Step 2 Optional: Querying the attributes of the IF_ETH port.
1. In NE Explorer, select the required NE from the Object Tree.
2. Choose Configuration > Interface Management > Microwave Interface from theFunction Tree.
3. Click the Advanced Attributes tab.
4. Check the parameters such as Transmitting Rate and Receiving Rate.
----End
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8.16 Switching the System Control Unit and the Cross-Connect Unit
When the OptiX RTN 950 is configured with two system control, cross-connect, and timingboards, you can manually switch the system control unit and the cross-connect unit as required.
PrerequisiteYou must be an NM user with NE operator authority or higher.
Tools, Equipment, and MaterialsU2000
Procedure
Step 1 Select the desired NE from the Object Tree.
Step 2 Choose Configuration > Board 1+1 Protection from the Function Tree.
Step 3 In 1+1 Protection List, select Cross-Connect Protection Pair.
Step 4 Perform the 1+1 protection switching on the board.
Option Description
If... Then...
Active Board is set to Working Board Click Working/Protection Switching.
Active Board is set to Protection Board Click Restore Working/Protection.
Step 5 In the prompt that is displayed, click OK.
----End
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A Alarm Reference
Alarms are important indicators when abnormalities occur on the equipment. This topicdescribes all the possible alarms on the OptiX RTN 950 and how to handle these alarms.
A.1 Alarm List (in Alphabetical Order)The following table lists all the possible alarms generated by the OptiX RTN 950 in alphabeticalorder.
A.2 Alarm List (Classified by Logical Boards)This part lists the alarms that are reported by each board.
A.3 Alarms and Handling ProceduresThis topic describes all the alarms on the OptiX RTN 950 in alphabetical order and how to handlethese alarms.
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A.1 Alarm List (in Alphabetical Order)The following table lists all the possible alarms generated by the OptiX RTN 950 in alphabeticalorder.
Table A-1 Alarm list
Alarm Name Description Alarm Severity
A_LOC Add to bus - loss of clock Major
AM_DOWNSHIFT The downshift of the AMscheme
Major
APS_FAIL The MS protectionswitching fails
Major
APS_INDI The MS protectionswitching occurs
Major
APS_MANUAL_STOP The MSP protocol isstopped manually
Minor
AU_AIS AU alarm indication Major
AU_LOP AU loss of pointer Major
B1_EXC Regenerator section (B1)excessive errors
Minor
B1_SD Regenerator section (B1)signal degraded
Minor
B2_EXC Multiplex section (B2)excessive errors
Major
B2_SD Multiplex section (B2)signal degraded
Minor
B3_EXC Higher order path (B3)excessive errors
Major
B3_SD Higher order path (B3)signal degraded
Minor
BD_NOT_INSTALLED Slot not installed with thecorresponding logicalboard
Minor
BD_STATUS Board not in position Major
BIP_EXC BIP excessive errors Minor
BIP_SD BIP signal degrade Minor
BIOS_STATUS BIOS status Major
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Alarm Name Description Alarm Severity
BOOTROM_BAD BOOTROM data checkfailure
Major
BUS_ERR Bus Errors Critical
CFCARD_FAILED CF card operation failed Major
CFCARD_FULL CF card capacity full Major
CFCARD_OFFLINE CF card offline Major
CFCARD_W_R_DISABLED Reading and writing theCF card disabled
Major
CONFIG_NOSUPPORT Configuration notsupported
Major
COMMUN_FAIL The inter-boardcommunication failure
Major
DBMS_ERROR Database error Major
DBMS_PROTECT_MODE Database in protectionmode
Critical
DOWN_E1_AIS 2M down signal alarmindication
Major
E1_LOC Loss of E1 uplink clock Major
E1_LOS Loss of 2M line signal Minor
MULTI_RPL_OWNER The ring network containsseveral RPL_OWNERnodes
Minor
ETH_CFM_LOC The loss of connectivity Critical
ETH_CFM_MISMERGE Misconnection Critical
ETH_CFM_RDI Remote end CCM packetreceiving failure
Minor
ETH_CFM_UNEXPERI Error frame alarm Critical
ETH_EFM_DF Negotiation failure Major
ETH_EFM_EVENT The performance eventreported on the oppositeNE
Major
ETH_EFM_LOOPBACK The loopback Major
ETH_EFM_REMFAULT The fault on the oppositeNE
Critical
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Alarm Name Description Alarm Severity
ETH_LOS The loss of Ethernet portconnection
Critical
ETHOAM_SELF_LOOP MAC port loopback ofpoint-to-point OAMprotocol
Major
EXT_SYNC_LOS The loss of the externalclock source
Critical
FAN_AGING An alarm of the aged fan Minor
FAN_FAIL The fan is faulty Major
FLOW_OVER The data flow received bythe Ethernet port exceedsthe threshold
Minor
HARD_BAD Hardware error Critical
HP_CROSSTR Higher order pathperformance overthreshold
Minor
HP_LOM Higher order path loss ofmultiframe
Major
HP_RDI Higher order path remotedefect indication
Minor
HP_REI Higher order path remoteerror indication
Warning
HP_SLM Higher order path signallabel mismatch
Minor
HP_TIM Higher order path traceidentifier mismatch
Minor
HP_UNEQ Higher order pathunequipped
Minor
HPAD_CROSSTR Higher order pathadaptation performanceover threshold
Minor
IF_CABLE_OPEN IF cable disconnected Major
IF_INPWR_ABN Abnormal input IF powerof the ODU
Major
IF_MODE_UNSUPPORTED Preset IF working modenot supported
Major
IN_PWR_HIGH Input power too high Critical
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Alarm Name Description Alarm Severity
IN_PWR_LOW Input power too low Critical
J0_MM Trace identifier mismatch Minor
K1_K2_M K1 and K2 mismatch Minor
K2_M K2 mismatch Minor
LAG_BWMM The bandwidthinconsistency in the LAGgroup
Major
LAG_DOWN The LAG is unavailable Major
LAG_MEMBER_DOWN A member port of a linkaggregation group (LAG)is unavailable
Minor
LASER_CLOSED The laser is shut down Major
LASER_MOD_ERR The type of the pluggableoptical module on theboard does not match thetype of the opticalinterface
Major
LASER_MOD_ERR_EX The type of the pluggableoptical module on theboard does not match thetype of the opticalinterface
Major
LCS_LIMITED Service capacityconfigured for the NEbeyond the authorizationrange of the license
Major
LCS_MISMATCH Boards in a protectiongroup are loaded withinconsistent license files
Major
LICENSE_LOST The NE fails to detect thelicense file
Major
LOOP_ALM A loop occurs Minor
LP_CROSSTR Threshold crossing ofperformance in the lowerorder path
Minor
LP_R_FIFO FIFO overflow on thereceiving side of the lowerorder path
Minor
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Alarm Name Description Alarm Severity
LP_RDI Lower order path remotereceiving defectindication
Minor
LP_REI Lower order path remoteerror indication
Minor
LP_RFI Lower order path remotefailure indication
Minor
LP_SIZE_ERR TU size error Minor
LP_SLM Lower order path signallabel mismatch
Minor
LP_T_FIFO FIFO overflow on thetransmission side of thelower order path
Minor
LP_TIM Lower order path traceidentifier mismatch
Minor
LP_UNEQ Lower order pathunequipped
Minor
LPS_UNI_BI_M Mismatch inunidirectional operationand bidirectionaloperation in linear MSP
Minor
LSR_NO_FITED Laser not installed Critical
LTI The synchronizationsources are lost
Major
MS_AIS Multiplex section alarmindication
Major
MS_CROSSTR Multiplex sectionperformance overthreshold
Minor
MS_RDI Multiplex section remotedefect indication
Minor
MS_REI Multiplex section remoteerror indication
Warning
MSAD_CROSSTR Multiplex sectionadaptation performanceover threshold
Minor
NESOFT_MM Master and slave softwaredifferent alarm
Major
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Alarm Name Description Alarm Severity
MW_BER_EXC Excessive microwave linkbit errors
Minor
MW_BER_SD Microwave link signaldegradation
Minor
MW_FEC_UNCOR Microwave FECuncorrectable
Minor
MW_LIM Microwave link identifiermismatch
Major
MW_LOF Loss of microwave frame Critical
MW_RDI Microwave link remotedefect indication
Minor
NESF_LOST Loss of NE software Critical
NESTATE_INSTALL NE in the installation state Critical
NP1_MANUAL_STOP N+1 protection protocolmanually disabled
Minor
NP1_SW_FAIL N+1 protection switchingfailed
Major
NP1_SW_INDI N+1 protection switchingindication
Major
POWER_ALM Power module alarm Major
POWER_ABNORMAL A power supply failure Major
R_F_RST Receiving FIFO reset Minor
R_LOC Receive loss of clock Critical
R_LOF Receive loss of frame Critical
R_LOS Receive loss of signal thesignals on the receive lineside
Critical
R_S_ERR Receive signal error Critical
RADIO_FADING_MARGIN_INSUFF
Insufficient radio fadingmargin
Minor
RADIO_MUTE Radio transmission mute Warning
RADIO_RSL_BEYONDTH The antennas are notaligned
Minor
RADIO_RSL_HIGH Too high radio receivepower
Critical
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Alarm Name Description Alarm Severity
RADIO_RSL_LOW Too low radio receivepower
Critical
RADIO_TSL_HIGH Too high radio transmitpower
Critical
RADIO_TSL_LOW Too low radio transmitpower
Critical
RELAY_ALARM_CRITICAL Critical alarm input Critical
RELAY_ALARM_MAJOR Major alarm input Major
RELAY_ALARM_MINOR Minor alarm input Minor
RELAY_ALARM_IGNORE Warning alarm input Ignor
RP_LOC Loss of receive phaselockring clock
Major
RPS_INDI Microwave protectionswitching alarm
Major
RS_CROSSTR Regenerator sectionperformance thresholdcrossing
Minor
RTC_FAIL The real-time clock (RTC)on the system controlboard fails
Major
S1_SYN_CHANGE Reference source changein S1_Mode
Major
SWDL_ACTIVATED_TIME-OUT
The activation timeout ofthe software package
Critical
SWDL_AUTOMATCH_INH The automatic matchfunction is disabled
Minor
SWDL_CHGMNG_NO-MATCH
The board softwareversion and the runningsoftware version areinconsistent
Critical
SWDL_COMMIT_FAIL The commissionoperation on the NE fails
Minor
SWDL_INPROCESS The package diffusion isin process on the NE
Warning
SWDL_NEPKGCHECK Files of the package storedin the flash memory of theNE are lost
Critical
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Alarm Name Description Alarm Severity
SWDL_PKG_NOBDSOFT Certain board software ismissing from the softwarepackage during the fullpackage diffusion
Minor
SWDL_PKGVER_MM Consistency check of thesoftware package versionfails
Critical
SWDL_ROLLBACK_FAIL The rollback on the NEfails
Minor
SYNC_C_LOS Synchronous source levelloss
Warning
T_ALOS E1 interface loss of analogsignal
Major
T_F_RST Transmit FIFO reset Minor
T_LOC Transmit loss of clock Major
TEMP_ALARM Temperature overthreshold
Minor
THUNDERALM The lightning protectionfailure
Minor
TU_AIS TU alarm indication Major
TU_LOP TU loss of pointer Major
UP_E1_AIS 2M up signal alarmindication
Minor
VOLT_LOS Loss of voltage Major
WRG_BD_TYPE Wrong board type Major
WRG_DEV_TYPE Wrong device type Critical
XPIC_LOS Loss of XPIC signal Critical
A.2 Alarm List (Classified by Logical Boards)This part lists the alarms that are reported by each board.
A.2.1 CST
APS_FAIL APS_INDI APS_MANUAL_STOP
BD_NOT_INSTALLED
BD_STATUS
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BOOTROM_BAD
CFCARD_FAILED
CFCARD_FULL
CFCARD_OFFLINE
CFCARD_W_R_DISABLED
DBMS_ERROR
DBMS_PROTECT_MODE
EXT_SYNC_LOS
HARD_BAD K1_K2_M
K2_M LCS_MISMATCH
LPS_UNI_BI_M
LTI NESOFT_MM
NESF_LOST NESTATE_INSTALL
NP1_MANUAL_STOP
NP1_SW_FAIL NP1_SW_INDI
POWER_ALM RPS_INDI RTC_FAIL S1_SYN_CHANGE
SWDL_ACTIVATED_TIMEOUT
SWDL_AUTOMATCH_INH
SWDL_CHGMNG_NOMATCH
SWDL_COMMIT_FAIL
SWDL_INPROCESS
SWDL_NEPKGCHECK
SWDL_PKG_NOBDSOFT
SWDL_PKGVER_MM
SWDL_ROLLBACK_FAIL
SYNC_C_LOS TEMP_ALARM
WRG_BD_TYPE
WRG_DEV_TYPE
BIOS_STATUS
- -
A.2.2 CSHAPS_FAIL APS_INDI APS_MANUA
L_STOPBD_NOT_INSTALLED
BD_STATUS
BOOTROM_BAD
CFCARD_FAILED
CFCARD_FULL
CFCARD_OFFLINE
CFCARD_W_R_DISABLED
DBMS_ERROR
DBMS_PROTECT_MODE
EXT_SYNC_LOS
HARD_BAD K1_K2_M
K2_M LAG_BWMM LCS_MISMATCH
LPS_UNI_BI_M
LTI
NESOFT_MM NESF_LOST NESTATE_INSTALL
NP1_MANUAL_STOP
NP1_SW_FAIL
NP1_SW_INDI POWER_ALM RPS_INDI RTC_FAIL S1_SYN_CHANGE
SWDL_ACTIVATED_TIMEOUT
SWDL_AUTOMATCH_INH
SWDL_CHGMNG_NOMATCH
SWDL_COMMIT_FAIL
SWDL_INPROCESS
SWDL_NEPKGCHECK
SWDL_PKG_NOBDSOFT
SWDL_PKGVER_MM
SWDL_ROLLBACK_FAIL
SYNC_C_LOS
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TEMP_ALARM
WRG_BD_TYPE
WRG_DEV_TYPE
BIOS_STATUS
-
A.2.3 IF1AU_AIS AU_LOP B1_EXC B1_SD B2_EXC
B2_SD B3_EXC B3_SD BD_STATUS HARD_BAD
HP_CROSSTR HP_LOM HP_RDI HP_REI HP_SLM
HP_TIM HP_UNEQ IF_CABLE_OPEN
IF_MODE_UNSUPPORTED
LCS_LIMITED
LICENSE_LOST
LOOP_ALM MS_AIS MS_CROSSTR MS_RDI
MS_REI MSAD_CROSSTR
MW_FEC_UNCOR
MW_LIM MW_LOF
MW_RDI R_LOC R_LOF R_LOS RS_CROSSTR
T_LOC TEMP_ALARM
VOLT_LOS WRG_BD_TYPE
-
A.2.4 IFU2AM_DOWNSHIFT
BD_STATUS BIP_EXC BIP_SD BUS_ERR
HARD_BAD IF_CABLE_OPEN
LCS_LIMITED LICENSE_LOST
LOOP_ALM
LP_RDI LP_REI LP_UNEQ MW_BER_EXC
MW_BER_SD
MW_FEC_UNCOR
MW_LIM MW_LOF MW_RDI R_LOC
R_LOF TEMP_ALARM
TU_AIS TU_LOP VOLT_LOS
WRG_BD_TYPE
MW_CFG_MISMATCH
- - -
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A.2.5 IFX2
AM_DOWNSHIFT
BD_STATUS BIP_EXC BIP_SD BUS_ERR
HARD_BAD IF_CABLE_OPEN
LCS_LIMITED LICENSE_LOST
LOOP_ALM
LP_RDI LP_REI LP_UNEQ MW_BER_EXC
MW_BER_SD
MW_FEC_UNCOR
MW_LIM MW_LOF MW_RDI R_LOC
R_LOF TEMP_ALARM
TU_AIS TU_LOP VOLT_LOS
WRG_BD_TYPE
XPIC_LOS MW_CFG_MISMATCH
- -
A.2.6 SL1D
AU_AIS AU_LOP B1_EXC B1_SD B2_EXC
B2_SD B3_EXC B3_SD BD_STATUS HARD_BAD
HP_CROSSTR HP_LOM HP_RDI HP_REI HP_SLM
HP_TIM HP_UNEQ IN_PWR_HIGH
IN_PWR_LOW J0_MM
LASER_CLOSED
LASER_MOD_ERR_EX
LOOP_ALM LSR_NO_FITED
MS_AIS
MS_CROSSTR MS_RDI MS_REI MSAD_CROSSTR
R_LOC
R_LOF R_LOS RS_CROSSTR T_LOC WRG_BD_TYPE
A.2.7 EM6T
BD_STATUS COMMUN_FAIL
ETH_CFM_LOC
ETH_CFM_MISMERGE
ETH_CFM_RDI
ETH_CFM_UNEXPERI
ETH_EFM_DF ETH_EFM_EVENT
ETH_EFM_LOOPBACK
ETH_EFM_REMFAULT
ETH_LOS ETHOAM_SELF_LOOP
FLOW_OVER HARD_BAD LAG_DOWN
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LAG_MEMBER_DOWN
LOOP_ALM MULTI_RPL_OWNER
TEMP_ALARM
WRG_BD_TYPE
A.2.8 EM6F
BD_STATUS COMMUN_FAIL
ETH_CFM_LOC
ETH_CFM_MISMERGE
ETH_CFM_RDI
ETH_CFM_UNEXPERI
ETH_EFM_DF ETH_EFM_EVENT
ETH_EFM_LOOPBACK
ETH_EFM_REMFAULT
ETH_LOS ETHOAM_SELF_LOOP
FLOW_OVER HARD_BAD LAG_DOWN
LAG_MEMBER_DOWN
LASER_MOD_ERR
WRG_BD_TYPE
LOOP_ALM LSR_NO_FITED
MULTI_RPL_OWNER
TEMP_ALARM
- - -
A.2.9 SP3S/SP3D
A_LOC BD_STATUS BIP_EXC BIP_SD DOWN_E1_AIS
E1_LOC E1_LOS HARD_BAD HPAD_CROSSTR
LOOP_ALM
LP_CROSSTR LP_R_FIFO LP_RDI LP_REI LP_RFI
LP_SIZE_ERR LP_SLM LP_T_FIFO LP_TIM LP_UNEQ
R_F_RST R_S_ERR RP_LOC T_ALOS T_F_RST
TU_AIS TU_LOP UP_E1_AIS WRG_BD_TYPE
-
A.2.10 AUX
BD_STATUS HARD_BAD RELAY_ALARM_CRITICAL
RELAY_ALARM_IGNORE
RELAY_ALARM_MAJOR
RELAY_ALARM_MINOR
WRG_BD_TYPE
- - -
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A.2.11 PIU
BD_STATUS POWER_ABNORMAL
THUNDERALM WRG_BD_TYPE
A.2.12 FAN
BD_STATUS FAN_AGING FAN_FAIL POWER_ALM WRG_BD_TYPE
A.2.13 ODU
BD_STATUS CONFIG_NOSUPPORT
HARD_BAD IF_INPWR_ABN
LOOP_ALM POWER_ALM RADIO_FADING_MARGIN_INSUFF
RADIO_MUTE
RADIO_RSL_BE-YONDTH
RADIO_RSL_HIGH
RADIO_RSL_LOW RADIO_TSL_HIGH
RADIO_TSL_LOW TEMP_ALARM WRG_BD_TYPE -
A.3 Alarms and Handling ProceduresThis topic describes all the alarms on the OptiX RTN 950 in alphabetical order and how to handlethese alarms.
A.3.1 A_LOC
Description
The A_LOC is an alarm indicating that a clock signal is lost in the uplink bus.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
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Impact on the SystemWhen the A_LOC alarm occurs, the services carried by the board are interrupted.
Possible CausesCause 1: Board failure occurs.
Procedure
Step 1 Cause 1: Board failure occurs.(1) Replace the board where the tributary unit that reports the alarm is located.
----End
Related InformationNone.
A.3.2 AM_DOWNSHIFT
DescriptionThe AM_DOWNSHIFT is an alarm indicating the downshift of the AM scheme. This alarmoccurs when the AM scheme is downshifted from the highest-efficiency scheme to the lower-efficiency scheme. When the AM scheme is upshifted from the lower-efficiency scheme to thehighest-efficiency scheme, this alarm is cleared.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersNone.
Impact on the SystemWhen the AM_DOWNSHIFT alarm occurs, the transmission capacity is reduced.
Possible CausesThe possible cause of the AM_DOWNSHIFT alarm is that working channels are degraded.l Cause 1: The external factors (for example, the climate) cause the degradation of the
working channels.l Cause 2: There are interferences around the working channels.
l Cause 3: The ODU at the transmit end has abnormal transmit power.
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l Cause 4: The ODU at the receive end has abnormal receive power.
Procedure
Step 1 Cause 1: The external factors (for example, the climate) cause the degradation of the workingchannels.
(1) When the external factors (for example, the climate) cause the degradation of the workingchannels, the downshift of the AM scheme is normal. Hence, no measures should be takento handle the alarm.
Step 2 Cause 2: There are interferences around the working channels.
(1) Eliminate the interferences around the working channels.
Step 3 Cause 3: The ODU at the transmit end has abnormal transmit power.
(1) Use the NMS to check whether the transmit power of the ODU at the transmit end is normal.For details on troubleshooting at the transmit end, see Troubleshooting MicrowaveLinks.
Step 4 Cause 4: The ODU at the receive end has abnormal receive power.
(1) Use the NMS to check whether the receive power of the ODU at the receive end is normal.For details on troubleshooting at the receive end, see Troubleshooting MicrowaveLinks.
----End
Related Information
None.
A.3.3 APS_FAIL
Description
The APS_FAIL is an alarm indicating that the MS protection switching fails.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 Indicates the type of the protection group.
l 0x01: linear MS protection
l 0x02: ring MS protection
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the System
When the APS_FAIL alarm occurs, the services cannot be switched. If the current paths areunavailable, the services are interrupted.
Possible Causesl Cause 1: The parameters of the MSP protocol are set incorrectly.
l Cause 2: The parameters of the MSP protocol are lost.
Procedure
Step 1 Cause 1: The parameters of the MSP protocol are set incorrectly.(1) Check whether the parameters of the MSP protocol are set correctly.
If... Then...
The parameters are set incorrectly Set the parameters correctly.
The parameters are set correctly Go to the next step.
Step 2 Cause 2: The parameters of the MSP protocol are lost.(1) Check whether the MSP protocol is normal on the network.(2) Check whether the MSP protocol is normal on the network. For details, see Enabling/
Disabling the linear MSP protocol.
If... Then...
The alarm is cleared after the protocol isrestarted
End the alarm handling.
The alarm persists after the protocol isrestarted
Contact Huawei engineers to handle thealarm.
----End
Related Information
None.
A.3.4 APS_INDI
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DescriptionThe APS_INDI is an alarm indicating that the MS protection switching occurs.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the type of the protection group.
l 0x01: linear MS protection.
l 0x02: ring MS protection.
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the SystemDuring the switching (≤ 50 ms), the service is interrupted. After the switching is complete, theservices are restored to normal. In the case of 1:N protection, after the switching starts and beforethe switching is complete, the extra traffic is interrupted.
Possible CausesCause 1: The linear MS protection switching occurs.
Procedure
Step 1 Cause 1: The linear MS protection switching occurs.(1) Query the linear MSP group.(2) Check whether the MSP protocol is in the manual switching state, forced switching state,
or locked switching state. If yes, release the switching and check whether the alarm iscleared.
(3) Check whether the MSP protocol is in the automatic switching state. Do as follows:
a. Handle the R_LOS, R_LOF, MS_AIS, B2_EXC, or B2_SD alarm that the equipmentreports. After the alarms are cleared, wait until the MSP protocol is changed from theautomatic switching state to the normal state. Then, check whether the APS_INDIalarm is cleared.
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b. Check whether the service board configured with the MSP protocol is faulty. If yes,replace the faulty board and then check whether the APS_INDI alarm is cleared.
c. Check whether the currently working system control and cross-connect board is faulty.If the currently working system control and cross-connect board is faulty and aprotection system control and cross-connect board is available, switch the service tothe protection system control and cross-connect board and replace the faulty systemcontrol and cross-connect board. Then, check whether the APS_INDI alarm iscleared.
----End
Related Information
None.
A.3.5 APS_MANUAL_STOP
Description
The APS_MANUAL_STOP is an alarm indicating that the MSP protocol is stopped manually.
Attribute
Alarm Severity Alarm Type
Minor Processing alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the type of the protection group.
l 0x01: linear MS protection.
l 0x02: ring MS protection.
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the System
When the APS_MANUAL_STOP alarm occurs, the MSP protocol may fail and thus theprotection switching may fail.
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Possible CausesCause 1: The MSP protocol is stopped manually.
Procedure
Step 1 Cause 1: The MSP protocol is stopped manually.(1) Enable/Disable the linear MSP protocol.
----End
Related InformationNone.
A.3.6 AU_AIS
DescriptionThe AU_AIS is an alarm indicating the administrative unit (AU). This alarm occurs when theboard detects the AU pointer of all 1s for three consecutive frames.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersNone.
Impact on the SystemWhen the AU_AIS alarm occurs, the service in the AU-4 path that reports the alarm isinterrupted. If the service is configured with protection, protection switching may be triggered.
Possible Causesl Cause 1: The opposite NE inserts the AU_AIS alarm.
l Cause 2: The transmit unit of the opposite NE is faulty.
l Cause 3: The receive unit of the local NE is faulty.
Procedure
Step 1 Cause 1: The opposite NE inserts the AU_AIS alarm.
If... Then...
The alarm that triggers the AU_AIS insertion occurs Clear the alarm immediately.
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If... Then...
No such alarms that trigger the AU_AIS insertion occur Go to Cause 2.
Step 2 Cause 2: The transmit unit of the opposite NE is faulty.(1) Replace the board where the line unit is located or the IF board.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Go to the next step.
(2) Replace the system control board on the opposite NE.
Step 3 Cause 3: The receive unit of the local NE is faulty.(1) Replace the board that reports the alarm.
----End
Related InformationNone.
A.3.7 AU_LOP
DescriptionThe AU_LOP is an alarm indicating the loss of the AU pointer. This alarm occurs when a boarddetects the AU pointer of invalid values or with the NDF for eight consecutive frames.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersNone.
Impact on the SystemWhen the AU_LOP alarm occurs, the service in the AU-4 path that reports the alarm isinterrupted. If the service is configured with protection, protection switching may be triggered.
Possible Causesl Cause 1: The transmit unit of the opposite NE is faulty.
l Cause 2: The receive unit of the local NE is faulty.
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Procedure
Step 1 Cause 1: The transmit unit of the opposite NE is faulty.(1) Replace the board where the line unit is located on the opposite NE.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Go to the next step.
(2) Replace the system control board on the opposite NE.
Step 2 Cause 2: The receive unit of the local NE is faulty.(1) Replace the board that reports the alarm.
----End
Related InformationNone.
A.3.8 B1_EXC
DescriptionThe B1_EXC is an alarm indicating that the B1 errors (in the regenerator section) exceed thethreshold. This alarm occurs when the board detects that the B1 errors exceed the preset B1_EXCalarm threshold (10-3 by default).
An IF board that works in PDH mode may also report this alarm. This alarm is detected by usingthe self-defined overhead byte B1 in PDH microwave frames.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersNone.
Impact on the SystemWhen the B1_EXC alarm occurs, the services on the port are interrupted.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interface
board).
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l Cause 2: The line performance degrades (if the alarm is reported by an IF board).
l Cause 3: The network clock quality degrades.
l Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).
l Cause 5: The board is faulty (if the alarm is reported by an IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).
(1) Check whether the transmit power at the opposite end and the receive power at the localend meet the specifications of the optical interfaces. For details, see 8.3.5 BrowsingCurrent Performance Events.
If... Then...
The transmit power of the opposite NE isover low
Replace the board where the SDHoptical interface unit is located on theopposite NE.
The transmit power of the opposite NE isnormal, but the receive power of the localNE is close to the value (for example,within ±3 dB) of the receiver sensitivity.
The fiber is faulty. Go to the next step.
(2) Exchange the core fibers of the optical cables in the receive and transmit directions of achannel.
If... Then...
The errors vary with the change of the fiber The fiber is faulty. Go to the next step.
The errors do not vary with the change of thefiber.
Ensure that the board is normal.
(3) If the fiber is faulty, check whether the fiber jumper from the equipment to the opticaldistribution frame (ODF) and the fiber that is led out of the equipment room are pressed,and whether the fiber connector is dirty. If yes, replace the fiber jumper or fiber connector.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an IF board).
(1) Check whether the MW_FEC_UNCOR or RPS_INDI alarm is reported. If yes, clear thealarm.
Step 3 Cause 3: The network clock quality degrades.
(1) Check the network clock status of the NE that reports the alarm.
If... Then...
The clock source of the local NE isdifferent from the clock source of theopposite NE
The clock may become asynchronous and B1errors may occur. Reconfigure the clocksource, and ensure that the clock issynchronized on the local NE and oppositeNE.
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If... Then...
The clock of the local NE and the clockof the opposite NE form a timing loop
This may cause errors and even serviceinterruption. In this case, reconfigure the clocksource and release the timing loop.
Step 4 Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).(1) The board of the SDH line unit on the local NE is faulty. Loop back the optical interfaces
of the NE by using a fiber jumper to locate the fault.
If... Then...
The fault is not rectified after the opticalinterfaces are looped back
Replace the board where the tributaryunit that reports the alarm is located onthe local NE.
The fault is rectified after the opticalinterfaces are looped back
Replace the board where the line unit islocated on the opposite NE.
Step 5 Cause 5: The board is faulty (if the alarm is reported by an IF board).(1) Perform an inloop for the multiplexing interface of the IF board on the local NE.
If... Then...
The fault is not rectified after themultiplexing interface is looped back
Replace the IF board that reports thealarm on the local NE.
The fault is rectified after the multiplexinginterface is looped back
Replace the IF board that reports thealarm on the opposite NE.
----End
Related Information
Handle the errors of TDM services.
A.3.9 B1_SD
Description
The B1_SD is an alarm indicating that the signal degrades due to the excessive B1 errors (in theregenerator section). This alarm occurs when the board detects that the B1 errors exceed thepreset B1_SD alarm threshold (10-6 by default) but do not reach the preset B1_EXC alarmthreshold (10-3 by default).
An IF board that works in PDH mode may also report this alarm. This alarm is detected by usingthe self-defined overhead byte B1 in PDH microwave frames.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
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Parameters
None.
Impact on the System
When the B1_SD alarm occurs, the service performance on the port degrades.
If the alarm is reported by an IF board and the equipment is configured with the 1+1 FD/SDprotection, the HSM switching is triggered.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interface
board).l Cause 2: The line performance degrades (if the alarm is reported by an IF board).
l Cause 3: The network clock quality degrades.
l Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).
l Cause 5: The board is faulty (if the alarm is reported by an IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).(1) Check whether the transmit power at the opposite end and the receive power at the local
end meet the specifications of the optical interfaces. For details, see 8.3.5 BrowsingCurrent Performance Events.
If... Then...
The transmit power of the opposite NE isover low
Replace the board where the SDHoptical interface unit is located on theopposite NE.
The transmit power of the opposite NE isnormal, but the receive power of the localNE is close to the value (for example,within ±3 dB) of the receiver sensitivity
The fiber is faulty. Go to the next step.
(2) Exchange the core fibers of the optical cables in the receive and transmit directions of achannel.
If... Then...
The errors vary with the change of the fiber The fiber is faulty. Go to the next step.
The errors do not vary with the change of thefiber
Ensure that the board is normal.
(3) If the fiber is faulty, check whether the fiber jumper from the equipment to the opticaldistribution frame (ODF) and the fiber that is led out of the equipment room are pressed,and whether the fiber connector is dirty. If yes, replace the fiber jumper or fiber connector.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an IF board).
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(1) Check whether the MW_FEC_UNCOR alarm is generated. If yes, clear the alarm.
Step 3 Cause 3: The network clock quality degrades.(1) Check the network clock status of the NE that reports the alarm.
If... Then...
The clock source of the local NE isdifferent from the clock source of theopposite NE
The clock may become asynchronous anderrors may occur. Reconfigure the clocksource, and ensure that the clock issynchronized on the local NE and oppositeNE.
The clock of the local NE and the clockof the opposite NE form a timing loop
This may cause errors and even serviceinterruption. In this case, reconfigure the clocksource and release the timing loop.
Step 4 Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).(1) The SDH optical line board of the local NE is faulty. Loop back the optical interfaces of
the NE by using a fiber jumper to locate the fault.
If... Then...
The fault is not rectified after the opticalinterfaces are looped back
Replace the board where the tributaryunit that reports the alarm is located onthe local NE.
The fault is rectified after the opticalinterfaces are looped back
Replace the board where the line unit islocated on the opposite NE.
Step 5 Cause 5: The board is faulty (if the alarm is reported by an IF board).(1) Perform an inloop for the multiplexing interface of the IF board on the local NE.
If... Then...
The fault is not rectified after themultiplexing interface is looped back
Replace the IF board that reports thealarm on the local NE.
The fault is rectified after the multiplexinginterface is looped back
Replace the IF board that reports thealarm on the opposite NE.
----End
Related InformationHandle the errors of TDM services.
A.3.10 B2_EXC
DescriptionThe B2_EXC is an alarm indicating that the B2 errors (in the multiplex section) exceed thethreshold. This alarm occurs when the board detects that the number of B2 errors exceeds thepreset B2_EXC alarm threshold (10-3 by default).
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Attribute
Alarm Severity Alarm Type
Major Service alarm
Parameters
None.
Impact on the System
The services on the port are interrupted.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interface
board).
l Cause 2: The line performance degrades (if the alarm is reported by an IF board).
l Cause 3: The network clock quality degrades.
l Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).
l Cause 5: The board is faulty (if the alarm is reported by an IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).
(1) Check whether the transmit power at the opposite end and the receive power at the localend meet the specifications of the optical interfaces. For details, see 8.3.5 BrowsingCurrent Performance Events.
If... Then...
The transmit power of the opposite NE isover low
Replace the board where the SDHoptical interface unit is located on theopposite NE.
The transmit power of the opposite NE isnormal, but the receive power of the localNE is close to the value (for example,within ±3 dB) of the receiver sensitivity
The fiber is faulty. Go to the next step.
(2) Exchange the core fibers of the optical cables in the receive and transmit directions of achannel to locate the fault.
If... Then...
The errors vary with the change of the fiber The fiber is faulty. Go to the next step.
The errors do not vary with the change of thefiber
Ensure that the board is normal.
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(3) If the fiber is faulty, check whether the fiber jumper from the equipment to the opticaldistribution frame (ODF) and the fiber that is led out of the equipment room are pressed,and whether the fiber connector is dirty. If yes, replace the fiber jumper or fiber connector.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an IF board).(1) Check whether the MW_FEC_UNCOR or RPS_INDI alarm is reported. If yes, clear the
alarm.
Step 3 Cause 3: The network clock quality degrades.(1) Check the network clock status of the NE that reports the alarm.
If... Then...
The clock source of the local NE isdifferent from the clock source of theopposite NE
The clock may become asynchronous anderrors may occur. Reconfigure the clocksource, and ensure that the clock issynchronized on the local NE and oppositeNE.
The clock of the local NE and the clockof the opposite NE form a timing loop
This may cause errors and even serviceinterruption. In this case, reconfigure the clocksource and release the timing loop.
Step 4 Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).(1) The board of the SDH line unit on the local NE is faulty. Loop back the optical interfaces
of the NE by using a fiber jumper to locate the fault.
If... Then...
The fault is not rectified after the opticalinterfaces are looped back
Replace the board where the tributaryunit that reports the alarm is located onthe local NE.
The fault is rectified after the opticalinterfaces are looped back
Replace the board where the line unit islocated on the opposite NE.
Step 5 Cause 5: The board is faulty (if the alarm is reported by an IF board).(1) Perform an inloop for the multiplexing interface of the IF board on the local NE.
If... Then...
The fault is not rectified after themultiplexing interface is looped back
Replace the IF board that reports thealarm on the local NE.
The fault is rectified after the multiplexinginterface is looped back
Replace the IF board that reports thealarm on the opposite NE.
----End
Related Information
Handle the errors of TDM services.
A.3.11 B2_SD
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DescriptionThe B2_SD is an alarm indicating that the signal degrades due to the excessive B2 errors (in themultiplex section). This alarm occurs when the board detects that the number of B2 errorsexceeds the preset B2_EXC alarm threshold (10-6 by default).
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersNone.
Impact on the SystemThe service performance on the port degrades.
If the alarm is reported by an IF board and the equipment is configured with the 1+1 FD/SDprotection, the HSM switching is triggered.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interface
board).l Cause 2: The line performance degrades (if the alarm is reported by an IF board).
l Cause 3: The network clock quality degrades.
l Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).
l Cause 5: The board is faulty (if the alarm is reported by an IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).(1) Check whether the transmit power at the opposite end and the receive power at the local
end meet the specifications of the optical interfaces. For details, see 8.3.5 BrowsingCurrent Performance Events.
If... Then...
The transmit power of the opposite NE isover low
Replace the board where the SDHoptical interface unit is located on theopposite NE.
The transmit power of the opposite NE isnormal, but the receive power of the localNE is close to the value (for example,within ± 3dB) of the receiver sensitivity
The fiber is faulty. Go to the next step.
(2) Exchange the core fibers of the optical cables in the receive and transmit directions of achannel to locate the fault.
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If... Then...
The errors vary with the change of the fiber The fiber is faulty. Go to the next step.
The errors do not vary with the change of thefiber
Ensure that the board is normal.
(3) If the fiber is faulty, check whether the fiber jumper from the equipment to the opticaldistribution frame (ODF) and the fiber that is led out of the equipment room are pressed,and whether the fiber connector is dirty. If yes, replace the fiber jumper or fiber connector.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an IF board).(1) Check whether the MW_FEC_UNCOR alarm is generated. If yes, clear the alarm.
Step 3 Cause 3: The network clock quality degrades.(1) Check the network clock status of the NE that reports the alarm.
If... Then...
The clock source of the local NE isdifferent from the clock source of theopposite NE
The clock may become asynchronous anderrors may occur. Reconfigure the clocksource, and ensure that the clock issynchronized on the local NE and oppositeNE.
The clock of the local NE and the clockof the opposite NE form a timing loop
This may cause errors and even serviceinterruption. In this case, reconfigure the clocksource and release the timing loop.
Step 4 Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).(1) The SDH optical/electrical line board of the local NE is faulty. Loop back the optical
interfaces of the station by using a fiber jumper to locate the fault.
If... Then...
The fault is not rectified after the opticalinterfaces are looped back
Replace the board where the tributaryunit that reports the alarm is located onthe local NE.
The fault is rectified after the opticalinterfaces are looped back
Replace the board where the line unit islocated on the opposite NE.
Step 5 Cause 5: The board is faulty (if the alarm is reported by an IF board).(1) Perform an inloop for the multiplexing interface of the IF board on the local NE.
If... Then...
The fault is not rectified after themultiplexing interface is looped back
Replace the IF board that reports thealarm on the local NE.
The fault is rectified after the multiplexinginterface is looped back
Replace the IF board that reports thealarm on the opposite NE.
----End
Related InformationHandle the errors of TDM services.
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A.3.12 B3_EXC
Description
The B3_EXC is an alarm indicating that the B3 errors (in the higher order path) exceed thethreshold. This alarm occurs when the board detects that the number of B3 errors exceeds thepreset B3_EXC alarm threshold (10-3 by default).
Attribute
Alarm Severity Alarm Type
Major Service alarm
Parameters
None.
Impact on the System
When the B3_EXC alarm occurs, the service on the path that reports the alarm is interrupted.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interface
board).l Cause 2: The line performance degrades (if the alarm is reported by an IF board).
l Cause 3: The network clock quality degrades.
l Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).
l Cause 5: The board is faulty (if the alarm is reported by an IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).(1) Check whether the transmit power at the opposite end and the receive power at the local
end meet the specifications of the optical interfaces. For details, see 8.3.5 BrowsingCurrent Performance Events.
If... Then...
The transmit power of the opposite NE isover low
Replace the board where the SDHoptical interface unit is located on theopposite NE.
The transmit power of the opposite NE isnormal, but the receive power of the localNE is close to the value (for example,within ±3 dB) of the receiver sensitivity
The fiber is faulty. Go to the next step.
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(2) Exchange the core fibers of the optical cables in the receive and transmit directions of achannel to locate the fault.
If... Then...
The errors vary with the change of the fiber The fiber is faulty. Go to the next step.
The errors do not vary with the change of thefiber
Ensure that the board is normal.
(3) If the fiber is faulty, check whether the fiber jumper from the equipment to the opticaldistribution frame (ODF) and the fiber that is led out of the equipment room are pressed,and whether the fiber connector is dirty. If yes, replace the fiber jumper or fiber connector.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an IF board).(1) Check whether the MW_FEC_UNCOR or RPS_INDI alarm is reported. If yes, clear the
alarm.
Step 3 Cause 3: The network clock quality degrades.(1) Check the network clock status of the NE that reports the alarm.
If... Then...
The clock source of the local NE isdifferent from the clock source of theopposite NE
In this case, the clock may becomeasynchronous and errors may occur.Reconfigure the clock source, and ensure thatthe clock is synchronized on the local NE andopposite NE.
The clock of the local NE and the clockof the opposite NE form a timing loop
This may cause errors and even serviceinterruption. In this case, reconfigure the clocksource and release the timing loop.
Step 4 Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).(1) The board of the SDH line unit on the local NE is faulty. Loop back the optical interfaces
of the NE by using a fiber jumper to locate the fault.
If... Then...
The fault is not rectified after the opticalinterfaces are looped back
Replace the board where the tributaryunit that reports the alarm is located onthe local NE.
The fault is rectified after the opticalinterfaces are looped back
Replace the board where the line unit islocated on the opposite NE.
Step 5 Cause 5: The board is faulty (if the alarm is reported by an IF board).(1) Perform an inloop for the multiplexing interface of the IF board on the local NE.
If... Then...
The fault is not rectified after themultiplexing interface is looped back
Replace the IF board that reports thealarm on the local NE.
The fault is rectified after the multiplexinginterface is looped back
Replace the IF board that reports thealarm on the opposite NE.
----End
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Related Information
Handle the errors of TDM services.
A.3.13 B3_SD
Description
The B3_SD is an alarm indicating that the signal degrades due to the excessive B3 errors (in thehigher order path). This alarm occurs when the board detects that the number of B3 errors exceedsthe preset B3_SD alarm threshold (10-6 by default).
Attribute
Alarm Severity Alarm Type
Minor Service alarm
Parameters
None.
Impact on the System
The service performance on the port degrades.
If the alarm is reported by an IF board and the equipment is configured with the 1+1 FD/SDprotection, the HSM switching is triggered.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interface
board).
l Cause 2: The line performance degrades (if the alarm is reported by an IF board).
l Cause 3: The network clock quality degrades.
l Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).
l Cause 5: The board is faulty (if the alarm is reported by an IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).
(1) Check whether the transmit power at the opposite end and the receive power at the localend meet the specifications of the optical interfaces. For details, see 8.3.5 BrowsingCurrent Performance Events.
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If... Then...
The transmit power of the opposite NE isover low
Replace the board where the SDHoptical interface unit is located on theopposite NE.
The transmit power of the opposite NE isnormal, but the receive power of the localNE is close to the value (for example,within ±3 dB) of the receiver sensitivity
The fiber is faulty. Go to the next step.
(2) Exchange the core fibers of the optical cables in the receive and transmit directions of achannel to locate the fault.
If... Then...
The errors vary with the change of the fiber The fiber is faulty. Go to the next step.
The errors do not vary with the change of thefiber
Ensure that the board is normal.
(3) If the fiber is faulty, check whether the fiber jumper from the equipment to the opticaldistribution frame (ODF) and the fiber that is led out of the equipment room are pressed,and whether the fiber connector is dirty. If yes, replace the fiber jumper or fiber connector.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an IF board).(1) Check whether the MW_FEC_UNCOR alarm is generated. If yes, clear the alarm.
Step 3 Cause 3: The network clock quality degrades.(1) Check the network clock status of the NE that reports the alarm.
If... Then...
The clock source of the local NE isdifferent from the clock source of theopposite NE
In this case, the clock may becomeasynchronous and errors may occur.Reconfigure the clock source, and ensure thatthe clock is synchronized on the local NE andopposite NE.
The clock of the local NE and the clockof the opposite NE form a timing loop
This may cause errors and even serviceinterruption. In this case, reconfigure the clocksource and release the timing loop.
Step 4 Cause 4: The board is faulty (if the alarm is reported by an SDH optical interface board).(1) The SDH optical/electrical line board of the local NE is faulty. Loop back the optical
interfaces of the station by using a fiber jumper to locate the fault.
If... Then...
The fault is not rectified after the opticalinterfaces are looped back
Replace the board where the tributaryunit that reports the alarm is located onthe local NE.
The fault is rectified after the opticalinterfaces are looped back
Replace the board where the line unit islocated on the opposite NE.
Step 5 Cause 5: The board is faulty (if the alarm is reported by an IF board).
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(1) Perform an inloop for the multiplexing interface of the IF board on the local NE.
If... Then...
The fault is not rectified after themultiplexing interface is looped back
Replace the IF board that reports thealarm on the local NE.
The fault is rectified after the multiplexinginterface is looped back
Replace the IF board that reports thealarm on the opposite NE.
----End
Related Information
None.
A.3.14 BD_NOT_INSTALLED
Description
The BD_NOT_INSTALLED is an alarm indicating that the physical board is installed in acertain slot, but the logical board is not added.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2 Indicates the ID of the slot.
Impact on the System
When the BD_NOT_INSTALLED alarm occurs, the physical board in this slot cannot work.
Possible Causesl Cause 1: The logical board is not added in the corresponding logical slot.
l Cause 2: The physical board is installed incorrectly during the replacement of boards.
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Procedure
Step 1 Cause 1: The logical board is not added in the corresponding logical slot.(1) Configure the logical board.
Step 2 Cause 2: The physical board is installed incorrectly during the replacement of boards.(1) Check whether the physical board is installed in the correct slot. If not, reinstall the physical
board in the correct slot.
----End
Related Information
None.
A.3.15 BD_STATUS
Description
The BD_STATUS is an alarm indicating that the board is not in position.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
Impact on the System
When the BD_STATUS alarm occurs, the board that reports the alarm fails to work.
Possible Causes
If the alarm is reported by a board of the IDU, the possible causes are as follows:l Cause 1 of the alarm reported by a board of the IDU: The board is installed in an incorrect
slot.l Cause 2 of the alarm reported by a board of the IDU: The board and the backplane are not
connected properly.l Cause 3 of the alarm reported by a board of the IDU: The slot is faulty.
l Cause 4 of the alarm reported by a board of the IDU: The board is faulty.
If the alarm is reported by the ODU, the possible causes are as follows:l Cause 1 of the alarm reported by the ODU: The other alarms are generated.
l Cause 2 of the alarm reported by the ODU: The ODU is faulty.
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Procedure
Step 1 Cause 1 of the alarm reported by a board of the IDU: The board is installed in an incorrect slot.(1) Check whether the logical slot and physical slot of the board that reports the alarm are
consistent. For details, see 8.3.2 Checking the Board Status.
If... Then...
The board that reports the alarm isinstalled in an incorrect slot
Install the board in a correct slot.
The board that reports the alarm isinstalled in a correct slot
Ensure that the board and the backplaneare connected properly.
Step 2 Cause 2 of the alarm reported by a board of the IDU: The board and the backplane are notconnected properly.(1) Remove and insert the board that reports the alarm.
If... Then...
The alarm is cleared after the board isremoved and inserted
The fault is rectified. End the alarmhandling.
The alarm persists after the board isremoved and inserted
Ensure that the board is normal.
Step 3 Cause 3 of the alarm reported by a board of the IDU: The slot is faulty.(1) Contact Huawei engineers to handle the fault of the slot.
TIPGenerally, the slot becomes faulty due to the broken pin or bent pin. Remove the board, and use atorch to observe whether there is any broken pin or bent pin.
(2) If an idle slot is available, insert the board in the idle slot and add the board again. Then,the board can work normally.
Step 4 Cause 4 of the alarm reported by a board of the IDU: The board is faulty.(1) Replace the board that reports the alarm.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Ensure that the slot is normal.
Step 5 Cause 1 of the alarm reported by the ODU: The other alarms are generated.(1) Query whether the IF board reports the HARD_BAD, BD_STATUS,
IF_CABLE_OPEN, or VOLT_LOS alarm.
If... Then...
The IF board reports any of thepreceding alarms
Clear the alarm immediately.
The IF board does not report any of thepreceding alarms
Replace the board that reports the alarm.
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Step 6 Cause 2 of the alarm reported by the ODU: The ODU is faulty.(1) Replace the board that reports the alarm.
----End
Related Information
None.
A.3.16 BIOS_STATUS
Description
The BIOS_STATUS is an alarm indicating that the board is in BIOS state.
Attribute
Alarm Severity Alarm Type
Major Processing alarm
Parameters
Name Meaning
Parameter 1 Indicates the higher eight bits of the dual-byte ID of the board that is inBIOS state.
Parameter 2 Indicates the lower eight bits of the dual-byte ID of the board that is in BIOSstate.
Parameters 3 to 5 Parameters 3 to 5 are reserved, and their values are always 0xff.
Impact on the System
When the alarm occurs, services are interrupted.
Possible Causesl Cause 1: The board is reset for three times continuously.
l Cause 2: The board software is lost.
l Cause 3: The board software becomes abnormal.
Procedure
Step 1 Perform a cold reset on the standby SCC, cross-connect, and clock board that reports the alarm,and then check whether the alarm is cleared.
Step 2 If the alarm persists, remove the standby SCC, cross-connect, and clock board, and thenreseat the board.
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Step 3 If the alarm persists, replace the board.
----End
Related InformationNone.
A.3.17 BIP_EXC
DescriptionThe BIP_EXC is an alarm indicating that the BIP errors exceed the threshold. This alarm occurswhen the board detects that the number of BIP-2 errors (in byte V5) exceeds the preset BIP_EXCalarm threshold (10-3 by default).
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersNone.
Impact on the SystemWhen the BIP_EXC alarm occurs, the service on the path that reports the alarm is interrupted.
Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an E1 service board).
l Cause 2: The line performance degrades (if the alarm is reported by a Hybrid IF board).
l Cause 3: The board is faulty (if the alarm is reported by an E1 service board).
l Cause 4: The board is faulty (if the alarm is reported by a Hybrid IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an E1 service board).(1) Check whether the performance degradation alarm occurs on the STM-1 path or radio link
along which the E1 service signal travels. If yes, clear the alarm immediately.
The common line performance degradation alarms are as follows:
B1_EXC, B1_SD, B2_EXC, B2_SD, B3_EXC, B3_SD, MW_FEC_UNCOR,RPS_INDI, MW_BER_EXC, and MW_BER_SD.
If... Then...
There is any of the preceding alarms Clear the alarm immediately.
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If... Then...
No such alarms occur Ensure that the board is normal.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by a Hybrid IF board).(1) Check whether any alarm occurs on the tributary board or IF board that transmits the service
signal. If yes, clear the alarm immediately.
Step 3 Cause 3: The board is faulty (if the alarm is reported by an E1 service board).(1) Replace the board where the E1 service unit is located. Then, check whether the alarm
is cleared.
If... Then...
The alarm is cleared End the alarm handling.
The alarm persists Replace the system control and cross-connect board.
Step 4 Cause 4: The board is faulty (if the alarm is reported by a Hybrid IF board).(1) Replace the Hybrid IF board. Then, check whether the alarm is cleared.
If... Then...
The alarm is cleared End the alarm handling.
The alarm persists Replace the system control and cross-connect board.
----End
Related InformationHandle the errors of TDM services.
A.3.18 BIP_SD
DescriptionThe BIP_SD is an alarm indicating that the signal degrades due to the BIP errors. This alarmoccurs when the board detects that the number of BIP-2 errors (in byte V5) exceeds the presetBIP_SD alarm threshold (10-6 by default).
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersNone.
Impact on the SystemWhen the BIP_SD alarm occurs, the service on the path that reports the alarm degrades.
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Possible Causesl Cause 1: The line performance degrades (if the alarm is reported by an E1 service board).
l Cause 2: The line performance degrades (if the alarm is reported by a Hybrid IF board).
l Cause 3: The board is faulty (if the alarm is reported by an E1 service board).
l Cause 4: The board is faulty (if the alarm is reported by a Hybrid IF board).
Procedure
Step 1 Cause 1: The line performance degrades (if the alarm is reported by an E1 service board).
(1) Check whether the performance degradation alarm occurs on the STM-1 path or radio linkalong which the E1 service signal travels. If yes, clear the alarm immediately.
The common line performance degradation alarms are as follows:
B1_EXC, B1_SD, B2_EXC, B2_SD, B3_EXC, B3_SD, MW_FEC_UNCOR,RPS_INDI, MW_BER_EXC, and MW_BER_SD.
If... Then...
There is any of the preceding alarms Clear the alarm immediately.
No such alarms occur Ensure that the board is normal.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by a Hybrid IF board).
(1) Check whether any alarm occurs on the tributary board or IF board that transmits the servicesignal.
If... Then...
An alarm occurs Clear the alarm immediately.
No alarm occurs Ensure that the board is normal.
Step 3 Cause 3: The board is faulty (if the alarm is reported by an E1 service board).
(1) Replace the board where the E1 service unit is located. Then, check whether the alarmis cleared.
If... Then...
The alarm is cleared End the alarm handling.
The alarm persists Replace the system control and cross-connect board.
Step 4 Cause 4: The board is faulty (if the alarm is reported by a Hybrid IF board).
(1) Replace the Hybrid IF board. Then, check whether the alarm is cleared.
If... Then...
The alarm is cleared End the alarm handling.
The alarm persists Replace the system control and cross-connect board.
----End
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Related InformationHandle the errors of TDM services.
A.3.19 BOOTROM_BAD
DescriptionThe BOOTROM_BAD is an alarm indicating that the BOOTROM data consistency check fails.This alarm occurs when the BOOTROM data is damaged during a periodical check by thesystem.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 The value is always 0x01.
Parameter 2, Parameter 3 Indicates the type of the BOOTROM damage.l 0x00, 0x01: damage of the basic BIOS
l 0x00, 0x02: damage of the extended BIOS
Parameter 4, Parameter 5 The values are always 0xff 0xff.
Impact on the SystemWhen the BOOTROM_BAD alarm occurs, it indicates that errors occur in the system databaseprocessing. The system configuration may be lost. As a result, the failure indication is returnedfor certain query and setting commands, and certain system functions cannot work.
l When the NE is already started, the BOOTROM_BAD alarm does not affect the systemand services.
l If the BOOTROM_BAD alarm occurs and a hard reset is performed on a board, the boardfails to load the BIOS and cannot be started.
Possible Causesl Cause 1: The basic BIOS is damaged.
l Cause 2: The extended BIOS is damaged.
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l Cause 3: The BOOTROM database is damaged.
Procedure
Step 1 Replace the board that reports the alarm.
----End
Related Information
None.
A.3.20 BUS_ERR
Description
The BUS_ERR is an alarm of bus errors. This alarm occurs when the bus becomes abnormal.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the type of bus errors.
l 0x01: BUS_LOS.
l 0x02: BUS_OOF.
l 0x03: BUS_LOF.
l 0x04: BUS_OOA.
l 0x05: BUS_RX_DOWN.
l 0x06: BUS_TX_DOWN.
l 0x07: BUS_SPI_DOWN.
l 0x08: BUS_SCI_ERR.
l 0x09: BUS_OPP_CLK_LOC.
Parameter 2 Indicates the ID of the bus that has errors.
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Impact on the Systeml When the BUS_ERR alarm occurs, the services that travel along the faulty bus are
interrupted or have errors.
l The HARD_BAD alarm suppresses the report of the BUS_ERR alarm.
Possible Causes
The possible causes of the BUS_ERR alarm are as follows:
l Cause 1: The board is not properly inserted.
l Cause 2: Board failure occurs.
Procedure
Step 1 Cause 1: The board is not properly inserted.
(1) Remove and insert the board.
Step 2 Cause 2: Board failure occurs.
(1) Perform a hard reset on the board that reports the alarm. Then, check whether the alarmis cleared.
If... Then...
The alarm is cleared The fault is rectified. End the alarm handling.
The alarm persists Replace the board that reports the alarm.
----End
Related Information
None.
A.3.21 CFCARD_FAILED
Description
The CFCARD_FAILED is an alarm indicating that the operation on the CF card fails.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
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Impact on the System
When the CFCARD_FAILED alarm occurs, the database cannot be backed up to the CF cardor be restored from the CF card. This alarm may cause rollback of the package loading upgrade.
Possible Causesl Cause 1: The CF card fails to be initialized.
l Cause 2: The file system of the CF card does not match.
l Cause 3: The system control and communication board is faulty, and the file system of theCF card fails to be created.
Procedure
Step 1 Cause 1: The CF card fails to be initialized.
Cause 2: The file system of the CF card does not match.
(1) Replace the CF card and check whether the alarm is cleared.
If... Then...
Yes End the alarm handling.
No Go to Cause 3.
Step 2 Cause 3: The system control and communication board is faulty, and the file system of the CFcard fails to be created.
(1) Check whether the HARD_BAD alarm occurs on the system control and communicationboard.
(2) If yes, perform a cold reset on the system control and communication board. Then, checkwhether the alarm is cleared.
If... Then...
Yes End the alarm handling.
No Replace the system control and communication board.
----End
Related Information
None.
A.3.22 CFCARD_FULL
Description
The CFCARD_FAILED is an alarm indicating that all capacity of the CF card is used
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Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2 Indicates the slot number of the board where the CFCARD_FULLalarm is reported.
Parameter 3 Indicates the CF card number.
Parameter 4 Indicates the partition number of the CF card. Different bitscorrespond to different partitions. If the bit is 1, it indicates thatthis alarm is reported in this partition. If the bit is 0, it indicatesthat this alarm is not reported in this partition.
l bit[0] corresponds to SFS1.
l bit[1] corresponds to SFS2.
l bit[2] corresponds to SFS3.NOTE
Bit (0) is the least significant bit.
Parameters 5, Parameter 6 Reserved.
Impact on the SystemIn the case of the CFCARD_FULL alarm, services are not affected. The CFCARD_FULL alarmis reported to indicate that all capacity of the CF card is used and the new configuration datacannot be saved.
Possible CausesCause 1: The used capacity of the partitions of the CF card crosses the threshold, which is 80%of the capacity.
Procedure
Step 1 Cause 1: The used capacity of the partitions of the CF card crosses the threshold, which is 80%of the capacity.(1) Replace the CF card with one of a larger capacity. For details, see 6.7 Replacing the CF
Card.
----End
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Related InformationNone.
A.3.23 CFCARD_OFFLINE
DescriptionThe CFCARD_OFFLINE is an alarm indicating that the CF card is out of service.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersNone.
Impact on the SystemWhen the CFCARD_OFFLINE alarm occurs, the database cannot be backed up to the CF cardor be restored from the CF card. This alarm may cause rollback of the package loading upgrade.
Possible Causesl Cause 1: The CF card is not inserted.
l Cause 2: The CF card is in poor contact with the system control and communication board.
l Cause 3: The CF card is faulty.
l Cause 4: The system control and communication board is faulty.
Procedure
Step 1 Cause 1: The CF card is not inserted.(1) Check whether the CF card is installed on the system control and communication board.
If... Then...
No Install the CF card.
Yes Go to Cause 2.
Step 2 Cause 2: The CF card is in poor contact with the system control and communication board.(1) Check whether the CF card is loosened. If yes, re-insert the CF card.(2) Check whether the alarm is cleared.
If... Then...
Yes End the alarm handling.
No Go to Cause 3.
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Step 3 Cause 3: The CF card is faulty.(1) Replace the CF card.(2) Check whether the alarm is cleared.
If... Then...
Yes End the alarm handling.
No Go to Cause 4.
Step 4 Cause 4: The system control and communication board is faulty.(1) Check whether the HARD_BAD alarm occurs on the system control and communication
board.(2) If yes, perform a cold reset on the system control and communication board. Then, check
whether the alarm is cleared.(3) If the alarm persists, replace the system control and communication board.
----End
Related Information
None.
A.3.24 CFCARD_W_R_DISABLED
Description
The CFCARD_W_R_DISABLED is an alarm indicating that reading and writing the CF cardare disabled.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
Impact on the System
When the CFCARD_R_R_DISABLED alarm occurs, the system is not affected. In this case,however, reading and writing the CF card are disabled. Consequently, the database cannot bebacked up to the CF card or be restored from the CF card. This alarm may cause rollback of thepackage loading upgrade.
Possible Causes
Cause 1: Hold the button on the CF card for more than five seconds.
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Procedure
Step 1 Cause 1: Hold the button on the CF card for more than 5 seconds.(1) Press the button on the CF card again for more than 5 seconds.
----End
Related InformationNone.
A.3.25 CONFIG_NOSUPPORT
DescriptionThe CONFIG_NOSUPPORT is an alarm indicating that the configuration is not supported. Thisalarm is reported if the ODU detects that the specified parameters do not meet the requirementsof the ODU.
Attribute
Alarm Severity Alarm Type
Major Processing alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates that the configuration data does not meet the requirements.l 0x01: The frequency is set incorrectly.
l 0x02: The T/R spacing is set incorrectly.
l 0x03: The transmit power is set incorrectly.
l 0x04: The ATPC threshold is set incorrectly.
l 0x05: The bandwidth is set incorrectly.
l 0x06: The modulation mode is set incorrectly.
Impact on the SystemWhen the CONFIG_NOSUPPORT alarm occurs, the ODU fails to work normally. If theequipment is configured with the 1+1 FD protection, the active ODU generates theCONFIG_NOSUPPORT alarm. In this case, the IF 1+1 protection switching may be triggered.
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Possible Causes
Cause 1: The type and configuration parameters of the ODU do not match the requirements.
Procedure
Step 1 Cause 1: The type and configuration parameters of the ODU do not match the requirements.
(1) Determine the parameter that does not meet the requirement according to the alarmparameter. Then, handle the fault accordingly.
If... Then...
The alarm parameter takes a value from0x01 to 0x03
Perform the operation described in Step1.2.
The alarm parameter takes a value from0x04 to 0x06
Perform the operation described in Step1.3.
(2) Check whether the parameters of the ODU interface meet the requirements of networkplanning. For details, see Setting the Parameters of ODU Ports.
If... Then...
The parameters meet the requirements ofnetwork planning
Use the ODU of the proper model.
The parameters do not meet therequirements of network planning
Modify the ODU interface parameters.
(3) Check whether the parameters of the IF interface meet the requirements of networkplanning. For details, see Configuring the IF/ODU Information of a Radio Link.
If... Then...
The parameters meet the requirements ofnetwork planning
Replace the IF board.
The parameters do not meet therequirements of network planning
Modify the IF interface parameters. Fordetails, see Configuring the IF/ODUInformation of a Radio Link.
----End
Related Information
None.
A.3.26 COMMUN_FAIL
Description
The COMMUN_FAIL is an alarm indicating the inter-board communication failure. This alarmis reported when the communication between a board and the SCC board is interrupted.
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Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the ID of the port. The value is always 0x01.
Parameter 2, Parameter 3 Indicates the ID of the path on which the alarm is generated.Parameter 2 is always 0x00. Parameter 3 has the followingmeanings:
l 0x03: inter-board Ethernet communication
Parameter 4, Parameter 5 Parameters 4 and 5 are reserved, and their values are always 0xFF.
Impact on the System
The NE configuration cannot be delivered to the board or the board cannot work. Consequently,the services cannot be configured or the protection switching function is unavailable.
Possible Causesl Cause 1: A certain board is reset.
l Cause 2: A board and the backplane are connected improperly.
l Cause 3: A certain board is faulty.
l Cause 4: A slot is faulty.
Procedure
Step 1 Cause 1: A certain board is reset.
(1) After you reset the board, the alarm disappears automatically.
Step 2 Cause 2: A board and the backplane are connected improperly.
(1) Remove and insert the alarmed board. For details, see 6.1 Removing a Board and 6.2Inserting a Board. Then, check whether the alarm is cleared.
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If... Then...
The alarm disappears after the board isremoved and inserted
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced.
Clear the alarm according to the solutionfor the alarm that is generated when aboard is faulty.
Step 3 Cause 3: A certain board is faulty.(1) Replace the board that reports the alarm, and then check whether the alarm is cleared. For
details, see 6 Part Replacement.
If... Then...
The alarm disappears after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Clear the alarm according to the solutionfor the alarm that is generated when aslot is faulty.
Step 4 Cause 3: A slot is faulty.(1) Contact Huawei engineers to handle the faulty slot.
TIPThe slot becomes faulty due to broken pins or bent pins. Remove the board, and use a torch to checkwhether any pins are broken or bent.
(2) If an idle slot is available, insert the board in the idle slot, and then update the data on theNMS so that the board can work normally.
----End
Related InformationNone.
A.3.27 DBMS_ERROR
DescriptionThe DBMS_ERROR is an alarm indicating that errors occur in the processing of the systemdatabase.
Attribute
Alarm Severity Alarm Type
Major Processing alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in the
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following format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the types of the database errors.l 0x01: The input parameters are illegal.
l 0x02: The database files do not exist.
l 0x03: The database memory area numbers are incorrect.
l 0x04: The database overwriting occurs.
l 0x05: Errors occur in the header information check in the database backuparea.
l 0x06: Errors occur in the FAT table structure check in the database storagearea.
l 0x07: Errors occur in the database check in the database backup area.
l 0x08: Recovering the database fails.
l 0x09: The database ID is invalid.
l 0x0A: The databases are different.
l 0x0B: The data is unchecked.
l 0x0E: The semaphore handle is invalid.
l 0x0F: Errors occur in applying for memory.
l 0x10: Errors occur in releasing memory.
l 0x12: Transmitting the message capsule fails.
l 0x13: The starting and ending records of the database are incorrect.
l 0x14: The database is null.
l 0x15: The flag is incorrectly set.
l 0x16: The input command parameters are incorrect.
l 0x17: Non-backup database.
l 0x18: The database is in the protection mode.
l 0x19: The configuration is not verified.
Parameter 2 Indicates the errored data storage area.l 0x00: database in fdb0
l 0x01: database in fdb1
l 0x02: database in drdb
Parameter 3 Indicates the ID of the errored database.l 0x00: all databases in the entire storage area.
l 0x01-0xff: ID of the errored database
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Impact on the System
When the DBMS_ERROR alarm occurs, it indicates that errors occur in the system databaseprocessing. The system configuration may be lost. As a result, the failure indication is returnedfor certain query and setting commands, and certain system functions cannot work.
Possible Causesl Cause 1: The database processing fails or the database is damaged.
l Cause 2: Board failure occurs.
Procedure
Step 1 Cause 1: The database processing fails or the database is damaged.
(1) Reset the system control board.
If... Then...
The alarm is cleared after the board isreset
End the fault handling.
The alarm persists after the board isreset
Ensure that the system control board isnormal.
Step 2 Cause 2: Board failure occurs.
(1) Replace the system control, cross-connect, and timing board.
----End
Related Information
None.
A.3.28 DBMS_PROTECT_MODE
Description
The DBMS_PROTECT_MODE is an alarm indicating that the system database is in protectionmode.
Attribute
Alarm Severity Alarm Type
Critical Processing alarm
Parameters
None.
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Impact on the SystemWhen the DBMS_PROTECT_MODE alarm occurs, it indicates that errors occur in the systemdatabase processing. The system configuration may be lost. As a result, the failure indication isreturned for certain query and setting commands, and certain system functions cannot work.
Possible CausesCause 1: The data enters the protection mode due to frequent resets of the NE software.
ProcedureStep 1 Cause 1: The data enters the protection mode due to frequent resets of the NE software.
(1) Replace the system control, cross-connect, and timing board.
----End
Related InformationNone.
A.3.29 DOWN_E1_AIS
DescriptionThe DOWN_E1_AIS is an alarm of the 2 Mbit/s downlink signal. This alarm occurs when thetributary board detects the 2 Mbit/s downlink signal of all 1s.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 0x01, indicates optical interface number.
Parameter 2–Parameter 3 Indicates the number of the path.
Impact on the SystemWhen the DOWN_E1_AIS alarm occurs, the E1 signal in the path that reports the alarm isunavailable.
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Possible Causesl Cause 1: The opposite NE transmits the E1_AIS alarm.
l Cause 2: On the local NE, the receive unit of the tributary board or the system control andcross-connect board is faulty.
Procedure
Step 1 Cause 1: The opposite NE transmits the E1_AIS alarm.(1) Check whether the opposite NE reports the UP_E1_AIS or T_ALOS alarm.
If... Then...
The opposite NE reports the UP_E1_AISor T_ALOS alarm
Clear the alarm immediately.
The opposite NE does not report theUP_E1_AIS or T_ALOS alarm
Ensure that the board on the local NE isnormal.
Step 2 Cause 2: On the local NE, the receive unit of the tributary board or the system control and cross-connect board is faulty.(1) Replace the board where the tributary unit that reports the alarm is located. Then,
check whether the alarm is cleared.
If... Then...
The alarm is cleared The fault is rectified. End the alarm handling.
The alarm persists Replace the system control and cross-connect board on thelocal NE.
----End
Related InformationNone.
A.3.30 E1_LOC
DescriptionThe E1_LOC is an alarm indicating that the uplink 2M clock is lost. This alarm occurs whenthe tributary board fails to extract the clock from the E1 signal.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersNone.
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Impact on the System
When the E1_LOC occurs, the service is not affected.
Possible Causesl Cause 1: The opposite NE is faulty.
l Cause 2: The wiring sequence of the cable is incorrect.
l Cause 3: The receive unit of the tributary board on the local NE is faulty.
l Cause 4: The input E1 signal has an abnormal waveform.
Procedure
Step 1 Cause 1: The opposite NE is faulty.
(1) Rectify the fault on the opposite NE.
Step 2 Cause 2: The wiring sequence of the cable is incorrect.
(1) Redo the cable.
Step 3 Cause 3: The receive unit of the tributary board on the local NE is faulty.
(1) Replace the board where the line unit is located.
Step 4 Cause 4: The input E1 signal has an abnormal waveform.
(1) Check whether any external interference causes the abnormal waveform of the E1 signal.
If... Then...
There is the external interference The fault is rectified. End the alarm handling.
There is no external interference Contact Huawei engineers.
----End
Related Information
None.
A.3.31 E1_LOS
Description
The E1_LOS is an alarm indicating the loss of the E1 signal. This alarm occurs when the tributaryboard detects the uplink E1 signal of all 0s.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
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Parameters
None.
Impact on the System
When the E1_LOS alarm occurs, the E1 service is interrupted.
Possible Causesl Cause 1: The cable is not connected or the cable is faulty.
l Cause 2: The opposite NE is faulty.
l Cause 3: The tributary board on the local NE is faulty.
Procedure
Step 1 Cause 1: The cable is not connected or the cable is faulty.(1) Check whether the cable is connected properly.
If... Then...
The cable is not connected properly Connect the cable properly.
The cable is prepared incorrectly Redo the cable.
Step 2 Cause 2: The opposite NE is faulty.(1) Rectify the fault on the opposite NE.
Step 3 Cause 3: The tributary board on the local NE is faulty.(1) Replace the board where the tributary unit is located.
----End
Related Information
None.
A.3.32 ETH_CFM_LOC
Description
The ETH_CFM_LOC is an alarm indicating the loss of connectivity. This alarm occurs whenthe system fails to receive the CCM packet from the remote MEP in 3.5 connectivity check (CC)periods successively.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
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Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2, Parameter 3,Parameter 4 (Port)
Indicates the ID of the port that reports thealarm.
Parameter 5, Parameter 6 (VLAN ID) Indicates the VLAN ID of the MEP.
Parameter 7 (Direction) Indicates the direction of the local MEP.l 0x00: The port is direction insensitive.
l 0x01: The port is in the ingress direction.
l 0x02: The port is in the egress direction.
Parameter 8 (Level) Indicates the MD level of the local MEP.l 0x00: consumer MEP level (low)
l 0x01: consumer MEP level (medium)
l 0x02: consumer MEP level (high)
l 0x03: provider MEP level (low)
l 0x04: provider MEP level (high)
l 0x05: operator MEP level (low)
l 0x06: operator MEP level (medium)
l 0x07: operator MEP level (high)NOTE
Consumer indicates the user, provider indicates thesupplier, and operator indicates the carrier.
Parameter 9, Parameter 10 (RMEPID) Indicates the ID of the remote MEP.
Impact on the Systeml When the ETH_CFM_LOC alarm occurs, the LB and LT detection functions of IEEE
802.1ag ETH-OAM are unavailable.
l The service between the relevant standard MEPs may be interrupted.
Possible Causesl Cause 1: The line between the local standard MEP and the remote standard MEP is
interrupted.
l Cause 2: The Ethernet service in the maintenance association (MA) to which the local MEPbelongs is faulty.
l Cause 3: Serious congestion occurs on the network.
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ProcedureStep 1 Cause 1: The line between the local standard MEP and the remote standard MEP is interrupted.
(1) Check whether the physical links (such as network cables and fibers) between the standardMEPs are connected properly.
If... Then...
The physical links are connected improperly Connect the physical links properly.
The physical links are connected properly Go to Cause 2.
Step 2 Cause 2: The Ethernet service in the maintenance association (MA) to which the local MEPbelongs is faulty.(1) Check whether Ethernet service in the maintenance association (MA) to which the local
MEP belongs is configured correctly.
If... Then...
The service is configured incorrectly Modify the configuration of the service to ensureconsistency at two ends.
The service is configured correctly Go to Cause 3.
Step 3 Cause 3: Serious congestion occurs on the network.(1) Check the utilization of bandwidth. If the bandwidth is exhausted, increase the bandwidth
or eliminate the source that transmits a large amount of invalid data.
----End
Related InformationNone.
A.3.33 ETH_CFM_MISMERGE
DescriptionThe ETH_CFM_MISMERGE is an alarm indicating an incorrect connection. This alarm occurswhen the system receives the CCM packet whose MA mismatches or whose priority is lower.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1, Parameter 2, Parameter 3,Parameter 4 (Port)
Indicates the ID of the port that reports thealarm.
Parameter 5, Parameter 6 (VLAN ID) Indicates the VLAN ID of the MEP.
Parameter 7 (Direction) Indicates the direction of the local MEP.l 0x00: The port is direction insensitive.
l 0x01: The port is in the ingress direction.
l 0x02: The port is in the egress direction.
Parameter 8 (Level) Indicates the MD level of the local MEP.l 0x00: consumer MEP level (low)
l 0x01: consumer MEP level (medium)
l 0x02: consumer MEP level (high)
l 0x03: provider MEP level (low)
l 0x04: provider MEP level (high)
l 0x05: operator MEP level (low)
l 0x06: operator MEP level (medium)
l 0x07: operator MEP level (high)NOTE
Consumer indicates the user, provider indicates thesupplier, and operator indicates the carrier.
Parameter 9, Parameter 10 Indicates the ID of the local MEP.
Impact on the SystemWhen the ETH_CFM_MISMERGE alarm occurs, the service between the relevant standardMEPs may be interrupted, and the data flow may be routed incorrectly.
Possible Causesl Cause 1: The names of the maintenance domain and the maintenance alliance that the
standard MEPs correspond to are inconsistent.l Cause 2: The levels of the maintenance domains that the standard MEPs correspond to are
different.l Cause 3: The physical connection is incorrect.
Procedure
Step 1 Cause 1: The names of the maintenance domain and the maintenance alliance that the standardMEPs correspond to are inconsistent.(1) Check whether the names of the maintenance domain and the maintenance alliance that the
standard MEPs correspond to are consistent.
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If... Then...
The names are inconsistent Set the other names of maintenance domain andmaintenance alliance to ensure consistency at both ends.
The names are consistent Go to Cause 2.
Step 2 Cause 2: The levels of the maintenance domains that the standard MEPs correspond to aredifferent.(1) Check whether the MD levels of the standard MEPs are the same.
If... Then...
The levels are different Set the MD levels again to ensure consistency at both ends.
The levels are the same Go to Cause 3.
Step 3 Cause 3: The physical connection is incorrect.(1) Check the physical connection of the Ethernet service route and rectify the fault of the
physical connection if any.
----End
Related InformationNone.
A.3.34 ETH_CFM_RDI
DescriptionThe ETH_CFM_RDI is an alarm indicating the CCM packet with RDI received from the remoteMEP. This alarm occurs when the system receives the CCM packet with RDI from the remoteMEP.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2, Parameter 3,Parameter 4 (Port)
Indicates the ID of the port that reports thealarm.
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Name Meaning
Parameter 5, Parameter 6 (VLAN ID) Indicates the VLAN ID of the MEP.
Parameter 7 (Direction) Indicates the direction of the local MEP.l 0x00: The port is direction insensitive.
l 0x01: The port is in the ingress direction.
l 0x02: The port is in the egress direction.
Parameter 8 (Level) Indicates the MD level of the local MEP.l 0x00: consumer MEP level (low).
l 0x01: consumer MEP level (medium).
l 0x02: consumer MEP level (high).
l 0x03: provider MEP level (low).
l 0x04: provider MEP level (high).
l 0x05: operator MEP level (low).
l 0x06: operator MEP level (medium).
l 0x07: operator MEP level (high).NOTE
Consumer indicates the user, provider indicates thesupplier, and operator indicates the carrier.
Parameter 9, Parameter 10 (RMEPID) Indicates the ID of the remote MEP.
Impact on the Systeml When the ETH_CFM_RDI alarm occurs, the loopback (LB) and link trace (LT) detection
functions of IEEE 802.1ag ETH-OAM are unavailable.l The service between the relevant standard MEPs may be interrupted.
Possible Causesl Cause 1: The remote MEP fails to receive the correct CCM packet.
l Cause 2: The software is reset or the other software fault occurs at the remote MEP.
Procedure
Step 1 Cause 1: The remote MEP fails to receive the correct CCM packet.(1) Determine the port that reports the alarm according to the alarm parameter.(2) Check whether the remote MEP that is connected to the port reports the
ETH_CFM_MISMERGE, ETH_CFM_UNEXPERI, or ETH_CFM_LOC alarm.
If... Then...
Any of the preceding alarms occurs Clear the alarm at the remote end.
No such alarms occur Go to Cause 2.
Step 2 Cause 2: The software is reset or the other software fault occurs at the remote MEP.
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(1) Check whether the equipment at the remote MEP is reset.
If... Then...
The equipment is reset Rectify the fault and then end the alarm handling.
The equipment is not reset Perform a warm reset on the board where the remoteMEP is located.
----End
Related InformationNone.
A.3.35 ETH_CFM_UNEXPERI
DescriptionThe ETH_CFM_UNEXPERI is an alarm indicating the errored frame. This alarm occurs whenthe system receives invalid CCM packets.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2, Parameter 3,Parameter 4 (Port)
Indicates the ID of the port that reports thealarm.
Parameter 5, Parameter 6 (VLAN ID) Indicates the VLAN ID of the MEP.
Parameter 7 (Direction) Indicates the direction of the local MEP.l 0x00: The port is direction insensitive.
l 0x01: The port is in the ingress direction.
l 0x02: The port is in the egress direction.
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Name Meaning
Parameter 8 (Level) Indicates the MD level of the local MEP.l 0x00: consumer MEP level (low)
l 0x01: consumer MEP level (medium)
l 0x02: consumer MEP level (high)
l 0x03: provider MEP level (low)
l 0x04: provider MEP level (high)
l 0x05: operator MEP level (low)
l 0x06: operator MEP level (medium)
l 0x07: operator MEP level (high)NOTE
Consumer indicates the user, provider indicates thesupplier, and operator indicates the carrier.
Parameter 9, Parameter 10 Indicates the ID of the local MEP.
Impact on the Systeml When the ETH_CFM_UNEXPERI alarm occurs, the LB and LT detection functions of
IEEE 802.1ag ETH-OAM are unavailable.
l The service may become abnormal due to the loop.
Possible Causesl Cause 1: No remote MEP is configured.
l Cause 2: The configuration of the MEPs at both ends are inconsistent. For example, theconnectivity check (CC) periods are different, and the IDs of the MEPs are in conflict.
l Cause 3: The service is looped back and the looped packet is received.
l Cause 4: A software fault occurs at the MEP at the transmit end.
Procedure
Step 1 Cause 1: No remote MEP is configured.
(1) Check whether the remote MEP is configured. If not, configure the remote MEP first.
Step 2 Cause 2: The configuration of the MEPs at both ends are inconsistent. For example, theconnectivity check (CC) periods are different, and the IDs of the MEPs are in conflict.
(1) Check whether the CC periods set at the MEPs are the same.
If... Then...
The CC periods are different Change the CC periods to ensure consistency at bothends.
The CC periods are the same Go to the next step.
(2) Check whether the IDs of the MEPs in the maintenance domain are in conflict.
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If... Then...
The IDs are in conflict Change the conflicting IDs.
The IDs are not in conflict Go to Cause 2.
Step 3 Cause 3: The service is looped back and the looped packet is received.(1) Check whether any loop exists at each IP port of the service trail. If yes, release the loop
and clear the alarm.
Step 4 Cause 4: A software fault occurs at the MEP at the transmit end.(1) Perform a warm reset on the Ethernet board where the remote MEP is located.
----End
Related Information
None.
A.3.36 ETH_EFM_DF
Description
The ETH_EFM_DF is an alarm indicating negotiation failure. This alarm occurs when the point-to-point OAM protocol negotiation fails at the Ethernet port.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the reason why the negotiation fails.
l 0x01: The local link is faulty.
l 0x02: The local end fails to receive any OAM packets in a specified period.
l 0x03: The OAM settings of the opposite end do not meet the requirements ofthe local end.
l 0x04: The OAM settings of the local end do not meet the requirements of theopposite end.
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Impact on the SystemWhen the ETH_EFM_Discover alarm occurs, the service at the port that reports the alarm maybe interrupted.
Possible Causesl Cause 1: The physical port of the local end is faulty.
l Cause 2: The point to point OAM protocol is not enabled at the opposite end.
l Cause 3: The OAM configuration at both ends is inconsistent.
Procedure
Step 1 Cause 1: The physical port of the local end is faulty.(1) Check whether the physical port is faulty. If yes, replace the board where the Ethernet
port is located.
Step 2 Cause 2: The point to point OAM protocol is not enabled at the opposite end.(1) Enable the point to point OAM protocol at the opposite end.
Step 3 Cause 3: The OAM configuration at both ends is inconsistent.(1) Reconfigure the point to point OAM protocol and ensure the consistency at both ends.
----End
Related InformationNone.
A.3.37 ETH_EFM_EVENT
DescriptionThe ETH_EFM_EVENT is an alarm indicating the performance event reported on the oppositeNE. This alarm occurs when the local end receives the link error indication packet (OAMPDUM)from the opposite end.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 Indicates the type of the link event.
l 0x01: errored symbol period.
l 0x02: errored frame.
l 0x03: errored frame period.
l 0x04: errored frame seconds summary.
Impact on the SystemWhen the ETH_EFM_EVENT alarm occurs, the service at the port that reports the alarm maybe interrupted.
Possible Causesl Cause 1: The physical port at the local end is faulty.l Cause 2: The equipment at the opposite end is faulty.
ProcedureStep 1 Cause 1: The physical port at the local end is faulty.
(1) Check whether the physical port is faulty. If yes, replace the board where the Ethernetport is located.
Step 2 Cause 2: The equipment at the opposite end is faulty.(1) Rectify the fault of the equipment at the opposite end.
----End
Related InformationNone.
A.3.38 ETH_EFM_LOOPBACK
DescriptionThe ETH_EFM_LOOPBACK is an alarm indicating the loopback. This alarm occurs when thelocal end initiates a loopback or responds to a loopback request from the opposite end.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in the
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following format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the state of the loopback.
l 0x01: The local end initiates a loopback.
l 0x02: The local end responds to a loop request from the opposite end.
Impact on the System
When the ETH_EFM_LOOPBACK alarm occurs, the service at the port that reports the alarmis looped back.
Possible Causesl Cause 1: The local end initiates a loopback.
l Cause 2: The opposite end initiates a loopback.
Procedure
Step 1 Cause 1: The local end initiates a loopback.
(1) According to the alarm parameter, it is determined that the local end initiates a loopback.Determine the causes of the loopback initiated at the local end and release the loopback assoon as possible.
Step 2 Cause 2: The opposite end initiates a loopback.
(1) According to the alarm parameter, it is determined that the opposite end initiates a loopback.Determine the causes of the loopback initiated at the opposite port and release the loopbackas soon as possible.
----End
Related Information
None.
A.3.39 ETH_EFM_REMFAULT
Description
The ETH_EFM_REMFAULT is an alarm indicating the fault on the opposite NE. This alarmoccurs when the local end receives the fault indication packet (OAMPDUM) from the oppositeend.
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Attribute
Alarm Severity Alarm Type
Critical Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the fault type at the opposite end.
l 0x01: link fault.
l 0x02: dying gasp.
l 0x03: critical event.
Impact on the SystemWhen the ETH_EFM_REMFAULT alarm occurs, the service at the port that reports the alarmmay be interrupted.
Possible Causesl Cause 1: The opposite NE is reset.
l Cause 2: The opposite NE is faulty.
Procedure
Step 1 Cause 1: The opposite NE is reset.(1) Check whether the opposite NE is reset frequently.
If... Then...
The opposite NE is reset frequently Rectify the fault on the opposite NE.
The opposite NE is not reset frequently Reset the opposite NE, and the alarm iscleared.
Step 2 Cause 2: The opposite NE is faulty.(1) Rectify the fault on the opposite NE.
----End
Related InformationNone.
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A.3.40 ETH_LOS
DescriptionThe ETH_LOS is an alarm indicating the loss of Ethernet port connection.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
ParametersNone.
Impact on the SystemWhen the ETH_LOS alarm occurs, the service at the port that reports the alarm is interrupted.
Possible Causesl Cause 1: The negotiation fails because the transmit port and receive port work in different
modes.l Cause 2: The cable or fiber is faulty.
l Cause 3: The opposite NE is faulty.
Procedure
Step 1 Cause 1: The negotiation fails because the transmit port and receive port work in different modes.(1) Check whether the transmit port and receive port work in the same mode.
If... Then...
The transmit port and receive port workin different modes
Correctly set the working modes of thetransmit port and receive port.
The transmit port and receive port workin the same mode
Go to Cause 2.
Step 2 Cause 2: The cable or fiber is faulty.(1) Check the network cable or fiber jumper connected to the port that reports the alarm.
If... Then...
The network cable is loose or damaged Connect the network cable properly orreplace the damaged network cable.
The connector of the fiber jumper is dirty Clean the connector.
The connector is loosely connected ordamaged
Insert the connector properly or replace thedamaged fiber jumper.
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If... Then...
The connection is normal Go to Cause 3.
Step 3 Cause 3: The opposite NE is faulty.
(1) Check whether any fault occurs on the equipment interconnected with the port that reportsthe alarm.
If... Then...
The equipment is faulty Rectify the fault.
The equipment is normal Replace the board that reports the alarm on the localNE.
----End
Related Information
None.
A.3.41 ETHOAM_SELF_LOOP
Description
The ETHOAM_SELF_LOOP is an alarm indicating the loopback of the MAC port that runs thepoint-to-point OAM protocol. This alarm occurs when the MAC port of a board receives theOAM protocol packet sent by the port itself or the board after the loop detection function isenabled.
Attribute
Alarm Severity Alarm Type
Major Environmental alarms
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the loopback type.
l 0x01: self-loop of the port.
l 0x02: self-loop of the board.
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Impact on the SystemWhen the ETHOAM_SELF_LOOP alarm occurs, a network storm may occur due to theloopback.
Possible Causesl Cause 1: The cable connected to the port is self-looped, or the port is accessed to a LAN
that has a loopback, or the PHY/MAC loopback is manually configured at the port.l Cause 2: Two ports of the board are connected through cables or two ports of the board are
accessed to the same LAN.
ProcedureStep 1 Determine the loopback type according to Parameter 4, and then handle the loopback
accordingly.
If... Then...
The value of Parameter 4 is 0x01 Go to Cause 1.
The value of Parameter 4 is 0x02 Go to Cause 2.
Step 2 Cause 1: The cable connected to the port is self-looped, or the port is accessed to a LAN thathas a loopback, or the PHY/MAC loopback is manually configured at the port.
If... Then...
The PHY/MAC loopback is manuallyconfigured at the port
Manually release the PHY/MAC loopback (orwait five minutes for the automatic release bythe NE). Then, the self-loop is released.
The cable connected to the port is self-looped
Connect the cable properly to release the self-loop.
The port is accessed to a LAN that has aloopback
Release the loopback on the LAN, or break theconnection between the port and the LAN, torelease the self-loop.
Step 3 Cause 2: Two ports of the board are connected through cables or two ports of the board areaccessed to the same LAN.(1) Check whether two ports of the board are connected through cables or whether two ports
of the board are accessed to the same LAN.
If... Then...
The two ports are connected throughcables
Disconnect the cables to release the self-loop.
The two ports are accessed to the samenetwork
Break the connection between a port and theLAN to release the self-loop.
----End
Related InformationNone.
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A.3.42 EXT_SYNC_LOS
DescriptionThe EXT_SYNC_LOS is an alarm of the loss of the external clock source.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
ParametersNone.
Impact on the Systeml When the EXT_SYNC_LOS alarm occurs, if only the external clock source and internal
clock source are configured in the clock source priority list, the NE traces the internal clocksource after the external clock source is lost and enters the free-run state 24 hours later.
l If another valid clock source of higher priority and good quality is configured in the clocksource priority list, however, the clock protection switching occurs.
Possible CausesCause 1: The external clock source is configured in the clock source priority list, but the externalclock source cannot be detected or become invalid.
ProcedureStep 1 Cause 1: The external clock source is configured in the clock source priority list, but the external
clock source cannot be detected or become invalid.(1) Check whether the equipment that provides the external clock source is faulty.
If... Then...
The equipment is faulty Rectify the fault.
The equipment is normal Go to the next step.
(2) Check whether the cable that connects the external clock source is normal.
If... Then...
The cable is abnormal Replace the cable.
The cable is normal Replace the board that reports the alarm.
----End
Related InformationNone.
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A.3.43 FAN_AGING
DescriptionThe FAN_AGING is an alarm of the aged fan. This alarm occurs when the fan runs at a speedlower than 80% of the rated value.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the ID of the fan that reports the alarm.
Impact on the SystemWhen the FAN_AGING alarm occurs, it indicates that the NE has an over high temperature,which affects the long-time NE operation.
Possible CausesCause 1: The fan is aged.
Procedure
Step 1 Cause 1: The fan is aged.(1) Replace the fan.
----End
Related InformationNone.
A.3.44 FAN_FAIL
DescriptionThe FAN_FAIL is an alarm indicating that the fan is faulty.
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Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the number of the fan.
The values 0x01 to 0x06 separately represent each fan.
Impact on the SystemWhen the FAN_FAIL alarm occurs, the heat dissipation of the system is affected.
Possible Causesl Cause 1: The board and the backplane are connected improperly.
l Cause 2: Fan failure occurs.
Procedure
Step 1 Cause 1: The board and the backplane are connected improperly.(1) Remove the fan board. Clean the dust on the fan and reinsert the fan board.
If... Then...
The alarm is cleared after the board isremoved and inserted
The fault is rectified. End the alarmhandling.
The alarm persists after the board isremoved and inserted
Go to Cause 2.
Step 2 Cause 2: Fan failure occurs.(1) Replace the fan board that reports the alarm.
----End
Related InformationNone.
A.3.45 FLOW_OVER
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DescriptionThe FLOW_OVER is an alarm indicating that the data flow received by the Ethernet port exceedsthe threshold.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemWhen the FLOW_OVER alarm occurs, the extra data may be discarded by the port.
Possible Causesl Cause 1: The traffic threshold of the local port is very low.
l Cause 2: The opposite end transmits excessive data flow.
Procedure
Step 1 Cause 1: The traffic threshold of the local port is very low.(1) Increase the traffic threshold of the local port to a value that is lower than the rate of the
local port.
Step 2 Cause 2: The opposite end transmits excessive data flow.(1) Configure the QoS policies at the opposite end to reduce the data flow that the opposite
end transmits.
----End
Related InformationNone.
A.3.46 HARD_BAD
DescriptionThe HARD_BAD is an alarm indicating hardware errors.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
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Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the cause of the fault.l 0x01: The power module is working abnormally.
l 0x02: The board is installed improperly.
l 0x03: 38 MHz system clock 1 is abnormal.
l 0x04: 38 MHz system clock 2 is abnormal.
l 0x05: The 2 MHz clock source is abnormal.
l 0x06: The digital phase-locked loop is abnormal.
l 0x07: The 38 MHz service clock is lost.
l 0x08: The bus is abnormal.
l 0x09: The TPS protection board is abnormal.
l 0x0A: The primary crystal oscillator stops oscillating.
l 0x0B: The frequency offset of the primary crystal oscillator is excessive.
l 0x0C: The secondary crystal oscillator stops oscillating.
l 0x0D: The processor (CPU/DSP/coprocessor) is faulty.
l 0x0E: The storage components are faulty.
l 0x0F: The programmable logic device is faulty.
l 0x10: The SDH components are faulty.
l 0x11: The data communication components are faulty.
l 0x12: The clock components are faulty.
l 0x13: The interface components are faulty.
l 0x14: The power components are faulty.
l 0x15: The other fault occurs.
l 0x16: The analog phase-locked loop is abnormal.
l 0x17: The 32 MHz clock is unavailable.
l 0x18: The 66 MHz clock is unavailable.
l 0x19: The 25 MHz clock is unavailable.
l 0x1A: The ring of cross-connect chip is damaged.
Impact on the System
The board that reports the alarm fails to work. If the board is configured with the 1+1 protection,the protection switching may be triggered.
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Possible Causesl Cause 1: The board and the backplane are connected improperly.
l Cause 2: Board failure occurs.
l Cause 3: The slot is faulty.
Procedure
Step 1 Cause 1: The board and backplane are connected improperly.(1) Remove and insert the board that reports the alarm. For details, see 6.1 Removing a
Board and 6.2 Inserting a Board. Then, check whether the alarm is cleared.
If... Then...
The alarm is cleared after the board isremoved and inserted
The fault is rectified. End the alarmhandling.
The alarm persists after the board isremoved and inserted
Ensure that the board is normal.
Step 2 Cause 2: Board failure occurs.(1) Replace the board that reports the alarm, and then check whether the alarm is cleared. For
details, see 6 Part Replacement.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Ensure that the slot is normal.
Step 3 Cause 3: The slot is faulty.(1) Contact Huawei engineers to handle the faulty slot.
TIPGenerally, the slot becomes faulty due to the broken pin or bent pin. Remove the board, and use anelectric torch to observe whether there is any broken pin or bent pin.
(2) If an idle slot is available, insert the board in the idle slot and add the board again. Then,the board can work normally.
----End
Related InformationNone.
A.3.47 HP_CROSSTR
DescriptionThe HP_CROSSTR is an alarm indicating that the higher order path error crosses the threshold.This alarm occurs when the board detects that the performance event that the higher order patherror crosses the preset threshold.
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Attribute
Alarm Severity Alarm Type
Minor Service alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the performance monitoring period:
l 0x01: 15 minutes
l 0x02: 24 hours
Parameter 2, Parameter 3 Indicate the ID of a performance event that causes the alarm.
Impact on the System
When the HP_CROSSTR alarm occurs, a large number of errors occur in the service, and theservice may be interrupted.
Possible Causes
Cause 1: The higher order path error crosses the preset threshold.
Procedure
Step 1 Cause 1: The higher order path error crosses the preset threshold.
(1) Check the threshold crossing records to find out the performance event that the higher orderpath error crosses the preset threshold. For details, see 8.3.8 Browsing the PerformanceEvent Threshold-Crossing Records.
(2) Handle the threshold-crossing performance event.
----End
Related Information
None.
A.3.48 HP_LOM
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Description
The HP_LOM is an alarm indicating the loss of the higher order path multiframe. This alarmoccurs when the board detects that byte H4 is inconsistent with the expected multiframesequence.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
None.
Impact on the System
When the HP_LOM alarm occurs, the service on the path that reports the alarm is interrupted.If the services are configured with protection, the protection switching may be triggered.
Possible Causesl Cause 1: The transmit unit of the opposite NE is faulty.
l Cause 2: The receive unit of the local NE is faulty.
Procedure
Step 1 Cause 1: The transmit unit of the opposite NE is faulty.
(1) Replace the board where the line unit is located on the opposite NE. Then, checkwhether the alarm is cleared.
If... Then...
The alarm is cleared The fault is rectified. End the alarm handling.
The alarm persists Replace the system control, cross-connect, and timing boardon the opposite NE.
Step 2 Cause 2: The receive unit of the local NE is faulty.
(1) Replace the board that reports the alarm.
----End
Related Information
None.
A.3.49 HP_RDI
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DescriptionThe HP_RDI is an alarm indicating the higher order path remote receive failure. This alarmoccurs when the board detects that bit 5 of byte G1 is 1.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemWhen the HP_RDI occurs, the service on the local NE is not affected. The service received bythe opposite NE, however, is interrupted.
Possible CausesCause 1: The local NE detects the message that is returned by the opposite NE and indicates thehigher order path remote receive failure.
Procedure
Step 1 Cause 1: The local NE detects the message that is returned by the opposite NE and indicates thehigher order path remote receive failure.(1) Clear the alarms such as HP_LOM and B3_EXC that the AU-4 path reports on the opposite
NE.
----End
Related InformationNone.
A.3.50 HP_REI
DescriptionThe HP_REI is an alarm indicating the higher order path remote error. This alarm occurs whenthe board detects that bits 1-4 of G1 take a value from 1 to 8.
Attribute
Alarm Severity Alarm Type
Warning Communication alarm
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ParametersNone.
Impact on the SystemThe service on the local station is not affected. The service received by the opposite station,however, has errors.
Possible CausesCause 1: The local NE detects the message that is returned by the opposite NE and indicates thehigher order path remote errors.
Procedure
Step 1 Cause 1: The local NE detects the message that is returned by the opposite NE and indicates thehigher order path remote receive failure.(1) Handle the HP_BBE performance event that the AU-4 path reports on the opposite NE.
----End
Related InformationNone.
A.3.51 HP_SLM
DescriptionThe HP_SLM is an alarm indicating the lower order path label mismatch. This alarm occurswhen the board detects the C2 byte mismatch.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemNone.
Possible Causesl Cause 1: The C2 byte received by the local NE does not match with the C2 byte transmitted
by the remote NE.
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l Cause 2: Configuration data is incorrect.
ProcedureStep 1 Cause 1: The C2 byte received by the local NE does not match with the C2 byte transmitted by
the remote NE.(1) Configure the same service type at the source and sink of the AU-4 path. For details, see
Configuring Overhead Bytes.
Step 2 Cause 2: Configuration data is incorrect.(1) If the port that reports the alarm is the SDH port that is interconnected with the ATM/
Ethernet equipment, configure the service as VC-4 pass-through service. For details, seeCreating Cross-Connections of SNCP Services.
----End
Related InformationNone.
A.3.52 HP_TIM
DescriptionThe HP_TIM is an alarm indicating the higher order path trace identifier mismatch. This alarmoccurs when the board detects the J1 byte mismatch.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemIf the service is configured with the protection that considers the HP_TIM alarm as a triggercondition, the protection switching is triggered.
Possible Causesl Cause 1: The receivable J1 byte on the local NE does not match with the J1 byte transmitted
on the opposite NE.l Cause 2: Configuration data is incorrect.
ProcedureStep 1 Cause 1: The receivable J1 byte on the local NE does not match with the J1 byte transmitted on
the opposite NE.
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(1) Disable the receivable J1 byte on the local NE or set the receivable J1 byte on the local NEto the same as the transmitted J1 byte on the opposite NE. For details, see ConfiguringVC-4 POHs.
Step 2 Cause 2: Configuration data is incorrect.
(1) If the port that reports the alarm is the SDH port that is interconnected with the ATM/Ethernet equipment, configure the service as VC-4 pass-through service. For details, seeCreating Cross-Connections of SNCP Services or Creating the Cross-Connections of Point-to-Point Services.
If... Then...
The alarm is cleared after the configurationis changed
The fault is rectified. End the alarmhandling.
The alarm persists after the configurationis changed
Go to the next step.
(2) Check whether the cross-connections are configured correctly at the intermediate nodeswhere the service travels. If not, reconfigure the cross-connections. For details, see CreatingCross-Connections of SNCP Services or Creating the Cross-Connections of Point-to-PointServices.
----End
Related Information
None.
A.3.53 HP_UNEQ
Description
The HP_UNEQ is an alarm indicating the unequipped higher order path. This alarm occurs whenthe board detects that the C2 byte is 0.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 Indicates the ID of the line port that reports the alarm. For example,0x01 indicates that the alarm is reported by port 1 of the relatedboard.
Parameter 2, Parameter 3 Indicates the ID of the AU-4 path that reports the alarm. Forexample, 0x00 0x01 indicates that the alarm is reported by path 1of the SDH signal.
Impact on the SystemWhen the HP_UNEQ alarm occurs, the service in the AU-4 path that reports the alarm isunavailable. If the service is configured with the protection that considers the alarm as a triggercondition, the protection switching is triggered.
Possible Causesl Cause 1: The line port at the local NE is configured with services, but the corresponding
line port at the opposite NE is not configured with services.l Cause 2: Byte C2 is set to 0 at the opposite NE.
Procedure
Step 1 Cause 1: The line port at the local NE is configured with services, but the corresponding lineport at the opposite NE is not configured with services.(1) Configure line services on the opposite NE. For details, see Creating Cross-Connections
of SNCP Services or Creating the Cross-Connections of Point-to-Point Services.
Step 2 Cause 2: Byte C2 is set to 0 at the opposite NE.(1) Change the setting of byte C2. For details, see Configuring VC-4 POHs.
----End
Related InformationNone.
A.3.54 HPAD_CROSSTR
DescriptionThe HPAD_CROSSTR is an alarm indicating that the higher order path adaptation performancecrosses the threshold. This alarm occurs when a board detects that the performance event of TUpointer justification crosses the preset threshold.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
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ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the performance monitoring period:
l 0x01: 15 minutes
l 0x02: 24 hours
Parameter 2, Parameter 3 Indicate the ID of a performance event that causes the alarm.
Impact on the SystemWhen the HPAD_CROSSTR alarm occurs, bit errors may occur in the service.
Possible CausesCause 1: The performance event of TU pointer justification crosses the preset threshold.
Procedure
Step 1 Cause 1: The performance event of TU pointer justification crosses the preset threshold.(1) Check the threshold crossing records to find out the performance event of TU pointer
justification that crosses the preset threshold. For details, see 8.3.8 Browsing thePerformance Event Threshold-Crossing Records.
(2) Handle the threshold-crossing performance event.
----End
Related InformationNone.
A.3.55 IF_CABLE_OPEN
DescriptionThe IF_CABLE_OPEN is an alarm indicating that the IF cable is open.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
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Parameters
None.
Impact on the System
When the IF_CABLE_OPEN alarm occurs, the service on the IF port that reports the alarm isinterrupted.
Possible Causes
l Cause 1: The IF cable is loose or faulty.
l Cause 2: The IF port on the IF board is damaged.
l Cause 3: The power module of the ODU is faulty.
Procedure
Step 1 Cause 1: The IF cable is loose or faulty.
(1) Check whether the connector of the IF cable is loose or whether the connector is madeproperly.
The connectors to be checked include the connector between the IF fiber jumper and theIF board, the connector between the IF fiber jumper and the IF cable, and the connectorbetween the IF cable and the ODU.
If... Then...
The connector is loose Connect the connector tightly.
The connector is made improperly Make a new IF cable connector.
None of the above Go to the next step.
(2) Check whether the surface of the IF fiber jumper and the IF cable is damaged, and test theconnectivity between the IF fiber jumper and the IF cable. For details, see Testing theconnectivity between cables.
If... Then...
The cable does not meet the requirement Replace the cable with a qualified one.
The cable meets the requirement Go to Cause 2 or Cause 3.
Step 2 Cause 2: The IF port on the IF board is damaged.
(1) Replace the IF board that reports the alarm.
Step 3 Cause 3: The power module of the ODU is faulty.
(1) Replace the ODU connected to the IF board that reports the alarm.
----End
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Related InformationNOTEWhen rectifying the faults of the IF cable, IF port, and ODU, you must turn off the ODU before theoperation. You can turn on the ODU only after the operation is complete.
A.3.56 IF_INPWR_ABN
DescriptionThe IF_INPWR_ABN is an alarm indicating that the power that the IF cable inputs into the ODUis abnormal.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 l 0x01: input power of the ODU is over high.
l 0x02: input power of the ODU is over low.
Impact on the SystemWhen the IF_INPWR_ABN alarm occurs, the service on the ODU is interrupted. If the 1+1protection is configured, the 1+1 HSB switching is triggered.
Possible Causesl Cause 1: The IF board is faulty.
l Cause 2: The IF cable is faulty.
l Cause 3: The ODU is faulty.
ProcedureStep 1 Cause 1: The IF board is faulty.
(1) Replace the IF board connected to the ODU that reports the alarm.
Step 2 Cause 2: The IF cable is faulty.(1) Check whether the connector of the IF cable is loose or whether the connector is made
properly.
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The connectors to be checked include the connector between the IF fiber jumper and theIF board, the connector between the IF fiber jumper and the IF cable, and the connectorbetween the IF cable and the ODU.
If... Then...
The connector is loose Connect the connector tightly.
The connector is made improperly Terminate the IF cable with connectorsagain.
None of the above Go to the next step.
(2) Check whether the surface of the IF fiber jumper and the IF cable is damaged or deformed,
and test the connectivity between the IF fiber jumper and the IF cable. For details, seeTesting the Connectivity of the IF Cable.
If... Then...
The cable does not meet the requirement Replace the cable with a qualified one.
The cable meets the requirement The IF board or ODU may be faulty.
Step 3 Cause 3: The ODU is faulty.(1) Replace the board that reports the alarm.
----End
Related InformationThe logical slot of the ODU is the slot ID of the IF board connected to the ODU plus 20.
A.3.57 IF_MODE_UNSUPPORTED
DescriptionThe IF_MODE_UNSUPPORTED is an alarm indicating that the configured IF working modeis not supported. This alarm occurs if the board is not loaded with the FPGA file that supportsthe configured IF working mode.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,
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Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the ID of the FPGA file that is loaded to the board.
l 0x01 indicates that FPGA file 250 is loaded.
l 0x02 indicates that FPGA file 002 is loaded.
Impact on the System
When the IF_MODE_UNSUPPORTED alarm occurs, the service on the IF port that reports thealarm is interrupted.
Possible Causes
Cause 1: The board is not loaded with the FPGA file that supports the configured IF workingmode, or the FPGA file that supports the configured IF working mode is damaged.
Procedure
l Cause 1: The board is not loaded with the FPGA file that supports the configured IF workingmode, or the FPGA file that supports the configured IF working mode is damaged.
1. Contact Huawei engineers to upgrade the software and the FPGA file.
----End
Related Information
None.
A.3.58 IN_PWR_HIGH
Description
The IN_PWR_HIGH is an alarm indicating that the input optical power is over high.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
Parameters
None.
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Impact on the SystemWhen the IN_PWR_HIGH alarm occurs, the service at the optical interface that reports the alarmhas errors.
Possible Causesl Cause 1: The transmit power of the opposite NE is over high.
l Cause 2: The model of the selected optical module is incorrect.
l Cause 3: The optical module at the receive end is faulty.
Procedure
Step 1 Cause 1: The transmit power of the opposite site is over high.(1) Browse current performance events, and query the performance event of the transmit
optical power on the opposite NE.
If... Then...
The transmit optical power does not meetthe requirement
Contact Huawei engineers to replace theoptical module.
The transmit optical power meets therequirement
Add a proper attenuator to reduce thereceive optical power.
Step 2 Cause 2: The model of the selected optical module is incorrect.(1) Query the board manufacturing information report, and check whether the models of
the SFP optical modules used at both ends are correct.
If... Then...
The models are incorrect Contact Huawei engineers to replace the optical module.
The models are correct Go to Cause 3.
Step 3 Cause 3: The optical module at the receive end is faulty.(1) Use the optical power meter to test the receive optical power, and check whether the receive
optical power meets the requirement. If yes, contact Huawei engineers to replace the opticalmodule.
----End
Related InformationThe optical power threshold set for the IN_PWR_HIGH alarm is lower than the overload point.
SDH Optical Interface Performance.
A.3.59 IN_PWR_LOW
DescriptionThe IN_PWR_LOW is an alarm indicating that the input optical power is over low.
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Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
Parameters
None.
Impact on the System
When the IN_PWR_LOW alarm occurs, the service at the optical interface that reports the alarmhas errors.
Possible Causesl Cause 1: The transmit power of the opposite NE is over low.
l Cause 2: The model of the selected optical module is incorrect.
l Cause 3: The optical module at the receive end is faulty.
l Cause 4: The fiber performance degrades.
Procedure
Step 1 Cause 1: The transmit power of the opposite NE is over low.
(1) Browse current performance events, and query the performance event of the transmitoptical power on the opposite NE.
If... Then...
The transmit optical power does not meetthe requirement
Contact Huawei engineers to replace theoptical module.
The transmit optical power meets therequirement
Go to Cause 2.
Step 2 Cause 2: The model of the selected optical module is incorrect.
(1) Query the board manufacturing information report, and check whether the models ofthe SFP optical modules used at both ends are correct.
If... Then...
The models are incorrect Contact Huawei engineers to replace the optical module.
The models are correct Go to Cause 3.
Step 3 Cause 3: The optical module at the receive end is faulty.
(1) Use the optical power meter to test the receive optical power, and check whether the receiveoptical power meets the requirement.
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If... Then...
The receive optical power meets therequirement
Contact Huawei engineers to replace theoptical module.
The receive optical power does not meet therequirement
Go to Cause 4.
Step 4 Cause 4: The fiber performance degrades.(1) Clean fiber connectors and adapters.
If... Then...
The alarm is cleared after the connector iscleaned
The fault is rectified. End the alarm handling.
The alarm persists after the connector iscleaned
Replace the fiber.
----End
Related Information
The optical power threshold set for the IN_PWR_LOW alarm is higher than the sensitivity point.
SDH Optical Interface Performance.
A.3.60 J0_MM
Description
The J0_MM is an alarm indicating the trace identifier mismatch. This alarm occurs when theboard detects the J0 byte mismatch.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
Parameters
None.
Impact on the System
None.
Possible Causes
Cause 1: The receivable J0 byte on the local NE does not match the transmitted J0 byte on theopposite NE.
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Procedure
Step 1 Cause 1: The receivable J0 byte on the local NE does not match the transmitted J0 byte on theopposite NE.
(1) Disable the receivable J0 byte on the local NE. For details, see Configuring RSOHs.
----End
Related Information
None.
A.3.61 K1_K2_M
Description
The K1_K2_M is an alarm indicating the K1/K2 byte mismatch. This alarm occurs when theboard detects inconsistent channel numbers that the transmitted K1 byte (bits 5-8) and thereceived K2 byte (bits 1-4) indicate.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the protection group type.l 0x01: linear MS protection.
l 0x02: ring MS protection.
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the System
When the K1_K2_M alarm occurs, the MSP protocol may fail and thus the protection switchingmay fail.
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Possible Causesl Cause 1: The switching modes configured at both ends are single-ended switching and dual-
ended switching separately.
l Cause 2: The fiber connection is incorrect.
l Cause 3: Board failure occurs.
Procedure
Step 1 Cause 1: The switching modes configured at both ends are single-ended switching and dual-ended switching separately.
(1) Check whether the switching modes at both ends are the same.
If... Then...
The switching modes are different Configure the switching modes as the same.
The switching modes are the same Go to Cause 2.
Step 2 Cause 2: The fiber connection is incorrect.
(1) Check whether the fiber connection is correct. For example, the fiber at the receive ortransmit port may be incorrectly connected, or disconnected.
If... Then...
The fiber connection is incorrect Connect the fiber properly.
The connection is correct Go to Cause 3.
Step 3 Cause 3: Board failure occurs.
(1) Replace the board where the line unit is located on the opposite NE. Then, checkwhether the alarm is cleared.
If... Then...
The alarm is cleared The fault is rectified. End the alarm handling.
The alarm persists Replace the board that reports the alarm.
----End
Related Information
None.
A.3.62 K2_M
Description
The K2_M is an alarm indicating the K2 byte mismatch. This alarm occurs when the boarddetects that the protection mode indicated by the received K2 (bit 5) is different from theprotection mode of the NE.
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Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the protection group type.l 0x01: linear MS protection.
l 0x02: ring MS protection.
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the SystemWhen the K2_M alarm occurs, the MSP protocol may fail and thus the protection switching mayfail.
Possible Causesl Cause 1: Two NEs of the linear MSP group are configured with different protection modes
(1+1 or 1:N).l Cause 2: The MSP protocol is stopped when the protection switching occurs.
l Cause 3: The fiber connection is incorrect.
l Cause 4: Board failure occurs.
Procedure
Step 1 Cause 1: Two NEs of the linear MSP group are configured with different protection modes (1+1 or 1:N).(1) Query the status of the linear MSP, and check whether two NEs of the linear MSP group
are configured with different protection modes (1+1 or 1:1).
If... Then...
The protection modes are different Configure the protection modes as the same.
The protection modes are the same Go to Cause 2.
Step 2 Cause 2: The MSP protocol is stopped when the protection switching occurs.(1) Query the status of the linear MSP, and check whether the MSP protocol is stopped on the
opposite NE.
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If... Then...
The protocol is stopped Restart the MSP protocol on the opposite NE. For details, seeStarting/Stopping the Linear MSP Protocol.
The protocol is running Go to Cause 3.
Step 3 Cause 3: The fiber connection is incorrect.(1) Check whether the fiber connection is correct. For example, the fiber at the receive or
transmit port may be incorrectly connected, or disconnected.
If... Then...
The connection is incorrect Connect the fiber properly
The connection is correct Go to Cause 4.
Step 4 Cause 4: Board failure occurs.(1) Replace the board where the line unit is located on the opposite NE. Then, check
whether the alarm is cleared.
If... Then...
The alarm is cleared The fault is rectified. End the alarm handling.
The alarm persists Replace the board that reports the alarm.
----End
Related Information
None.
A.3.63 LAG_BWMM
Description
LAG_BWMM is an alarm indicating the bandwidth inconsistency in the LAG group.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
Impact on the System
The configuration of the LAG is invalid.
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Possible Causes
Cause 1: In the LAG group, the license capacities of the ports differ from each other.
Procedure
Step 1 Cause 1: In the LAG group, the license capacities of the ports differ from each other.
(1) Query the license capacities of the ports of the LAG group by using the NMS.
(2) If the license capacities of the ports differ from each other, reload a license file of anappropriate capacity.
----End
Related Information
None.
A.3.64 LAG_DOWN
Description
The LAG_DOWN alarm is an alarm indicating that the link aggregation group (LAG) isunavailable. This alarm occurs when the LAG does not have activated members.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
Impact on the System
When the LAG_DOWN alarm occurs, the service at the member port of the LAG is interrupted.
Possible Causes
Cause 1: All the member ports of the aggregation group are invalid for the same causes as theLAG_MEMBER_DOWN alarm.
Procedure
Step 1 Cause 1: All the member ports of the LAG are invalid for the same causes as theLAG_MEMBER_DOWN alarm.
(1) Determine the port that reports the alarm according to the alarm parameter.
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(2) Rectify the fault at each member port according to the description ofLAG_MEMBER_DOWN.
----End
Related Information
None.
A.3.65 LAG_MEMBER_DOWN
Description
The LAG_MEMBER_DOWN alarm is an alarm indicating that a member port of a linkaggregation group (LAG) is unavailable. This alarm occurs when a member port of an LAG canneither be activated nor function as a protection port.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2 Indicates the ID of the board that reports the alarm.
Parameter 3 Indicates the ID of the subboard that reports the alarm. The valueis always 0xff.
Parameter 4, Parameter 5 Indicates the ID of the port that reports the alarm.
Parameter 6 Indicates the cause that makes the port unavailable.l 0x01: The port link is faulty or disabled.
l 0x02: The port fails to receive the LACP packets.
l 0x03: The port works in half-duplex mode.
l 0x04: The port is self-looped.
Impact on the System
When the LAG_MEMBER_DOWN alarm occurs, the faulty member port of the LAG cannotshare the service load, and the service is not transmitted or received through this port.
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Possible Causesl Cause 1: The port link is faulty or disabled.
l Cause 2: The port receives no LACP packets.
l Cause 3: The port works in half-duplex mode.
l Cause 4: The port is self-looped.
Procedure
Step 1 Determine the port that reports the alarm and the cause of the alarm according to the alarmparameters.
If... Then...
The value of Parameter 4 is 0x01 Perform the operations described in step Step 2.
The value of Parameter 4 is 0x02 Perform the operations described in step Step 3.
The value of Parameter 4 is 0x03 Perform the operations described in step Step 4.
The value of Parameter 4 is 0x04 Perform the operations described in step Step 5.
Step 2 Cause 1: The port link is faulty or disabled.(1) On the NMS, check whether the port in the LAG is enabled. For details, see Querying the
Protocol Information of the LAG.
If... Then...
The port is not enabled Enable the port in the LAG.
The port is enabled Go to the next step.
(2) Check the link status of all ports and check whether the ETH_LOS alarm is reported.
If... Then...
The alarm is reported Clear the ETH_LOS alarm immediately and rectify thefault of the port link.
The alarm is not reported Go to Cause 2.
Step 3 Cause 2: The port receives no LACP packets.(1) Check whether the local port and the remote port transmit the LACP packets. For details,
see Querying the Protocol Information of the LAG. If the LACP packets are not transmitted,configure the ports at two ends to ensure that the packets can be normally transmitted.
Step 4 Cause 3: The port works in half-duplex mode.(1) On the NMS, check whether the port in the LAG is enabled. For details, see Querying the
Protocol Information of the LAG. If the port is in half-duplex mode, change the workingmode of the port into full-duplex.
Step 5 Cause 4: The port is self-looped.(1) Check whether the port is self-looped. For details, see 8.15 Querying the Attributes of
an Ethernet Port. If the port is self-looped, release the self-loop. For details, see 8.5.3Setting a Loopback for the Ethernet Interface Board.
----End
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Related Information
None.
A.3.66 LASER_CLOSED
Description
The LASER_CLOSED is an alarm indicating that the laser is shut down. This alarm occurs whenthe laser is shut down by using the NMS.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
Impact on the System
When the LASER_CLOSED alarm occurs, the optical interface fails to carry services.
Possible Causes
Cause 1: The laser on the local NE is shut down by using the NMS.
Procedure
Step 1 Cause 1: The laser on the local NE is shut down by using the NMS.
(1) Find out the cause of shutting down the laser and start up the laser as soon as possible.
----End
Related Information
None.
A.3.67 LASER_MOD_ERR
Description
The LASER_MOD_ERR is an alarm indicating that the type of the pluggable optical moduleon the board does not match the type of the optical interface.
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Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersNone.
Impact on the SystemWhen the LASER_MOD_ERR alarm occurs, the performance of the optical interface degradesand serious degradation even causes service interruption.
Possible Causesl Cause 1: The optical module installed at the optical interface does not match the rate of the
optical interface.l Cause 2: The optical module is faulty.
l Cause 3: Board failure occurs.
l Cause 4: The small form-factor pluggable (SFP) module does not match the interface type.
Procedure
Step 1 Cause 1: The optical module installed at the optical interface does not match the rate of theoptical interface.(1) Check whether the optical module installed at the optical interface matches the rate of the
optical interface. For details, see 8.4.2 Querying the Board Manufacturing InformationReport .
If... Then...
The optical module does not match therate of the optical interface
Contact Huawei engineers to replace theoptical module with one that matches therate of the optical interface.
The optical module matches the rate ofthe optical interface
Go to Cause 2.
Step 2 Cause 2: The optical module is faulty.(1) Replace the faulty optical module.
If... Then...
The alarm is cleared after the optical module is replaced End the alarm handling.
The alarm persists after the optical module is replaced Go to Cause 3.
Step 3 Cause 3: Board failure occurs.(1) Replace the board that reports the alarm.
Step 4 Cause 4: The SFP module does not match the interface type.
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(1) Replace the existing SFP module with a proper SFP module.
----End
Related Information
None.
A.3.68 LASER_MOD_ERR_EX
Description
The LASER_MOD_ERR is an alarm indicating that the type of the pluggable optical moduleon the board does not match the type of the optical interface.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
None.
Impact on the System
When the LASER_MOD_ERR_EX alarm occurs, the performance of the optical interfacedegrades and serious degradation even causes service interruption.
Possible Causesl Cause 1: The optical module installed at the optical interface does not match the rate of the
optical interface.
l Cause 2: The optical module is faulty.
l Cause 3: Board failure occurs.
l Cause 4: The small form-factor pluggable (SFP) module does not match the interface type.
Procedure
Step 1 Cause 1: The optical module installed at the optical interface does not match the rate of theoptical interface.
(1) Check whether the optical module installed at the optical interface matches the rate of theoptical interface. For details, see 8.4.2 Querying the Board Manufacturing InformationReport .
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If... Then...
The optical module does not match therate of the optical interface
Contact Huawei engineers to replace theoptical module with one that matches therate of the optical interface.
The optical module matches the rate ofthe optical interface
Go to Cause 2.
Step 2 Cause 2: The optical module is faulty.
(1) Replace the faulty optical module.
If... Then...
The alarm is cleared after the optical module is replaced End the alarm handling.
The alarm persists after the optical module is replaced Go to Cause 3.
Step 3 Cause 3: Board failure occurs.
(1) Replace the board that reports the alarm.
Step 4 Cause 4: The SFP module does not match the interface type.
(1) Replace the existing SFP module with a proper SFP module.
----End
Related Information
None.
A.3.69 LCS_LIMITED
Description
The LCS_LIMITED is an alarm indicating that the configuration capacity of an NE exceeds thecapacity authorized by the license file.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 Indicates the alarm cause.
l 0x01: The service capacity exceeds the capacity authorized by the license file.
l 0x02: The AM license file is not loaded.
l 0x03: In the case of IF protection, the bandwidth at the standby port authorizedby the license file is lower than the bandwidth at the main port authorized bythe license file.
Impact on the System
When the LCS_LIMITED alarm occurs, the change of radio service capacity cannot take effecton the NE.
Possible Causesl Cause 1: The services configured on the NE exceed the capacity authorized by the license
file.l Cause 2: The AM configuration on the NE exceeds the limit authorized by the license file.
l Cause 3: In the case of IF protection, the bandwidth at the standby port authorized by thelicense file is lower than the bandwidth at the main port authorized by the license file.
Procedure
Step 1 Query the capacity of the license by using the NMS.
Step 2 Cause 1: The services configured on the NE exceed the capacity authorized by the license file.(1) Check whether the radio service configuration exceeds the capacity of the license. If yes,
delete the excessive cross-connections of radio services.
Step 3 Cause 2: The AM configuration on the NE exceeds the limit authorized by the license file.(1) Check the AM enabling status. If the license does not allow the AM to be enabled, set the
AM function to disabled.
Step 4 Cause 3: In the case of IF protection, the bandwidth at the standby port authorized by the licensefile is lower than the bandwidth at the main port authorized by the license file.(1) Check whether the capacities that are authorized by the license files for the main and
standby IF boards in an IF protection group are consistent with the capacities specified inthe contract. If not, contact Huawei technical support engineers to reload correct licensefiles.
----End
Related Information
None.
A.3.70 LCS_MISMATCH
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Description
The LCS_MISMATCH is an alarm indicating that boards in a protection group are loaded withinconsistent license files.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the type of the protection group.
0x03: N+1 IF protection
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the System
None.
Possible Causes
Cause 1: The boards in a protection group are loaded with inconsistent license files.
Procedure
Step 1 Query the capacity of the license on the NMS to obtain the capacities that are authorized bythe license files for all the IF boards in the protection group.
Step 2 Check whether the capacities that are authorized by the license files for all the IF boards in theprotection group are consistent with the capacities specified in the contract. If not, contactHuawei technical support engineers to reload correct license files.
----End
Related Information
The license files of all the IF boards in the N+1 protection group must be consistent.
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A.3.71 LICENSE_LOST
Description
The LICENSE_LOST is an alarm indicating that the NE fails to detect the license file.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the type of the license file.
l 0x01: AM license
l 0x02: Hybrid license
l 0x03: TDM license
Impact on the System
When the LICENSE_LOST alarm occurs, the functions authorized by the license file cannottake effect.
Possible Causes
Cause 1: The license file is lost or is not loaded.
Procedure
Step 1 Cause 1: The license file is lost or is not loaded.(1) Contact Huawei engineers to reload the license file to the NE.
----End
Related Information
The NE calculates the radio service capacity according to the service cross-connections on theIF board.
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A.3.72 LOOP_ALM
DescriptionThe LOOP_ALM is an alarm indicating that a loop occurs.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 Indicates the type of loopback.
l 0x00: optical/electrical port inloop.
l 0x01: optical/electrical port outloop.
l 0x02: path inloop.
l 0x03: path outloop.
l 0x04: loopback on the user side.
l 0x05: loopback on the multiplexing side.
l 0x06: SPI inloop.
l 0x07: SPI outloop.
l 0x08: ATM layer inloop.
l 0x09: ATM layer outloop.
l 0x0A: PHY layer inloop.
l 0x0B: PHY layer outloop.
l 0x0C: MAC layer inloop.
l 0x0D: MAC layer outloop.
l 0x0E: VC-4 timeslot inloop.
l 0x0F: VC-4 timeslot outloop.
l 0x10: VC-3 timeslot inloop.
l 0x11: VC-3 timeslot outloop.
l 0x12: VC-12 timeslot inloop.
l 0x13: VC-12 timeslot outloop.
l 0x14: IF outloop.
l 0x15: IF inloop.
l 0x16: RF inloop.
l 0xFF: any of the preceding loopback modes.
Impact on the SystemWhen the LOOP_ALM alarm occurs, the looped port or path cannot carry services.
Possible CausesCause 1: A loop is performed on the local NE.
ProcedureStep 1 Cause 1: A loop is performed on the local NE.
(1) Determine the type of loopback according to the alarm parameter.(2) Find out the cause of the loopback, and set the loopback status of the port that reports the
alarm to Non-Loopback.
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For details, see 8.5 Software Loopback.
----End
Related Information
None.
A.3.73 LP_CROSSTR
Description
The LP_CROSSTR is an alarm indicating that the lower order path error crosses the threshold.This alarm occurs when the board detects the performance event that the lower order path errorcrosses the preset threshold.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the performance monitoring period:
l 0x01: 15 minutes
l 0x02: 24 hours
Parameter 2, Parameter 3 Indicate the ID of a performance event that causes the alarm.
Impact on the System
When the LP_CROSSTR alarm occurs, a large number of errors occur in the service, and theservice may even be interrupted.
Possible Causes
Cause 1: The lower order path error crosses the preset threshold.
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Procedure
Step 1 Cause 1: The lower order path error crosses the preset threshold.(1) Check the threshold crossing records to find out the performance event that the lower order
path error crosses the preset threshold.(2) Handle the threshold-crossing performance event.
----End
Related InformationNone.
A.3.74 LP_R_FIFO
DescriptionThe LP_R_FIFO is an alarm indicating that the FIFO overflows on the transmit side of the lowerorder path.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersNone.
Impact on the SystemWhen the LP_R_FIFO alarm occurs, the service has errors.
Possible Causesl Cause 1: The clock of the local NE is not synchronized with the clock of the opposite NE.
l Cause 2: Board failure occurs.
Procedure
Step 1 Cause 1: The clock of the local NE is not synchronized with the clock of the opposite NE.(1) Browse current performance events, and check whether the performance event of TU
pointer justification occurs on the local NE and the opposite NE.
If... Then...
The TU pointer justification occurs Handle the performance event. For details,see C.3.21 TUPJCHIGH, TUPJCLOW,and TUPJCNEW.
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If... Then...
The TU pointer justification does notoccur
Go to Cause 2.
Step 2 Cause 2: Board failure occurs.(1) Replace the board that reports the alarm.
----End
Related InformationNone.
A.3.75 LP_RDI
DescriptionThe LP_RDI is an alarm indicating the lower order path remote receive failure. This alarm occurswhen the board detects that bit 8 of byte V5 is 1.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemWhen the LP_RDI occurs, the service on the local NE is not affected. The service received bythe opposite NE, however, is interrupted.
Possible CausesCause 1: The local NE detects the message that is returned by the opposite NE and indicates thelower order path remote receive failure.
Procedure
Step 1 Cause 1: The local NE detects the message that is returned by the opposite NE and indicates thelower order path remote receive failure.(1) Handle the lower order path alarm on the opposite NE.
----End
Related InformationNone.
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A.3.76 LP_REI
Description
The LP_REI is an alarm indicating the lower order path remote error. This alarm occurs whenthe board detects that bits 3 of V5 is 1.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
Parameters
None.
Impact on the System
When the LP_REI alarm occurs, the service on the local NE is not affected. The service receivedby the opposite NE, however, has errors.
Possible Causes
Cause 1: The local NE detects the message that is returned by the opposite NE and indicates thelower order path remote errors.
Procedure
Step 1 Cause 1: The local NE detects the message that is returned by the opposite NE and indicates thelower order path remote errors.
(1) Handle the LP_BBE performance event on the opposite NE.
----End
Related Information
None.
A.3.77 LP_RFI
Description
The LP_RFI is an alarm indicating the lower order path remote failure. This alarm occurs whenthe board detects that bits 4 of V5 is 1.
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Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemWhen the LP_RFI alarm occurs, the service on the local NE is not affected. The alarm onlyindicates that the lower order paths on the opposite NE cannot carry services.
Possible CausesCause 1: The local NE detects the message that is returned by the opposite NE and indicates thelower order path remote failure.
Procedure
Step 1 Cause 1: The local NE detects the message that is returned by the opposite NE and indicates thelower order path remote failure.(1) Handle the lower order path alarm on the opposite NE.
----End
Related InformationNone.
A.3.78 LP_SIZE_ERR
DescriptionThe LP_SIZE_ERR is an alarm indicating that the size of the TU pointer is incorrect.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersNone.
Impact on the SystemThe services on the board are interrupted.
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Possible Causesl Cause 1: The configuration of the mapping structure at the local end or remote end is
incorrect.
l Cause 2: The tributary board is faulty.
Procedure
Step 1 Cause 1: The configuration of the mapping structure at the local end or remote end is incorrect.
(1) Check whether the types of the add/drop services configured on the board at the local endor remote end are the same as the service types supported by the board. For details, seeQuerying TDM Services.
If... Then...
The service types are different Change the configuration data.
The service types are the same Go to Cause 2.
Step 2 Cause 2: The tributary unit is faulty.
(1) Replace the board where the faulty tributary unit is.
----End
Related Information
None.
A.3.79 LP_SLM
Description
The LP_SLM is an alarm indicating that a mismatched signal label is detected in the lower orderpath. This alarm is reported when the board detects a signal label mismatch between the V5bytes.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
Parameters
None.
Impact on the System
The services in the lower order path are unavailable.
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Possible CausesCause 1: The signal label contained in the V5 byte that is received by the local station does notmatch with the signal label contained in the V5 byte that is transmitted by the remote station.
Procedure
Step 1 Cause 1: The signal label contained in the V5 byte that is received by the local station does notmatch with the signal label contained in the V5 byte that is transmitted by the remote station.(1) Modify the signal label contained in the V5 byte that is to be received by the local station
or is to be transmitted by the remote station. Ensure that the signal labels at both ends matchwith each other. For details, see Configuring VC-12 POHs.
----End
Related InformationNone.
A.3.80 LP_T_FIFO
DescriptionThe LP_T_FIFO is an alarm indicating that the FIFO overflows on the transmission side of thelower order path.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersNone.
Impact on the SystemBit errors occur in the services.
Possible Causesl Cause 1: The frequency offset of the input signal is very large.
l Cause 2: The board is faulty.
Procedure
Step 1 Cause 1: The frequency offset of the input signal is very large.(1) Use an SDH analyzer to check whether the frequency offset of the input signal is within
50 ppm.
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If... Then...
The frequency offset is very large Troubleshoot the remote site.
The frequency offset is within 50 ppm Go to Cause 2.
Step 2 Cause 2: The board is faulty.(1) Replace the board that reports the alarm..
----End
Related InformationNone.
A.3.81 LP_TIM
DescriptionThe LP_TIM is an alarm indicating a mismatched trace identifier is detected in the lower orderpath. This alarm is reported when the board detects a mismatch between the J2 bytes at bothends.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemNone.
Possible Causesl Cause 1: The J2 byte to be received by the local station does not match with the J2 byte to
be transmitted by the remote station.l Cause 2: The data configuration at the intermediate nodes is incorrect.
Procedure
Step 1 Cause 1: The J2 byte to be received by the local station does not match with the J2 byte to betransmitted by the remote station.(1) Set the byte mode of the J2 byte to be received by the local station to the disable mode.
Alternatively, set the J2 byte to be received by the local station to match with the J2 byteto be transmitted by the remote station. For details, see Configuring VC-12 POHs.
Step 2 Cause 2: The data configuration at the intermediate nodes is incorrect.
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(1) Check whether the cross-connections of the intermediate nodes where the service travelsare configured correctly. If not, reconfigure the cross-connections. For details, see QueryingTDM Services.
----End
Related InformationNone.
A.3.82 LP_UNEQ
DescriptionThe LP_UNEQ is an alarm indicating that the lower order path is unequipped. This alarm isreported when the board detects that the V5 byte signal label is 0.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemThe services in the path are unavailable. If the services are configured with protection, protectionswitching may be triggered.
Possible CausesThe data configuration is incorrect.
l Cause 1: The tributary path at the local station is configured with services, but the tributarypath at the remote station is not configured with services.
l Cause 2: The cross-connection configuration at the intermediate nodes is incorrect.
Procedure
Step 1 Cause 1: The tributary path at the local station is configured with services, but the tributary pathat the remote station is not configured with services.(1) Check whether the tributary path at the remote station is configured with services. For
details, see Querying TDM Services.
If... Then...
The tributary path at the remote stationis not configured with services
Configure services for the tributary path atthe remote station.
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If... Then...
The tributary path at the remote stationis configured with services
Go to Cause 2.
Step 2 Cause 2: The cross-connection configuration at the intermediate nodes is incorrect.(1) Check whether the cross-connection configuration at the intermediate nodes is correct. If
not, reconfigure the cross-connections. For details, see Querying TDM Services.
----End
Related InformationNone.
A.3.83 LPS_UNI_BI_M
DescriptionThe LPS_UNI_BI_M is an alarm indicating that switching modes (single-ended or dual-ended)at both ends of the linear MSP do not match with each other.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the type of the protection group.
0x01: linear MS protection.
Parameter 2 Indicates the ID of the protection group that reports the alarm. For example, 0x01indicates that the alarm is reported by protection group 1.
Impact on the SystemThe system performs protection switching in single-ended mode.
Possible CausesCause 1: The linear MSP is configured incorrectly.
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The LPS_UNI_BI_M alarm is generated only when the following conditions are met:
l The switching modes (single-ended or dual-ended) at the local and remote stations aredifferent.
l The last three bits of the K2 byte are set to the indicated mode.
l The type of the protocol is set to a restructure protocol.
Procedure
Step 1 Cause 1: The linear MSP is configured incorrectly.(1) Change the MSP switching modes at both ends, and ensure that they are the same. For
details, see Querying the Status of the Linear MSP.
----End
Related InformationNone.
A.3.84 LSR_NO_FITED
DescriptionThe LSR_NO_FITED is an alarm indicating that the SFP optical module is not installed.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
ParametersNone.
Impact on the SystemThe optical interface fails to carry services.
Possible CausesCause 1: The laser of the local station is not installed.
Procedure
Step 1 Cause 1: The SFP optical module of the local station is not installed.(1) Find out why the SFP optical module is not installed, and contact Huawei technical support
engineers for the installation.
----End
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Related InformationNone.
A.3.85 LTI
DescriptionThe LTI is an alarm indicating that the synchronization sources are lost. This alarm is reportedwhen all the synchronization sources for the NE are lost.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 The value is always 0x01.
Impact on the SystemThe clock enters the free-run mode and loses synchronization with other NE clocks.
Possible Causesl Cause 1: The clock configuration is incorrect.
l Cause 2: All the clock sources in the clock source priority table fail.
Procedure
Step 1 Cause 1: The clock configuration is incorrect.(1) Check whether the data in the clock source priority table meets the network planning
requirement. For details, see Querying the Clock Synchronization Status.
If... Then...
The configuration is incorrect Correct the configurations.
The configuration is correct Go to Cause 2.
Step 2 Cause 2: All the clock sources in the clock source priority table fail.
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(1) Troubleshoot the synchronization sources based on the clock source priority table.
If... Then...
The synchronization source is theexternal clock
Handle the EXT_SYNC_LOS alarm.
The synchronization source is the lineclock
Handle the alarm that occurs on the lineboard.
The synchronization source is the IFclock
Handle the alarm that occurs on the IF board.
The synchronization source is thetributary clock
Handle the alarm that occurs on the tributaryboard.
The synchronization source is theEthernet clock
Handle the alarm that occurs on the Ethernetboard.
----End
Related Information
None.
A.3.86 MS_AIS
Description
The MS_AIS is an alarm indicating multiplex section alarms. This alarm is reported when theboard detects that bits 6-8 of the K2 byte in the three consecutive frames are 111.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
None.
Impact on the System
The services on the line port are interrupted. If the services are configured with protection,protection switching may be triggered.
Possible Causesl Cause 1: The transmit unit at the opposite station is faulty.
l Cause 2: The receive unit at the local station is faulty.
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Procedurel Cause 1: The transmit unit at the opposite station is faulty.
1. Replace the line board at the opposite site based on the type of the board that reportsthe alarm.
If... Then...
The line board reports the alarm Replace the line board at the opposite end.
The IF board reports the alarm Replace the IF board at the opposite end.
2. Replace the board and then check whether the alarm is cleared.
If... Then...
The alarm is cleared after the board replacement End the fault handling.
The alarm persists after the board replacement Go to the next step.
3. Replace the system control, cross-connect, and timing board at the oppositeend.
If... Then...
The alarm is cleared after the board replacement End the fault handling.
The alarm persists after the board replacement Go to Cause 2.
l Cause 2: The receive unit at the local station is faulty.1. Replace the board that reports the alarm.
----End
Related InformationNone.
A.3.87 MS_CROSSTR
DescriptionThe MS_CROSSTR is an alarm indicating that a performance indicator of the multiplex sectioncrosses the threshold. This alarm is reported when the board detects that the MS BERperformance indicator crosses the preset threshold.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in the
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following format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the performance monitoring period:
l 0x01: 15 minutes
l 0x02: 24 hours
Parameter 2, Parameter 3 Indicate the ID of a performance event that causes the alarm.
Impact on the SystemA large number of bit errors occur in the services, and the services may be interrupted.
Possible CausesCause 1: The MS BER performance indicator crosses the preset threshold.
ProcedureStep 1 Cause 1: The MS BER performance indicator crosses the preset threshold.
(1) Check the threshold crossing records of MS BER performance events to find out theperformance event that crosses the preset threshold. For details, see 8.3.8 Browsing thePerformance Event Threshold-Crossing Records.
(2) Handle the performance event that crosses the threshold.
----End
Related InformationNone.
A.3.88 MS_RDI
DescriptionThe MS_RDI is an alarm indicating that data reception at the remote end of the multiplex sectionfails. This alarm is reported when the board detects that bits 6-8 of the K2 byte are 110.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
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Impact on the SystemThe services on the local station are not affected. The services received by the opposite station,however, are interrupted.
Possible CausesCause 1: The local station receives a message from the opposite station, and the messageindicates that data reception at the remote end of the multiplex section fails.
Procedure
Step 1 Cause 1: The local station receives a message from the opposite station, and the messageindicates that data reception at the remote end of the multiplex section fails.(1) Rectify the fault that occurs on the opposite station.
The possible alarms are as follows:
l MS_AISl R_LOSl R_LOFl B2_EXCl B2_SD
----End
Related InformationNone.
A.3.89 MS_REI
DescriptionThe MS_REI is an alarm indicating that bit errors occur on the remote end of the multiplexsection. This alarm is reported when the board detects that the M1 byte is non-zero.
Attribute
Alarm Severity Alarm Type
Warning Service alarm
ParametersNone.
Impact on the SystemThe services on the local station is not affected. The services received by the opposite station,however, has bit errors.
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Possible CausesCause 1: The local station receives a message from the opposite station, and the messageindicates that bit errors occur on the remote end of the multiplex section.
ProcedureStep 1 Cause 1: The local station receives a message from the opposite station, and the message
indicates that bit errors occur on the remote end of the multiplex section.(1) Handle the MS_BBE performance event on the port of the opposite station.
----End
Related InformationNone.
A.3.90 MSAD_CROSSTR
DescriptionThe MSAD_CROSSTR is an alarm indicating that the adaptation performance indicator of themultiplex section crosses the threshold. This alarm is reported when the board detects that anAU pointer adaptation performance indicator crosses the preset threshold.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the performance monitoring period:
l 0x01: 15 minutes
l 0x02: 24 hours
Parameter 2, Parameter 3 Indicate the ID of a performance event that causes the alarm.
Impact on the SystemBit errors may occur in the services.
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Possible Causes
Cause 1: An AU pointer adaptation performance indicator crosses the preset threshold.
Procedure
Step 1 Cause 1: An AU pointer adaptation performance indicator crosses the preset threshold.
(1) Check the threshold crossing records of the AU pointer adaptation performance events tofind out the performance event that crosses the preset threshold. For details, see 8.3.8Browsing the Performance Event Threshold-Crossing Records.
(2) Handle the performance event that crosses the threshold.
----End
Related Information
None.
A.3.91 NESOFT_MM
Description
The NESOFT_MM is an alarm indicating that the first software system is different from thesecond software system. This alarm is reported when the NE detects that the first software systemand the second software system of the system control, cross-connect, and timing board mismatchwith each other.
Attribute
Alarm Severity Alarm Type
Major Processing alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the location of the file.l 0x01: the files in the flash memory
l 0x02: the software that is currently running
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Name Meaning
Parameter 2, Parameter 3 Indicate the IDs of the inconsistent files in the flash memory of thesystem control board if the value of Parameter 1 is 0x01,l 0x01: FPGA of the system control board in ofs1
l 0x02: FPGA of the system control board in ofs2
l 0x03: ofs1/hwx/nesoft.hwx
l 0x04: ofs2/hwx/nesoft.hwx
l 0x05: ofs1/hwx/ne.ini
l 0x06: ofs2/hwx/ne.ini
l 0x07: ofs1/hwx/ocp.ini
l 0x08: ofs2/hwx/ocp.ini
l 0x09: ofs1/fpga/if1_002.pga
l 0x0a: ofs2/fpga/if1_002.pga
l 0x0b: ofs1/fpga/if1_250.pga
l 0x0c: ofs2/fpga/if1_250.pga
l 0x0d: ofs1/fpga/sl1d.pga
l 0x0e: ofs2/fpga/sl1d.pga
l 0x0f: ofs1/fpga/sl91ifu2.pga
l 0x10: ofs2/fpga/sl91ifu2.pga
l 0x11: ofs1/fpga/sl91ifx2.pga
l 0x12: ofs2/fpga/sl91ifx2.pga
l 0x13: ofs1/fpga/sl91aux.pga
l 0x14: ofs2/fpga/sl91aux.pga
l 0x15: ofs1/hwx/lusoft.hwx
l 0x16: ofs2/hwx/lusoft.hwx
l 0x17: ofs1/hwx/lusoft.ini
l 0x18: ofs2/hwx/lusoft.ini
l 0x19: ofs1/fpga/sl91em6t.pga
l 0x1a: ofs2/fpga/sl91em6t.pga
l 0x1b: ofs1/fpga/pvg610.pga
l 0x1c: ofs2/fpga/pvg610.pga
l 0x1d: ofs1/fpga/pvg610x.pga
l 0x1e: ofs2/fpga/pvg610x.pga
Indicate the IDs of the inconsistent files in the currently runningsoftware if the value of Parameter 1 is 0x02.
l 0x01: NeSoft(D)
l 0x02: Platform(D)
l 0x03: BIOS
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Name Meaning
l 0x04: ExtBios
l 0x05: Logic
l 0x06: Dsp
Parameter 4, Parameter 5 Indicate the cause of the alarm.l 0x04: The file versions in the master and slave areas of a single
system control board are inconsistent.l 0x08: The file versions in the active and standby system control
boards are inconsistent, or that the files in the correspondingdirectories of the active and standby system control boards havedifferent names.
l 0x0c: The file versions in the master and slave areas of a singlesystem control board are inconsistent and the file versions on theactive and standby system control boards are also inconsistent.
Impact on the SystemIf the currently running software is lost, the backup software fails to take over. If no NE softwareexists in the flash memory, the system is unable to restart after power-off or reset.
Possible CausesCause 1: The software fails to be loaded.
Procedure
Step 1 Cause 1: The software fails to be loaded.(1) Contact the Huawei technical support engineers to reload the software.
----End
Related InformationNone.
A.3.92 MULTI_RPL_OWNER
DescriptionThe MULTI_RPL_OWNER is an alarm indicating that the ring network contains severalRPL_OWNER nodes.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
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Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2 Indicate the ID of the ERPS instance.
Impact on the System
The ERPS protection fails.
Possible Causes
Cause 1: The related data is configured incorrectly.
Procedure
Step 1 Cause 1: The related data is configured incorrectly.(1) Reconfigure the ERPS protection. For details, see Creating Ethernet Ring Protection
Instances.
----End
Related Information
None.
A.3.93 MW_BER_EXC
Description
The MW_BER_EXC is an alarm indicating that excessive bit errors occur on the radio link. Thisalarm is reported when the bit errors on the radio link exceed the specified threshold (10-3 bydefault).
Attribute
Alarm Severity Alarm Type
Minor Service alarm
Parameters
None.
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Impact on the System
When the MW_BER_EXC alarm occurs, the service on the port is interrupted.
Possible Causesl Cause 1: Signal attenuation on the radio link is very heavy.
l Cause 2: The receive unit at the local station is faulty.
l Cause 3: The transmit unit at the opposite station is faulty.
Procedure
Step 1 Cause 1: Signal attenuation on the radio link is very heavy.(1) Check whether the MW_FEC_UNCOR alarm is generated. If yes, clear the alarm.
Step 2 Cause 2: The receive unit at the local station is faulty.(1) Replace the IF board.
Step 3 Cause 3: The transmit unit at the opposite station is faulty.(1) Rectify the fault in the transmit unit at the opposite station.
----End
Related Information
None.
A.3.94 MW_BER_SD
Description
The MW_BER_SD is an alarm indicating that signal deteriorates on the radio link. This alarmis reported when the bit errors on the radio link exceed the specified threshold (10-6 by default)but does not reach the MW_BER_EXC alarm threshold (10-3 by default).
Attribute
Alarm Severity Alarm Type
Minor Service alarm
Parameters
None.
Impact on the System
The service performance on the port deteriorates. If the equipment is configured with 1+1 FD/SD protection, switching on the channel side may be triggered.
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Possible Causesl Cause 1: Signal attenuation on the radio link is very heavy.
l Cause 2: The receive unit of the local station is faulty.
l Cause 3: The transmit unit of the opposite station is faulty.
Procedure
Step 1 Cause 1: Signal attenuation on the radio link is very heavy.(1) Check whether the MW_FEC_UNCOR alarm is generated. If yes, clear the alarm.
Step 2 Cause 2: The receive unit of the local station is faulty.(1) Replace the IF board.
Step 3 Cause 3: The transmit unit of the opposite station is faulty.(1) Rectify the fault in the transmit unit of the opposite station.
----End
Related InformationNone.
A.3.95 MW_FEC_UNCOR
DescriptionThe MW_FEC_UNCOR is an alarm indicating that radio frames forward error correction (FEC)encoding cannot be corrected.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemBit errors occur in the services. If the equipment is configured with 1+1 FD/SD protection, HSMchannel protection switching may be triggered.
Possible Causesl Cause 1: The receive power of the ODU is abnormal.
l Cause 2: The transmit unit of the opposite station is faulty.
l Cause 3: The receive unit of the local station is faulty.
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l Cause 4: An interference event occurs.
Procedure
Step 1 Cause 1: The receive power of the ODU is abnormal.(1) At the local end, check whether the receive power of the ODU is normal. If yes, determine
the abnormality and take proper measures. For details, see Querying the History TransmitPower and Receive Power
If... Then...
The RSL is lower than the receiversensitivity
Follow the steps:
1. Check the installation of the antenna to ensurethat the azimuth of the antenna meets therequirement.
2. Check the antenna direction. Check whetherthe received signal is from the main lobe.If the antenna direction does not meet therequirement, adjust the antenna in a widerange.
3. Check whether the setting of the polarizationdirection of the antenna is correct. Adjust theincorrect polarization direction.
4. Check whether the antenna gain at both thetransmit and receive ends meets thespecifications. Replace the antennas that donot meet the requirement.
5. Check whether any mountain or buildingobstacle exists in the transmit direction.If yes, contact the network planningdepartment for proper modification of theplanning design, hence preventing the blockof the mountain or building obstacle.
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If... Then...
The RSL is higher than the specified RSLof the network. The offset value is tens ofdecibels. The duration is from tens ofseconds to several hours.
Slow up fading occurs. Follow the steps:
1. Check whether any co-channel interferenceoccurs.a. Mute the ODU at the opposite end. For
details, see Configuring the IF/ODUInformation of a Radio Link.
b. Check the RSL at the local end. For details,see Configuring the IF/ODU Information ofa Radio Link. If the RSL exceeds -90 dBm,it indicates that there is co-channelinterference that may affect the long-termavailability and errored-secondperformance of the system.
2. Use a spectrum analyzer to analyze theinterference source.
3. Contact the spectrum managementdepartment to clear the interference spectrumor change plans to minimize the interference.
The RSL is lower than the specified RSLof the network. The offset value is tens ofdecibels. The duration is from tens ofseconds to several hours.
Slow down fading occurs. Generally, the radiolink may be faulty in both directions, becauseslow fading is imposed by the transmission path.Contact the network planning department tomake the following changes:
l Increase the installation height of the antenna.
l Reduce the transmission distance.
l Increase the antenna gain.
l Increase the transmit power.
If the RSL is lower than or higher thanthe specified RSL of the network and ifthe duration is from several millisecondsto tens of seconds.
Fast fading occurs. Contact the network planningdepartment to make the following changes:
l Adjust the position of the antenna to block thereflected wave or make the reflection point fallon the ground that has a small reflectioncoefficient, thus reducing the multipathfading.
l Adjust the RF configuration to make the linksin the 1+1 SD configuration.
l If the links are configured with the 1+1 SDprotection, adjust the height offset betweentwo antennas to make the receive power of oneantenna stronger than the receive power of theother antenna.
l Increase the fading margin.
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Step 2 Cause 2: The transmit unit of the opposite station is faulty.
Locate the fault by looping back the opposite station and excluding the position one by one.Follow the steps:
(1) Perform an inloop on the IF port at the opposite end. For details, see 8.5.4 Setting Loopbackfor the IF Board. Check whether the fault at the opposite end is rectified after the loopback.
If... Then...
The fault at the opposite end is not rectified Replace the IF board.
The fault at the opposite end is rectified Go to the next step.
(2) Check whether the cable connector is prepared according to the requirement. If any cableconnector does not meet the requirement, make a new connector.
(3) Check whether the IF cable is wet, broken, or pressed. Replace the cable that does not meetthe requirement.
(4) Then, check whether the fault at the opposite end is rectified.
If... Then...
The fault at the opposite end is not rectified Replace the ODU at the opposite end.
The fault at the opposite end is rectified End the alarm handling.
Step 3 Cause 3: The receive unit of the local station is faulty.
Locate the fault by looping back the opposite station and excluding the position one by one.Follow the steps:
(1) Perform an inloop on the IF port at the local end. For details, see 8.5.4 Setting Loopbackfor the IF Board. Check whether the fault at the local end is rectified after the loopback.
If... Then...
The fault at the opposite end is not rectified Replace the IF board.
The fault at the opposite end is rectified Go to the next step.
(2) Check whether the cable connector is prepared according to the requirement. If any cableconnector does not meet the requirement, make a new connector.
(3) Check whether the IF cable is wet, broken, or pressed. Replace the cable that does not meetthe requirement.
(4) Then, check whether the fault at the opposite end is rectified.
If... Then...
The fault at the opposite end is not rectified Replace the ODU at the local end.
The fault at the opposite end is rectified End the alarm handling.
Step 4 Cause 4: An interference event occurs.(1) Check whether any co-channel interference occurs.
a. Mute the ODU at the opposite end.b. Check the RSL at the local end. For details, see Configuring the IF/ODU Information
of a Radio Link. If the RSL exceeds -90 dBm, it indicates that there is co-channel
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interference that may affect the long-term availability and errored-secondperformance of the system.
(2) Check whether any adjacent channel interference occurs.
a. Mute the ODU at the opposite end.b. Adjust the radio working mode at the local end and use the minimum channel spacing.
For details, see Configuring the IF/ODU Information of a Radio Link.c. Decrease the received frequency at the local end by a half of the channel spacing. For
details, see Configuring the IF/ODU Information of a Radio Link.d. Test and record the RSL.e. Increase the received frequency at the local end, with a step length of 0.5 MHz or 1
MHz, and record the RSL accordingly until the received frequency is equal to theoriginal received frequency plus a half of the channel spacing.
f. Compare the recorded RSLs, and check whether the RSL in a certain spectrum isabnormal if the received frequency is within the permitted range.
(3) Use a spectrum analyzer to analyze the interference source.(4) Contact the spectrum management department to clear the interference spectrum or change
plans to minimize the interference.
----End
Related Information
None.
A.3.96 MW_LIM
Description
The MW_LIM is an alarm indicating that a mismatched radio link identifier is detected. Thisalarm is reported if an IF board detects that the link ID in the radio frame overheads is inconsistentwith the specified link ID.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
None.
Impact on the System
After the IDU IF board reports the MW_LIM alarm, the IF board inserts the AIS alarm into thereceived signal. Then, the services on the radio link are interrupted. If the services are configuredwith SNCP, the protection switching may be triggered.
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Possible Causesl Cause 1: The link ID of the local station does not match with the link ID of the opposite
station.l Cause 2: The services on other radio links are received due to the incorrect configuration
of the radio link receive frequency at the local or opposite station.l Cause 3: The antenna receives the radio from the other stations, because the direction of
the antenna is set incorrectly.l Cause 4: The polarization direction of the XPIC is incorrect.
Procedure
Step 1 Cause 1: The link ID of the local station does not match with the link ID of the opposite station.(1) Check whether the link ID of the local station matches with the link ID of the opposite
station. For details, see Configuring the IF/ODU Information of a Radio Link. If not, setthe link IDs of the two stations to the same value according to the requirements of thenetworking planning.
Step 2 Cause 2: The services on other radio links are received due to the incorrect configuration of theradio link receive frequency at the local or opposite station.(1) Check whether the receive and transmit frequencies of the local station are consistent with
the receive and transmit frequencies of the opposite station. For details, see Configuringthe IF/ODU Information of a Radio Link. If not, set the receive and transmit frequenciesof the two stations again.
Step 3 Cause 3: The antenna receives radio signals from the other stations, because the direction of theantenna is set incorrectly.(1) Adjust the direction of the antenna and ensure that the antennas at both ends are aligned.
Step 4 Cause 4: The polarization direction of the XPIC is incorrect.(1) If XPIC protection groups are configured, check whether the XPIC configuration is correct.
For details, see Creating an XPIC Protection Group.
a. Check whether the settings of IFX board in polarization direction-V andpolarization direction-H meet the requirement of the planning.
If... Then...
The polarization direction does not meetthe requirement of the planning
Delete the working XPIC group that isconfigured incorrectly and create theother working XPIC group again.
The polarization direction meets therequirement of the planning
Go to the next step.
b. Check whether Link ID-V and Link ID-H meet the requirement of the planning.
If... Then...
The link ID does not meet therequirement of the planning
Reset the ID of the radio link of the IFX2board according to the planning. Fordetails, see Creating an XPIC WorkingGroup.
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The link ID meets the requirement of theplanning
Go to the next step.
(2) Check and modify the IFX2 board and ODU, and the mapping relationship between the
ODU and the feed bottom. Ensure that the IFX2 boards in the polarization direction V ofthe two ends are interconnected with each other through the radio link in the polarizationdirection V, and the IFX2 boards in the polarization direction H of the two ends areinterconnected with each other through the radio link in the polarization direction H.
----End
Related InformationThe MW_LIM alarm is generated due to the inconsistency between the specified link ID andthe received link ID. When the MW-LOF alarm is generated on the link, the received link ID isa random value. In this case, the link ID is invalid. The MW-LIM alarm is also suppressed bythe MW-LOF alarm.
A.3.97 MW_LOF
DescriptionThe MW_LOF is an alarm indicating that the radio frame is lost.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
ParametersNone.
Impact on the SystemThe services are interrupted. If the system is configured with protection, protection switchingmay be triggered.
Possible Causesl Cause 1: The other alarms are generated.
l Cause 2: In the case of TDM radio services, the IF working modes at the local station andthe opposite station are different. In the case of Hybrid radio services, the channelbandwidth and modulation modes at the local station and the opposite station are different.
l Cause 3: The operating frequency of the ODU at the local station is inconsistent with theoperating frequency of the ODU at the opposite station.
l Cause 4: The transmit unit of the opposite station is faulty.
l Cause 5: The receive unit of the local station is faulty.
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l Cause 6: The receive power of the ODU is abnormal.
l Cause 7: An interference event occurs.
Procedure
Step 1 Cause 1: The other alarms are generated.(1) Check whether any alarms are generated in the equipment of the local station. If yes, take
priority to clear them.The relevant alarms are as follows:l HARD_BAD
l VOLT_LOS
l IF_CABLE_OPEN
l BD_STATUS
l RADIO_RSL_LOW
l CONFIG_NOSUPPORT
l TEMP_ALARM
Step 2 Cause 2: In the case of TDM radio services, the IF working modes at the local station and theopposite station are different. In the case of Hybrid radio services, the channel bandwidth andmodulation modes at the local station and the opposite station are different.(1) In the case of TDM radio services, check whether the working mode of the IF board at the
local station is consistent with the working mode of the IF board at the opposite station.For details, see Configuring the IF/ODU Information of a Radio Link. If not, reset theworking mode of the IF board according to the network planning.
In the case of Hybrid radio services, check whether the channel bandwidth and modulationmodes are the same at both ends. If not, change the channel bandwidth and modulationmodes according to the network planning. For details, see Configuring Hybrid/AMAttributes.
Step 3 Cause 3: The operating frequency of the ODU at the local station is inconsistent with theoperating frequency of the ODU at the opposite station.(1) Ensure that the type of the ODU at the local station is consistent with the type of the ODU
at the opposite station.(2) Reset the operating frequency of the ODU according to the network planning. For details,
see Setting the Transmit Frequency Attribute of the ODU.Set the transmit frequency of the local station to the same as the receive frequency of theopposite station. Then, set the receive frequency of the local station to the same as thetransmit frequency of the opposite station.
Step 4 Cause 4: The transmit unit of the opposite station is faulty.(1) Check whether any alarms are generated in the equipment of the local station. If yes, take
priority to clear them.The relevant alarms are as follows:l HARD_BAD
l BD_STATUS
l VOLT_LOS
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l IF_CABLE_OPEN
l RADIO_MUTE
l RADIO_TSL_HIGH
l RADIO_TSL_LOW
l TEMP_ALARM
(2) Locate the fault by looping back the opposite station.
Follow the steps:
a. Perform an inloop on the IF port at the opposite end. For details, see 8.5.4 SettingLoopback for the IF Board. Check whether the fault at the opposite end is rectifiedafter the loopback.
If... Then...
The fault at the opposite end is not rectified Replace the IF board.
The fault at the opposite end is rectified Go to the next step.
b. Check whether the cable connector is prepared according to the requirement. If anycable connector does not meet the requirement, make a new connector.
c. Check whether the IF cable is wet, broken, or pressed. Replace the cable that does notmeet the requirement.
d. Then, check whether the fault at the opposite end is rectified.
Step 5 Cause 5: The receive unit of the local station is faulty.
(1) Locate the fault by looping back the opposite station.
Follow the steps:
a. Perform an inloop on the IF port at the local end. For details, see 8.5.4 SettingLoopback for the IF Board. Check whether the fault at the local end is rectified afterthe loopback.
If... Then...
The fault at the opposite end is not rectified Replace the IF board.
The fault at the opposite end is rectified Go to the next step.
b. Check whether the cable connector is prepared according to the requirement. If anycable connector does not meet the requirement, make a new connector.
c. Check whether the IF cable is wet, broken, or pressed. Replace the cable that does notmeet the requirement.
d. Check whether the fault at the local end is rectified.
Step 6 Cause 6: The receive power of the ODU is abnormal.
(1) At the local station, check whether the receive power of the ODU is abnormal. For details,see Browse history performance events. If yes, determine the abnormality and take propermeasures.
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If... Then...
The RSL is lower than the receiversensitivity
Follow the steps:
1. Check the installation of the antenna to ensurethat the azimuth of the antenna meets therequirement.
2. Check the antenna direction. Check whetherthe received signal is from the main lobe.If the antenna direction does not meet therequirement, adjust the antenna in a widerange.
3. Check whether the setting of the polarizationdirection of the antenna is correct. Adjust theincorrect polarization direction.
4. Check whether the antenna gain at both thetransmit and receive ends meets thespecifications. Replace the antennas that doesnot meet the requirement.
5. Check whether any mountain or buildingobstacle exists in the transmit direction.If yes, contact the network planningdepartment for proper modification of theplanning design, hence preventing the blockof the mountain or building obstacle.
The RSL is higher than the specified RSLof the network. The offset value is tens ofdecibels. The duration is from tens ofseconds to several hours.
Slow up fading occurs. Follow the steps:
1. Check whether any co-channel interferenceoccurs.a. Mute the ODU at the opposite end. For
details, see Configuring the IF/ODUInformation of a Radio Link.
b. Check the RSL at the local end. For details,see Configuring the IF/ODU Information ofa Radio Link. If the RSL exceeds -90 dBm,it indicates that there is co-channelinterference that may affect the long-termavailability and errored-secondperformance of the system.
2. Use a spectrum analyzer to analyze theinterference source.
3. Contact the spectrum managementdepartment to clear the interference spectrumor change plans to minimize the interference.
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If... Then...
The RSL is lower than the specified RSLof the network. The offset value is tens ofdecibels. The duration is from tens ofseconds to several hours.
Slow down fading occurs. Generally, the radiolink may be faulty in both directions, becauseslow fading is imposed by the transmission path.Contact the network planning department tomake the following changes:
l Increase the installation height of the antenna.
l Reduce the transmission distance.
l Increase the antenna gain.
l Increase the transmit power.
If the RSL is lower than or higher thanthe specified RSL of the network and ifthe duration is from several millisecondsto tens of seconds.
Fast fading occurs. Contact the network planningdepartment to make the following changes:
l Adjust the position of the antenna to block thereflected wave or make the reflection point fallon the ground that has a small reflectioncoefficient, thus reducing the multipathfading.
l Adjust the RF configuration to make the linksin the 1+1 SD configuration.
l If the links are configured with the 1+1 SDprotection, adjust the height offset betweentwo antennas to make the receive power of oneantenna stronger than the receive power of theother antenna.
l Increase the fading margin.
Step 7 Cause 7: An interference event occurs.
Follow the steps:
(1) Check whether any co-channel interference occurs.
a. Mute the ODU at the opposite end.b. Check the RSL at the local end. For details, see Configuring the IF/ODU Information
of a Radio Link. If the RSL exceeds -90 dBm, it indicates that there is co-channelinterference that may affect the long-term availability and errored-secondperformance of the system.
(2) Check whether any adjacent channel interference occurs.
a. Mute the ODU at the opposite end.b. Adjust the radio working mode at the local end and use the minimum channel spacing.
For details, see Configuring the IF/ODU Information of a Radio Link.c. Decrease the received frequency at the local end by a half of the channel spacing. For
details, see Configuring the IF/ODU Information of a Radio Link.d. Test and record the RSL.
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e. Increase the received frequency at the local end, with a step length of 0.5 MHz or 1MHz, and record the RSL accordingly until the received frequency is equal to theoriginal received frequency plus a half of the channel spacing.
f. Compare the recorded RSLs, and check whether the RSL in a certain spectrum isabnormal if the received frequency is within the permitted range.
(3) Use a spectrum analyzer to analyze the interference source.(4) Contact the spectrum management department to clear the interference spectrum or change
plans to minimize the interference.
----End
Related InformationNone.
A.3.98 MW_RDI
DescriptionThe MW_RDI is an alarm indicating that there are defects at the remote end of the radio link.This alarm is reported when the IF board detects an RDI in the radio frame overheads.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemIf the local station is configured with the reverse switching function, the 1+1 switching istriggered on the IF board when the working and protection IF boards receive the MW_RDI alarmat the same time. This alarm also indicates that the services received by the opposite station areinterrupted.
Possible CausesAfter detecting a service alarm that is caused by the fault in a radio link, the receive stationreturns a radio link fault indication to the transmit station.
Procedure
Step 1 Clear the radio alarms that occur at the opposite station. The possible alarms are as follows:l MW_LOF
l R_LOF
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l R_LOC
----End
Related InformationNone.
A.3.99 NESF_LOST
DescriptionThe NESF_LOST is an alarm indicating that the NE software is lost. This alarm is reported whenthe system control, cross-connect, and timing board detects that the NE software is lost.
Attribute
Alarm Severity Alarm Type
Critical Processing alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 The value is always 0x01.
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Name Meaning
Parameter 2, Parameter 3 Indicate the ID of the routine inspection object.
l 0x01: FPGA of the system control board in ofs1
l 0x02: FPGA of the system control board in ofs2
l 0x03: ofs1/hwx/nesoft.hwx
l 0x04: ofs2/hwx/nesoft.hwx
l 0x05: ofs1/hwx/ne.ini
l 0x06: ofs2/hwx/ne.ini
l 0x07: ofs1/hwx/ocp.ini
l 0x08: ofs2/hwx/ocp.ini
l 0x09: ofs1/fpga/if1_002.pga
l 0x0a: ofs2/fpga/if1_002.pga
l 0x0b: ofs1/fpga/if1_250.pga
l 0x0c: ofs2/fpga/if1_250.pga
l 0x0d: ofs1/fpga/sl1d.pga
l 0x0e: ofs2/fpga/sl1d.pga
l 0x0f: ofs1/fpga/sl91ifu2.pga
l 0x10: ofs2/fpga/sl91ifu2.pga
l 0x11: ofs1/fpga/sl91ifx2.pga
l 0x12: ofs2/fpga/sl91ifx2.pga
l 0x13: ofs1/fpga/sl91aux.pga
l 0x14: ofs2/fpga/sl91aux.pga
l 0x15: ofs1/hwx/lusoft.hwx
l 0x16: ofs2/hwx/lusoft.hwx
l 0x17: ofs1/hwx/lusoft.ini
l 0x18: ofs2/hwx/lusoft.ini
l 0x19: ofs1/fpga/sl91em6t.pga
l 0x1a: ofs2/fpga/sl91em6t.pga
l 0x1b: ofs1/fpga/pvg610.pga
l 0x1c: ofs2/fpga/pvg610.pga
l 0x1d: ofs1/fpga/pvg610x.pga
l 0x1e: ofs2/fpga/pvg610x.pga
Parameter 4 Indicates the specific alarm cause when a different bit is 1.
l 0x01: If the first bit is 1, it indicates that the file does not exist.
l 0x02: If the second bit is 1, it indicates that verification of thefile fails.
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Impact on the System
If the NE software does not exist in the active and standby areas, an NE cannot be restarted afterit is powered off or reset.
Possible Causesl Cause 1: No new NE software is loaded after the existing NE software is erased.
l Cause 2: Loading the NE software is unsuccessful.
l Cause 3: The board is faulty.
Procedure
Step 1 Cause 1: No new NE software is loaded after the existing NE software is erased.
Cause 2: Loading the NE software is unsuccessful.
(1) Check whether the alarm is caused by the loading operation.
If... Then...
The alarm is caused by the loadingoperation
Contact the Huawei technical supportengineers to reload the software.
The alarm is not caused by the loadingoperation
Go to the next step.
Step 2 Cause 3: The board is faulty.(1) For details, see 6.8 Replacing the System Control, Switch&Clock Board.
----End
Related Information
None.
A.3.100 NESTATE_INSTALL
Description
The NESTATE_INSTALL is an alarm indicating that the NE is in the install state.
Attribute
Alarm Severity Alarm Type
Critical Processing alarm
Parameters
None.
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Impact on the System
The NE fails to work.
Possible Causes
Cause 1: The configuration data check fails.
Procedure
Step 1 Cause 1: The configuration data check fails.(1) Restore the data from the backup database.
----End
Related Information
None.
A.3.101 NP1_MANUAL_STOP
Description
The NP1_MANUAL_STOP is an alarm indicating that the N+1 protection protocol is disabledmanually.
Attribute
Alarm Severity Alarm Type
Minor Processing alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter 2 Indicates the ID of the protection group that reports the alarm. Forexample, 0x01 indicates that the alarm is reported by protectiongroup 1.
Impact on the System
The N+1 protection may fail, or the protection switching may fail.
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Possible CausesCause 1: The N+1 protection protocol is disabled manually.
Procedure
Step 1 Cause 1: The N+1 protection protocol is disabled manually.(1) Start the N+1 protection protocol.
----End
Related InformationNone.
A.3.102 NP1_SW_FAIL
DescriptionThe NP1_SW_FAIL is an alarm indicating that the N+1 protection switching fails.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1, Parameter2 Indicates the ID of the protection group that reports the alarm. Forexample, 0x01 indicates that the alarm is reported by protectiongroup 1.
Impact on the SystemThe services cannot be switched. If the current paths are unavailable, the services are interrupted.
Possible Causesl Cause 1: The parameters of the N+1 protection for the node that reports the alarm are set
incorrectly.l Cause 2: The networkwide N+1 protection protocol runs abnormally.
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Procedure
Step 1 Cause 1: The parameters of the N+1 protection for the node that reports the alarm are setincorrectly.(1) Check whether the parameters of the N+1 protection are set correctly according to the
planning. For details, see Creating an N+1 Protection Group.
If... Then...
The parameters of the N+1 protection areset incorrectly
Set the parameters of the N+1 protectioncorrectly.
The parameters of the N+1 protection areset correctly
Go to Cause 2.
Step 2 Cause 2: The networkwide N+1 protection protocol runs abnormally.(1) Stop and restart the protocol manually. For details, see Starting/Stopping the N+1
Protection Protocol.
If... Then...
The alarm is cleared after the protocol isrestarted.
End the alarm handling.
The alarm persists after the protocol isrestarted
Contact the Huawei technical supportengineers to handle the alarm.
----End
Related Information
None.
A.3.103 NP1_SW_INDI
Description
The NP1_SW_INDI is an alarm indicating that the N+1 protection switching is detected.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter1, Parameter2 Indicates the ID of the protection group that reports the alarm. Forexample, 0x01 indicates that the alarm is reported by protectiongroup 1.
Impact on the System
During the N+1 protection switching (not more than 50 ms), the services are interrupted. Afterthe N+1 switching is complete, the services are restored to normal. After the switching startsand before the switching is complete, the extra traffic is interrupted.
Possible Causes
Cause 1: The N+1 protection switching is performed.
Procedure
Step 1 Cause 1: The N+1 protection switching is performed.
(1) Find out the cause of switching, and take appropriate measures.
----End
Related Information
None.
A.3.104 POWER_ALM
Description
The POWER_ALM is an alarm indicating that the power module is abnormal.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 If the POWER_ALM alarm is reported on a board on the IDU, this parameterindicates the ID of the power module that reports the alarm. For example, 0x01indicates that the alarm is reported by power module 1 of the board.
If the POWER_ALM is reported on the ODU, this parameter indicates the typeof the power fault.l 0x01: The -5 V power supply is faulty.
l 0x02: The power supply for the power amplifier is faulty.
Parameter 2 l 0x01: under-voltage
l 0x02: over-voltage
Impact on the System
The power modules are configured with protection. If only one power module reports thePOWER_ALM alarm, the system is not affected.
Possible Causes
If the alarm is reported on the board on the IDU, the possible causes are as follows:
l Cause 1: The input power or the PIU is abnormal.
l Cause 2: The power module is abnormal.
If the alarm is reported on the ODU, the cause is as follows:
l The power module of the ODU is faulty.
Procedure
Step 1 (POWER_ALM reported on the board on the IDU) Cause 1: The input power or the PIU isabnormal.
(1) Check whether alarms are reported on the PIU, If yes, clear these alarms immediately.
Step 2 (POWER_ALM reported on the board on the IDU) Cause 2: The power module is abnormal.
(1) Replace the board that reports the alarm. For details, see 6 Part Replacement.
Step 3 (POWER_ALM reported on the ODU) Cause: The power module of the ODU is faulty.
(1) Replace the ODU. For details, see 6.13 Replacing the ODU.
----End
Related Information
None.
A.3.105 POWER_ABNORMAL
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DescriptionThe POWER_ABNORMAL is an alarm indicating that the input power supply is abnormal.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the number of the voltage channel.
l 0x01: the first channel of voltage
l 0x01: the second channel of voltage
Parameter 2 Indicates the type of the alarm.
l 0x00: voltage loss
l 0x01: undervoltage
l 0x02: overvoltage
Impact on the SystemWhen the POWER_ABNORMAL alarm occurs, the power supply is abnormal, and thus theboard may fail to work normally.
Possible Causesl Cause 1: The power cable is cut, damaged, or incorrectly connected.
l Cause 2: The input power is abnormal.
ProcedureStep 1 Cause 1: The power cable is cut, damaged, or incorrectly connected.
(1) Check whether the power cable is cut, damaged, or incorrectly connected. If the powercable is cut or damaged, replace it with a proper power cable. If the power cable isincorrectly connected, reconnect the power cable.
Step 2 Cause 2: The input power is abnormal.(1) Contact the engineers for power supply to rectify the fault.
----End
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Related InformationNone.
A.3.106 R_F_RST
DescriptionThe R_F_RST is an alarm indicating that the receive FIFO is reset.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersNone.
Impact on the SystemThe services are interrupted.
Possible Causesl Cause 1: The clocks at both stations are not synchronous.
l Cause 2: The board is faulty.
Procedure
Step 1 Cause 1: The clocks at both stations are not synchronous.(1) Query whether a TU pointer adaptation performance event is reported at both ends. For
details, see 8.3.5 Browsing Current Performance Events.
If... Then...
An AU pointer adaptation performanceevent is reported
Handle the performance event. For details,see C.3.21 TUPJCHIGH, TUPJCLOW,and TUPJCNEW.
An AU pointer adaptation performanceevent is not reported
Go to Cause 2.
Step 2 Cause 2: The board is faulty.(1) Replace the board that reports the alarm.
----End
Related InformationNone.
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A.3.107 R_LOC
DescriptionThe R_LOC is an alarm indicating that the clock is lost on the receive line side. This alarm isreported when the line board fails to extract clock signal from the line signal or the IF board failsto extract clock signal from the IF signal.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
ParametersNone.
Impact on the SystemThe services on the line port or the IF port are interrupted. If the system is configured withprotection, protection switching may be triggered.
Possible Causesl Cause 1: The receive unit of the local station is faulty.
l Cause 2: The transmit unit of the opposite station is faulty.
Procedure
Step 1 Cause 1: The receive unit of the local station is faulty.(1) At the local end, perform an inloop on the port of the board that reports the alarm. For
details, see 8.5 Software Loopback.
If... Then...
The alarm persists after the loopback Replace the local board that reports thealarm.
The alarm is cleared after the loopback Go to Cause 2.
Step 2 Cause 2: The transmit unit of the opposite station is faulty.(1) Replace the opposite board that reports the alarm.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Replace the cross-connect and timingboard at the opposite end.
----End
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Related Information
None.
A.3.108 R_LOF
Description
The R_LOF is an alarm indicating that frames are lost on the receive side. This alarm is reportedwhen the OOF state lasts for three milliseconds.
Attribute
Alarm Severity Alarm Type
Critical Commucation alarm
Parameters
None.
Impact on the System
The services are interrupted. If the system is configured with protection, protection switchingmay be triggered.
Possible Causesl Cause 1: Certain alarms are generated (if the alarm is reported by an IF board).
l Cause 2: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).
l Cause 3: The transmit unit of the opposite station is faulty.
l Cause 4: The receive unit of the local station is faulty.
Procedure
Step 1 Cause 1: Certain high-level alarms are generated (if the alarm is reported by an IF board).
(1) If the alarm is reported by the IF board, check whether the MW_FEC_UNCOR alarm isgenerated.
If... Then...
The alarm is generated Take priority to clear theMW_FEC_UNCOR alarm.
The alarm is not generated Go to the next step.
(2) Set the inloop on the IF port that reports the alarm.
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If... Then...
The alarm persists after the inloop isperformed
Go to Cause 4.
The alarm is cleared after the inloop isperformed
Go to Cause 3.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an SDH optical interfaceboard).
(1) If the alarm is reported by an optical interface board, exchange the transmit and receivefiber jumpers at both ends.
If... Then...
The alarm persists after the exchange Go to Cause 3 or 4
The line port of the opposite station reportsthe R_LOF alarm
Troubleshoot the optical fibers.
Step 3 Cause 3: The transmit unit of the opposite station is faulty.
(1) Replace the opposite board where the line unit is or the opposite IF board.
If... Then...
The alarm is cleared after the boardreplacement
The fault is rectified, and the alarmhandling is complete.
The alarm persists after the boardreplacement
Go to the next step.
(2) Replace the system control and cross-connect board at the opposite end.
If... Then...
The alarm is cleared after the boardreplacement
The fault is rectified, and the alarmhandling is complete.
The alarm persists after the boardreplacement
Go to Cause 4.
Step 4 Cause 4: The receive unit of the local station is faulty.
(1) Replace the board that reports the alarm.
----End
Related Information
None.
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A.3.109 R_LOS
Description
In the case of SDH boards, the R_LOS is an alarm indicating that the signals on the receive lineside are lost. In the case of IF boards, the R_LOS is an alarm indicating that the radio frames onthe receive line side are lost.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
Parameters
None.
Impact on the System
The services are interrupted. If the system is configured with protection, the protection switchingmay be triggered.
Possible Causesl Cause 1: Certain alarms are generated (if the alarm is reported by an IF board).
l Cause 2: The line performance degrades (if the alarm is reported by an SDH line board).
l Cause 3: The transmit unit of the opposite station is faulty.
l Cause 4: The receive unit of the local station is faulty.
Procedure
Step 1 Cause 1: Certain alarms are generated (if the alarm is reported by an IF board).(1) If the alarm is reported by the IF board, check whether the MW_FEC_UNCOR alarm is
generated.
If... Then...
The alarm is generated Take priority to clear theMW_FEC_UNCOR alarm.
The alarm is not generated Go to the next step.
(2) Set the inloop on the IF port that reports the alarm.
If... Then...
The alarm persists after the inloop isperformed
Go to Cause 4.
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If... Then...
The alarm is cleared after the inloop isperformed
Go to Cause 3.
Step 2 Cause 2: The line performance degrades (if the alarm is reported by an SDH line board).
(1) If the alarm is reported by an optical interface board, exchange the transmit and receivefiber jumpers at both ends.
If... Then...
The alarm persists after the exchange Go to Cause 3 or 4
The line port of the opposite station reportsthe R_LOF alarm
Troubleshoot the optical fibers.
Step 3 Cause 3: The transmit unit of the opposite station is faulty.
(1) Replace the opposite board where the line unit is or the opposite IF board.
If... Then...
The alarm is cleared after the boardreplacement
The fault is rectified, and the alarmhandling is complete.
The alarm persists after the boardreplacement
Proceed to the next step.
(2) Replace the system control and cross-connect board at the opposite end.
If... Then...
The alarm is cleared after the boardreplacement
The fault is rectified, and the alarmhandling is complete.
The alarm persists after the boardreplacement
Go to Cause 4.
Step 4 Cause 4: The receive unit of the local station is faulty.
(1) Replace the board that reports the alarm.
----End
Related Information
None.
A.3.110 R_S_ERR
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Description
The R_S_ERR is an alarm indicating that the received signal has errors.
Attribute
Alarm Severity Alarm Type
Critical Communication alarm
Parameters
None.
Impact on the System
The services are interrupted.
Possible Causesl Cause 1: The frequency offset of the input signal is very large.
l Cause 2: The board is faulty.
Procedure
Step 1 Cause 1: The frequency offset of the input signal is very large.
(1) Check whether the tributary board supports the type of the input signal.
If... Then...
The tributary board does not support thetype of the input signal.
Change the type of the output signal of theremote site.
The tributary board supports the type ofthe input signal.
Go to the next step.
(2) Test the frequency offset of the input signal.
If... Then...
The frequency offset is very large Troubleshoot the remote site.
The frequency offset meets the requirement Go to Cause 2.
Step 2 Cause 2: The board is faulty.
(1) Replace the board that reports the alarm.
----End
Related Information
None.
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A.3.111 RADIO_FADING_MARGIN_INSUFF
DescriptionThe RADIO_FADING_MARGIN_INSUFF is an alarm indicating that the mean receive powerof the ODUs are lower than the threshold of the receive power (the threshold value is about thereceiver sensitivity + 14dB).
When the receive power of the ODUs in consecutive six hours is lower than the threshold, thesystem reports the alarm. When the mean receive power of the ODUs becomes normal in threeminutes after the alarm is reported, the alarm is cleared.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersNone.
Impact on the SystemIf the MW_LOF or MW_FEC_UNCOR alarm is not generated, the service is not affected.
Possible Causesl Cause 1: The ODU fault of the transmit end causes the abnormal transmit power.
l Cause 2: The direction of the antenna is deflected.
l Cause 3: The transmission environment changes.
l Cause 4: The fade margin in the case of rain and fog in the network planning is insufficient.
Procedure
Step 1 Cause 1: The ODU fault of the transmit end causes the abnormal transmit power.(1) Check whether the ODU at the transmit end reports the RADIO_TSL_LOW alarm.
If... Then...
The ODU at the transmit end reports theRADIO_TSL_LOW alarm
Handle the RADIO_TSL_LOW alarm.
The ODU at the transmit end does not report theRADIO_TSL_LOW alarm
Go to Cause 2.
Step 2 Cause 2: The direction of the antenna is deflected.(1) Check whether the direction of the antenna is deflected.
If... Then...
The direction of the antenna is deflected Adjust the direction of the antenna.
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If... Then...
The direction of the antenna is not deflected Go to Cause 3.
Step 3 Cause 3: The transmission environment changes.(1) Check whether the transmission environment changes. For example, check whether any
building blocks the transmission and increases the link fading significantly.
If... Then...
The transmission environment changes Contact the network planning department forre-planning the transmission trail.
The transmission environment does notchange
Go to Cause 4.
Step 4 Cause 4: The fade margin in the case of rain and fog in the network planning is insufficient.(1) If the alarm is reported frequently, contact the network planning department to increase the
fade margin by re-planning the transmission trail.
----End
Related InformationNone.
A.3.112 RADIO_MUTE
DescriptionThe RADIO_MUTE is an alarm indicating that radio transmitter is muted.
Attribute
Alarm Severity Alarm Type
Warning Equipment alarm
ParametersNone.
Impact on the SystemThe transmitter does not transmit services.
Possible Causesl Cause 1: The other alarms are generated.
l Cause 2: The transmitter of the local station is muted manually.
l Cause 3: The IF board is faulty, causing abnormal IF output.
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l Cause 4: The data output is abnormal because the ODU is faulty.
Procedure
Step 1 Cause 1: The other alarms are generated.(1) Check whether the CONFIG_NOSUPPORT or IF_INPWR_ABN alarm is generated. If
yes, take priority to clear the alarm.
Step 2 Cause 2: The transmitter of the local station is muted manually.(1) Check whether the transmitter of the ODU is muted. For details, see Configuring the IF/
ODU Information of a Radio Link. If yes, cancel the muting operation. Then, set thetransmitting status of the ODU to "Transmit".
Step 3 Cause 3: The IF board is faulty, causing abnormal IF output.(1) Replace the IF Board.
Step 4 Cause 4: The data output is abnormal because the ODU is faulty.(1) Replace the ODU.
----End
Related InformationThe number of the logical slot for the ODU is the number of the slot for the IF board connectedto the ODU plus +20.
A.3.113 RADIO_RSL_BEYONDTH
DescriptionThe RADIO_RSL_BEYONDTH is an alarm indicating that the antennas are not aligned. Whenthe receive power is set on the NE, the NE enables the antenna alignment indication function.If the actual receive power of the ODU is beyond the range of preset receive power +/-3 dB, theRADIO_RSL_BEYONDTH alarm is reported. Then, if the antennas are aligned for continuos30 minutes, the antenna alignment indication function is disabled automatically. Afterwards, theRADIO_RSL_BEYONDTH alarm is reported only when theRADIO_FADING_MARGIN_INSUFF alarm is reported.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
ParametersNone.
Impact on the SystemIf the MW_LOF or MW_FEC_UNCOR alarm is not generated, the service is not affected.
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Possible Causesl Cause 1: Antennas are not aligned during the equipment commissioning.
l Cause 2: The RADIO_FADING_MARGIN_INSUFF is reported when the NE is running.
Procedure
Step 1 Cause 1: Antennas are not aligned during the equipment commissioning.(1) Align the antennas, and ensure that the actual receive power is within the range of preset
receive power +/-3 dB.
Step 2 Cause 2: The RADIO_FADING_MARGIN_INSUFF is reported when the NE is running.(1) Handle the RADIO_FADING_MARGIN_INSUFF alarm. When the
RADIO_FADING_MARGIN_INSUFF alarm is cleared, the RADIO_RSL_BEYONDTHalarm is cleared.
----End
Related InformationNone.
A.3.114 RADIO_RSL_HIGH
DescriptionThe RADIO_RSL_HIGH is an alarm indicating that the radio receive power is very high. Thisalarm is reported if the detected receive power is equal to or higher than the upper threshold ofthe ODU (-20 dBm).
Attribute
Alarm Severity Alarm Type
Critical Service alarm
ParametersNone.
Impact on the SystemThe service transmission is affected. If the system is configured with 1+1 protection, protectionswitching may be triggered.
Possible Causesl Cause 1: The local ODU is faulty.
l Cause 2: There is a strong interference source nearby.
l Cause 3: The transmit power of the opposite ODU is very high.
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Procedure
Step 1 Cause 1: The local ODU is faulty.
(1) 6.13 Replacing the ODU.
Step 2 Cause 2: There is a strong interference source nearby.
(1) Check whether any nearby signal source transmits signals whose frequency is close to thespecified range. If yes, check whether the signal source can be shut down or removed. Ifnot, contact the network planning department for replanning the frequency.
Step 3 Cause 3: The transmit power of the opposite ODU is very high
(1) Reset the transmit power of the ODU at the opposite end. For details, see Configuring theIF/ODU Information of a Radio Link.
----End
Related Information
None.
A.3.115 RADIO_RSL_LOW
Description
The RADIO_RSL_LOW is an alarm indicating that the radio receive power is very low. Thisalarm is reported if the detected receive power is equal to or lower than the upper threshold ofthe ODU (-90 dBm).
Attribute
Alarm Severity Alarm Type
Critical Service alarm
Parameters
None.
Impact on the System
If no MW_LOF or MW_FEC_UNCOR alarm is generated, the services are not affected.
Possible Causesl Cause 1: Other alarms occur at the opposite station.
l Cause 2: The transmit power of the opposite station is very low.
l Cause 3: The local ODU is faulty.
l Cause 4: Signal attenuation on the radio link is very heavy.
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Procedure
Step 1 Cause 1: Other alarms occur at the opposite station.Check whether any of the following alarms is generated in the equipment of the opposite station.If yes, take priority to clear the alarm.
l RADIO_MUTE
l CONFIG_NOSUPPORT
l RADIO_TSL_LOW
l BD_STATUS
Step 2 Cause 2: The transmit power of the opposite station is very low.
(1) See Configuring the IF/ODU Information of a Radio Link. Check whether the transmitpower of the opposite station is normal. If not, replace the ODU of the opposite station.
Step 3 Cause 3: The local ODU is faulty.
(1) Replace the ODU at the local end.
Step 4 Cause 4: Signal attenuation on the radio link is very heavy.
(1) Browse history alarms and check whether the alarm is generated continuously.
If the alarm is generated occasionally, contact the network planning department to changethe design to increase the anti-fading performance.
(2) Check whether the antennas at both ends are adjusted properly.
If not, align the antennas again.
(3) Check whether any mountain or building obstacle exists in the transmit direction.
If yes, contact the network planning department for proper modification of the planningdesign, hence preventing the block of the mountain or building obstacle.
(4) Check whether the polarization direction of the antenna, ODU, and hybrid coupler is setcorrectly.
If not, correct the polarization direction.
(5) Check whether the outdoor units such as antennas, combiner, ODU, and flexible waveguideare wet, damp, or damaged.
If yes, replace the unit that is wet, damp, or damaged. For the operations, see 6 PartReplacement
(6) Check whether the antenna gain at both the transmit and receive ends meets the requirement.
If not, replace the antenna.
----End
Related Information
None.
A.3.116 RADIO_TSL_HIGH
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Description
The RADIO_TSL_HIGH is an alarm indicating that the radio transmit power is too high. Thisalarm is reported when the detected transmit power is higher than the upper power threshold ofthe ODU.
Attribute
Alarm Severity Alarm Type
Critical Service alarm
Parameters
None.
Impact on the System
The service transmission is affected. If the system is configured with 1+1 protection, protectionswitching may be triggered.
Possible Causes
Cause 1: The local ODU is faulty.
Procedure
Step 1 Cause 1: The local ODU is faulty.(1) Replace the ODU.
----End
Related Information
None.
A.3.117 RADIO_TSL_LOW
Description
The RADIO_TSL_LOW is an alarm indicating that the radio transmit power is very low. Thisalarm is reported when the detected transmit power is less than the lower power threshold of theODU.
Attribute
Alarm Severity Alarm Type
Critical Service alarm
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ParametersNone.
Impact on the SystemThe service transmission is affected. If the system is configured with 1+1 protection, protectionswitching may be triggered.
Possible CausesCause 1: The local ODU is faulty.
Procedure
Step 1 Cause 1: The local ODU is faulty.(1) Replace the ODU.
----End
Related InformationNone.
A.3.118 RELAY_ALARM_CRITICAL
DescriptionThe RELAY_ALARM_CRITICAL is an alarm indicating the critical alarm inputs. This alarmoccurs when the user sets the severity of an available alarm input to critical and there is such analarm input.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the number of the alarm input/output.
The value ranges from 0x01 to 0x08.
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Impact on the System
When the RELAY_ALARM_CRITICAL alarm occurs, it does not affect the operation of theboard or the services on the NE.
Possible Causes
There is a critical alarm input.
Procedure
Step 1 Cause: There is a critical alarm input.
(1) Check the alarm parameters and confirm the number of the alarm input/output.
(2) Clear the alarms of the external equipment according to the defined meanings of the alarms.Then, the RELAY_ALARM_CRITICAL alarm is cleared.
----End
Related Information
None.
A.3.119 RELAY_ALARM_MAJOR
Description
The RELAY_ALARM_MAJOR is an alarm indicating the major alarm inputs. This alarm occurswhen the user sets the severity of an available alarm input to major and there is such an alarminput.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the number of the alarm input/output.
The value ranges from 0x01 to 0x08.
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Impact on the System
When the RELAY_ALARM_MAJOR alarm occurs, it does not affect the operation of the boardor the services on the NE.
Possible Causes
There is a major alarm input.
Procedure
Step 1 Cause: There is a major alarm input.(1) Check the alarm parameters and confirm the number of the alarm input/output.(2) Clear the alarms of the external equipment according to the defined meanings of the alarms.
Then, the RELAY_ALARM_MAJOR alarm is cleared.
----End
Related Information
None.
A.3.120 RELAY_ALARM_MINOR
Description
The RELAY_ALARM_MINOR is an alarm indicating the minor alarm inputs. This alarm occurswhen the user sets the severity of an available alarm input to minor and there is such an alarminput.
Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the number of the alarm input/output.
The value ranges from 0x01 to 0x08.
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Impact on the System
When the RELAY_ALARM_MINOR alarm occurs, it does not affect the operation of the boardor the services on the NE.
Possible Causes
There is a minor alarm input.
Procedure
Step 1 Cause: There is a minor alarm input.
(1) Check the alarm parameters and confirm the number of the alarm input/output.
(2) Clear the alarms of the external equipment according to the defined meanings of the alarms.Then, the RELAY_ALARM_MINOR alarm is cleared.
----End
Related Information
None.
A.3.121 RELAY_ALARM_IGNORE
Description
The RELAY_ALARM_IGNORE is an alarm indicating the warning alarm inputs. This alarmoccurs when the user sets the severity of an available alarm input to warning and there is suchan alarm input.
Attribute
Alarm Severity Alarm Type
Warning Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the number of the alarm input/output.
The value ranges from 0x01 to 0x08.
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Impact on the SystemWhen the RELAY_ALARM_IGNORE alarm occurs, it does not affect the operation of the boardor the services on the NE.
Possible CausesThere is a warning alarm input.
Procedure
Step 1 Cause: There is a warning alarm input.(1) Check the alarm parameters and confirm the number of the alarm input/output.(2) Clear the alarms of the external equipment according to the defined meanings of the alarms.
Then, the RELAY_ALARM_IGNORE alarm is cleared.
----End
Related InformationNone.
A.3.122 RP_LOC
DescriptionThe RP_LOC is an alarm indicating that the receiving phaselock ring clock is lost.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersNone.
Impact on the SystemThe services on the board are interrupted.
Possible Causesl Cause 1: The related data is configured incorrectly.
l Cause 2: The board is faulty.
Procedure
Step 1 Cause 1: The related data is configured incorrectly.
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(1) Check whether the services are correctly configured.
If... Then...
The services are configured incorrectly Reconfigure services.
The services are configured correctly Go to Cause 2.
Step 2 Cause 2: The board is faulty.(1) Replace the board.
----End
Related InformationNone.
A.3.123 RPS_INDI
DescriptionThe HSM_INDI is an alarm indicating that the radio protection switching is detected.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 Indicates the ID of the protection group.
Parameter 2 Indicates the type of protection switching.
0x01: HSB protection switching
0x02: HSM protection switching
Impact on the SystemDuring the HSB protection switching, services are interrupted. After the HSB switching iscomplete, the services are restored to normal.
During the HSM protection switching, no bit errors occur and the services are not affected.
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Possible Causesl The possible causes of HSB protection switching are as follows:
– Cause 1: An external switching event occurs
– Cause 2: An automatic switching event occurs.
– Cause 3: A reverse switching event occurs.
l The possible causes of HSM protection switching are as follows:– In the case of Hybrid radio, the automatic switching condition of the HSM is that the
quality of the main channel degrades.– In the case of SDH/PDH radio, an alarm that triggers HSM switching is reported on the
radio link.
Procedure
Step 1 Determine the type of the protection switching based on the alarm parameters.
Step 2 Cause 1 of HSB switching: An external switching event occurs. That is, the NMS issues acommand to trigger the switching.(1) Check whether the switching is the forced switching or manual switching. For details, see
Querying the IF 1+1 Protection Status.
If... Then...
The switching is the forced switching ormanual switching
Find the cause and release the switchingimmediately.
The switching is not the forcedswitching or manual switching
Go to Cause 2 of HSB switching.
Step 3 Cause 2 of HSB switching: An automatic switching event occurs. That is, the equipment is faulty,or the service is defective.(1) Check whether the following faults or alarms occur. If yes, rectify the faults or clear the
alarms.l The hardware of the IF board or the ODU is faulty.
l VOLT_LOS
l RADIO_TSL_HIGH, RADIO_TSL_LOW, or RADIO_RSL_HIGH
l IF_INPWR_ABN or CONFIG_NOSUPPORT
l R_LOC, R_LOF, R_LOS, or MW_LOF
NOTE
l If the switching is non-revertive, the services are not automatically switched to the working pathwhen the working path is restored to normal, and the RPS_INDI alarm persists. In this case, youneed to manually switch the services from the protection path to the working path. The RPS_INDIalarm is cleared only when the switching is successful.
l If the switching is revertive, the services are automatically switched to the working path onlywhen the specified wait-to-restore (WTR) time expires after the working path is restored tonormal. The RPS_INDI alarm is cleared only when the switching is successful.
Step 4 Cause 3 of HSB switching: A reverse switching event occurs.(1) Query whether the active and standby IF boards report the MW_RDI alarm. If yes, take
priority to clear the MW_RDI alarm.
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Step 5 Cause 1 of HSM switching: In the case of Hybrid radio, the quality of the main channel degrades.(1) Check whether the AM_DOWNSHIFT alarm is reported by an IF board. If the alarm is
reported by an IF board, refer to AM_DOWNSHIFT to rectify the fault that causes thequality of the main channel to degrade. If the alarm is not reported by an IF board, thequality of the main channel degrades possibly due to the weather. In this case, you do notneed to handle the problem, because this is a normal situation.
Step 6 Cause 2 of HSM switching: In the case of SDH/PDH radio, an alarm that triggers HSM switchingis reported on the radio link.(1) Check whether any alarm that triggers HSM switching is reported by an IF board of the IF
1+1 protection group. If yes, take priority to clear the alarm.HSM switching may be triggered by any of the following alarms:l R_LOC, R_LOF, R_LOS, or MW_LOF
l MW_FEC_UNCOR
l B1_SD or B2_SD
----End
Related InformationNone.
A.3.124 RS_CROSSTR
DescriptionThe RS_CROSSTR is an alarm indicating that a regenerator section performance indicatorcrosses the threshold. This alarm is reported if a board detects that a regenerator section bit errorperformance event crosses the preset threshold.
Attribute
Alarm Severity Alarm Type
Minor Service alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
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Name Meaning
Parameter 1 Indicates the performance monitoring period:
l 0x01: 15 minutes
l 0x02: 24 hours
Parameter 2, Parameter 3 Indicate the ID of a performance event that causes the alarm.
Impact on the SystemA large number of bit errors occur in the services, and the services may be interrupted.
Possible CausesCause 1: The regenerator section bit error performance indicator crosses the preset threshold.
Procedure
Step 1 Cause 1: The regenerator section bit error performance indicator crosses the preset threshold.(1) Find out the performance event that crosses the preset threshold. For details, see 8.3.8
Browsing the Performance Event Threshold-Crossing Records.(2) Handle the performance event that crosses the threshold.
----End
Related InformationNone.
A.3.125 RTC_FAIL
DescriptionThe RTC_FAIL is an alarm indicating that the real-time clock (RTC) on the system controlboard fails.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersNone.
Impact on the SystemThe service is not affected.
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Possible Causes
Cause 1: The RTC on the system control board is abnormal.
Procedure
Step 1 Cause 1: The RTC on the system control board is abnormal.(1) Replace the system control, switching, and timing board.
----End
Related Information
None.
A.3.126 S1_SYN_CHANGE
Description
The S1_SYN_CHANGE is an alarm indicating that the clock source is switched in S1 bytemode.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
Parameters
When you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 The value is always 0x01.
Impact on the System
If the new clock source has a lower quality, pointer justifications and bit errors are generatedafter the switching of clock source. As a result, the quality of services is affected.
Possible Causes
Cause 1: The original clock source is lost when the SSM protocol or extended SSM protocol isenabled.
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Procedure
Step 1 Cause 1: The original clock source is lost when the SSM protocol or extended SSM protocol isenabled.(1) Handle the SYNC_C_LOS alarm that is related to the original clock source.
----End
Related InformationNone.
A.3.127 SWDL_ACTIVATED_TIMEOUT
DescriptionThe SWDL_ACTIVATED_TIMEOUT is an alarm indicating the activation timeout of thesoftware package. During the package loading, the system reports the alarm if no data issubmitted within 30 minutes after activation of the NE software or board software.
Attribute
Alarm Severity Alarm Type
Critical Processing alarm
ParametersNone.
Impact on the SystemThe NE does not perform the submit operation. As a result, the software in the two areas of thedouble-area boards on the NE is inconsistent.
Possible CausesCause 1: The radio link is faulty. As a result, the NE involved in the package loading fails toreceive the submit command.
Procedure
Step 1 Cause 1: The radio link is faulty. As a result, the NE involved in the package loading fails toreceive the submit command.(1) Check whether the radio link is faulty.
If... Then...
The radio link is faulty Troubleshoot the radio link to ensure that the linkbetween the nodes to be loaded is normal.
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If... Then...
The radio link is normal Perform the package loading to the NE again.
----End
Related InformationNone.
A.3.128 SWDL_AUTOMATCH_INH
DescriptionThe SWDL_AUTOMATCH_INH is an alarm indicating that the automatic match function isdisabled. When the automatic match function of the board is disabled, the system reports thealarm if the board cannot match the software from the system control board.
Attribute
Alarm Severity Alarm Type
Minor Processing alarm
ParametersNone.
Impact on the SystemWhen a board whose version is not consistent with the software version of the NE is installed,the software versions of the whole NE are not consistent if the board cannot automatically matchthe software from the system control board. As a result, certain functions of the NE cannot runnormally.
Possible CausesCause 1: The automatic match function is disabled.
Procedure
Step 1 Cause 1: The automatic match function is disabled.(1) Contact the Huawei technical support engineers for troubleshooting.
----End
Related InformationNone.
A.3.129 SWDL_CHGMNG_NOMATCH
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Description
The SWDL_CHGMNG_NOMATCH is an alarm of software inconsistency. After an NE ispower recycled and the boards on the NE become online, if the system detects that the softwareversion of any board is different from that in the software package on the SCC board, or detectsthat the CF card and flash memory on the SCC board are inconsistent in software packages, thesystem reports the SWDL_CHGMNG_NOMATCH alarm.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
Parameters
None.
Impact on the System
When the SWDL_CHGMNG_NOMATCH alarm is reported, certain functions of the NE maybe affected because the board software version is inconsistent with the running software version.
Possible Causes
Cause 1: The software package of the system control board does not match with the softwareversion of the board after the system control board is replaced.
Procedure
Step 1 Cause 1: The software package of the system control board does not match with the softwareversion of the board after the system control board is replaced.
(1) Perform the package diffusion again on the NE where the SWDL_CHGMNG_NOMATCHalarm is reported.
----End
Related Information
None.
A.3.130 SWDL_COMMIT_FAIL
Description
The SWDL_COMMIT_FAIL is an alarm indicating that the commission operation on the NEfails. This alarm is reported when the commission operation fails in the package diffusion.
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Attribute
Alarm Severity Alarm Type
Minor Processing alarm
Parameters
None.
Impact on the System
When the SWDL_COMMIT_FAIL alarm occurs, the software versions in the two areas of thedouble-area board are inconsistent.
Possible Causes
Cause 1: The loaded package is incorrect.
Procedure
Step 1 Cause 1: The loaded package is incorrect.
(1) Check whether the loaded package is correct.
(2) Perform the package diffusion again on the NE where the alarm is reported.
----End
Related Information
None.
A.3.131 SWDL_INPROCESS
Description
The SWDL_INPROCESS is an alarm indicating that the package diffusion is in process on theNE.
Attribute
Alarm Severity Alarm Type
Warning Processing alarm
Parameters
None.
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Impact on the System
When the SWDL_INPROCESS alarm is reported, the operations, such as modifyingconfiguration, uploading/downloading files, and backing up the database, are not allowed,because the software package is being loaded to the NE.
Possible Causes
The package diffusion is being performed on the NE.
Procedure
Step 1 The SWDL_INPROCESS alarm is cleared automatically after the loading or rollback iscomplete. Hence, this alarm can be neglected.
----End
Related Information
None.
A.3.132 SWDL_NEPKGCHECK
Description
The SWDL_NEPKGCHECK is an alarm of software inconsistency. This alarm is reported inthe following two situations: the CF card and flash memory are inconsistent in software packageand the flash memory has a software package; in a routine check (the check is not initiated byissuing commands), the system detects that some files are missing from the software packagestored in the CF card or from the software package stored in the flash memory.
Attribute
Alarm Severity Alarm Type
Critical Processing alarm
Parameters
None.
Impact on the System
The NE may run abnormally because certain files of the package are missing.
Possible Causes
Cause 1: Certain files of the package are missing and cannot be recovered.
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Procedure
Step 1 Cause 1: Certain files of the package are missing and cannot be recovered.(1) Ensure that the loaded software package is correct. Perform the package diffusion again on
the NE where the SWDL_NEPKGCHECK alarm is reported.
----End
Related InformationNone.
A.3.133 SWDL_PKG_NOBDSOFT
DescriptionThe SWDL_PKG_NOBDSOFT is an alarm indicating that certain board software is missingfrom the software package. This alarm is reported when the required software is missing fromthe software package during the automatic match of the board.
Attribute
Alarm Severity Alarm Type
Minor Processing alarm
ParametersNone.
Impact on the SystemThe board cannot perform automatic match, because the board software is missing from thesoftware package. Thus, the board software version is inconsistent with the NE software version,and certain functions of the NE may be affected.
Possible CausesCause 1: Certain board software is uninstalled during the software package loading.
Procedure
Step 1 Cause 1: Certain board software is uninstalled during the software package loading.(1) Add the required board software to the software package. Alternatively, perform the
software package loading again.
----End
Related InformationNone.
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A.3.134 SWDL_PKGVER_MM
Description
The SWDL_PKGVER_MM is an alarm indicating that the consistency check on the softwarepackage version fails. This alarm is reported when the consistency check on the software packageversion fails.
Attribute
Alarm Severity Alarm Type
Critical Processing alarm
Parameters
None.
Impact on the System
The software version of the software package is inconsistent with the software version describedin the software package. As a result, certain functions of the NE may be affected.
Possible Causes
Cause 1: The software version information in the description file of the software package isinconsistent with the actual software version information.
Procedure
Step 1 Cause 1: The software version information in the description file of the software package isinconsistent with the actual software version information.
(1) Ensure that the loaded software package is correct. Perform the package diffusion again onthe NE where the alarm is reported.
----End
Related Information
None.
A.3.135 SWDL_ROLLBACK_FAIL
Description
The SWDL_ROLLBACK_FAIL is an alarm indicating that the rollback on the NE fails. Thisalarm is reported when the rollback fails for any board on the NE.
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Attribute
Alarm Severity Alarm Type
Minor Processing alarm
ParametersNone.
Impact on the SystemThe board software version and the NE software version may mismatch, and certain functionsof the NE may be affected.
Possible CausesCause 1: Certain board software is uninstalled during the software package loading.
Procedure
Step 1 Cause 1: Certain board software is uninstalled during the software package loading.(1) Add the required board software to the software package. Alternatively, perform the
software package loading again.
----End
Related InformationNone.
A.3.136 SYNC_C_LOS
DescriptionThe SYNC_C_LOS is an alarm indicating that the synchronization source is lost.
Attribute
Alarm Severity Alarm Type
Warning Equipment alarm
ParametersNone.
Impact on the SystemThe NE clock degrades or enters the free-run mode.
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Possible CausesCause 1: The clock source is lost.
Procedure
Step 1 Cause 1: The clock source is lost.(1) Troubleshoot the synchronization sources of the lost clock source based on the clock source
priority table.
If... Then...
The synchronization source is theexternal clock
Handle the EXT_SYNC_LOS alarm.
The synchronization source is the lineclock
Handle the alarm that occurs on the lineboard.
The synchronization source is the IFclock
Handle the alarm that occurs on the IF board.
The synchronization source is thetributary clock
Handle the alarm that occurs on the tributaryboard.
----End
Related InformationNone.
A.3.137 T_ALOS
DescriptionThe T_ALOS is an alarm indicating that the 2 Mbit/s analog signal is lost at the specific port.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersNone.
Impact on the SystemThe 2Mbit/s services are interrupted.
Possible Causesl Cause 1: No 2 Mbit/s services are accessed into the port.
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l Cause 2: The opposite NE is faulty.
l Cause 3: The IF cable is faulty.
l Cause 4: The board that reports the alarm is faulty.
Procedure
Step 1 Cause 1: No 2 Mbit/s services are accessed into the port.
(1) Check whether the port that reports the alarm accesses the 2 Mbit/s service.
If... Then...
The services are not accessed Access the services to the port or delete the unnecessaryservice configuration.
The services are accessed Go to Cause 2.
Step 2 Cause 2: The equipment at the opposite end is faulty.
(1) Check whether the equipment at the opposite end is faulty.
If... Then...
The equipment is faulty Rectify the fault.
The equipment is normal Go to Cause 3.
Step 3 Cause 3: The IF cable is faulty.
(1) Check whether the IF cable is faulty.
If... Then...
The IF cable is faulty Rectify the fault.
The IF cable is not faulty Go to Cause 4.
Step 4 Cause 4: The board that reports the alarm is faulty.
(1) Replace the board that reports the alarm.
----End
Related Information
None.
A.3.138 T_F_RST
Description
The T_F_RST is an alarm indicating that the transmit FIFO is reset.
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Attribute
Alarm Severity Alarm Type
Minor Equipment alarm
Parameters
None.
Impact on the System
The services in the PDH path are interrupted.
Possible Causesl Cause 1: The frequency offset of the input signal is very large.
l Cause 2: The board is faulty.
Procedure
Step 1 Cause 1: The frequency offset of the input signal is very large.(1) Measure the frequency offset of the input signal.
If... Then...
The frequency offset is very large Troubleshoot the remote site.
The frequency offset is within 50 ppm Go to Cause 2.
Step 2 Cause 2: The board is faulty.(1) Replace the board that reports the alarm.
----End
Related Information
None.
A.3.139 T_LOC
Description
The T_LOC is an alarm indicating that the clock is lost on the transmit line side.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
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ParametersNone.
Impact on the SystemThe services in the AU-4 path that reports the alarm are interrupted.
Possible Causesl Cause 1: The cross-connect and timing board is faulty.
l Cause 2: The line board is faulty.
Procedure
Step 1 Cause 1: The cross-connect and timing board is faulty.(1) Replace the cross-connect and timing board at the local station.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Go to Cause 2.
Step 2 Cause 2: The line board is faulty.(1) Replace the board that reports the alarm.
----End
Related InformationNone.
A.3.140 TEMP_ALARM
DescriptionThe TEMP_ALARM is an alarm indicating that the board temperature crosses the threshold.
Attribute
Alarm Severity Alarm Type
Minor Environmental alarm
ParametersWhen you view an alarm on the network management system, select the alarm. In the AlarmDetails field display the related parameters of the alarm. The alarm parameters are in thefollowing format: Alarm Parameters (hex): parameter1 parameter2...parameterN, for example,
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Alarm Parameters (hex): 0x01 0x08. For details about each parameter, refer to the followingtable.
Name Meaning
Parameter 1 l 0x01: The temperature crosses the upper threshold.
l 0x02: The temperature crosses the lower threshold.
Impact on the System
The board fails to work normally.
Possible Causesl Cause 1: The board temperature crosses the threshold.
l Cause 2: The temperature detection circuit of the board is faulty.
Procedure
Step 1 Cause 1: The board temperature crosses the threshold.
(1) If the alarm is reported by the ODU, take appropriate measures (for example, installing asunshade) to control the temperature.
(2) If the alarm is reported by the board on the IDU, check whether the temperature controldevices, such as air-conditioners, work normally.
If... Then...
The temperature control devices workabnormally
Adjust the temperature control devices.
The temperature control devices worknormally
Go to the next step.
(3) Check whether the heat dissipation hole on the IDU is covered or blocked.
If... Then...
The heat dissipation hole is covered orblocked
Clear or remove the covering materials orobstacles.
The heat dissipation hole is not covered orblocked
Go to Cause 2.
Step 2 Cause 2: The temperature detection circuit of the board is faulty.
(1) If the ambient temperature is normal and no other heat dissipation problems exist, replacethe board that reports the alarm.
----End
Related Information
None.
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A.3.141 THUNDERALM
DescriptionThe THUNDERALM is an alarm indicating the lightning protection failure. If the system detectsthe lightning protection circuit fails, the THUNDERALM occurs.
Attribute
Alarm Severity Alarm Type
Minor Environment alarm
ParametersNone.
Impact on the SystemWhen the THUNDERALM occurs, the system operation and services are not affected, but thelightning protection function fails.
Possible CausesThe possible causes of the THUNDERALM alarm are as follows:
l Cause 1: The fuse tube of the lightning protection circuit is interrupted.
l Cause 2: The board is faulty.
Procedure
Step 1 Cause 1: The fuse tube of the lightning protection circuit is interrupted.(1) Replace the fuse tube, and then check whether the alarm is cleared.
Step 2 Cause 2: The board is faulty.(1) Replace the board that reports the THUNDERALM alarm.
----End
Related InformationNone.
A.3.142 TU_AIS
DescriptionThe AU_AIS is an alarm indicating that the TU has errors. This alarm is reported if a boarddetects that the signal in the TU path is all 1s.
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Attribute
Alarm Severity Alarm Type
Major Communication alarm
ParametersNone.
Impact on the SystemThe service in the TU path that reports the alarm is interrupted. If the service is configured withprotection, the protection switching is also triggered.
Possible Causesl Cause 1: Configuration data is incorrect.
l Cause 2: The line is faulty.
l Cause 3: The board at the opposite end is faulty.
l Cause 4: The board at the local end is faulty.
Procedure
Step 1 Cause 1: Configuration data is incorrect.(1) See Creating the Cross-Connections of Point-to-Point Services to check whether the SDH
service data is incorrect.
If... Then...
The SDH service data is incorrect Change the configuration data.
The SDH service data is correct Go to Cause 2.
Step 2 Cause 2: The line is faulty.(1) Check whether a line alarm that causes AIS insertion is reported on the service trail.
NOTEFor details about the line alarms that cause AIS insertion, see E.2.6 AIS Insertion.
If... Then...
The line alarm is reported Clear the line alarms that cause AIS insertion.
No line alarms are reported Go to the next step.
(2) See 8.5 Software Loopback to locate whether the board at the local end or at the oppositeend is faulty.
If... Then...
The board at the opposite end is faulty Go to Cause 3.
The board at the local end is faulty Go to Cause 4.
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Step 3 Cause 3: The board at the opposite end is faulty.(1) Replace the faulty board at the opposite end.
Step 4 Cause 4: The board at the local end is faulty.(1) Replace the board where the local line unit resides.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Go to the next step.
(2) Replace the system control, cross-connect, and timing board at the local end.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Go to the next step.
(3) Replace the board that reports the alarm.
----End
Related Information
None.
A.3.143 TU_LOP
Description
The TU_LOP is an alarm indicating that the TU pointer is lost. This alarm is reported if a boarddetects that the TU-PTR value is an invalid pointer or NDF reversion in eight consecutive frames.
Attribute
Alarm Severity Alarm Type
Major Communication alarm
Parameters
None.
Impact on the System
The service in the TU path that reports the alarm is interrupted. If the service is configured withprotection, the protection switching is also triggered.
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Possible Causesl Cause 1: The system control, cross-connect, and timing board is faulty.
l Cause 2: The tributary board is faulty.
Procedure
Step 1 Cause 1: The system control, cross-connect, and timing board is faulty.(1) Replace the system control, cross-connect, and timing board at the local end.
If... Then...
The alarm is cleared after the board isreplaced
The fault is rectified. End the alarmhandling.
The alarm persists after the board isreplaced
Go to Cause 2.
Step 2 Cause 2: The tributary board is faulty.(1) Replace the board where the tributary unit resides.
----End
Related InformationNone.
A.3.144 UP_E1_AIS
DescriptionThe UP_E1_AIS is an alarm indication of the 2 Mbit/s uplink signal. This alarm is reportedwhen the tributary board detects that the 2 Mbit/s uplink signal is all 1s.
Attribute
Alarm Severity Alarm Type
Minor Communication alarm
ParametersNone.
Impact on the SystemE1 signals are unavailable.
Possible Causesl Cause 1: The opposite equipment transmits the AIS signal.
l Cause 2: The receive unit of the tributary board on the local equipment is faulty.
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Procedure
Step 1 Cause 1: The opposite equipment transmits the AIS signal.(1) Check whether the opposite equipment transmits the AIS signal.
If... Then...
The opposite equipment transmits theAIS signal
Rectify the fault on the opposite equipment.
The opposite equipment does nottransmit the AIS signal
Go to Cause 2.
Step 2 Cause 2: The receive unit of the tributary board on the local equipment is faulty.(1) Replace the alarmed board.
----End
Related InformationNone.
A.3.145 VOLT_LOS
DescriptionThe VOLT_LOS is an alarm indicating that the power voltage is unavailable.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
ParametersNone.
Impact on the SystemThe ODU that is connected to the IF board that reports this alarm fails to work.
Possible Causesl Cause 1: The output power is abnormal.
l Cause 2: The input power is abnormal.
l Cause 3: Lightning occurs.
Procedure
Step 1 Cause 1: The output power is abnormal.
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(1) Check the power switch of the ODU.
If... Then...
The power switch is turned off Turn on the power switch.
The power switch is turned on Go to the next step.
(2) Use the multimeter to check the IF fiber jumper, IF cable, or ODU section by section for
a short circuit.
If... Then...
A short circuit exists Replace the short-circuited component,and then replace the IF board thatreports the alarm.
No short circuits exist Replace the IF board that reports thealarm.
CAUTIONIf the alarm is reported due to a short circuit, replace the short-circuited cable or ODU, andthen replace the IF board. Otherwise, the new IF board may be damaged again.
Step 2 Cause 2: The input power is abnormal.(1) Replace the IF board that reports the alarm.
Step 3 Cause 3: Lightning occurs.(1) Contact the engineers for power supply to check the grounding lightning facilities.
----End
Related Information
None.
A.3.146 WRG_BD_TYPE
Description
The WRG_BD_TYPE is an alarm indicating that the type of the board is incorrect.
Attribute
Alarm Severity Alarm Type
Major Equipment alarm
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Parameters
None.
Impact on the System
The board fails to work.
Possible Causesl Cause 1: Configuration data is incorrect.
l Cause 2: The board of an incorrect type is installed.
Procedure
Step 1 Cause 1: Configuration data is incorrect.(1) See Configuring the Logical Board to check whether the board type complies with the
planning requirement.
If... Then...
The board type does not meet the planningrequirement
Change the configuration data.
The board type meets the planning requirement Go to Cause 2.
Step 2 Cause 2: The board of an incorrect type is installed.(1) Replace the board of an incorrect type.
----End
Related Information
None.
A.3.147 WRG_DEV_TYPE
Description
The WRG_DEV_TYPE is an alarm indicating that the type of the equipment is incorrect.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
Parameters
None.
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Impact on the SystemThe equipment fails to work.
Possible CausesCause 1: Configuration data is incorrect.
Procedure
Step 1 Cause 1: Configuration data is incorrect.(1) By using the method of creating an NE, change the type of the NE so that it is consistent
with the equipment type.
----End
Related InformationNone.
A.3.148 XPIC_LOS
DescriptionThe XPIC_LOS is an alarm indicating that the XPIC compensation signals are lost.
Attribute
Alarm Severity Alarm Type
Critical Equipment alarm
ParametersNone.
Impact on the SystemBit errors may occur in the service at the port, and the service may even be interrupted.
Possible Causesl Cause 1: Configuration data is incorrect.
l Cause 2: The radio link is faulty.
l Cause 3: The XPIC cable is faulty.
l Cause 4: The IF board or ODU is faulty.
Procedure
Step 1 Cause 1: Configuration data is incorrect.
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(1) Check whether the XPIC function needs to be enabled. If not, see Setting IF Attributes todisable the XPIC function, and then perform a self-loop at the XPIC port on the board byusing the XPIC cable.
Step 2 Cause 2: The radio link is faulty.
(1) Check whether the paired board that is connected to the IFX2 board through the XPIC cablereports the MW_LOF alarm. If yes, first clear the MW_LOF alarm.
Step 3 Cause 3: The XPIC cable is faulty.
(1) Check the connection of the XPIC cable.
If... Then...
The cable is improperly connected Connect the XPIC cable properly.
The cable is properly connected Go to the next step.
(2) Test the make and break of the XPIC cable by using the multimeter. If the XPIC cable isdamaged, replace it.
Step 4 Cause 4: The IF board or ODU is faulty.
Locate the fault by replacing the IF board or ODU.
(1) Replace the paired board of the IFX2 board.
The paired board of the IFX2 board refers to the other IFX2 board connected to the IFX2board that reports the alarm through the XPIC cable.
If... Then...
The alarm is cleared after the board isreplaced
End the alarm handling.
The alarm persists after the board isreplaced
Go to the next step.
(2) Replace the ODU that is connected to the paired IFX2 board.
If... Then...
The alarm is cleared after the ODU isreplaced
End the alarm handling.
The alarm persists after the ODU isreplaced
Replace the IFX2 board that reports thealarm.
----End
Related Information
None.
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B Abnormal Event Reference
Abnormal events are important indicators when abnormalities occur on the equipment. Thistopic describes all the possible important abnormal events on the OptiX RTN 950 and how tohandle these events.
B.1 Major Abnormal Performance Event ListAbnormal events are important indicators when abnormalities occur on the equipment. Thistopic describes all the possible important abnormal events on the OptiX RTN 950 and how tohandle these events.
B.2 Abnormal Performance Events and Handling ProceduresThis topic describes all the important abnormal performance events on the OptiX RTN 950 inan alphabetical order and how to handle these abnormal performance events.
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B.1 Major Abnormal Performance Event ListAbnormal events are important indicators when abnormalities occur on the equipment. Thistopic describes all the possible important abnormal events on the OptiX RTN 950 and how tohandle these events.
Table B-1 Major performance event list
Event Name Source
B.2.1 Intermediate Frequency 1+1Protection Switching
CST and CSH
B.2.2 N+1 Protection Switching
B.2.3 SNCP Switching
B.2.4 Linear MS Switching
B.2.5 System Control Board Switching CST and CSH
B.2.6 RMON Performance Value Belowthe Lower Limit
EM6F and EM6T
B.2.7 RMON Performance Value Abovethe Upper Limit
B.2 Abnormal Performance Events and HandlingProcedures
This topic describes all the important abnormal performance events on the OptiX RTN 950 inan alphabetical order and how to handle these abnormal performance events.
B.2.1 Intermediate Frequency 1+1 Protection Switching
B.2.2 N+1 Protection Switching
B.2.3 SNCP Switching
B.2.4 Linear MS Switching
B.2.5 System Control Board Switching
B.2.6 RMON Performance Value Below the Lower Limit
B.2.7 RMON Performance Value Above the Upper Limit
B.2.1 Intermediate Frequency 1+1 Protection Switching
DescriptionThis abnormal event indicates that the 1+1 HSB/FD/SD switching occurs on the equipment.
B Abnormal Event ReferenceOptiX RTN 950
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AttributeSeverity Type
Major Service
ParametersName Meaning
Protection Group ID Indicates the ID of the protection group wherethe IF 1+1 protection switching occurs.
Current Working Board Slot Indicates the slot ID of the current workingboard.
Current Working Board Sub Slot Indicates the slot ID of the current workingboard.The value is always 0xff.
Current Working Port No. Indicates the ID of the working port.
Current Active Board Indicates the current working board.l Active on Working Board
l Active on Protection Board
Active Board Status Indicates the current state of the workingboard.l Normal
l Failed
l MW_RDI
Standby Board Status Indicates the current status of the protectionboard.l Normal
l Failed
l MW_RDI
Switching Request Indicates the type of an IF 1+1 protectionswitching request.l No Request
l Automatic Switching
l Manual Switching
l Forced Switching
l Lockout of Switching
l Wait-to-Restore
l RDI Switching
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NOTEThe parameter names and parameter values may vary with the version of the NMS.
Impact on Systeml During the HSB protection switching, services are interrupted. After the HSB switching is
complete, the services are restored to normal.
l During the HSM protection switching, no bit errors occur and the services are not affected.
Related Alarms
When the IF 1+1 protection switching occurs, the RPS_INDI alarm is reported.
Possible Causesl The possible causes of the HSB protection switching are as follows:
– The hardware of the ODU or IF unit at the local end is faulty.
– The working channel of the local end receives the MW_RDI alarm.
– The external switching, which is triggered by the switching command issued from theNMS software, occurs. The external switching includes lockout of switching, forcedswitching, and manual switching.
l The possible causes of the HSM protection switching are as follows:
– In the case of Hybrid radio, the quality of the main channel degrades.
– In the case of SDH/PDH radio, an alarm that triggers the HSM switching is reported onthe radio link. These alarms include R_LOC, R_LOF, R_LOS, MW_LOF,MW_FEC_UNCOR, B1_SD, and B2_SD.
Procedure
Step 1 Rectify the fault according to the switching request type indicated by the parameter and thedescription in RPS_INDI.
----End
B.2.2 N+1 Protection Switching
Description
This abnormal event indicates that the N+1 protection switching occurs on the equipment.
Attribute
Severity Type
Major Service
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ParametersName Meaning
Protection Group ID Indicates the ID of the protection group wherethe IF N+1 protection switching occurs.
Path Name ID Indicates the ID of the path where the IF N+1protection switching occurs.
Switching Request Indicates the type of an IF N+1 protectionswitching request.l Lockout of Protection Channel
l Forced Switching
l SF Switching
l SD Switching
l Manual Switching
l Wait-to-Restore
l Exercise
l Reverse Request
l No Request
Switching Status Indicates the state of an N+1 protectiongroup.l Protocol Unstarted
l Idle Status
l Switching Status
l Protocol Starting
Protected Unit Indicates the ID of the protected channel.The ID is 0xff if no switching is performed.
Switching Local/Remote End Indication Indicates the local or remote switching.l Local End
l Remote End
The switching status reason is changed Indicates the cause of the IF N+1 protectionswitching.l Local Request
l External Command
l K-byte request
l Timer expiry
NOTEThe parameter names and parameter values may vary with the version of the NMS.
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Impact on SystemDuring the N+1 protection switching (not more than 50 ms), the services are interrupted. Afterthe N+1 switching is complete, the services are restored to normal. After the switching startsand before the switching is complete, the extra services are interrupted.
NOTEIf the IF N+1 protection switching is caused by exercise switching, service signals are not switched actuallybecause the exercise switching is used to check whether the NE can run the N+1 protocol normally.
Related Alarms
When the IF N+1 protection switching occurs, the NP1_SW_INDI alarm is reported.
Possible Causesl The external switching occurs.
– Lockout of protection channel
– Forced switching
– Manual switching
l The automatic switching occurs.
– The hardware of the IDU or IF board is faulty. Focus on checking whether theHARD_BAD or BD_STATUS alarm is reported.
– The MW_LOF, R_LOC, R_LOF, R_LOS, MS_AIS, or B2_EXC alarm is reportedon the working path.
Procedure
Step 1 Rectify the fault according to the switching request type and the switching cause indicated bythe parameters.
If... Then...
The switching is caused by the externalswitching
Find the cause of the external switching, andthen release the external switchingimmediately.
The switching is caused by the automaticswitching
Clear the alarm that triggers the automaticswitching.
----End
B.2.3 SNCP Switching
Description
This abnormal event indicates that the SDH SNCP switching occurs in the service that isconfigured with the SNCP.
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AttributeSeverity Type
Major Service
ParametersName Meaning
Source Indicates the service source of the SNCPprotection group.
Sink Indicates the service sink of the SNCPprotection group.
Status Indicates the current working path.l Working at protection channel
l Working at working channel
Switching Status Indicates the switching status.l Manual to Standby
l Force to Active
l Force to Standby
l Lockout Switching
l SF Switching
l SD Switching
l Wait-to-Restore
l Idle
Working Channel Current Status Indicates the current status of the SNCPworking path.l Normal
l SD
l SF
Protection Channel Current Status Indicates the current status of the SNCPprotection path.l Normal
l SD
l SF
NOTEThe parameter names and parameter values may vary with the version of the NMS.
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Impact on SystemWhen the SNCP switching occurs, you must find the cause. If the related link is faulty, recoverthe link immediately. Ensure that the states of the SNCP working path and the SNCP protectionpath are NORMAL.
Possible Causesl The SDH SNCP switching is automatically triggered.
– The hardware of the line board is faulty.
– The R_LOS, R_LOF, R_LOC, MS_AIS, B2_EXC, AU_LOP, AU_AIS,HP_LOM, MW_LOF (only when the IF board functions as the line board),MW_LIM (only when the IF board functions as the line board), B3_EXC, B3_SD,HP_TIM (in the case of VC-4 services), HP_UNEQ (in the case of VC-4 services),TU_AIS (in the case of VC-12 services) or TU_LOP (in the case of VC-12 services),LP_UNEQ (Optional condition), LP_TIM (Optional condition), BIP_SD (Optionalcondition), BIP_EXC (Optional condition), or MW_BER_EXC (E1 servicestransmitted over the Hybrid microwave) alarm is reported.
l The SDH SNCP switching is manually triggered.– Forced switching
– Manual switching
ProcedureStep 1 On the NMS, query the type of the SDH SNCP switching request.
Step 2 Rectify the fault according to the switching request type.
If... Then...
The SDH SNCP switching is automaticallytriggered
Rectify the fault according to the relatedalarm, and eliminate the conditions of theautomatic switching.
The SDH SNCP switching is manuallytriggered
Find the cause of the manual switching, andthen release the manual switchingimmediately.
----End
B.2.4 Linear MS Switching
DescriptionThis abnormal event indicates that linear MSP switching occurs on the equipment that isconfigured with services.
AttributeSeverity Type
Major Service
B Abnormal Event ReferenceOptiX RTN 950
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ParametersName Meaning
Protection Group ID Indicates the ID of the protection group wherelinear MSP switching occurs.
Current Working Path Indicates the current working path of thelinear MS.l Working path
l Protection path
Linear MSP Switching Request Indicates the type of a linear MSP switchingrequest.l Lock out protection channel
l Forced Switching
l Switch upon signal failure
l Switch upon signal degradation
l Manual Switching
l Wait-To-Restore
l Exercise
l Reverse Request
l Non-Revertive Request
l Not Requested
Switching Status Indicates the switching state.l Protocol Not Started
l Idle
l Switching
l Protocol Being Started
Switching Remote/Local End Indication Indicates the remote or local end.l No Remote/Local End
l Local End
l Remote End
The switching status reason is changed Indicates the cause of changing the switchingstate.l Local Request
l External Command
l K Byte Request
l Timer Timeout
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Impact on the Systeml During the MSP switching (not more than 50 ms), the services are interrupted. After the
MSP switching is complete, the services become normal. During the MSP switching,additional services are interrupted.
l When linear MSP switching occurs, fiber cut may occur or the terminal node may be invalid.You must rectify the fault immediately.
Related AlarmsWhen linear MSP switching occurs, the APS_INDI alarm may be reported.
Possible Causesl An external switching command such as manual, forced, or excise switching command is
issued.l Automatic switching occurs.
After the R_LOS, R_LOF, MS_AIS, B2_EXC, B2_SD, B3_EXC, B3_SD, HP_TIM (forVC-4 services), HP_UNEQ (for VC-4 services), TU_AIS (for VC-12 services), orTU_LOP (for VC-12 services) alarm is reported, the MSP group changes to the switchingstate, and the automatic switching alarm is reported.
l The hardware or line is faulty.
Procedure
Step 1 Query the switching type and the protection group ID on the NMS.
Step 2 Rectify the fault according to the switching request type.
If... Then...
The switching is caused by externalswitching
Find the cause of the external switching, andthen clear manual switching as soon aspossible.
The switching is caused by automaticswitching
Clear the related alarm, and rectify thehardware or line fault.
----End
B.2.5 System Control Board Switching
DescriptionThis abnormal event indicates that the system control boards are external switched when theworking system control board on the equipment that is configured with the 1+1 protectionbecomes faulty.
AttributeSeverity Type
Major Equipment
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ParametersName Meaning
Group ID Indicates the group ID.
Protection Type XC board protection.
Working Unit Indicates the slot ID of the current workingboard.
Protection Unit Indicates the slot ID of the current protectionboard.
Current Working Unit Indicates the current status of the board.l Work at protection unit
l Work at working unit
Switching Type Indicates the switching type.External Switching
NOTEThe parameter names and parameter values may vary with the version of the NMS.
Impact on SystemNone.
Possible Causesl The switching is manually triggered.
Procedure
Step 1 On the NMS, check whether the manual switching operation is performed.
If... Then...
The manual switching operation isperformed on the NMS
Find the cause of the manual switching, andthen release the manual switching immediately.
No manual switching operations areperformed on the NMS
Go to the next step.
----End
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B.2.6 RMON Performance Value Below the Lower Limit
DescriptionThis abnormal event indicates that the current RMON performance value is lower than the presetlower limit.
AttributeSeverity Type
Minor Communication
ParametersName Meaning
Performance ID Indicates the ID of the current RMONperformance event.
Current Performance Value Indicates the value of the current RMONperformance event.
Lower Limit Indicates the lower limit of the currentRMON performance event.
Impact on SystemDifferent abnormal performance events have different impacts on the system. For details, seeD.3 RMON Events and Handling Procedures.
Related AlarmsDifferent alarms are reported when different RMON performance values are lower than thelower limits. For details, see D.3 RMON Events and Handling Procedures.
Possible CausesThe lower limit of a performance event is set to a non-zero value.
Procedure
Step 1 Set the lower limit of the performance event to 0.
----End
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B.2.7 RMON Performance Value Above the Upper Limit
Description
This abnormal event indicates that the current RMON performance value is higher than the presetupper limit.
Attribute
Severity Type
Minor Communication
Parameters
Name Meaning
Performance ID Indicates the ID of the current RMONperformance event.
Current Performance Value Indicates the value of the current RMONperformance event.
Upper Limit Indicates the upper limit of the currentRMON performance event.
Impact on SystemDifferent abnormal performance events have different impacts on the system. For details, seeD.3 RMON Events and Handling Procedures.
Related Alarms
Different alarms are reported when different RMON performance values are higher than theupper limits. For details, see D.3 RMON Events and Handling Procedures.
Possible Causes
When the performance values of different abnormal RMON performance events are higher thanthe upper limits, the causes are different. For details, see D.3 RMON Events and HandlingProcedures.
Procedure
Step 1 See D.3 RMON Events and Handling Procedures to handle different abnormal performanceevents.
----End
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C Performance Event Reference
Performance events are important indicators when the equipment performance changes. Thistopic describes all the possible performance events on the OptiX RTN 950 and how to handlethese performance events.
C.1 Performance Events (by Event Type)The list is categorized based on the performance event type, and includes all the events of theOptiX RTN 950.
C.2 Performance Events (by Logical Board)This part lists all the performance events that are reported by each board.
C.3 Performance Events and Handling ProceduresBased on the type of a performance event, this topic describes all the performance events on theOptiX RTN 950 and how to handle these performance events.
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C.1 Performance Events (by Event Type)The list is categorized based on the performance event type, and includes all the events of theOptiX RTN 950.
C.1.1 SDH/PDH Performance EventsSDH performance events are classified into five types: pointer justification, regenerator sectionerror, multiplex section error, higher order path error, and lower order path error.
C.1.2 Radio Performance EventsThe radio performance events are performance events of the radio link bit errors, ATPC, AM,and power.
C.1.3 Other Performance EventsIn addition to the SDH and radio performance events, the OptiX RTN 950 supports performanceevents of the optical power and the temperature.
C.1.1 SDH/PDH Performance EventsSDH performance events are classified into five types: pointer justification, regenerator sectionerror, multiplex section error, higher order path error, and lower order path error.
Table C-1 Pointer justification performance events
Event Name Description
AUPJCHIGH Count of positive AU pointer justification
AUPJCLOW Count of negative AU pointer justification
AUPJCNEW Count of new AU pointer justifications
TUPJCHIGH Count of positive TU pointer justifications
TUPJCLOW Count of negative TU pointer justifications
TUPJCNEW Count of new TU pointer justifications
Table C-2 Regenerator section error performance events
Event Name Description
RSBBE Regenerator section block of backgrounderror
RSES Regenerator section errored second
RSSES Regenerator section severely errored second
RSUAS Regenerator section unavailable second
RSCSES Regenerator section consecutive severelyerrored second
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Event Name Description
RSOFS Regenerator section out-of-frame second
RSOOF Regenerator section out of frame
NOTE
The regenerator section error performance events also occur in the case of the PDH radio. The PDH radioframe is detected through the overheads that are used for frame location and bit error detection.
Table C-3 Multiplex section error performance events
Event Name Description
MSBBE Multiplex section block of background error
MSES Multiplex section errored second
MSSES Multiplex section severely errored second
MSCSES Multiplex section consecutive severelyerrored second
MSUAS Multiplex section unavailable second
MSFEBBE Multiplex section far end block ofbackground error
MSFEES Multiplex section far end errored second
MSFESES Multiplex section far end severely erroredsecond
MSFECSES Multiplex section far end consecutiveseverely errored second
MSFEUAS Multiplex section far end unavailable second
Table C-4 Higher order path error performance events
Event Name Description
HPBBE Higher order path background block error
HPES Higher order path errored second
HPSES Higher order path severely errored second
HPCSES Higher order path consecutive severelyerrored second
HPUAS Higher order path unavailable second
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Event Name Description
HPFEBBE Higher order path far end background blockerror
HPFEES Higher order path far end errored second
HPFESES Higher order path far end severely erroredsecond
HPFECSES Higher order path far end consecutiveseverely errored second
HPFEUAS Higher order path far end unavailable second
Table C-5 Lower order path error performance events
Event Name Description
LPBBE Lower order path block of background error
LPES Lower order path errored second
LPSES Lower order path severely errored second
LPCSES Lower order path continuous severe bit errorsecond
LPUAS Lower order path unavailable second
LPFEBBE Lower order path far end block of backgrounderror
LPFEES Lower order path far end errored second
LPFESES Lower order path far end severely erroredsecond
LPFECSES Lower order path far end consecutiveseverely errored second
LPFEUAS Lower order far end unavailable second
C.1.2 Radio Performance EventsThe radio performance events are performance events of the radio link bit errors, ATPC, AM,and power.
Table C-6 Radio power performance events
Event Name Description
TSL_MAX Maximum value of radio transmit signal level
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Event Name Description
TSL_MIN Minimum value of radio transmit signal level
TSL_CUR Current value of radio transmit signal level
TSL_AVG Average value of radio transmit signal level
RSL_MAX Maximum value of radio receive signal level
RSL_MIN Minimum value of radio receive signal level
RSL_CUR Current value of radio receive signal level
RSL_AVG Average value of radio receive signal level
TLHTT The duration when the ODU at the local endhas a transit power higher than the upperthreshold
TLLTT The duration when the ODU at the local endhas a transit power higher than the lowerthreshold
RLHTT The duration when the ODU at the local endhas a receive power lower than the upperthreshold
RLLTT The duration when the ODU at the local endhas a receive power lower than the lowerthreshold
Table C-7 FEC performance events
Event Name Description
FEC_BEF_COR_ER FEC bit error rate before correction
FEC_UNCOR_BLOCK_CNT FEC uncorrected block count
FEC_COR_BYTE_CNT The number of bytes that are correctedthrough the FEC
Table C-8 Radio link error performance events
Event Name Description
IF_BBE Radio link background block errors
IF_ES Radio link errored seconds
IF_SES Radio link severely errored seconds
IF_UAS Radio link unavailable second
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Event Name Description
IF_CSES Radio link consecutive severely erroredseconds
Table C-9 ATPC performance events
Event Name Description
ATPC_P_ADJUST Positive ATPC adjustment
ATPC_N_ADJUST Negative ATPC adjustment
Table C-10 AM performance events
Event Name Description
QPSKWS Working time of the QPSK mode
QAMWS16 Working time of the 16QAM mode
QAMWS32 Working time of the 32QAM mode
QAMWS64 Working time of the 64QAM mode
QAMWS128 Working time of the 128QAM mode
QAMWS256 Working time of the 256QAM mode
AMDOWNCNT Count of the downshift of the AM scheme
AMUPCNT Count of the upshift of the AM scheme
C.1.3 Other Performance EventsIn addition to the SDH and radio performance events, the OptiX RTN 950 supports performanceevents of the optical power and the temperature.
Table C-11 Optical power performance events
Event Name Description Source
TPLMAX Maximum value of transmitoptical power
SL1D
TPLMIN Minimum value of transmitoptical power
TPLCUR Current value of transmitoptical power
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Event Name Description Source
RPLMAX Maximum value of receiveoptical power
RPLMIN Minimum value of receiveoptical power
RPLCUR Current value of receiveoptical power
Table C-12 Board temperature performance events
Event Name Description Source
BDTEMPMAX Maximum value of boardtemperature
ODU, IF1, IFU2, IFX2, CST,and CSH
BDTEMPMIN Minimum value of boardtemperature
BDTEMPCUR Current value of boardtemperature
C.2 Performance Events (by Logical Board)This part lists all the performance events that are reported by each board.
C.2.1 CST/CSHThe CST/CSH board reports only the board temperature performance events.
C.2.2 IF1The IF1 board reports three types of performance events: SDH/PDH performance events,microwave performance events, and temperature performance events.
C.2.3 IFU2The IFU2 board reports three types of performance events: PDH performance events, radioperformance events, and board temperature performance events.
C.2.4 IFX2The IFX2 board reports three types of performance events: PDH performance events, radioperformance events, and board temperature performance events.
C.2.5 SL1DThe SL1D board reports three types of performance events: SDH performance events, opticalpower performance events, and board temperature performance events.
C.2.6 SP3S/SP3DThe SP3S/SP3D board reports only the PDH performance events.
C.2.7 ODUThe ODU reports radio performance events.
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C.2.1 CST/CSHThe CST/CSH board reports only the board temperature performance events.
Table C-13 Board temperature performance events
Event Name Description
BDTEMPMAX Maximum value of board temperature
BDTEMPMIN Minimum value of board temperature
BDTEMPCUR Current value of board temperature
C.2.2 IF1The IF1 board reports three types of performance events: SDH/PDH performance events,microwave performance events, and temperature performance events.
SDH/PDH Performance Events
Table C-14 Pointer justification performance events
Event Name Description
AUPJCHIGH Count of positive AU pointer justification
AUPJCLOW Count of negative AU pointer justification
AUPJCNEW Count of new AU pointer justifications
Table C-15 Regenerator section error performance events
Event Name Description
RSBBE Regenerator section block of backgrounderror
RSES Regenerator section errored second
RSSES Regenerator section severely errored second
RSUAS Regenerator section unavailable second
RSCSES Regenerator section consecutive severelyerrored second
RSOFS Regenerator section out-of-frame second
RSOOF Regenerator section out of frame
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NOTE
The regenerator section error performance events also occur in the case of the PDH radio. The PDH radioframe is detected through the overheads that are used for frame location and bit error detection.
Table C-16 Multiplex section error performance events
Event Name Description
MSBBE Multiplex section block of background error
MSES Multiplex section errored second
MSSES Multiplex section severely errored second
MSCSES Multiplex section consecutive severelyerrored second
MSUAS Multiplex section unavailable second
MSFEBBE Multiplex section far end block ofbackground error
MSFEES Multiplex section far end errored second
MSFESES Multiplex section far end severely erroredsecond
MSFECSES Multiplex section far end consecutiveseverely errored second
MSFEUAS Multiplex section far end unavailable second
Table C-17 Higher order path error performance events
Event Name Description
HPBBE Higher order path background block error
HPES Higher order path errored second
HPSES Higher order path severely errored second
HPCSES Higher order path consecutive severelyerrored second
HPUAS Higher order path unavailable second
HPFEBBE Higher order path far end background blockerror
HPFEES Higher order path far end errored second
HPFESES Higher order path far end severely erroredsecond
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Event Name Description
HPFECSES Higher order path far end consecutiveseverely errored second
HPFEUAS Higher order path far end unavailable second
Radio Performance Events
Table C-18 FEC performance events
Event Name Description
FEC_BEF_COR_ER FEC bit error rate before correction
FEC_UNCOR_BLOCK_CNT Frame count uncorrect by FEC
Other Performance Events
Table C-19 Board temperature performance events
Event Name Description
BDTEMPMAX Maximum value of board temperature
BDTEMPMIN Minimum value of board temperature
BDTEMPCUR Current value of board temperature
C.2.3 IFU2The IFU2 board reports three types of performance events: PDH performance events, radioperformance events, and board temperature performance events.
PDH Performance Events
Table C-20 Lower order path error performance events
Event Name Description
LPBBE Lower order path block of background error
LPES Lower order path errored second
LPSES Lower order path severely errored second
LPCSES Lower order path continuous severe bit errorsecond
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Event Name Description
LPUAS Lower order path unavailable second
LPFEBBE Lower order path far end block of backgrounderror
LPFEES Lower order path far end errored second
LPFESES Lower order path far end severely erroredsecond
LPFECSES Lower order path far end consecutiveseverely errored second
LPFEUAS Lower order far end unavailable second
Radio Performance Events
Table C-21 FEC performance events
Event Name Description
FEC_BEF_COR_ER FEC bit error rate before correction
FEC_UNCOR_BLOCK_CNT FEC uncorrected block count
Table C-22 Radio link error performance events
Event Name Description
IF_BBE Radio link background block errors
IF_ES Radio link errored seconds
IF_SES Radio link severely errored seconds
IF_UAS Radio link unavailable second
IF_CSES Radio link consecutive severely erroredseconds
Table C-23 AM performance events
Event Name Description
QPSKWS Working time of the QPSK mode
QAMWS16 Working time of the 16QAM mode
QAMWS32 Working time of the 32QAM mode
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Event Name Description
QAMWS64 Working time of the 64QAM mode
QAMWS128 Working time of the 128QAM mode
QAMWS256 Working time of the 256QAM mode
AMDOWNCNT Count of the downshift of the AM scheme
AMUPCNT Count of the upshift of the AM scheme
Other Performance Events
Table C-24 Board temperature performance events
Event Name Description
BDTEMPMAX Maximum value of board temperature
BDTEMPMIN Minimum value of board temperature
BDTEMPCUR Current value of board temperature
C.2.4 IFX2The IFX2 board reports three types of performance events: PDH performance events, radioperformance events, and board temperature performance events.
PDH Performance Events
Table C-25 Lower order path error performance events
Event Name Description
LPBBE Lower order path block of background error
LPES Lower order path errored second
LPSES Lower order path severely errored second
LPCSES Lower order path continuous severe bit errorsecond
LPUAS Lower order path unavailable second
LPFEBBE Lower order path far end block of backgrounderror
LPFEES Lower order path far end errored second
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Event Name Description
LPFESES Lower order path far end severely erroredsecond
LPFECSES Lower order path far end consecutiveseverely errored second
LPFEUAS Lower order far end unavailable second
Radio Performance Events
Table C-26 FEC performance events
Event Name Description
FEC_BEF_COR_ER FEC bit error rate before correction
FEC_UNCOR_BLOCK_CNT FEC uncorrected block count
Table C-27 Radio link error performance events
Event Name Description
IF_BBE Radio link background block errors
IF_ES Radio link errored seconds
IF_SES Radio link severely errored seconds
IF_UAS Radio link unavailable second
IF_CSES Radio link consecutive severely erroredseconds
Table C-28 AM performance events
Event Name Description
QPSKWS Working time of the QPSK mode
QAMWS16 Working time of the 16QAM mode
QAMWS32 Working time of the 32QAM mode
QAMWS64 Working time of the 64QAM mode
QAMWS128 Working time of the 128QAM mode
QAMWS256 Working time of the 256QAM mode
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Event Name Description
AMDOWNCNT Count of the downshift of the AM scheme
AMUPCNT Count of the upshift of the AM scheme
Other Performance Events
Table C-29 Board temperature performance events
Event Name Description
BDTEMPMAX Maximum value of board temperature
BDTEMPMIN Minimum value of board temperature
BDTEMPCUR Current value of board temperature
C.2.5 SL1DThe SL1D board reports three types of performance events: SDH performance events, opticalpower performance events, and board temperature performance events.
SDH Performance Events
Table C-30 Pointer justification performance events
Event Name Description
AUPJCHIGH Count of positive AU pointer justification
AUPJCLOW Count of negative AU pointer justification
AUPJCNEW Count of new AU pointer justifications
Table C-31 Regenerator section error performance events
Event Name Description
RSBBE Regenerator section block of backgrounderror
RSES Regenerator section errored second
RSSES Regenerator section severely errored second
RSUAS Regenerator section unavailable second
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Event Name Description
RSCSES Regenerator section consecutive severelyerrored second
RSOFS Regenerator section out-of-frame second
RSOOF Regenerator section out of frame
Table C-32 Multiplex section error performance events
Event Name Description
MSBBE Multiplex section block of background error
MSES Multiplex section errored second
MSSES Multiplex section severely errored second
MSCSES Multiplex section consecutive severelyerrored second
MSUAS Multiplex section unavailable second
MSFEBBE Multiplex section far end block ofbackground error
MSFEES Multiplex section far end errored second
MSFESES Multiplex section far end severely erroredsecond
MSFECSES Multiplex section far end consecutiveseverely errored second
MSFEUAS Multiplex section far end unavailable second
Table C-33 Higher order path error performance events
Event Name Description
HPBBE Higher order path background block error
HPES Higher order path errored second
HPSES Higher order path severely errored second
HPCSES Higher order path consecutive severelyerrored second
HPUAS Higher order path unavailable second
HPFEBBE Higher order path far end background blockerror
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Event Name Description
HPFEES Higher order path far end errored second
HPFESES Higher order path far end severely erroredsecond
HPFECSES Higher order path far end consecutiveseverely errored second
HPFEUAS Higher order path far end unavailable second
Other Performance Events
Table C-34 Optical power performance events
Event Name Description
TPLMAX Maximum value of transmit optical power
TPLMIN Minimum value of transmit optical power
TPLCUR Current value of transmit optical power
RPLMAX Maximum value of receive optical power
RPLMIN Minimum value of receive optical power
RPLCUR Current value of receive optical power
Table C-35 Board temperature performance events
Event Name Description
BDTEMPMAX Maximum value of board temperature
BDTEMPMIN Minimum value of board temperature
BDTEMPCUR Current value of board temperature
C.2.6 SP3S/SP3DThe SP3S/SP3D board reports only the PDH performance events.
Table C-36 Pointer justification performance events
Event Name Description
TUPJCHIGH Count of positive TU pointer justifications
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Event Name Description
TUPJCLOW Count of negative TU pointer justifications
TUPJCNEW Count of new TU pointer justifications
Table C-37 Lower order path error performance events
Event Name Description
LPBBE Lower order path block of background error
LPES Lower order path errored second
LPSES Lower order path severely errored second
LPCSES Lower order path continuous severe bit errorsecond
LPUAS Lower order path unavailable second
LPFEBBE Lower order path far end block of backgrounderror
LPFEES Lower order path far end errored second
LPFESES Lower order path far end severely erroredsecond
LPFECSES Lower order path far end consecutiveseverely errored second
LPFEUAS Lower order far end unavailable second
C.2.7 ODUThe ODU reports radio performance events.
Table C-38 Radio power performance events
Event Name Description
TSL_MAX Maximum value of radio transmit signal level
TSL_MIN Minimum value of radio transmit signal level
TSL_CUR Current value of radio transmit signal level
TSL_AVG Average value of radio transmit signal level
RSL_MAX Maximum value of radio receive signal level
RSL_MIN Minimum value of radio receive signal level
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Event Name Description
RSL_CUR Current value of radio receive signal level
RSL_AVG Average value of radio receive signal level
TLHTT The duration when the ODU at the local endhas a transit power higher than the upperthreshold
TLLTT The duration when the ODU at the local endhas a transit power higher than the lowerthreshold
RLHTT The duration when the ODU at the local endhas a receive power lower than the upperthreshold
RLLTT The duration when the ODU at the local endhas a receive power lower than the lowerthreshold
Table C-39 ATPC performance events
Event Name Description
ATPC_P_ADJUST Positive ATPC adjustment
ATPC_N_ADJUST Negative ATPC adjustment
C.3 Performance Events and Handling ProceduresBased on the type of a performance event, this topic describes all the performance events on theOptiX RTN 950 and how to handle these performance events.
C.3.1 AMDOWNCNT and AMUPCNT
Descriptionl AMDOWNCNT indicates the count of the AM downshifts on a board in the current
performance statistics period.l AMUPCNT indicates the count of the AM upshifts on a board in the current performance
statistics period.
Attribute
Attribute Description
Performance event cell AMDOWNCNT and AMUPCNT
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Attribute Description
Unit -
Impact on System
AMDOWNCNT and AMUPCNT indicate only statistical values and do not affect the system.
Related Alarms
AM_DOWNSHIFT
Possible Causes
When the AM function is enabled, the transmission modulation scheme that the IF port on theIF board uses varies according to the quality of the link. Accordingly, the system counts theperformance events of the modulation scheme shift. When the low-efficiency modulationscheme is shifted to the high-efficiency modulation scheme, an upshift is recorded and oneAMUPCNT event is counted. Similarly, when the high-efficiency modulation scheme is shiftedto the low-efficiency modulation scheme, a downshift is recorded and one AMDOWNCNTevent is counted.
C.3.2 ATPC_P_ADJUST and ATPC_N_ADJUST
Descriptionl ATPC_P_ADJUST indicates the positive ATPC adjustment event.
This performance event indicates that the quality of a communication link declines. Thus,you must increase the transmit power of the ODU to maintain the communication quality.
l ATPC_N_ADJUST indicates the negative ATPC adjustment event.This performance event indicates that the quality of a communication link becomes wellor the transmit power of the ODU is very large. Thus, you can decrease the transmit powerof the ODU.
Attribute
Attribute Description
Performance event cell ATPCPADJUST (ATPC_P_ADJUST) andATPCNADJUST (ATPC_N_ADJUST)
Unit -
Impact on the System
The ATPC adjustment indicates only the stability of a communication link and it does not affectservices. When the value of the performance event is larger, more adjustments are made.
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When the factors that affect a communication link, such as sudden change of the weather, donot exist, and when the ATPC adjustment count is very large, the communication link may befaulty. You must check the communication link to prevent it from failure.
Related AlarmsNone.
C.3.3 AUPJCHIGH, AUPJCLOW, and AUPJCNEW
Descriptionl AUPJCHIGH indicates the count of positive AU pointer justifications.
l AUPJCLOW indicates the count of negative AU pointer justifications.
l AUPJCNEW indicates the count of new AU pointer justifications.
AttributeAttribute Description
Performance event cell PPJE (AUPJCHIGH)NPJE (AUPJCLOW)NDF (AUPJCNEW)
Unit Block
Impact on SystemLess than six AUPJCHIGH and AUPJCLOW events do not affect the system. If the pointer isjustified for many times, or the AUPJCNEW event occurs, bit errors may occur in the service.
Related AlarmsWhen the AUPJCHIGH, AUPJCLOW, or AUPJCNEW performance event crosses the presetthreshold, the MSAD_CROSSTR alarm is reported.
Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
AUPJCHIGH 1500 30000
AUPJCLOW 1500 30000
AUPJCNEW 1500 30000
Possible CausesThe NE clock is out-of-synchronization.
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Procedure
Step 1 See 5.5 Troubleshooting Pointer Justifications for handling.
----End
C.3.4 BDTEMPMAX, BDTEMPMIN, and BDTEMPCUR
Descriptionl BDTEMPMAX indicates the maximum temperature of a board.
l BDTEMPMIN indicates the minimum temperature of a board.
l BDTEMPCUR indicates the current temperature of a board.
Attribute
Attribute Description
Performance event cell -
Unit 0.1°C
Impact on SystemIf the temperature of a board is very high or very low, the performance of the board declines,and bit errors or other faults occur.
Related Alarms
If the temperature of a board crosses the specific threshold, the TEMP_ALARM alarm isreported.
C.3.5 FEC_BEF_COR_ER, FEC_UNCOR_BLOCK_CNT andFEC_COR_BYTE_CNT
Descriptionl FEC_BEF_COR_ER indicates the BER before the FEC is performed.
This event indicates the impact of the external environment on the transmission.
l FEC_COR_BYTE_CNT indicates the number of bytes corrected through the FEC.
This event indicates the impact of the FEC.
l FEC_UNCOR_BLOCK_CNT indicates the number of frames that cannot be correctedthrough the FEC.
This event indicates the number of blocks that cannot be corrected through the FEC.
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Attribute
Attribute Description
Performance event cell FECBEFCORER (FEC_BEF_COR_ER)FECCORBYTECNT(FEC_COR_BYTE_CNT)FECUNCORBLOCKCNT(FEC_UNCOR_BLOCK_CNT)
Unit None (FEC_BEF_COR_ER)None (FEC_COR_BYTE_CNT)Block (FEC_UNCOR_BLOCK_CNT)
Impact on System
If the value of FEC_BEF_COR_ER is very high, residual bit errors exist in the service after theFEC is performed.
If the value of FEC_UNCOR_BLOCK_CNT is not zero, it can be inferred that bit errors thatcannot be corrected exist on a radio link. Bit errors exist in the service accordingly.
Related Alarms
If a byte cannot be corrected, the MW_FEC_UNCOR alarm is reported.
C.3.6 HPBBE, HPES, HPSES, HPCSES, and HPUAS
Descriptionl HPBBE indicates the higher order path background block error.
BBE refers to the errored blocks excluding the errored blocks in the unavailable andseverely errored seconds.
l HPES indicates the higher order path errored second.
ES refers to a second in which one or more errored blocks are detected.
l HPSES indicates the higher order path severely errored second.
SES refers to a second in which 30% or more than 30% errored blocks exist or at least oneSDP exists. SDP is the period in which the BER of all the consecutive blocks in a periodof less than four consecutive blocks or 1 ms (the longer period is applied) is equal to orhigher than 10-2 or the signal is lost.
l HPCSES indicates the higher order path consecutive severely errored second.
CSES refers to a second in which the SES occurs continuously for less than 10 seconds.
l HPUAS indicates the higher order path unavailable second.
The unavailable time begins at the onset of 10 consecutive SESs, with the 10 SESs included.When SESs disappear for 10 consecutive seconds, the available time begins from theeleventh second, with the previous 10 seconds included.
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AttributeAttribute Description
Performance event cell B3CNT
Unit Block (HPBBE)Second (HPES, HPSES, HPCSES, andHPUAS)
Impact on SystemExcessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related Alarms
When the HPBBE, HPES, HPSES, HPCSES, or HPUAS performance event crosses the presetthreshold, the HP_CROSSTR alarm is reported.
Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
HPBBE 1500 15000
HPES 50 100
HPSES 20 50
HPUAS 20 50
HPCSES 4 (number of consecutive SESs)
Possible Causes
The system detects higher order path bit errors through the B3 byte.
Procedure
Step 1 See 5.4 Troubleshooting Bit Errors in TDM Services for handling.
----End
C.3.7 HPFEBBE, HPFEES, HPFESES, HPFECSES, and HPFEUAS
Descriptionl HPFEBBE indicates the higher order path far end background block error.
Far end background block error (FEBBE) indicates that the BBE occurs at the oppositeend.
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l HPFEES indicates the higher order path far end errored second.FEES indicates that the ES occurs at the opposite end.
l HPFESES indicates the higher order path far end severely errored second.FESES indicates that the SES occurs at the opposite end.
l HPFECSES indicates the higher order path far end consecutive severely errored second.FECSES indicates that the CSES occurs at the opposite end.
l HPFEUAS indicates the higher order path far end unavailable second.FEUAS indicates that the UAS occurs at the opposite end.
AttributeAttribute Description
Performance event cell PFEBE
Unit Block (HPFEBBE)Second (HPFEES, HPFESES, HPFECSES,and HPFEUAS)
Impact on SystemExcessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related Alarms
The HP_REI alarm is reported at the local end.
Possible Causes
The system detects the higher order path far end bit errors through bits 1 to 4 in the G1 byte.
Procedure
Step 1 Clear the corresponding performance event at the opposite end.
----End
C.3.8 IF_BBE, IF_ES, IF_SES, IF_CSES, and IF_UAS
Descriptionl IF_BBE indicates the radio link background block error.
BBE refers to the errored blocks excluding the errored blocks in the unavailable andseverely errored seconds.
l IF_ES indicates the radio link errored second.ES refers to a second in which one or more errored blocks are detected.
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l IF_SES indicates the radio link severely errored second.SES refers to a second in which 30% or more than 30% errored blocks exist or at least oneSDP exists. SDP is the period in which the BER of all the consecutive blocks in a periodof less than four consecutive blocks or 1 ms (the longer period is applied) is equal to orhigher than 10-2 or the signal is lost.
l IF_CSES indicates the radio link consecutively severely errored second.CSES refers to a second in which the SES occurs continuously for less than 10 seconds.
l IF_UAS indicates the radio link unavailable second.The unavailable time begins at the onset of 10 consecutive SESs, with the 10 SESs included.When SESs disappear for 10 consecutive seconds, the available time begins from theeleventh second, with the previous 10 seconds included.
AttributeAttribute Description
Performance event cell IFCNT
Unit Block (IFBBE)Second (IFES, IFSES, IFCSES, and IFUAS)
Impact on System
Excessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related AlarmsIn the case of the IFU2 or IFX2 board, the MW_BER_SD or MW_BER_EXC alarm is reportedwhen the BER crosses the specific threshold.
Possible CausesThe system detects bit errors on the radio link through the bit error detection overheads in a radioframe.
Procedure
Step 1 See 5.4 Troubleshooting Bit Errors in TDM Services for handling.
----End
C.3.9 LPBBE, LPES, LPSES, LPCSES, and LPUAS
Descriptionl LPBBE indicates the lower order path background block error.
BBE refers to the errored blocks excluding the errored blocks in the unavailable andseverely errored seconds.
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l LPES indicates the lower order path errored second.
ES refers to a second in which one or more errored blocks are detected.
l LPSES indicates the lower order path severely errored second.
SES refers to a second in which 30% or more than 30% errored blocks exist or at least oneSDP exists. SDP is the period in which the BER of all the consecutive blocks in a periodof less than four consecutive blocks or 1 ms (the longer period is applied) is equal to orhigher than 10-2 or the signal is lost.
l LPCSES indicates the lower order path consecutive severely errored second.
CSES refers to a second in which the SES occurs continuously for less than 10 seconds.
l LPUAS indicates the lower order path unavailable second.
The unavailable time begins at the onset of 10 consecutive SESs, with the 10 SESs included.When SESs disappear for 10 consecutive seconds, the available time begins from theeleventh second, with the previous 10 seconds included.
Attribute
Attribute Description
Performance event cell LPBIP2CNT
Unit Block (LPBBE)Second (LPES, LPSES, LPCSES, andLPUAS)
Impact on System
Excessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related Alarms
When the LPBBE, LPES, LPSES, LPCSES, or LPUAS performance event crosses the presetthreshold, the LP_CROSSTR alarm is reported.
Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
LPBBE 1500 15000
LPES 50 100
LPSES 20 50
LPUAS 20 50
LPCSES 4 (number of consecutive SESs)
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Possible CausesThe system detects lower order path bit errors through the BIP2 in the V5 byte (E1 interfaceboard or Hybrid IF board).
Procedure
Step 1 See 5.4 Troubleshooting Bit Errors in TDM Services for handling.
----End
C.3.10 LPFEBBE, LPFEES, LPFESES, LPFECSES, and LPFEUAS
Descriptionl LPFEBBE indicates the lower order path far end background block error.
FEBBE indicates that the BBE occurs at the opposite end.l LPFEES indicates the lower order path far end errored second.
FEES indicates that the ES occurs at the opposite end.l LPFESES indicates the lower order path far end severely errored second.
FESES indicates that the SES occurs at the opposite end.l LPFECSES indicates the lower order path far end consecutive severely errored second.
FECSES indicates that the CSES occurs at the opposite end.l LPFEUAS indicates the lower order path far end unavailable second.
FEUAS indicates that the UAS occurs at the opposite end.
AttributeAttribute Description
Performance event cell LPFEBE
Unit Block (LPFEBBE)Second (LPFEES, LPFESES, LPFECSES,and LPFEUAS)
Impact on SystemExcessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related AlarmsThe LP_REI alarm is reported at the local end.
Possible CausesThe system detects the lower order path far end bit errors through bit 3 in the V5 byte.
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Procedure
Step 1 Clear the corresponding performance event at the opposite end.
----End
C.3.11 MSBBE, MSES, MSSES, MSCSES, and MSUAS
Descriptionl MSBBE indicates the multiplex section background block error.
BBE refers to the errored blocks excluding the errored blocks in the unavailable andseverely errored seconds.
l MSES indicates the multiplex section errored second.
ES refers to a second in which one or more errored blocks are detected.
l MSSES indicates the multiplex section severely errored second.
SES refers to a second in which 15% or more than 15% errored blocks exist or at least oneSDP exists. SDP is the period in which the BER of all the consecutive blocks in a periodof less than four consecutive blocks or 1 ms (the longer period is applied) is equal to orhigher than 10-2 or the signal is lost.
l MSCSES indicates the multiplex section consecutive severely errored second.
CSES refers to a second in which the SES occurs continuously for less than 10 seconds.
l MSUAS indicates the multiplex section unavailable second.
The unavailable time begins at the onset of 10 consecutive SESs, with the 10 SESs included.When SESs disappear for 10 consecutive seconds, the available time begins from theeleventh second, with the previous 10 seconds included.
Attribute
Attribute Description
Performance event cell B2CNT
Unit Block (MSBBE)Second (MSES, MSSES, MSCSES, andMSUAS)
Impact on System
Excessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related Alarms
When the MSBBE, MSES, MSSES, MSCSES, or MSUAS performance event crosses the presetthreshold, the MS_CROSSTR alarm is reported.
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Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
MSBBE 1500 15000
MSES 50 100
MSES 20 50
MSUAS 20 50
MSCSES 4 (number of consecutive SESs)
Possible CausesThe system detects multiplex section bit errors through the B2 byte.
Procedure
Step 1 See 5.4 Troubleshooting Bit Errors in TDM Services for handling.
----End
C.3.12 MSFEBBE, MSFEES, MSFESES, MSFECSES, and MSFEUAS
Descriptionl MSFEBBE indicates the multiplex section far end background block error.
Far end background block error (FEBBE) indicates that the BBE occurs at the oppositeend.
l MSFEES indicates the multiplex section far end errored second.Far end errored second (FEES) indicates that the ES occurs at the opposite end.
l MSFESES indicates the multiplex section far end severely errored second.Far end severely errored second (FESES) indicates that the SES occurs at the opposite end.
l MSFECSES indicates the multiplex section far end consecutive severely errored second.Far end consecutive severely errored second (FECSES) indicates that the CSES occurs atthe opposite end.
l MSFEUAS indicates the multiplex section far end unavailable second.Far end unavailable second (FEUAS) indicates that the UAS occurs at the opposite end.
AttributeAttribute Description
Performance event cell LFEBE
Unit Block (MSFEBBE)Second (MSFEES, MSFESES, MSFECSES,and MSFEUAS)
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Impact on the System
Excessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related Alarms
The MS_REI alarm is reported at the local end.
Possible Causes
The system detects multiplex section far end bit errors through the M1 byte.
Procedure
Step 1 Clear the corresponding performance event at the opposite end.
----End
C.3.13 QPSKWS, QAMWS16, QAMWS32, QAMWS64,QAMWS128, and QAMWS256
Descriptionl QPSKWS indicates the working duration of the QPSK modulation scheme.
l QAMWS16 indicates the working duration of the 16QAM modulation scheme.
l QAMWS32 indicates the working duration of the 32QAM modulation scheme.
l QAMWS64 indicates the working duration of the 64QAM modulation scheme.
l QAMWS128 indicates the working duration of the 128QAM modulation scheme.
l QAMWS256 indicates the working duration of the 256QAM modulation scheme.
Attribute
Attribute Description
Performance event cell QPSKWSSECOND (QPSKWS)QAMWS16SECOND (16QAMWS)QAMWS32SECOND (32QAMWS)QAMWS64SECOND (64QAMWS)QAMWS128SECOND (128QAMWS)QAMWS256SECOND (256QAMWS)
Unit Second
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Impact on SystemWhen the AM function is disabled, the performance event does not affect the system.
When the AM function is enabled, in normal cases, the seconds of the modulation scheme formaximum capacity should account for a larger percentage. In the duration set for good weather,if the seconds of the low-efficiency modulation scheme account for a larger percentage, theperformance of the radio link is abnormal.
Related AlarmsNone.
C.3.14 RPLMAX, RPLMIN, and RPLCUR
Descriptionl RPLMAX indicates the maximum receive optical power at an optical interface.
l RPLMAX indicates the minimum receive optical power at an optical interface.
l RPLCUR indicates the current receive optical power at an optical interface.
AttributeAttribute Description
Performance event cell IPM
Unit dBm
Impact on SystemIn normal cases, the receive optical power should be 3 dB higher than the receiver sensitivity,and 5 dB lower than the overload power.
If the receive optical power is very low or very high, bit errors occur and even services areinterrupted.
Related Alarmsl If the receive optical power is lower than the receiver sensitivity, the IN_PWR_LOW
alarm is reported.l If the receive optical power is higher than the overload power, the IN_PWR_HIGH alarm
is reported.
C.3.15 RSBBE, RSES, RSSES, RSCSES, and RSUAS
Descriptionl RSBBE indicates the regenerator section background block error.
Background block error (BBE) refers to the errored blocks excluding the errored blocks inthe unavailable and severely errored seconds.
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l RSES indicates the regenerator section errored second.Errored second (ES) refers to a second in which one or more errored blocks are detected.
l RSSES indicates the regenerator section severely errored second.Severely errored second (SES) refers to a second in which 30% or more than 30% erroredblocks exist or at least one severely disturbed period (SDP) exists. SDP is the period inwhich the BER of all the consecutive blocks in a period of less than four consecutive blocksor 1 ms (the longer period is applied) is equal to or higher than 10-2 or the signal is lost.
l RSCSES indicates the regenerator section consecutive severely errored second.Consecutive severely errored second (CSES) refers to a second in which the SES occurscontinuously for less than 10 seconds.
l RSUAS indicates the regenerator section unavailable second.The unavailable time begins at the onset of 10 consecutive SESs, with the 10 SESs included.When SESs disappear for 10 consecutive seconds, the available time begins from theeleventh second, with the previous 10 seconds included.
NOTE
When the IF board works in PDH mode, these performance events may also be reported. These events aredetected through the self-defined overhead byte B1 in the PDH radio frame.
Attribute
Attribute Description
Performance event cell B1CNT
Unit Block (RSBBE)Second (RSES, RSSES, RSCSES, andRSUAS)
Impact on System
Excessive bit errors interrupt the service (the BER should be less than 10-3 for the voice service,and 10-6 for the data service).
Related Alarms
When the RSBBE, RSES, RSSES, RSCSES, or RSUAS performance event crosses the presetthreshold, the RS_CROSSTR alarm is reported.
Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
RSBBE 1500 15000
RSES 50 100
RSSES 20 50
RSUAS 20 50
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Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
RSCSES 4 (number of consecutive SESs)
Possible Causes
The system detects the regenerator section bit errors through the B1 byte.
Procedure
Step 1 See 5.4 Troubleshooting Bit Errors in TDM Services for handling.
----End
C.3.16 RSL_MAX, RSL_MIN, RSL_CUR, and RSL_AVG
Descriptionl RSL_MAX indicates the maximum radio received signal level.
l RSL_MIN indicates the minimum radio received signal level.
l RSL_CUR indicates the current radio received signal level.
l RSL_AVG indicates the average radio received signal level.
Attribute
Attribute Description
Performance event cell RSL
Unit 0.1 dBm
Impact on SystemWhen the radio received signal level is very low or very high, bit errors occur and even servicesare interrupted.
Related Alarms
If the radio received signal level crosses the specific threshold, the RADIO_RSL_HIGH orRADIO_RSL_LOW alarm is reported.
C.3.17 RSOOF and RSOFS
Descriptionl RSOOF indicates the regenerator section out of frame.
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The out-of-frame (OOF) block refers to a data block in which incorrect A1 and A2 bytesare detected.
l RSOFS indicates the regenerator section out-of-frame second.The out-of-frame second (OFS) refers to a second in which one or more OOF blocks aredetected.
Attribute
Attribute Description
Performance event cell OOF
Unit Block (RSOOF)Second (RSOFS)
Impact on System
The system discards OOF data blocks. Thus, an RSOOF event is equivalent to a big error (if oneRSOOF exists in a second, the BER is not less than 1.25 x 10-5).
Related Alarms
If RSOOF is received in five consecutive frames, the equipment changes to the OOF state. Ifthe OOF state lasts for 3 ms, the R_LOF alarm is reported and all the services are interrupted.
Possible Causes
The system detects incorrect A1 and A2 bytes.
Procedure
Step 1 If the R_LOF alarm, as well as the performance event, is reported, eliminate the errors accordingto the alarm. Otherwise, see 5.4 Troubleshooting Bit Errors in TDM Services for handling.
----End
C.3.18 RLHTT, RLLTT, TLHTT, TLLTT
Descriptionl The RLHTT indicates the duration when the ODU at the local end has a receive power
lower than the upper threshold.l The RLLTT indicates the duration when the ODU at the local end has a receive power
lower than the lower threshold.l The TLHTT indicates the duration when the ODU at the local end has a transit power higher
than the upper threshold.l The TLLTT indicates the duration when the ODU at the local end has a transit power higher
than the lower threshold.
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Attribute
Attribute Description
Basic unit of a performance event RLHTS, RLLTS, TLHTS, and TLLTS
Unit Second
Impact on System
None.
Related Alarms
None.
C.3.19 TPLMAX, TPLMIN, and TPLCUR
Descriptionl TPLMAX indicates the maximum transmit optical power at an optical interface.
l TPLMIN indicates the minimum transmit optical power at an optical interface.
l TPLCUR indicates the current transmit optical power at an optical interface.
Attribute
Attribute Description
Performance event cell OPM
Unit 0.1 dBm
Impact on System
In normal cases, the receive optical power should be 3 dB higher than the receiver sensitivity,and 5 dB lower than the overload power.
If the transmit optical power is very low or very high, the receive optical power at the oppositesite is accordingly very low or very high. As a result, bit errors occur and even services areinterrupted.
Related Alarmsl If the transmit optical power at the opposite site is lower than the receiver sensitivity, the
IN_PWR_LOW alarm is reported.
l If the receive optical power at the opposite site is higher than the overload power, theIN_PWR_HIGH alarm is reported.
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C.3.20 TSL_MAX, TSL_MIN, TSL_CUR, and TSL_AVG
Descriptionl TSL_MAX indicates the maximum radio transmitted signal level.
l TSL_MIN indicates the minimum radio transmitted signal level.
l TSL_CUR indicates the current radio transmitted signal level.
l TSL_AVG indicates the average radio transmitted signal level.
Attribute
Attribute Description
Performance event cell TSL
Unit 0.1 dBm
Impact on System
When the radio transmitted signal level is very low or very high, the radio received signal levelat the opposite site is very low or very high. As a result, bit errors occur and even services areinterrupted.
Related Alarms
If the radio transmitted signal level is not within the range supported by the ODU, theRADIO_TSL_HIGH or RADIO_TSL_LOW alarm is reported.
C.3.21 TUPJCHIGH, TUPJCLOW, and TUPJCNEW
Descriptionl TUPJCHIGH indicates the count of positive TU pointer justifications.
l TUPJCLOW indicates the count of negative TU pointer justifications.
l TUPJCNEW indicates the count of new TU pointer justifications.
Attribute
Attribute Description
Performance event cell TUPPJE (TUPJCHIGH)TUNPJE (TUPJCLOW)TUNDF (TUPJCNEW)
Unit Block
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Impact on SystemLess than six TUPJCHIGH and TUPJCLOW events on each port do not affect the system. If thepointer is justified for many times, or the TUPJCNEW event even occurs, bit errors may occurin the service.
Related AlarmsWhen the TUPJCHIGH, TUPJCLOW, or TUPJCNEW performance event crosses the presetthreshold, the HPAD_CROSSTR alarm is reported.
Performance Event Default 15-MinuteThreshold
Default 24-HourThreshold
TUPJCHIGH 1500 30000
TUPJCLOW 1500 30000
TUPJCNEW 1500 30000
Possible CausesThe NE clock is out-of-synchronization.
Procedure
Step 1 See 5.5 Troubleshooting Pointer Justifications for handling.
----End
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D RMON Event Reference
RMON events reflect the running of the Ethernet services. This topic describes the possibleRMON events on the OptiX RTN 950 and how to handle these events.
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D.1 List of RMON Alarm EntriesThe RMON alarm entries refer to the table entries in the RMON alarm group.
Table D-1 List of RMON alarm entries
Alarm Name Description Source
ETHDROP The number of packet loss eventscrosses the threshold.
EM6T, EM6F, IFU2, and IFX2
ETHEXCCOL
The number of frames that fail to betransmitted after continuouscollisions crosses the threshold.
ETHLATECOL
The number of collisions that aredetected after a timeslot periodelapses crosses the threshold.
RXBBAD The number of received bad packetscrosses the threshold.
TXDEFFRM The number of frames whosetransmission is delayed crosses thethreshold.
ETHUNDER The number of received undersizedpackets crosses the threshold.
ETHOVER The number of received oversizedpackets crosses the threshold.
ETHFRG The number of received fragmentedpackets crosses the threshold.
ETHJAB The number of received erroredoversized packets crosses thethreshold.
ETHCOL The number of received collisionscrosses the threshold.
ETHFCS The number of frames that have FCScheck errors crosses the threshold.
D.2 List of RMON Performance EntriesThe RMON performance entries refer to the table entries in the RMON statistics group or historygroup.
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Table D-2 List of RMON performance entries
Category ofPerformanceEntries
Abbreviation Name of aPerformance Entry
Source
Basicperformance
RXPKTS Packets received(packets)
EM6T, EM6F, IFU2, andIFX2
ETHDROP Drop events (times)
RXOCTETS Bytes received (bytes)
RXMULCAST Multicast packetsreceived (packets)
RXBRDCAST Broadcast packetsreceived (packets)
ETHOVER Oversized packetsreceived (packets)
EM6T, EM6F
ETHJAB Jabbers received(packets)
ETHUNDER Undersized packetsreceived (packets)
EM6T, and EM6F
ETHFRG Fragments received(packets)
ETHCOL Collisions (times)
Extendedperformance
ETHFCS FCS errored frames(frames)
EM6T, EM6F, IFU2, andIFX2
RXBGOOD Good bytes received(bytes)
TXBGOOD Good bytes transmitted(bytes)
RXBBAD Bad bytes received(bytes)
TXUNICAST Unicast packetstransmitted (packets)
RXUNICAST Unicast packets received(packets)
TXMULCAST Multicast packetstransmitted (packets)
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Category ofPerformanceEntries
Abbreviation Name of aPerformance Entry
Source
TXBRDCAST Broadcast packetstransmitted (packets)
RXGOODFULLFRAMESPEED
Rate of good full-framebytes received (bytes/second)
TXGOODFULLFRAMESPEED
Rate of good full-framebytes transmitted (bytes/second)
RXFULLBGOOD Good full-frame bytesreceived (bytes)
TXFULLBGOOD Good full-frame bytestransmitted (bytes)
RXPAUSE Pause frames received(frames)
EM6T, EM6F
TXPAUSE Pause frames transmitted(frames)
ETHLATECOL Late collisions (times) EM6T, and EM6F
ETHEXCCOL Frames unsuccessfullytransmitted aftersuccessive collisions(frames)
TXDEFFRM Delayed frames (frames)
D.3 RMON Events and Handling ProceduresThis topic describes the RMON events that indicate Ethernet service abnormalities and how tohandle these events.
D.3.1 ETHCOL
Description
ETHCOL indicates the number of detected packet collisions. An RMON threshold-crossingevent is reported when the number of collisions is higher than the upper threshold or lower thanthe lower threshold.
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Impact on System
The opposite equipment fails to normally receive services.
Possible Causes
Generally, this event is caused when the local port is connected to a large number of devicesthat work in half-duplex mode.
Procedure
Step 1 Handle this alarm according to the specific performance event.
If... Then...
The number is lower than the lower threshold Change the lower threshold to 0.
The number is higher than the upper threshold Go to the next step.
Step 2 On the NMS, query the working modes of the ports on the equipment at both ends.
If... Then...
The ports on the equipment at both endswork in inconsistent modes, or any portworks in half-duplex mode
Set the working modes of the ports on theequipment at both ends to full-duplex or auto-negotiation, so that these ports work inconsistent modes.
The ports on the equipment at both endswork in consistent modes and no ports workin half-duplex mode
Go to the next step.
Step 3 Replace the involved part.
----End
Reference
None.
D.3.2 ETHDROP
Description
ETHDROP indicates the number of events in which packet loss occurs due to resourcedeficiency. An RMON threshold-crossing event is reported when the number of packet lossevents is higher than the upper threshold or lower than the lower threshold.
Impact on System
When packet loss occurs frequently, services are affected and the system is affected seriously.Hence, you must rectify the fault immediately.
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Possible CausesThis performance event indicates packet loss due to the full MAC buffer, FIFO overflow, orbackward pressure.
l The lower threshold is not set to a non-zero value.
l The hardware at the local end is faulty.
Procedure
Step 1 Handle this alarm according to the specific performance event.
If... Then...
The number is lower than the lowerthreshold
Change the lower threshold to 0.
The number is higher than the upperthreshold
Manually decrease the traffic transmitted fromthe opposite end. If the problem persists, go tothe next step.
Step 2 Replace the involved part.
----End
ReferenceNone.
D.3.3 ETHEXCCOL
DescriptionETHEXCCOL indicates the number of frames that fail to be transmitted due to continuous portcollisions. An RMON threshold-crossing event is reported when the number of frames that failto be transmitted is higher than the upper threshold or lower than the lower threshold. Generally,the value indicates that 16 port collisions occur continuously when the same frame is transmitted.
Impact on SystemThe opposite equipment fails to normally receive services.
Possible CausesGenerally, this event is caused when the local port is connected to a large number of devicesthat work in half-duplex mode.
Procedure
Step 1 Handle this alarm according to the specific performance event.
If... Then...
The number is lower than the lower threshold Change the lower threshold to 0.
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If... Then...
The number is higher than the upper threshold Go to the next step.
Step 2 On the NMS, query the working modes of the ports on the equipment at both ends.
If... Then...
The ports on the equipment at both endswork in inconsistent modes, or any portworks in half-duplex mode
Set the working modes of the ports on theequipment at both ends to full-duplex or auto-negotiation, so that these ports work inconsistent modes.
The ports on the equipment at both endswork in consistent modes and no ports workin half-duplex mode
Go to the next step.
Step 3 Replace the involved part.
----End
ReferenceNone.
D.3.4 ETHFCS
DescriptionETHFCS indicates the number of received Ethernet data frames with FCS check errors at thelocal end (excluding the oversized and undersized frames). An RMON threshold-crossing eventis reported when the number is higher than the upper threshold or lower than the lower threshold.
Impact on SystemMost ports discard the packets with FCS check errors. The system services are interrupted inthe worst case.
Possible Causes1. The local port and opposite port work in inconsistent modes. For example, one port works
in half-duplex mode, and the opposite port works in half-duplex mode.2. The transmission line is of the poor quality and bit errors exist.3. The hardware at the local end is faulty.
Procedure
Step 1 Thus, handle the alarm according to the specific performance event.
If... Then...
The number is lower than the lower threshold Change the lower threshold to 0.
The number is higher than the upper threshold Go to the next step.
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Step 2 On the NMS, query the working modes of the ports on the equipment at both ends.
If... Then...
The ports on the equipment at both endswork in inconsistent modes
Change the working modes of the ports on theequipment at both ends so that they can workin consistent modes
The ports on the equipment at both endswork in consistent modes
Go to the next step.
Step 3 Replace the involved part.
----End
Reference
None.
D.3.5 ETHFRG
Description
ETHFRG indicates that an RMON threshold-crossing event is reported when the number ofreceived packets that are shorter than 64 bytes and have FCS or alignment errors exceeds thepreset upper threshold.
Impact on System
Data transmission is delayed or packet loss occurs.
Possible Causesl The working modes of the ports on the equipment at both ends are not consistent.
l The hardware at the local end is faulty.
l The ports on the equipment at both ends work in half-duplex mode, and the data traffic isvery heavy.
Procedure
Step 1 Check whether the working modes of the ports on the equipment at both ends are consistent.
If... Then...
The working modes are consistent Go to the next step.
The working modes are not consistent Change the working mode of the local port so thatthe ports on the equipment at both ends work inconsistent modes.
Step 2 Check whether the working modes of the ports on the equipment at both ends are set to the half-duplex mode.
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If... Then...
The working modes are not set to the half-duplex mode
Go to the next step.
The working modes are set to the half-duplex mode
Change the working modes of the ports on theequipment at both ends to the full-duplex modeor adaptive mode.
Step 3 Replace the involved part.
----End
D.3.6 ETHJAB
Description
ETHJAB indicates that an RMON threshold-crossing alarm is reported when the number ofreceived packets that are longer than 1518 bytes and have FCS or alignment errors is higher thanthe upper threshold.
Impact on the System
Data transmission is delayed or packet loss occurs.
Possible Causesl The working modes of the ports on the equipment at both ends are not consistent.
l The hardware at the local end is faulty.
Procedure
Step 1 Check whether the working modes of the ports on the equipment at both ends are consistent.
If... Then...
The working modes are consistent Go to the next step.
The working modes are not consistent Change the working mode of the local port so thatthe ports on the equipment at both ends work inconsistent modes.
Step 2 Replace the involved part.
----End
D.3.7 ETHLATECOL
Description
ETHLATECOL indicates the number of collisions detected within a timeslot period after apacket is transmitted. An RMON threshold-crossing event is reported when the number ofcollisions is higher than the upper threshold or lower than the lower threshold.
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Impact on System
The opposite equipment fails to normally receive services.
Possible Causes
Generally, this performance event is caused by a large network diameter.
Procedure
Step 1 Handle this alarm according to the specific performance event.
If... Then...
The number is lower than the lower threshold Change the lower threshold to 0.
The number is higher than the upper threshold Go to the next step.
Step 2 On the NMS, query the working modes of the ports on the equipment at both ends.
If... Then...
The ports on the equipment at both endswork in inconsistent modes, or any portworks in half-duplex mode
Set the working modes of the ports on theequipment at both ends to full-duplex or auto-negotiation, so that these ports work inconsistent modes.
The ports on the equipment at both endswork in consistent modes and no ports workin half-duplex mode
Go to the next step.
Step 3 Check whether the network diameter of the LAN is very large according to the networkingplanning information.
If... Then...
The network diameter is very large Divide the network and deploy equipment todifferent buses or physically shared devices (such ashubs).NOTE
In the case of the 10 Mbit/s port rate, the maximum Ethernetdiameter is 2000 m. In the case of the 100 Mbit/s port rate,the maximum Ethernet diameter is 200 m.
The network diameter is appropriate Go to the next step.
Step 4 Replace the involved part.
----End
Reference
None.
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D.3.8 ETHOVER
Description
ETHOVER indicates that an RMON threshold-crossing event is reported when the number ofpackets that are longer than 1518 bytes and are received at a port crosses the preset threshold.
Impact on System
If the length of the data frame received at a port is more than the preset maximum frame length,the data frame is discarded and thus the system services are affected.
Possible Causes1. The preset maximum frame length is less than the length of the frame that is received at a
port.
2. The hardware at the local end is faulty.
Procedure
Step 1 Check whether the opposite equipment transmits the packet that is longer than the maximumframe length set for the local equipment.
Option Description
If... Then...
The opposite equipment transmits thepacket that is longer than the maximumframe length set for the local equipment
Notify the opposite equipment that the lengthof transmitted frames should be changed.
The opposite equipment does not transmitthe packet that is longer than themaximum frame length set for the localequipment
Go to the next step.
Step 2 Replace the involved part.
----End
Reference
None.
D.3.9 ETHUNDER
Description
ETHUNDER indicates that an RMON threshold-crossing event is reported when the number ofpackets that are shorter than 64 bytes and are received on the line side crosses the preset threshold.
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Impact on SystemThe data frames whose length is not within the specific range are discarded. As a result, thesystem services are affected.
Possible Causes1. The length of a data frame that is received at a port is shorter than 64 bytes.2. The hardware at the local end is faulty.
Procedure
Step 1 Check whether the opposite equipment transmits the packet that is shorter than 64 bytes.
If... Then...
The opposite equipment transmits the packetthat is shorter than 64 bytes
Rectify the fault on the opposite equipment.
The opposite end does not transmit thepacket that is shorter than 64 bytes
Go to the next step.
Step 2 Replace the involved part.
----End
ReferenceNone.
D.3.10 RXBBAD
DescriptionRXBBAD indicates the total number of bytes in received bad packets, excluding the framingbit but including the FCS byte. An RMON threshold-crossing event is reported when the totalnumber of bytes in received bad packets is higher than the upper threshold or lower than thelower threshold.
Impact on SystemA port discards bad packets. This may even interrupt system services.
Possible Causes1. Errors occur when the opposite end transmits packets.2. The transmission line is of the poor quality and bit errors exist.3. The hardware at the local end is faulty.
Procedure
Step 1 Handle this alarm according to the specific performance event.
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If... Then...
The number is lower than the lower threshold Change the lower threshold to 0.
The number is higher than the upper threshold Go to the next step.
Step 2 Correct the errors that occur when the opposite end transmits packets.See 8.14 Monitoring Ethernet Packets Through Port Mirroring to check the Ethernet packetsreceived at the local end. If bit errors exist, rectify the fault at the opposite end.
Step 3 Handle the problem of poor quality of the transmission line.Check whether the ETH_LOS alarm is reported at the local end because the external line isdamaged or over attenuated. If yes, see the related handling method to clear the alarm.
Step 4 Replace the involved part.
----End
Reference
None.
D.3.11 TXDEFFRM
Description
TXDEFFRM indicates the number of frames the first transmission of which is delayed due tothe congestion on the transmission media, excluding the number of frames the first transmissionof which is delayed due to collisions. An RMON threshold-crossing event is reported when thenumber of frames that fail to be transmitted is higher than the upper threshold and lower thanthe lower threshold.
Impact on System
The rate of frame transmission decreases, and thus packets are congested at a port and thethroughput of the port decreases.
Possible Causes
Generally, this event is caused when the external port at the local end is connected to a largenumber of devices that work in half-duplex mode.
Procedure
Step 1 Handle this alarm according to the specific performance event.
If... Then...
The number is lower than the lower threshold Change the lower threshold to 0.
The number is higher than the upper threshold Go to the next step.
Step 2 On the NMS, query the working modes of the ports on the equipment at both ends.
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If... Then...
The ports on the equipment at both endswork in inconsistent modes, or any portworks in half-duplex mode
Set the working modes of the ports on theequipment at both ends to full-duplex or auto-negotiation, so that these ports work inconsistent modes.
The ports on the equipment at both endswork in consistent modes and no ports workin half-duplex mode
Go to the next step.
Step 3 Replace the involved part.
----End
ReferenceNone.
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E Alarm Management
The alarm management on the OptiX RTN 950 is classified into the NE alarm management andboard alarm management.
E.1 NE Alarm ManagementThe NE alarm management function set by user is applicable to all the boards on the NE.
E.2 Board Alarm ManagementThe board alarm management function is only applicable to the board on which users haveconfigured this function.
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E.1 NE Alarm ManagementThe NE alarm management function set by user is applicable to all the boards on the NE.
The equipment supports the following NE alarm management functions:
l Settings of the alarm storage mode
l Setting of the alarm delay
l Setting of the alarm reversion mode
For details about these functions, see the manuals or online Help of the NMS.
E.2 Board Alarm ManagementThe board alarm management function is only applicable to the board on which users haveconfigured this function.
E.2.1 Setting the Alarm LevelAlarms are classified into four levels: critical, major, minor, and warning, according to theirseverities. The maintenance personnel can change the alarm level by using the NMS.
E.2.2 Alarm SuppressionThe maintenance personnel can change the alarm monitoring attribute by setting the alarmsuppression function. A board detects only the alarms that are not suppressed. The alarmsuppression function helps users to ignore their unconcerned alarms.
E.2.3 Alarm Auto-ReportIf Alarm Auto-Report is set to Reported, all the detected alarms are reported to the NMS in atimely manner. If Alarm Auto-Report is set to Not Report, the alarms are reported only whenalarm query is performed on the NMS. The maintenance personnel can change the setting onthe NMS.
E.2.4 Alarm ReversionIn the case of a port that is not configured with services, certain alarms may be reported. To filterthe alarms that users are not concerned, set these alarms to be reversed. In this manner, the alarmstatus at this port is the opposite to the actual case. That is, the status is displayed as normalwhen an alarm is actually reported.
E.2.5 Setting of the Bit Error Alarm ThresholdWhen the number of bit errors detected by a board exceeds a specified number, the boardgenerates a bit error alarm. This specific number is the bit error alarm threshold, and the settingof this threshold is supported by all the bit error threshold-crossing and degrading alarms on theNE.
E.2.6 AIS InsertionAIS insertion can be set for certain alarms reported on a board. When the board detects thealarms, it inserts all 1s into the lower level service to indicate the remote end that the service isunavailable.
E.2.7 UNEQ InsertionWhen a board detects that the service path is not in use or that the LOS alarm exists, it insertsall 0s into the service signal to notify the remote end that this signal is unavailable.
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E.2.1 Setting the Alarm LevelAlarms are classified into four levels: critical, major, minor, and warning, according to theirseverities. The maintenance personnel can change the alarm level by using the NMS.
This function is supported by all the boards.
E.2.2 Alarm SuppressionThe maintenance personnel can change the alarm monitoring attribute by setting the alarmsuppression function. A board detects only the alarms that are not suppressed. The alarmsuppression function helps users to ignore their unconcerned alarms.
This function is supported by all the boards.
E.2.3 Alarm Auto-ReportIf Alarm Auto-Report is set to Reported, all the detected alarms are reported to the NMS in atimely manner. If Alarm Auto-Report is set to Not Report, the alarms are reported only whenalarm query is performed on the NMS. The maintenance personnel can change the setting onthe NMS.
This function is supported by all the boards.
E.2.4 Alarm ReversionIn the case of a port that is not configured with services, certain alarms may be reported. To filterthe alarms that users are not concerned, set these alarms to be reversed. In this manner, the alarmstatus at this port is the opposite to the actual case. That is, the status is displayed as normalwhen an alarm is actually reported.
The alarm reversion function is available in three modes, namely, non-revertive, automaticreversion, and manual reversion.
l Non-revertiveIn this mode, the alarms are monitored by default and alarm reversion cannot be enabledfor a port.
l Auto reversionIn this mode, alarm reversion can be enabled for a port where alarms are reported. Afteralarm reversion is enabled at a port, alarms are not reported. When the current alarm iscleared, the alarm reversion automatically changes to the disabled status. That is, it changesto the non-revertive mode. Then, the alarm reporting status at the port is the same as theactual status.
l Manual reversionIn this mode, alarm reversion can be enabled for a port regardless of whether any alarmsare reported at the port. After alarm reversion is enabled, the alarm reporting status at theport is the same as the actual status. After alarm reversion is manually disabled, the alarmreversion status changes to the non-revertive mode. Then, the alarm reporting status at theport is the same as the actual status.
Pay attention to the following points when you set the alarm reversion function:
l Alarm reversion does not change the actual status of alarms on the board, as well as theindication status of the alarm indicators.
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l Alarm reversion is realized on the NE software. The alarm data is the same on the NE andthe NMS, which indicates the status after the alarm reversion. If you directly query thealarm data of a board, however, the actual alarm status is returned.
l Alarm reversion is set based on ports. It is supported by each port on the SL1D, SP3S,SP3D, IFX2, IFU2, EM6T, and EM6Fboards.
E.2.5 Setting of the Bit Error Alarm ThresholdWhen the number of bit errors detected by a board exceeds a specified number, the boardgenerates a bit error alarm. This specific number is the bit error alarm threshold, and the settingof this threshold is supported by all the bit error threshold-crossing and degrading alarms on theNE.
Table E-1 Setting of the bit error alarm threshold
Alarm Name Default Alarm Threshold Applicable Board
B1_EXC 10-3 SL1D and IF1
B1_SD 10-6
B2_EXC 10-3 SL1D and IF1
B2_SD 10-6
B3_EXC 10-3 SL1D and IF1
B3_SD 10-6
BIP_EXC 10-3 SP3S, SP3D, IFU2, and IFX2
BIP_SD 10-6
MW_BER_EXC 10-3 IFU2 and IFX2
MW_BER_SD 10-6
E.2.6 AIS InsertionAIS insertion can be set for certain alarms reported on a board. When the board detects thealarms, it inserts all 1s into the lower level service to indicate the remote end that the service isunavailable.
Table E-2 Setting of the AIS insertion
Trigger Condition Default Value Applicable Board
B1_EXC Enabled SL1D and IF1
B2_SD Disabled SL1D and IF1
B2_EXC Disabled SL1D and IF1
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Trigger Condition Default Value Applicable Board
HP_LOM Enabled
HP_TIM Disabled
HP_SLM Disabled
HP_UNEQ Disabled
B3_EXC Enabled SL1D and IF1
B3_SD Disabled
B1_SD Disabled SL1D and IF1
LP_TIM Disabled SP3S and SP3D
LP_UNEQ Disabled
LP_SLM Disabled
T_ALOS Enabled
BIP_EXC Disabled
BIP_SD Disabled
MW_BER_EXC Enabled IFX2 and IFU2
MW_BER_SD Disabled
NOTE
l When the SL1D board detects the R_LOS, R_LOF, MS_AIS, AU_AIS, or AU_LOP alarm, it forciblyinserts the AIS.
l When the IF1 board detects the MW_LOF, MW_LIM, R_LOF, MS_AIS, AU_AIS, or AU_LOPalarm, it forcibly inserts the AIS.
l When the IFX2 and IFU2 board detect the MW_LOF, MW_LIM, or R_LOF alarm, it forcibly insertsthe AIS.
E.2.7 UNEQ InsertionWhen a board detects that the service path is not in use or that the LOS alarm exists, it insertsall 0s into the service signal to notify the remote end that this signal is unavailable.
Table E-3 Setting of the UNEQ insertion
Trigger Condition Default Value Applicable Board
T_ALOS Disabled SP3S and SP3D
Service path being not in use Disabled
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F Performance Event Management
The performance event management is classified into the NE performance event managementand board performance event management.
F.1 NE Performance Event ManagementThe NE performance event management function set by user is applicable to all the boards onthe NE.
F.2 Board Performance Event ManagementThe performance event management function is only applicable to the board on which usershave configured this function.
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F.1 NE Performance Event ManagementThe NE performance event management function set by user is applicable to all the boards onthe NE.
The OptiX RTN 950 supports the following NE performance event management functions:
l Setting NE performance event monitoring
l Setting the start/end time of performance events
l Enabling/Disabling the reporting of UAT events
For details about these functions, see the manuals or online Help of the NMS.
F.2 Board Performance Event ManagementThe performance event management function is only applicable to the board on which usershave configured this function.
Table F-1 Board performance event management function
Function Applicable Board
Setting 15-minute/24-hour performancemonitoring
SL1D, SP3S, SP3D, CSH, CST, ODU, IFX2, IFU2, and IF1
Setting 15-minute/24-hour performance eventauto-reporting
SL1D, SP3S, SP3D, CSH, CST, ODU, IFX2, IFU2, and IF1
Setting performancethresholds
SL1D, SP3S, SP3D, IFX2, IFU2, and IF1
Resetting theperformance register
SL1D, SP3S, SP3D, ODU, IFX2, IFU2, and IF1
Generating performancethreshold-crossingalarms
SL1D, SP3S, SP3D, ODU, IFX2, IFU2, and IF1
Monitoring UAT events SL1D, SP3S, SP3D, IFX2, IFU2, and IF1
Monitoring CSESperformance events
SL1D, SP3S, SP3D, IFX2, IFU2, and IF1
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G Alarm Suppression Relationship
When the alarm suppression function is disabled on an NE, the root alarm and certain correlatedalarms are reported if a fault occurs on this NE. After the alarm suppression function is enabled,the reporting of the correlated alarms is suppressed according to the relationship between alarmswhen the root alarm is reported. The alarm suppression relationship can be classified into thesuppression relationship between intra-board alarms and suppression relationship between inter-board alarms.
Table G-1 Suppression relationship between intra-board alarms
Alarm Identifier Identifier of the Suppressed Alarm
MW_LOF R_LOS, R_LOF, R_LOC,MW_FEC_UNCOR, MW_RDI,MW_LIM, MS_AIS, B1_EXC, B1_SD,MS_RDI, B2_EXC, B2_SD, MS_REI,AU_AIS, AU_LOP, B3_EXC, B3_SD,HP_TIM, HP_UNEQ, HP_SLM,HP_RDI, HP_LOM, HP_REI,MW_BER_EXC, and MW_BER_SD
R_LOS or R_LOC R_LOF, J0_MM, B1_EXC, B1_SD,MS_AIS, MS_RDI, B2_EXC, B2_SD,MS_REI, AU_AIS, AU_LOP, HP_TIM,HP_UNEQ, HP_SLM, HP_RDI, B3_EXC,B3_SD, HP_LOM, HP_REI,IN_PWR_LOW, MW_RDI, andMW_LIM
R_LOF J0_MM, B1_EXC, B1_SD, MS_AIS,MS_RDI, B2_EXC, B2_SD, MS_REI,AU_AIS, AU_LOP, HP_TIM, HP_UNEQ,HP_SLM, HP_RDI, B3_EXC, B3_SD,HP_LOM, HP_REI, MW_RDI, andMW_LIM
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Alarm Identifier Identifier of the Suppressed Alarm
MS_AIS B2_SD, MS_REI, MS_RDI, AU_AIS,AU_LOP, HP_TIM, HP_UNEQ,HP_SLM, HP_RDI, B3_EXC, B3_SD,HP_LOM, and HP_REI, B2_EXC
MS_RDI MS_REI
AU_AIS or AU_LOP B3_EXC, B3_SD, HP_TIM, HP_SLM,HP_UNEQ, HP_RDI, HP_LOM, andHP_REI
HP_UNEQ HP_TIM, HP_LOM, and HP_RDI
HP_RDI HP_REI
LP_UNEQ LP_TIM, LP_RDI, LP_RFI, LP_REI,BIP_SD, and BIP_EXC
B1_EXC B1_SD
B2_EXC B2_SD
B3_EXC B3_SD
TU_AIS LP_TIM, LP_SIZE_ERR, LP_UNEQ,LP_RDI, LP_REI, LP_RFI, LP_R_FIFO,BIP_EXC, BIP_SD, LP_SLM, TU_LOP,DOWN_E1_AIS
TU_LOP LP_TIM, LP_SIZE_ERR, LP_UNEQ,LP_RDI, LP_REI, LP_RFI, LP_R_FIFO,BIP_EXC, BIP_SD, LP_SLM,DOWN_E1_AIS
T_ALOS E1_LOS and UP_E1_AIS
E1_LOS UP_E1_AIS
BIP_EXC BIP_SD
LSR_NO_FITED ETH_LOS, LASER_MOD_ERR, andLASER_CLOSED
LASER_MOD_ERR LASER_CLOSED
Table G-2 Suppression relationship between intra-board alarms
Alarm Identifier Identifier of the Suppressed Alarm
R_LOS, R_LOC, MS_AIS, AU_AIS, orAU_LOP
TU_AIS
MW_LOF or MW_LIM TU_AIS
G Alarm Suppression RelationshipOptiX RTN 950
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H Glossary
Terms are listed in an alphabetical order.
H.1 0-9This section provides the terms starting with numbers.
H.2 A-EThis section provides the terms starting with letters A to E.
H.3 F-JThis section provides the terms starting with letters F to J.
H.4 K-OThis section provides the terms starting with letters K to O.
H.5 P-TThis section provides the terms starting with letters P to T.
H.6 U-ZThis section provides the terms starting with letters U to Z.
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H.1 0-9This section provides the terms starting with numbers.
1+1 protection An architecture that has one normal traffic signal, one working SNC/trail, one protectionSNC/trail and a permanent bridge. At the source end, the normal traffic signal ispermanently bridged to both the working and protection SNC/trail. At the sink end, thenormal traffic signal is selected from the better of the two SNCs/trails. Due to thepermanent bridging, the 1+1 architecture does not allow an extra unprotected trafficsignal to be provided.
1U The standard electronics industries association (EIA) rack unit (44 mm/1.75 in.)
802.1Q in 802.1Q 802.1Q in 802.1Q (QinQ) is a VLAN feature that allows the equipment to add a VLANtag to a tagged frame.The implementation of QinQ is to add a public VLAN tag to aframe with a private VLAN tag, making the frame encapsulated with two layers of VLANtags. The frame is forwarded over the service provider's backbone network based on thepublic VLAN tag. By this, a layer 2 VPN tunnel is provided to customers.The QinQfeature enables the transmission of the private VLANs to the peer end transparently.
H.2 A-EThis section provides the terms starting with letters A to E.
A
ACAP See adjacent channel alternate polarization
adaptive modulation A technology that is used to automatically adjust the modulation mode according to thechannel quality. When the channel quality is favorable, the equipment adopts a high-efficiency modulation mode to improve the transmission efficiency and the spectrumutilization of the system. When the channel quality is degraded, the equipment adoptsthe low-efficiency modulation mode to improve the anti-interference capability of thelink that carries high-priority services.
ADC See Analog to Digital Converter
add/drop multiplexer Add/Drop Multiplexing. Network elements that provide access to all or some subset ofthe constituent signals contained within an STM-N signal. The constituent signals areadded to (inserted), and/or dropped from (extracted) the STM-N signal as it passedthrough the ADM.
Address ResolutionProtocol
Address Resolution Protocol (ARP) is an Internet Protocol used to map IP addresses toMAC addresses. It allows hosts and routers to determine the link layer addresses throughARP requests and ARP responses. The address resolution is a process in which the hostconverts the target IP address into a target MAC address before transmitting a frame.The basic function of the ARP is to query the MAC address of the target equipmentthrough its IP address.
adjacent channelalternate polarization
A channel configuration method, which uses two adjacent channels (a horizontalpolarization wave and a vertical polarization wave) to transmit two signals.
ADM See add/drop multiplexer
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Administrative Unit The information structure which provides adaptation between the higher order path layerand the multiplex section layer. It consists of an information payload (the higher orderVC) and an AU pointer which indicates the offset of the payload frame start relative tothe multiplex section frame start.
AGC See Automatic Gain Control
AM See adaptive modulation
Analog to DigitalConverter
An electronic circuit that converts continuous signals to discrete digital numbers. Thereverse operation is performed by a digital-to-analog converter (DAC).
APS See Automatic Protection Switching
ARP See Address Resolution Protocol
ASK amplitude shift keying
ATPC See automatic transmit power control
AU See Administrative Unit
Automatic GainControl
A process or means by which gain is automatically adjusted in a specified manner as afunction of a specified parameter, such as received signal level.
Automatic ProtectionSwitching
Automatic Protection Switching (APS) is the capability of a transmission system todetect a failure on a working facility and to switch to a standby facility to recover thetraffic.
automatic transmitpower control
A method of adjusting the transmit power based on fading of the transmit signal detectedat the receiver
B
Base Station Controller A logical entity that connects the BTS with the MSC in a GSM network. It interworkswith the BTS through the Abis interface, the MSC through the A interface. It providesthe following functions: Radio resource management, Base station management, Powercontrol, Handover control, and Traffic measurement. One BSC controls and managesone or more BTSs in an actual network.
BER See Bit Error Rate
BIOS Basic Input Output System
BIP Bit-Interleaved Parity
bit error An incompatibility between a bit in a transmitted digital signal and the correspondingbit in the received digital signal.
Bit Error Rate Bit error rate. Ratio of received bits that contain errors. BER is an important index usedto measure the communications quality of a network.
BPDU See Bridge Protocol Data Unit
Bridge Protocol DataUnit
The data messages that are exchanged across the switches within an extended LAN thatuses a spanning tree protocol (STP) topology. BPDU packets contain information onports, addresses, priorities and costs and ensure that the data ends up where it wasintended to go. BPDU messages are exchanged across bridges to detect loops in anetwork topology. The loops are then removed by shutting down selected bridgesinterfaces and placing redundant switch ports in a backup, or blocked, state.
BSC See Base Station Controller
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C
C-VLAN Customer VLAN
CAR See committed access rate
CBS See Committed Burst Size
CCDP See Co-Channel Dual Polarization
Central ProcessingUnit
The CPU is the brains of the computer. Sometimes referred to simply as the processoror central processor, the CPU is where most calculations take place.
CF See compact flash
CGMP Cisco Group Management Protocol
CIR See Committed Information Rate
CIST See Common and Internal Spanning Tree
Class of Service A class object that stores the priority mapping rules. When network congestion occurs,the class of service (CoS) first processes services by different priority levels from highto low. If the bandwidth is insufficient to support all services, the CoS dumps the servicesof low priority.
Co-Channel DualPolarization
A channel configuration method, which uses a horizontal polarization wave and a verticalpolarization wave to transmit two signals. The Co-Channel Dual Polarization is twicethe transmission capacity of the single polarization.
committed access rate A traffic control method that uses a set of rate limits to be applied to a router interface.CAR is a configurable method by which incoming and outgoing packets can be classifiedinto QoS (Quality of Service) groups, and by which the input or output transmission ratecan be defined.
Committed Burst Size committed burst size. A parameter used to define the capacity of token bucket C, that is,the maximum burst IP packet size when the information is transferred at the committedinformation rate. This parameter must be larger than 0. It is recommended that thisparameter should be not less than the maximum length of the IP packet that might beforwarded.
CommittedInformation Rate
The rate at which a frame relay network agrees to transfer information in normalconditions. Namely, it is the rate, measured in bit/s, at which the token is transferred tothe leaky bucket.
Common and InternalSpanning Tree
Common and Internal Spanning Tree. The single Spanning Tree calculated by STP andRSTP together with the logical continuation of that connectivity through MST Bridgesand regions, calculatedby MSTP to ensure that all LANs in the Bridged Local AreaNetwork are simply and fully connected.
compact flash Compact flash (CF) was originally developed as a type of data storage device used inportable electronic devices. For storage, CompactFlash typically uses flash memory ina standardized enclosure.
CoS See Class of Service
CPU See Central Processing Unit
CRC See Cyclic Redundancy Check
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cross polarizationinterferencecancellation
A technology used in the case of the Co-Channel Dual Polarization (CCDP) to eliminatethe cross-connect interference between two polarization waves in the CCDP.
Cyclic RedundancyCheck
A procedure used in checking for errors in data transmission. CRC error checking usesa complex calculation to generate a number based on the data transmitted. The sendingdevice performs the calculation before transmission and includes it in the packet that itsends to the receiving device. The receiving device repeats the same calculation aftertransmission. If both devices obtain the same result, it is assumed that the transmissionwas error free. The procedure is known as a redundancy check because each transmissionincludes not only data but extra (redundant) error-checking values.
D
Data CommunicationNetwork
A communication network used in a TMN or between TMNs to support the DataCommunication Function (DCF).
Data CommunicationsChannel
The data channel that uses the D1-D12 bytes in the overhead of an STM-N signal totransmit information on operation, management, maintenance and provision (OAM&P)between NEs. The DCC channels that are composed of bytes D1-D3 is referred to as the192 kbit/s DCC-R channel. The other DCC channel that are composed of bytes D4-D12is referred to as the 576 kbit/s DCC-M channel.
DC See Direct Current
DC-C See DC-Return Common (with Ground)
DC-I See DC-Return Isolate (with Ground)
DC-Return Common(with Ground)
A power system, in which the BGND of the DC return conductor is short-circuited withthe PGND on the output side of the power supply cabinet and also on the line betweenthe output of the power supply cabinet and the electric equipment.
DC-Return Isolate(with Ground)
A power system, in which the BGND of the DC return conductor is short-circuited withthe PGND on the output side of the power supply cabinet and is isolated from the PGNDon the line between the output of the power supply cabinet and the electric equipment.
DCC See Data Communications Channel
DCN See Data Communication Network
Differentiated ServicesCode Point
Differentiated Services CodePoint. A marker in the header of each IP packet using bits0-6 in the DS field. Routers provide differentiated classes of services to various servicestreams/flows based on this marker. In other words, routers select corresponding PHBaccording to the DSCP value.
digital modulation A digital modulation controls the changes in amplitude, phase, and frequency of thecarrier based on the changes in the baseband digital signal. In this manner, theinformation can be transmitted by the carrier.
Direct Current Electrical current whose direction of flow does not reverse. The current may stop orchange amplitude, but it always flows in the same direction.
Distance VectorMulticast RoutingProtocol
Distance Vector Multicast Routing Protocol. The DVMRP protocol is an Internetgateway protocol mainly based on the RIP. The protocol implements a typical densemode IP multicast solution. The DVMRP protocol uses IGMP to exchange routingdatagrams with its neighbors.
DSCP See Differentiated Services Code Point
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dual-polarized antenna An antenna intended to radiate or receive simultaneously two independent radio wavesorthogonally polarized.
DVMRP See Distance Vector Multicast Routing Protocol
E
E-LAN Ethernet-LAN
ECC See Embedded Control Channel
Electro MagneticInterference
Any electromagnetic disturbance that interrupts, obstructs, or otherwise degrades orlimits the effective performance of electronics/electrical equipment.
electromagneticcompatibility
Electromagnetic compatibility is the condition which prevails when telecommunicationsequipment is performing its individually designed function in a common electromagneticenvironment without causing or suffering unacceptable degradation due to unintentionalelectromagnetic interference to or from other equipment in the same environment.[NTIA]
Embedded ControlChannel
An ECC provides a logical operations channel between SDH NEs, utilizing a datacommunications channel (DCC) as its physical layer.
EMC See electromagnetic compatibility
EMI See Electro Magnetic Interference
EPL See Ethernet Private Line
EPLAN See ethernet private lan service
equalization A method of avoiding selective fading of frequencies. Equalization can compensate forthe changes of amplitude frequency caused by frequency selective fading.
ERPS See ethernet ring protection switching
ES-IS End System to Intermediate System
ethernet private lanservice
An Ethernet service type, which carries Ethernet characteristic information over adedocated bridge, point-to-multipoint connections, provided by SDH, PDH, ATM, orMPLS server layer networks.
Ethernet Private Line A point-to-point interconnection between two UNIs without SDH bandwidth sharing.Transport bandwidth is never shared between different customers.
ethernet ringprotection switching
protection switching mechanisms for ETH layer Ethernet ring topologies.
ethernet virtual privatelan service
An Ethernet service type, which carries Ethernet characteristic information over a sharedbridge, point-to-multipoint connections, provided by SDH, PDH, ATM, or MPLS serverlayer networks.
ethernet virtual privateline service
An Ethernet service type, which carries Ethernet characteristic information over sharedbandwidth, point-to-point connections, provided by SDH, PDH, ATM, or MPLS serverlayer networks.
ETSI See European Telecommunications Standards Institute
EuropeanTelecommunicationsStandards Institute
A standards-setting body in Europe. Also the standards body responsible for GSM.
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EVPL See ethernet virtual private line service
EVPLAN See ethernet virtual private lan service
H.3 F-JThis section provides the terms starting with letters F to J.
F
Fast Ethernet A type of Ethernet with a maximum transmission rate of 100 Mbit/s. It complies withthe IEEE 802.3u standard and extends the traditional media-sharing Ethernet standard.
fast link pulse The likn pulse that is used to encode information during automatic negotiation.
FCS Frame Check Sequence
FD See frequency diversity
FE See Fast Ethernet
FEC See Forward Error Correction
Field ProgrammableGate Array
A type of semi-customized circuit used in the Application Specific Integrated Circuit(ASIC) field. It is developed on the basis of the programmable components, such as thePAL, GAL, and EPLD. It not only remedies the defects of customized circuits, but alsoovercomes the disadvantage of the original programmable components in terms of thelimited number of gate arraies.
FIFO See First in First out
File Transfer Protocol A member of the TCP/IP suite of protocols, used to copy files between two computerson the Internet. Both computers must support their respective FTP roles: one must be anFTP client and the other an FTP server.
First in First out A stack management mechanism. The first saved data is first read and invoked.
FLP See fast link pulse
Forward ErrorCorrection
A bit error correction technology that adds the correction information to the payload atthe transmit end. Based on the correction information, the bit errors generated duringtransmission are corrected at the receive end.
FPGA See Field Programmable Gate Array
frequency diversity A diversity scheme that enables two or more microwave frequencies with a certainfrequency interval are used to transmit/receive the same signal and selection is thenperformed between the two signals to ease the impact of fading.
FTP See File Transfer Protocol
G
gateway networkelement
A network element that is used for communication between the NE application layer andthe NM application layer
GE See Gigabit Ethernet
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Generic traffic shaping A traffic control measure that initiatively adjusts the output speed of the traffic. This isto adapt the traffic to network resources that can be provided by the downstream routerto avoid packet discarding and congestion.
GFP Generic Framing Procedure
Gigabit Ethernet GE adopts the IEEE 802.3z. GE is compatible with 10 Mbit/s and 100 Mbit/s Ethernet.Itruns at 1000Mbit/s. Gigabit Ethernet uses a private medium, and it does not supportcoaxial cables or other cables. It also supports the channels in the bandwidth mode. IfGigabit Ethernet is, however, deployed to be the private bandwidth system with a bridge(switch) or a router as the center, it gives full play to the performance and the bandwidth.In the network structure, Gigabit Ethernet uses full duplex links that are private, causingthe length of the links to be sufficient for backbone applications in a building and campus.
GNE See gateway network element
Graphical UserInterface
A visual computer enviroment that represents programs, files, and options with graphicalimages, such as icons, menus, and dialog boxes, on the screen.
GTS See Generic traffic shaping
GUI See Graphical User Interface
H
HDB3 High Density Bipolar Code 3
HDLC See High level Data Link Control procedure
High level Data LinkControl procedure
A data link protocol from ISO for point-to-point communications over serial links.Derived from IBM's SDLC protocol, HDLC has been the basis for numerous protocolsincluding X.25, ISDN, T1, SS7, GSM, CDPD, PPP and others. Various subsets of HDLChave been developed under the name of Link Access Procedure (LAP).
hot standby A mechanism of ensuring device running security. The environment variables andstorage information of each running device are synchronized to the standby device. Whenthe faults occur on the running device, the standby device can take over the services inthe faulty device in automatic or manual way to ensure the normal running of the entiresystem.
HSM Hitless Switch Mode
hybrid radio The hybrid transmission of Native E1 and Native Ethernet signals. Hybrid radio supportsthe AM function.
I
ICMP See Internet Control Messages Protocol
IDU See indoor unit
IEC See International Electrotechnical Commission
IEEE See Institute of Electrical and Electronics Engineers
IETF The Internet Engineering Task Force
IF See intermediate frequency
IGMP See Internet Group Management Protocol
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IGMP snooping A multicast constraint mechanism running on a layer 2 device. This protocol managesand controls the multicast group by listening to and analyze the Internet GroupManagement Protocol (IGMP) packet between hosts and layer 3 devices. In this manner,the spread of the multicast data on layer 2 network can be prevented efficiently.
indoor unit The indoor unit of the split-structured radio equipment. It implements accessing,multiplexing/demultiplexing, and IF processing for services.
Institute of Electricaland ElectronicsEngineers
A society of engineering and electronics professionals based in the United States butboasting membership from numerous other countries. The IEEE focuses on electrical,electronics, computer engineering, and science-related matters.
intermediate frequency The transitional frequency between the frequencies of a modulated signal and an RFsignal.
intermediate frequency The transitional frequency between the frequencies of a modulated signal and an RFsignal.
Intermediate System toIntermediate System
A protocol used by network devices (routers) .IS-IS is a kind of Interior Gateway Protocol(IGP), used within the ASs. It is a link status protocol using Shortest Path First (SPF)algorithm to calculate the route.
InternationalElectrotechnicalCommission
The International Electrotechnical Commission (IEC) is an international and non-governmental standards organization dealing with electrical and electronical standards.
InternationalOrganization forStandardization
ISO (International Organization for Standardization) is the world's largest developer andpublisher of International Standards.
Internet ControlMessages Protocol
ICMP belongs to the TCP/IP protocol suite. It is used to send error and control messagesduring the transmission of IP-type data packets.
Internet GroupManagement Protocol
The protocol for managing the membership of Internet Protocol multicast groups amongthe TCP/IP protocols. It is used by IP hosts and adjacent multicast routers to establishand maintain multicast group memberships.
Internet Protocol The TCP/IP standard protocol that defines the IP packet as the unit of information sentacross an internet and provides the basis for connectionless, best-effort packet deliveryservice. IP includes the ICMP control and error message protocol as an integral part. Theentire protocol suite is often referred to as TCP/IP because TCP and IP are the twofundamental protocols. IP is standardized in RFC 791.
Internet ProtocolVersion 6
A update version of IPv4. It is also called IP Next Generation (IPng). The specificationsand standardizations provided by it are consistent with the Internet Engineering TaskForce (IETF).Internet Protocol Version 6 (IPv6) is also called. It is a new version of theInternet Protocol, designed as the successor to IPv4. The specifications andstandardizations provided by it are consistent with the Internet Engineering Task Force(IETF).The difference between IPv6 and IPv4 is that an IPv4 address has 32 bits whilean IPv6 address has 128 bits.
IP See Internet Protocol
IPv6 See Internet Protocol Version 6
IS-IS See Intermediate System to Intermediate System
ISO See International Organization for Standardization
ITU-T International Telecommunication Union - Telecommunication Standardization Sector
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IVL Independence VLAN learning
H.4 K-OThis section provides the terms starting with letters K to O.
L
LAG See link aggregation group
LAN See Local Area Network
LAPD Link Access Procedure on the D channel
LAPS Link Access Procedure-SDH
layer 2 switch A data forwarding method. In LAN, a network bridge or 802.3 Ethernet switch transmitsand distributes packet data based on the MAC address. Since the MAC address is thesecond layer of the OSI model, this data forwarding method is called layer 2 switch.
LB See Loopback
LCAS See Link Capacity Adjustment Scheme
LDPC Low-Density Parity Check code
link aggregation group An aggregation that allows one or more links to be aggregated together to form a linkaggregation group so that a MAC clientcan treat the link aggregation group as if it werea single link.
Link CapacityAdjustment Scheme
The Link Capacity Adjustment Scheme (LCAS) is designed to allow the dynamicprovisioning of bandwidth, using VCAT, to meet customer requirements.
LMSP Linear Multiplex Section Protection
Local Area Network A network formed by the computers and workstations within the coverage of a few squarekilometers or within a single building. It features high speed and low error rate. Ethernet,FDDI, and Token Ring are three technologies used to implement a LAN. Current LANsare generally based on switched Ethernet or Wi-Fi technology and running at 1,000 Mbit/s (that is, 1 Gbit/s).
Loopback A troubleshooting technique that returns a transmitted signal to its source so that thesignal or message can be analyzed for errors.
LPT Link State Path Through
M
MA See Maintenance Association
MAC See Medium Access Control
MADM Multi Add-Drop Multiplexer
MaintenanceAssociation
That portion of a Service Instance, preferably all of it or as much as possible, theconnectivity of which is maintained by CFM. It is also a full mesh of MaintenanceEntities.
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Maintenance Domain The Maintenance Domain (MD) refers to the network or the part of the network for whichconnectivity is managed by CFM. The devices in an MD are managed by a single ISP.
Maintenance Point Maintenance Point (MP) is one of either a MEP or a MIP.
ManagementInformation Base
A type of database used for managing the devices in a communications network. Itcomprises a collection of objects in a (virtual) database used to manage entities (such asrouters and switches) in a network.
Maximum TransferUnit
The MTU (Maximum Transmission Unit) is the size of the largest datagram that can besent over a network.
MBS Maximum Burst Size
MD See Maintenance Domain
MDI See Medium Dependent Interface
Mean Time To Repair The average time that a device will take to recover from a failure.
Medium AccessControl
A general reference to the low-level hardware protocols used to access a particularnetwork. The term MAC address is often used as a synonym for physical addresses.
Medium DependentInterface
The electrical and mechanical interface between the equipment and the mediatransmission.
MEP Maintenance End Point
MIB See Management Information Base
MP See Maintenance Point
MSP See multiplex section protection
MSTP See Multiple Spanning Tree Protocol
MTBF Mean Time Between Failure
MTTR See Mean Time To Repair
MTU See Maximum Transfer Unit
Multiple SpanningTree Protocol
Multiple spanning tree protocol. The MSTP can be used in a loop network. Using analgorithm, the MSTP blocks redundant paths so that the loop network can be trimmedas a tree network. In this case, the proliferation and endless cycling of packets is avoidedin the loop network.The protocol that introduces the mapping between VLANs andmultiple spanning trees. This solves the problem that data cannot be normally forwardedin a VLAN because in STP/RSTP, only one spanning tree corresponds to all the VLANs.
multiplex sectionprotection
A function, which is performed to provide capability for switching a signal between andincluding two multiplex section termination (MST) functions, from a "working" to a"protection" channel.
N
N+1 protection A radio link protection system composed of N working channels and one protectionchannel.
NE See Network Element
Network Element A network element (NE) contains both the hardware and the software running on it. OneNE is at least equipped with one system control board which manages and monitors theentire network element. The NE software runs on the system control board.
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network managementsystem
The network management system in charge of the operation, administration, andmaintenance of a network.
Network Service AccessPoint
A network address defined by ISO, through which entities on the network layer canaccess OSI network services.
NLP Normal Link Pulse
NMS See network management system
NNI Network-to-Network Interface or Network Node Interface
non-gateway networkelement
A network element whose communication with the NM application layer must betransferred by the gateway network element application layer.
non-GNE See non-gateway network element
NSAP See Network Service Access Point
O
OAM Operations, Administration and Maintenance
ODU See outdoor unit
Open Shortest PathFirst
A link-state, hierarchical interior gateway protocol (IGP) for network routing. Dijkstra'salgorithm is used to calculate the shortest path tree. It uses cost as its routing metric. Alink state database is constructed of the network topology which is identical on all routersin the area.
Open SystemsInterconnection
A standard or "reference model" (officially defined by the International Organization ofStandards (ISO)) for how messages should be transmitted between any two points in atelecommunication network. The reference model defines seven layers of functions thattake place at each end of a communication.
orderwire A channel that provides voice communication between operation engineers ormaintenance engineers of different stations.
OSI See Open Systems Interconnection
OSPF See Open Shortest Path First
outdoor unit The outdoor unit of the split-structured radio equipment. It implements frequencyconversion and amplification for RF signals.
H.5 P-TThis section provides the terms starting with letters P to T.
P
PDH See Plesiochronous Digital Hierarchy
Peak Information Rate Peak Information Rate . A traffic parameter, expressed in bit/s, whose value should benot less than the committed information rate.
PIM-DM Protocol Independent Multicast-Dense Mode
PIM-SM See Protocol Independent Multicast-Sparse Mode
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PIR See Peak Information Rate
Plesiochronous DigitalHierarchy
A multiplexing scheme of bit stuffing and byte interleaving. It multiplexes the minimumrate 64 kit/s into the 2 Mbit/s, 34 Mbit/s, 140 Mbit/s, and 565 Mbit/s rates.
Point-to-Point Protocol A protocol on the data link layer, provides point-to-point transmission and encapsulatesdata packets on the network layer. It is located in layer 2 of the IP protocol stack.
polarization A kind of electromagnetic wave, the direction of whose electric field vector is fixed orrotates regularly. Specifically, if the electric field vector of the electromagnetic wave isperpendicular to the plane of horizon, this electromagnetic wave is called verticallypolarized wave; if the electric field vector of the electromagnetic wave is parallel to theplane of horizon, this electromagnetic wave is called horizontal polarized wave; if thetip of the electric field vector, at a fixed point in space, describes a circle, thiselectromagnetic wave is called circularly polarized wave.
PPP See Point-to-Point Protocol
PRBS Pseudo-Random Binary Sequence
Protocol IndependentMulticast-Sparse Mode
A protocol for efficiently routing to multicast groups that may span wide-area (and inter-domain) internets. This protocol is named protocol independent because it is notdependent on any particular unicast routing protocol for topology discovery, and sparse-mode because it is suitable for groups where a very low percentage of the nodes (andtheir routers) will subscribe to the multicast session. Unlike earlier dense-mode multicastrouting protocols such as DVMRP and PIM-DM which flooded packets everywhere andthen pruned off branches where there were no receivers, PIM-SM explicitly constructsa tree from each sender to the receivers in the multicast group. Multicast packets fromthe sender then follow this tree.
Q
QoS See Quality of Service
QPSK See Quadrature Phase Shift Keying
Quadrature Phase ShiftKeying
Quadrature Phase Shift Keying (QPSK) is a modulation method of data transmissionthrough the conversion or modulation and the phase determination of the referencesignals (carrier). It is also called the fourth period or 4-phase PSK or 4-PSK. QPSK usesfour dots in the star diagram. The four dots are evenly distributed on a circle. On thesephases, each QPSK character can perform two-bit coding and display the codes in Graycode on graph with the minimum BER.
Quality of Service Quality of Service, which determines the satisfaction of a subscriber for a service. QoSis influenced by the following factors applicable to all services: service operability,service accessibility, service maintainability, and service integrity.
R
Radio Freqency A type of electric current in the wireless network using AC antennas to create anelectromagnetic field. It is the abbreviation of high-frequency AC electromagnetic wave.The AC with the frequency lower than 1 kHz is called low-frequency current. The ACwith frequency higher than 10 kHz is called high-frequency current. RF can be classifiedinto such high-frequency current.
Radio NetworkController
A device used in the RNS to control the usage and integrity of radio resources.
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Rapid Spanning TreeProtocol
An evolution of the Spanning Tree Protocol, providing for faster spanning treeconvergence after a topology change. The RSTP protocol is backward compatible withthe STP protocol.
Received signal level The signal level at a receiver input terminal.
Received SignalStrength Indicator
The received wide band power, including thermal noise and noise generated in thereceiver, within the bandwidth defined by the receiver pulse shaping filter, for TDDwithin a specified timeslot. The reference point for the measurement shall be the antenna
RF See Radio Freqency
RFC Request For Comment
RIP See Routing Information Protocol
RMON Remote Monitoring
RNC See Radio Network Controller
Routing InformationProtocol
Routing Information Protocol: A simple routing protocol that is part of the TCP/IPprotocol suite. It determines a route based on the smallest hop count between source anddestination. RIP is a distance vector protocol that routinely broadcasts routinginformation to its neighboring routers and is known to waste bandwidth.
RS Reed-Solomon encoding
RSL Received Signal Level
RSSI See Received Signal Strength Indicator
RSTP See Rapid Spanning Tree Protocol
RTN Radio Transmission Node
S
SD See space diversity
SDH See Synchronous Digital Hierarchy
SFP See Small Form-Factor Pluggable
Signal Noise Ratio The SNR or S/N (Signal to Noise Ratio) of the amplitude of the desired signal to theamplitude of noise signals at a given point in time. SNR is expressed as 10 times thelogarithm of the power ratio and is usually expressed in dB (Decibel).
Simple NetworkManagement Protocol
A network management protocol of TCP/IP. It enables remote users to view and modifythe management information of a network element. This protocol ensures thetransmission of management information between any two points. The pollingmechanism is adopted to provide basic function sets. According to SNMP, agents, whichcan be hardware as well as software, can monitor the activities of various devices on thenetwork and report these activities to the network console workstation. Controlinformation about each device is maintained by a management information block.
Small Form-FactorPluggable
A specification for a new generation of optical modular transceivers.
SNC See SubNetwork Connection
SNCP See SubNetwork Connection Protection
SNMP See Simple Network Management Protocol
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SNR See Signal Noise Ratio
SP Strict Priority
space diversity A diversity scheme that enables two or more antennas separated by a specific distanceto transmit/receive the same signal and selection is then performed between the twosignals to ease the impact of fading. Currently, only receive SD is used.
Spanning Tree Protocol Spanning Tree Protocol. STP is a protocol that is used in the LAN to remove the loop.STP applies to the redundant network to block some undesirable redundant paths throughcertain algorithms and prune a loop network into a loop-free tree network.
SSM See Synchronization Status Message
STM See synchronous transport module
STM-1 SDH Transport Module -1
STM-1e STM-1 Electrical Interface
STM-1o STM-1 Optical Interface
STM-N SDH Transport Module -N
STP See Spanning Tree Protocol
sub-network Sub-network is the logical entity in the transmission network and comprises a group ofnetwork management objects. The network that consists of a group of interconnected orcorrelated NEs, according to different functions. For example, protection subnet, clocksubnet and so on. A sub-network can contain NEs and other sub-networks. Generally, asub-network is used to contain the equipments which are located in adjacent regions andclosely related with one another, and it is indicated with a sub-network icon on atopological view. The U2000 supports multilevels of sub-networks. A sub-networkplanning can better the organization of a network view. On the one hand, the view spacecan be saved, on the other hand, it helps the network management personnel focus onthe equipments under their management.
SubNetworkConnection
A "transport entity" that transfers information across a subnetwork, it is formed by theassociation of "ports" on the boundary of the subnetwork.
SubNetworkConnection Protection
A working subnetwork connection is replaced by a protection subnetwork connection ifthe working subnetwork connection fails, or if its performance falls below a requiredlevel.
SVL Shared VLAN Learning
Synchronization StatusMessage
A message that is used to transmit the quality levels of timing signals on the synchronoustiming link. Through this message, the node clocks of the SDH network and thesynchronization network can aquire upper stream clock information, and the two performoperations on the corresponding clocks, such as tracing, switchover, or converting hold),and then forward the synchronization information of this node to down stream.
Synchronous DigitalHierarchy
SDH is a transmission scheme that follows ITU-T G.707, G.708, and G.709. It definesthe transmission features of digital signals such as frame structure, multiplexing mode,transmission rate level, and interface code. SDH is an important part of ISDN and B-ISDN. It interleaves the bytes of low-speed signals to multiplex the signals to high-speedcounterparts, and the line coding of scrambling is only used only for signals. SDH issuitable for the fiber communication system with high speed and a large capacity sinceit uses synchronous multiplexing and flexible mapping structure.
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synchronous transportmodule
An STM is the information structure used to support section layer connections in theSDH. It consists of information payload and Section Overhead (SOH) information fieldsorganized in a block frame structure which repeats every 125 . The information is suitablyconditioned for serial transmission on the selected media at a rate which is synchronizedto the network. A basic STM is defined at 155 520 kbit/s. This is termed STM-1. Highercapacity STMs are formed at rates equivalent to N times this basic rate. STM capacitiesfor N = 4, N = 16 and N = 64 are defined; higher values are under consideration.
T
TCI Tag Control Information
TCP See TransmissionControl Protocol
TDM See Time Division Multiplexing
TelecommunicationManagement Network
The Telecommunications Management Network is a protocol model defined by ITU-Tfor managing open systems in a communications network.An architecture formanagement, including planning, provisioning, installation, maintenance, operation andadministration of telecommunications equipment, networks and services.
Time DivisionMultiplexing
It is a multiplexing technology. TDM divides the sampling cycle of a channel into timeslots (TSn, n=0, 1, 2, 3...), and the sampling value codes of multiple signals engross timeslots in a certain order, forming multiple multiplexing digital signals to be transmittedover one channel.
TMN See Telecommunication Management Network
trail A type of transport entity, mainly engaged in transferring signals from the input of thetrail source to the output of the trail sink, and monitoring the integrality of the transferredsignals.
TransmissionControlProtocol
The protocol within TCP/IP that governs the breakup of data messages into packets tobe sent via IP (Internet Protocol), and the reassembly and verification of the completemessages from packets received by IP. A connection-oriented, reliable protocol (reliablein the sense of ensuring error-free delivery), TCP corresponds to the transport layer inthe ISO/OSI reference model.
TU Tributary Unit
H.6 U-ZThis section provides the terms starting with letters U to Z.
U
UDP See User Datagram Protocol
UNI See User Network Interface
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User DatagramProtocol
A TCP/IP standard protocol that allows an application program on one device to send adatagram to an application program on another. User Datagram Protocol (UDP) uses IPto deliver datagrams. UDP provides application programs with the unreliableconnectionless packet delivery service. Thus, UDP messages can be lost, duplicated,delayed, or delivered out of order.UDP is used to try to transmit the data packet, that is,the destination device does not actively confirm whether the correct data packet isreceived.
User Network Interface A type of ATM Forum specification that defines an interoperability standard for theinterface between ATM-based products (a router or an ATM switch) located in a privatenetwork and the ATM switches located within the public carrier networks. Also used todescribe similar connections in Frame Relay networks.
V
VC See Virtual Container
VC-12 Virtual Container -12
VC-3 Virtual Container -3
VC-4 Virtual Container -4
VCG See virtual concatenation group
VCTRUNK A virtual concatenation group applied in data service mapping, also called the internalport of a data service processing board
virtual concatenationgroup
A group of co-located member trail termination functions that are connected to the samevirtual concatenation link
Virtual Container A Virtual Container is the information structure used to support path layer connectionsin the SDH. It consists of information payload and path Overhead (POH) informationfields organized in a block frame structure which repeats every 125 or 500 μs.
Virtual Local AreaNetwork
A logical grouping of two or more nodes which are not necessarily on the same physicalnetwork segment but which share the same IP network number. This is often associatedwith switched Ethernet.
Virtual PrivateNetwork
The extension of a private network that encompasses encapsulated, encrypted, andauthenticated links across shared or public networks. VPN connections can provideremote access and routed connections to private networks over the Internet.
VLAN See Virtual Local Area Network
Voice over IP An IP telephony term for a set of facilities used to manage the delivery of voiceinformation over the Internet. VoIP involves sending voice information in a digital formin discrete packets rather than by using the traditional circuit-committed protocols of thepublic switched telephone network (PSTN).
VoIP See Voice over IP
VPN See Virtual Private Network
W
Wait to Restore Time A period of time that must elapse before a - from a fault recovered - trail/connection canbe used again to transport the normal traffic signal and/or to select the normal trafficsignal from.
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WAN See Wide Area Network
Web LCT The local maintenance terminal of a transport network, which is located on the NEmanagement layer of the transport network
Wide Area Network A network composed of computers which are far away from each other which arephysically connected through specific protocols. WAN covers a broad area, such as aprovince, a state or even a country.
WRR Weighted Round Robin
WTR See Wait to Restore Time
X
XPD Cross-Polarization Discrimination
XPIC See cross polarization interference cancellation
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