2002 DMS-100 Family QUICK REFERENCE GUIDE TAM-1001-018 Standard 09.
Please read before using The 2002 DMS-100F Quick Reference Guide provides a quick reference for commonly used commands, utilities, tools, hardware, and other job-supporting information. The intent of this document is not to replace Nortel Networks Technical Publications (NTPs) and other supporting documents. Its purpose is to consolidate as much usable job-related information as possible into a small pocket-size document for quick reference and on-the-job use.
2002 DMS-100 FAMILY QUICK REFERENCE GUIDE TAM-1001-018 August 2002 © 2002 Nortel Networks All rights reserved Printed in the United States of America This document, or parts thereof, may not be reproduced without written permission of Nortel Networks.
WHAT’S NEW OR CHANGED FOR THIS ISSUE Page(s) • Added alphabetical index in back of the guide ............. 161—166 • Updated entire document for and through NA017 • Added more SPM quick reference information: — Verifying Crossover Messaging ......................................... 108 — SPM Primary Rate Interface (PRI)..................................... 109 — SPM PRI Trunk Tables Datafill Sequence and Notes ........ 109 — SPM Trunk Provisioning Limits for pre-SP16....................
Table of Contents Abbreviations and Acronyms ................................................................ 1 Nortel Networks Technical Publications .............................................. 2 Installation Documentation .................................................................... 5 Software Optionality Control (SOC) .................................................... 7 DMS CI: Level Commands .................................................................... 8 OM Commands ..................
Service Trunk Module (STM) shelf ................................................... 99 Service Trunk Module (STM) shelf ................................................... 99 DRAM (modified MTM) shelf .......................................................... 100 DRAMREC Utility Commands ......................................................... 100 Subscriber Carrier Module Shelves .................................................. 101 Expanded Subscriber Carrier Module-100 Access 2 (SMA2) ........
Abbreviations and Acronyms (NTP 297-1001-825, Glossary of Terms & Abbreviations Ref Manual) ACD AIN AMA ASCII CALLTRAK CC MIS CLASS CCS7 C7TU CM DCM DISPCALL DLM DPP DSNE DTC/DTCI DMS DISKUT DRAM DSKUT DTM EBS EDRAM ENET & JNET GPP CPM IOC & IOM ISDN ISM ISN IPE ISUP LCM & LCMI LGC & LGCI LIU7 LM & RLM LMS LNP LRN LTC & LTCI MAP MD MS MSM MTM NTP OPM PCL PEC PRSM QRG RCC RCC2 RLM/RLCM RMM RSC/RSCI SCP SLM SMDI SMA SMR SMR-RCT SMS SMU SNSE SPM SP/SSP STM STP/SSP STP TAM TOPS TOPS IWS TOPS MPX TOPS-TPC TMS TR
Nortel Networks Technical Publications (NTP 297-8991-001, DMS-100 Product Documentation Directory) Note: See NTP 297-8991-001 for a list of Nortel Networks Technical Publications (NTPs). Also, see NTP 297-8991-002, Cancellation Cross Reference Directory for a cross-reference list of canceled and replacement documents. DMS-100F Documentation Numbering DMS-100F NTPs are identified by a ten-digit number (XXX-YYYY-ZZZ) that is divided into three blocks. The document division number, XXX, denotes the system.
8301 8321 8331 8341 8351 8361 8353 8403 8411 8421 8441 8501 8531 8601 8981 8991 Subscriber Carrier Module-100S Remote (SCM-100SR) Extended Peripheral Module (XPM) (DS1) Extended Peripheral Module (XPM) (PCM30) TOPS Message Switch RLCM Manual Outside Plant Module (OPM) Star Remote System Operator Services System AIN (OSSAIN) TOPS (Stand-alone US) (USTOPS) TOPS (Stand-alone Canadian) (CDNTOPS) DMS-100F Global TOPS Solo DMS SuperNode Service Control Point (SCP) II Network Switching Systems Advanced Intelligen
Disk Maintenance Subsystem Reference Manual ........................ 1001-526 DRAM Maintenance Reference Manual ...................................... 1001-527 Conference Reference Guide........................................................ 1001-530 CCS7 Maintenance Reference Manual ........................................ 1001-531 Bit Error Rate Performance Testing ............................................. 1001-533 Maintenance Managers Morning Report......................................
Installation Documentation Note: The following table of contents for installation methods references all the methods modules. However, due to space, only the methods for “Module 24 Equipment Loading and Diagnostics” and “Module 28 Routine System Level Testing” are provided.
5638 5682 5771 5776 5777 5778 5812 5941 6114 6120 6123 6129 6132 6133 6547 6577 6750 7920 7960 9530 9701 9702 Commissioning of the Input Output Module (IOM) Meridian Service Module (MSM) Stand-Alone/CPE Centrex and Operational Installation Application Processor Cab. (APC) Loading & Diag. Tests TOPS VSN Load and Boot System TOPS VSN System Access TOPS VSN - Display or Test Status of SRU, PRU, or RRU Network Appl. Vehicle (NAV) Commissioning Procedures SS7/IP Gateway 2.
6149 6553 6556 6558 6562 6564 6565 6566 6567 6568 6569 6570 6571 6572 6573 6574 Spares Testing for the XA-Core Ameritec AM1 ISDN Bulk Call Generator SCM Remote Transfer Guide Subscriber Module SLC-96 Remote (SMSR) NT6X02PD Ameritec AM1 SPA/SPD Bulk Call Generators TOPS MP Stand Alone Tests TPC Administration TOPS MP Computer Assisted Training TOPS Multipurpose Pos.
DMS CI: Level Commands (NTP 297-1001-820, 821, or 822, Command Reference Manual) (NTP 297-1001-129, Input/Output System Reference Manual) Note: Use >HELP to get more details of the following CI: level commands, except for some like the ABORT command. >ABORT use if difficulty is experienced with using a command. >CALLDUMP outputs billing records using same format as AMADUMP >CLLIREF use parameter MEMBERLESS to search for CLLIs in table TRKGRP against table TRKMEM CLLIs.
>MAPCI NODISP use to suppress the MAP level display. >MSG sends a message to another user (i.e., MSG NTAS ‘Hello’). >NAG Node Assessment Graph (NAG) is an hourly snapshot of equipment status, REX, and overload (see NAG400 log). >PERMIT defines a new valid user and assigns parameters. >UNPERMIT removes an existing user. >PRIVCLAS adds, deletes, or changes, the privilege class(es) for specified command(s) or program module(s). >OMPRDUMP Request OMPRSPEC reports from the OMTAPE data.
OM Commands (NTP 297-1001-300, Basic Administration Procedures) Note: The following OM commands are used to add, delete, change, display, and query OM data: >CLRINVREG Can be used to clear invalid INWATS registers after a restart. Use it before reading or resetting INWATS registers after a restart. >OMSHOW Displays all or part of a specified OM group's key structure and part or all of the contents. i.e.
OM commands continue. >READRESETVFG Displays the information for INWATS VFGs, and resets the registers back to zero. >SETDBDEV Designates a disk file for the storage of KEY and INFO values read from the input data file. >SLU Accesses the SLU system. >SLUADD & SLUDELThese commands add or delete line identifiers for subscriber line usage (SLU) input tables. >SLU_INSTALL Looks for errors in the SLU input tables before filling the OM group with new data.
Switch Performance Monitoring System (SPMS) Commands (NTP 297-1001-330, DMS-100F SPMS Application Guide) >SPMS >SET >SETREP >DISPLAY >DESCRIBE >EXCEPTION >HELP enters the SPMS utility at the CI level sets the parameters for the DISPLAY command sets parameters for the SPMSREP automated log report displays the index values over the last ‘N’ days or date used to describe the indexes you have selected displays the critical index values over the last ‘N’ days use help plus subcommand to get detailed parameters
LOGUTIL Info, Control, Routing, and Devices Commands (NTP 297-1001-129, Input/Output System Reference Manual) Note: LOGUTIL should only be used as a temporary measure for log control. Tables LOGCLASS, LOGDEV, and TERMDEV should be used for permanent control of logs. Unless there is a clear understanding of the use of the following commands and the potential loss of log reports, they should not be used. Note: See the REMLOGIN command within the Tier II Support Tools area of this QRG.
DMSMON Commands (NTP 297-1001-318, Service Problem Analysis Administration Guide) CAUTION: The RESET command deletes all accumulated data. >DMSMON access to DMSMON commands from CI level. >HIGHLOGS displays the 20 logs most frequently issued. >LOGCOUNT counts log occurrences. >LOGBUFFER dumps the TRAPS, SWERRs, and MM buffers. >HIGHPARMS displays the high watermarks for office parameters. >HIGHCPOCC displays high-water CP occupancy (non-BRISC). >HIGHCAP displays high-water CP CAPacity (BRISC only).
IOC DSKUT NonMenu Commands (NTP 297-1001-526, Disk Maintenance Subsystem Reference Manual) >DSKUT activates this command directory. >DISPLAYVOLS displays information on all volumes in the specified disk (i.e., >DV 0). >LISTVOL ALL lists all files owned by a user on a Disk Volume into the User Directory: (i.e., >LIV D010SCR1 ALL). >RENAMEFL renames an existing file: (i.e., >RF LOGINFO COREDATA).
RTIF Commands and Recovery (NTP 297-YYYY-545, DMS-100 Recovery Procedures) Caution: Use the following only as a quick reference. Reference the NTP for detailed procedures.
AMADUMP Commands (NTP 297-1001-570 & NTP 297-YYYY-545) >MAPCI NODISP;MTC;IOD;DIRP;QUERY AMA Shows active volume. (Repeat query to verify AMA collection). BEWARE: in a very busy office, a very large file can be generated from AMA calls after entering the next command. >RECORD START FROM ONTO Make test calls to generate desired AMA record(s). >RECORD STOP FROM ONTO >DSKUT;LISTVOL List RECORDFILE on associated scratch volume.
TRAVER Commands (NTP 297-1001-360, Basic Translations Tools Guide) (NTP 297-YYYY-350, Translations Guide) The TRAVER command simulates a call and displays the translation and routing tables the call accesses. Note: The following information is an overview of TRAVER and provides only samples of the many variables that are possible using TRAVER. Use HELP TRAVER at CI level for details. Also, see the REVXLER command within this QRG.
CLASS Quick References (NTP 297-1421-503, Subscriber Services Maintenance Guide) (NTP 297-YYYY-350, Translation Guides) NOTE: See page 100 for the DRAMREC Utility and subcommands that can be used to manage CLASS announcements on DRAMs and EDRAMs. REVXLVER CI: Level Command This is a datafill verification utility that simulates reverse translations from a specified origination to a specified destination. Note: If no netname is specified, then the default of public is used.
CLASS commands continue. CLOG Utility and Subcommands This command displays the contents of a call logging subscriber's incoming callers list for a given DN. Subcommands are STATUS, RESET, DEQ, and QUEUE. >CLOG CLOG: QBCLID CI: Level Command This command displays every line in the office that belongs to a BCLID group. QCM CI: Level Command This command displays the contents of CLASS incoming and outgoing call memory.
Table Editor Commands (NTP 297-1001-360, Basic Translations Tools Guide) Note: In addition to the Table Editor commands below, see the FINDTAB, FINDREF, SHOWUSES, and SHOWUSERS commands under “DMS CI: Level Commands” within this QRG. >HELP >ABORT >REPlace use HELP to get command description. used to cancel a command or input. used to replace a specified tuple with a new tuple; user is prompted for field values or field values may be specified (i.e., REP ).
DLOG Commands (NTP 297-YYYY-545 or NTP 297-YYYY-350 — PCL NTPs) Note: DLOG (Disk LOG) utility can be used to retrieve logs. >DLOG enters DLOG utility >QUIT exits DLOG utility. >EXCLUDEALL removes all logs, except PROTOLOGS from the set of logs to be formatted. %% start out by excluding all logs or it will dump out too many logs in the out file. See the EXCLUDEPROTO subcommand. >INCLUDEALL resets the set of logs to format to all logs except PROTOLOGS. See INCLUDEPROTO subcommand.
XPM and SPM PRSU files need to be kept on disk for as long as the PRSU is at applied status. This is because the PRSU file is always required in order to remove the PRSU from a DEST, and to automatically re-apply the PRSU following a reload or RTS of the device. Any applied XPM or SPM PRSU will have a file alarm raised if PRSM is unable to locate the PRSU file. If the applied XPM or SPM PRSU file is moved, it is recommended that the PRSU be validated following it being moved so the alarm will not be raised.
24 ASSIGN IN ASSIGN REMOVE [] REMOVE ASSIGN IN ASSIGN ISTBAUDIT [] ISTBAUDIT DBAUDIT [] DBAUDIT REPORT PRSU REPORT DEST REPORT DATE REPORT DATE REPORT MODULE REPORT DEPEND REPORT SELECT FROM PRSUSET SELECT FROM DESTSET SELECT
PRSM Quick References continue. Patching After Loading (PAL) Following a reload of an XPM device, PAL is invoked. The patches to be applied are chosen by the status of the Apply On Reload (AOR) flag. If the AOR flag is set to Y for any XPM DEST with the given loadname in the office, then the PRSU will be reapplied following the reload. If the AOR flag is set to N for all XPM DESTs with the given loadname, then the PRSU will not be re-applied.
Summary of PRSM Auto Processes PRSM auto processes are controlled by the PRSM scheduler. Everyday at the day of the week times set in table AUTOOPTS it executes the File Audit, Autoapp and the Status Audit. The Auto Apply process is the only optional process and can be controlled via table AUTOPRSU to set which days of the week it runs. Other fields in table AUTOOPTS (mondata, duration, maxatmpt and dropsync(split for XACore)) are used to control other attributes.
Calculating Node and Terminal Numbers Note: To verify results enter: >DISPCALL;DISPTID DNs, LENs, Trunks: Use CONVERT command in PMIST >CONVERT DN >CONVERT LEN >CONVERT TRK MPC: >XPMIST >NodeNO MPC_NODE MPC Returns node #. To XPMIST, include TID 0 (mtc. chnl.) & TID 1 (term.#). IOC 1X67 Card: >MAPCI;MTC;IOD;IOC ;Card ;QUERYTTY Returns node #. To XPMIST, include TID 0 (mtc. chl.) & TID 1 (term. #).
Ringing Quick References (NTP 297-1001-131, Ringing System) (NTP 297-1001-592, Peripheral Maintenance Guide) Informational Notes for Ringing: • • • • • • • • • • • • • Calls in ringing state are dropped when a warm SWACT occurs. Ringing is provided to all lines in the LCE frame by RG0 and RG1. Normally, RG0 supplies ringing to the even-numbered LCM. Normally, RG1 supplies ringing to the odd-numbered LCM. The LCM is capable of switching RGs when an RG or LD fault occurs.
Trunk Group Types Quick References (NTP 297-YYYY-350, Translation Guides) AI Automatic Intercept System (AIS) AN Automatic Number Announcement ANI Automatic Number Identification AOSS Auxiliary Operator Services System (AOSS) Trunk Group AOSSARU AOSS External Audio Response Unit (ARU) Access Tandem to Carrier (Originating from SC,IT,TOPS and ATC Terminating to SC and IT trunk group types A5 Two-way or Outgoing from Local to North Electric AMR5 CA Siemens ADDS Come Again Signalling for 1+, 0+, 0- calls CELL
ISDN Quick References (NTP 297-2401-501, ISDN BRI Maintenance Guide) Note: See ISDN BRI Troubleshooting for PM180 and PM189 logs and ISDN Q931 Procedures for Traces on BRI and PRI in this QRG. Note: See “TRAVER Commands” within this QRG for ISDN TRAVER information and examples. ISDN Query Commands >QLT >QDCH The QLT command queries a logical terminal. The QDCH command displays D-channel handler (DCH) connections or ISDN service group (ISG) information.
ISDN parameters continue.
ISDN continues. PRI Trunk AMI vs. B8ZS Capability Datafill In this example, trunk FRS (DTCI 0, span 16) is datafilled for SF (SuperFrame) and ZCS (AMI) capability. This trunk allows 56Kbps transmission speed. Trunk PRAWBA (DTCI 0, span 0) is datafilled for ESF (Extended SuperFrame) B8ZS signalling and uses the card NT6X50AB. This datafill allows 64K clear- channel signalling capability for trunk PRAWBA.
AIN Quick References (NTP 297-5161 021, AIN Essentials, Services Implementation Guide) (NTP 297-5161 022, AIN Service Enablers, Services Imp.
Local Number Portability (LNP) Quick References (NTP 297-8981-021, LRN - LNP Service Implementation Guide) LNP Tables: TOFCNAME, HOMELRN, FNPA7DIG, TRIGDIG, TRIGGRP, OFCVAR, LNPOPTS, LNPCODE LNPRTE (see patches LNP01, LNP02, and LNP03) VII06RTE (see patches VII05 and VII06) ARSSTS (see patches LNP30, LNP31, and LNP32) LOGS: LNP (also see AIN LOGS) OM Groups: LNP (also see AIN OM Groups) QLRN Command: >qlrn 8197251111 Query sent: 1999/12/31 11:59:59.571 FRI. Valid QLRN response received.
ACD-MIS Quick References Documentation: NTP 297-2041-500, ACD Maintenance Guide NTP 297-2041-011, ACD Planning and Engineering Guide NTP 297-2041-350, ACD Translations Guide NT NIS-Q209-2, ACD MIS Interface Specifications, Version 9.1 Base ACD Tables: ACDGRP, ACDRTE,ACDSGRP, ACDMISPL, ACDMISSP, ACDLOGIN, DNROUTE, DNATTRS, MPC, MPCLINK. Note: See NTP 297-YYYY-350, Translations Guide—Volume 3 for a detailed list of ACD tables.
ACD-MIS continues. >GROUPNAME >LOGINID >MODE >NSROUTE >OVFLROUTE >PASSWORD >STATUS >SUPERVISOR >TABENTRY >THRESHOLD >THROUTE >VALIDAUDIO >VALIDROUTES >NSAUDGRP >FIAUDGRP >FOAUDGRP displays grp name, DN type, & priority for given DN. displays information relating to a particular login id. sets default display mode (brief/full). displays nightservice route(s). displays overflow route(s). displays password of login identifications. displays current status of ACD group(s). displays a list of ACD supervisors.
LOADMGMT commands continue. >CHANGE MAXWAIT alters the maximum time a call can wait in an incoming call queue before being presented to an agent position. >CHANGE MSQSTYPE changes the type of multistage queue status(MSQS) display. The MSQS display types are WAIT (for the wait time of the call at the head of the incoming call queue) and CALLQ (for the size of the incoming call queue).
DMS-250 Quick References (NTP 297-2621-851, UCS DMS-250 Customer Data Schema Ref. Manual) (NTP 297-2621-860. UCS DMS-250 CSP Translations Reference Manual) (NTP 297-2621-814, UCS DMS-250 Operational Measurements Ref. Man.
DMS-250 quick references continue.
CC MIS Quick References CC MIS Remote Login 1. Dialup via modem (VT220 terminal emulation) 2. At the login prompt type: “maint” 3. At the password prompt type: “password” (must be obtained from the end user) 4. At this point you will be placed in the maintenance menu. 5. From this menu you are able to perform various system functions and observe logs. 6. Examples of menu functions: Run State Utilities Update Switch Configuration (download ACD info.
CC MIS Hardware Block Diagram Link Requirements when Switch & Host are co-located less than 100 ca. ft. If the switch and the Motorola 8420 are not co-located, one of two options is required: • Option 1 requires two XX Kbyte/s Channel Service Unit (CSU) connections to a T1 channel. • Option 2 requires two Data Service Units (DSU) or two V.35 modems set to XX Kbyte/s and attached to a conditioned leased line.
CompuCALL Quick References CompuCALL is the Nortel product name for Switch-to-Computer Application Interface (SCAI). CompuCALL is the interactive link between a DMS-100 and the customer's general purpose business computer making it possible for a company to coordinate database information with incoming and outgoing calls. Uses for CompuCALL include telemarketing, order entry, message desk, help desk, and emergency services.
SMDI Quick References Commands to bring link down, BSY/RTS card, & restore link: Note: The BSY/RTS of the SMDI link at the IOC level will automatically perform the following commands: >LNKUTIL >SMDILNK >SMDIDISC >DEVSTOP SMDIDATA >DEVDISC KILL >MAPCI;MTC;IOD;IOC ; CARD Note: IOC and CARD information can be found in table TERMDEV.
SMDI continues. Message Waiting Utility Commands: >MWQ activates the message waiting query utility. >HELP MWQ displays the subcommands and their descriptions. >STATUS display messages waiting for DN with MWT/EMW option. >RESET clears messages for DN with MWT or EMW option. >DEQ dequeues the requestor from the requestee. >QUEUE queue the requestor from the requestee.
Centrex IP Client Manager Quick References Important Note: Due to ongoing changes with this products hardware and provisioning recommendations, use the following only as a reference. PTE2000 Centrex IP Frame Breaker panel and power status. Breaker Panel Element Manager (Motorola 1204 chassis). •EIDE Hard Drive and CD-ROM •Floppy Disk •CPV5370 CPU Optional Balun Panel for coax cable. Mounted facing the rear of the frame.
Centrex IP and Conventional Centrex Configuration Centrex IP Gateway Frame DMS-100 Switch E1 or T1 TDM Links Brooktrout NS300 TDM Access Card LGC/LTC/PLGC NT6X50 DS1 (T1) for LGC/LTC NT6X27 PCM30 (E1) for PLGC LGC/LTC/PLGC NT6X50 DS1 (T1) for LGC/LTC NT6X27 PCM30 (E1) for PLGC IP Data E1 or T1 TDM Links RLCM/LCM IP Network Client LAN Conventional Centrex Configuration Meridian Business Set (MBS) Centrex IP Client Manager Configuration Centrex IP Client (i2004 Ethernet Centrex IP Client (m6350 u
Attendant Console Quick References Posting Consoles and associated lines >MAPCI;MTC;LNS;LTP;Level IBNCON >Select C (Shows DMODEM attached; BSY, DIAG, & RTS from here) >MAPCI;IBNMEAS;ACMON;Select C (Best place to observe console. See Table FNMAP for console CLLIs). AC Command (@ CI: level) >HELP AC will give optional parameters for using the command. Example: >AC DISPL LAMPS MT Command (@ CI: level) Shows keyhits from console via dmodem to CC.
Attendant Console Lamp Keyboard Layout night service CW excl src S D 6 excl dst S D 5 sigl src S D 4 1 2 3 sigl dst S D 3 4 5 6 DISPLAY AREA console test rls src S D 2 7 8 9 rls dst S D 1 * 0 # release hold Attendant Console Lamp to Physical Key Mapping (18) (25) (16) (15) DISPLAY AREA (32) (39) (46) (53) <16> (33) <23> (40) <30> (47) <37> (54) <17> (34) <24> (41) <31> (48) <38> (55) <18> (35) <25> (42) <32> (49) <39> (56) <02> <09> (12) (10,11) (19) (26
49 CFN 0 A Q WORD <--- Z X CFN 2 ENTER S W CFN 1 CMD Clear Keycap <------ SHIFT LOC LOC STEP CLEAR FIELD CLEAR SCR E D R F V CFN 4 T G B CFN 5 Y H N CFN 6 Dual Function Key (DA functions shown) C CFN 3 U J I K < , NPA 0 O L > .
50 CNTRL SHIFT LOCK TAB | Esc ! 1 ATT A Q Z @ 2 S W X # 3 E D C $ 4 R F V % 5 T B Y H N & 7 U J M * 8 Soft Keys SPACE BAR G ^ 6 I K < , ( 9 O L > .
CCS7 Quick References (NTP 297-YYYY-350, Translations Guides) CCS7 Terminology Associated Route — Direct route between signalling points; route where DPC of routeset equals DPC of linkset. Connectionless — Signalling type for all signalling that is not associated with set-up or take-down (E800 database query, maintenance, etc.) Connection-Oriented — Signalling type used for setup and take-down of calls (i.e. ISUP). Link — Communication channel between two adjacent signalling points.
CCS7 Protocol Components Connectionless Connection-oriented User Applications User Applications E800 ACCS NACD AIN Interoffice Trunking POTS ISDN Transaction Capabilities Applications Part (TCAP) Signalling Connection Control Part (SCCP) Global Title Translation (GTT) Integrated Services Digital Network User Part (ISUP) Message Transfer Part (MTP) ISUP Trunk Selection STP A STP B C-links A-links DMS 100 ISUP Trunks DMS 100 STDPRT OFRT Incoming digits; initial path determined Get CLLI TRKGR
53 5 4 3 1 2 EVENT Network status information only, since no other alarms or logs are available concerning specific links Recovery Logs: CCS166 Route allowed Action: Alarms/Logs: ** CCS167 Route Restricted Note: CCS167 Route Restricted alarm and log notification are sent to every SS7 NODE when a linkset fails and causes a route restriction.
54 5 4 3 1 2 EVENT Recovery Logs: CCS102 Link Sync CCS102 Link Sync CCS163 Link available CCS163 Link available CCS155 Routeset available CCS166 Route allowed PM Logs Follow detailed DMS-100 CCS alarm clearing procedures in current NTP 297-YYYY-543. One link fails in Linkset W/Y Alarms/Logs: * CCS101 Link failure * CCS164 Link unavailable Possible PM, C7UP Logs & CCS198 SLMPR All SS7 messaging diverted to links W/X. Estimate link W/X occupancy using C7LKSET command QUERYTRF.
55 5 4 3 1 2 EVENT Recovery Logs: CCS102 Link Sync (one of the links) CCS102 Link Sync (another link) CCS163 Link available (one of the links) CCS163 Link available (another link) CCS155 Routeset available CCS166 Route allowed PM Logs Follow detailed DMS-100 CCS alarm clearing procedures in current NTP 297-YYYY-543.
56 5 3 4 1 2 EVENT ACTIVITY AT NODE X AND Z Recovery Logs: CCS102 Link Sync CCS102 Link Sync CCS163 Link available CCS163 Link available CCS155 Routeset available CCS166 Route allowed PM Logs Serious situation, network could be in jeopardy if other STP fails. Top priority to restore STP “X” and restore service. Use the following documents to clear alarms: Ensure A links to the working STP (Y) are not manual busy. DMS-100 CCS alarm clearing procedures.................................................
Broadband STP Quick References Broadband STP Control CAM Shelf Front Broadband STP Control CAM Rear Shelf with Number Portability Controller (NPC) Mission Cards in slots 2 - 5 Note: Slots 13 & 14 and 16 & 17 may be Double-slot SCSI Disk cards.
Broadband STP OAM&P Workstation and Network Equipment Configuration Table Item Sample Customer Defined Workstation Network Configuration (TCP/IP Properties): IP Address (Workstation-1) 192.168.1.50 Subnet Mask 255.255.255.0 Gateway (Remote Access Server) 192.168.1.1 Remote Access Server (RAS) Configuration Options: RAS General: Name FIELD FIELD Password SERVICE SERVICE RAS IP General: Rem. Access Svr (RAS) IP Address 192.168.1.1 Subnet Mask 255.255.255.0 Default Router (Same as RAS) 192.168.1.
PEC CODES & Description NTFX30AA NTFX30EA NTFX30FA NTFX31AA (MD = Manufacture Discontinued) NTAX74AA NTAX74AB NTAX74CA NTAX78AA NTAX78AB NTAX78BA NTBX01AA NTBX01AB NTBX01AC NTBX01BA NTBX02AA NTBX02BA NTBX04AA NTBX1001 NTBX1003 NTBX11AA NTBX11AB NTBX25AA NTBX25AB NTBX26AA NTBX27AA NTBX30AB NTBX3104 NTBX32AA NTBX32BA NTBX34AA NTBX34AB NTBX34BA NTBX34BC NTBX34CA NTBX34CB NTBX34DA NTBX35AA NTBX35CA NTBX36AA NTBX36BA NTBX37AB NTBX40AA NTBX40BA NTBX4011 NTBX43AA NTBX44AC NTBX44AD NTBX45AA NTBX56AA NTBX60AA NTBX
NTMX79AA NTMX79AB NTMX79BA NTMX81AA NTMX81BA NTMX82AA NTMX83AA NTMX83BA NTMX8501 NTMX8504 NTMX8601 NTMX8604 NTMX87AA NTMX87AB NTMX87BA NTLX10CA XA-Core Cooling Unit Baf. Sh.
NTNX64AA NTNX64AB NTNX65AA NTNX65BA NTNX66AA NTNX67BA NTNX68AA NTNX68BA NTNX68CA NTNX68DA NTNX71AA NTNX72AA NTNX73AA NTNX74AA NTNX75AA NTNX76AA NTNX77AA NTNX79AA NTNX81AA NTNX96AA NTNX97AA NTNX97AB NTNX98AA NTNX99AA NTQX90AA NTRX01AD NTRX02AA NTRX02AB NTRX02AD NTRX30AA NTRX30BA NTRX31AA NTRX31DH NTRX32AA NTRX32BA NTRX33AA NTRX33CA NTRX34AA NTRX34AB NTRX34BA NTRX35AA NTRX35BA NTRX36AA NTRX36AB NTRX36BA NTRX37AA NTRX38AA NTRX40AA NTRX41AA NTRX42AA NTRX42BA NTRX42CA NTRX42DA NTRX42EA NTRX42FA NTRX43AA NTRX44AA
NTZZ03DA NTZZ03DB NTZZ03DC NTZZ03EA NTZZ03EB NTZZ03EC NTZZ03FA NTZZ03GA NTZZ03HA NTZZ03JA NTZZ03KA NTZZ03LA NTZZ03MA NTZZ03NA NTZZ03RA NTZZ04AA NTXX04BA NTZZ04BB NTZZ04CA NTZZ04DA NTZZ04EA NTZZ04HA NTZZ04HB NTZZ04KA NTZZ05DA NTZZ05EA NTZZ05FA NTZZ05HA NTZZ05JA NTZZ06AA NTZZ06AM NTZZ06BA NTZZ06CA NTZZ06DA NTZZ06EA NTZZ06FA NTZZ06GA NTZZ06HA NTZZ06JA NTZZ06KA NTZZ06LA NTZZ06MA NTZZ06NA NTZZ06PA NTZZ06QA NTZZ06RA NTZZ06SA NTZZ06YA NTZZ06ZA NTZZ07AA NTZZ07BA NTZZ07CA NTZZ07DA NTZZ07EA NTZZ07FA NTZZ07GA NTZZ07HA
NTZZ16ED NTZZ16FA NTZZ16GA NTZZ16HA NTZZ16JA NTZZ16LA NTZZ16LB NTZZ16LC NTZZ17AA NTZZ17AM NTZZ17AN NTZZ17AT NTZZ17BA NTZZ17BB NTZZ17CA NTZZ17DA NTZZ17EA NTZZ17EB NTZZ17FA NTZZ17GA NTZZ17GB NTZZ17GC NTZZ17HA NTZZ17JA NTZZ17JB NTZZ17KA NTZZ17KK NTZZ17LA NTZZ17NA NTZZ17PA NTZZ17PB NTZZ17PC NTZZ17QA NTZZ17QM NTZZ17RA NTZZ17RM NTZZ17SA NTZZ17SM NTZZ17TM NTZZ18AA NTZZ18AB NTZZ18BA NTZZ18CA NTZZ18DA NTZZ18EA NTZZ18FA NTZZ18GA NTZZ18HA NTZZ18JA NTZZ18KA NTZZ18LA NTZZ18MA NTZZ18NA NTZZ18PA NTZZ18PB NTZZ18QA NTZZ18SA
NTZZ42TB NTZZ42UA NTZZ42UB NTZZ42VA NTZZ42VB NTZZ44AA NTZZ44BA NTZZ44CA NTZZ44CB NTZZ44CM NTZZ44CN NTZZ44DA NTZZ44EA NTZZ44FA NTZZ44FM NTZZ44GA NTZZ44GB NTZZ44GM NTZZ44GN NTZZ44KM NTZZ44KN NTZZ45EA NTZZ45FA NTZZ45GA NTZZ45HA NTZZ45JA NTZZ45MM NTZZ45NA NTZZ46DA NTZZ46EA NTZZ46EB NTZZ47AA NTZZ47AB NTZZ47BA NTZZ47BB NTZZ47CA NTZZ47CB NTZZ47DA NTZZ47DB NTZZ47EA NTZZ47EB NTZZ47FA NTZZ47FB NTZZ47GA NTZZ47GB NTZZ47HA NTZZ47HB NTZZ47JA NTZZ47JB NTZZ47PB NTZZ47QA NTZZ47QB NTZZ47QM NTZZ47RA NTZZ47RM NTZZ47RN NTZZ47SA
NT0X56BB NT0X56BC NT0X57AA NT0X57AB NT0X57AC NT0X57AD NT0X57AG NT0X61AA NT0X61AB NT0X62AA NT0X62AB NT0X63AA NT0X63AB NT0X63AC NT0X63LA NT0X63LB NT0X63MA NT0X63MD NT0X64AA NT0X66AA NT0X66BA NT0X66CA NT0X67AA NT0X70AA NT0X70AB NT0X70AC NT0X70BA NT0X73DA NT0X73DB NT0X73DD NT0X73EA NT0X82AA NT0X82AB NT0X84AA NT0X85AA NT0X87AA NT0X88AA NT0X88AB NT0X88AC NT0X88AD NT0X88AE NT0X88AF NT0X89AA NT0X89AB NT0X91AA NT0X91AB NT0X91AD NT0X91AE NT0X91AF NT0X91AG NT0X91BF NT0X91DA NT0X91DE NT0X91KA NT0X93AA NT1M40AA NT1M41AB
NT2X55AA Sig. Dist.
NT3X16BB NT3X17AA NT3X18AA NT3X19AA NT3X20AA NT3X21AA NT3X22AA NT3X22AB NT3X23AA NT3X23AB NT3X23AD NT3X24AA NT3X25AA NT3X25BA NT3X25BB NT3X31AA NT3X31AB NT3X31AC NT3X31AD NT3X31AE NT3X31AF NT3X32AA NT3X32AB NT3X32AC NT3X32BA NT3X32BB NT3X32BC NT3X32DA NT3X32DB NT3X33AA NT3X34AA NT3X35AB NT3X36AB NT3X36AC NT3X36BB NT3X36BC NT3X37AA NT3X37AC NT3X37BA NT3X37BC NT3X38AA NT3X39AA NT3X40AA NT3X40BA NT3X41AA NT3X41BA NT3X41DA NT3X42AA NT3X42BA NT3X4302 NT3X4303 NT3X4304 NT3X4307 NT3X4309 NT3X45AA NT3X45AB NT3X45AX
NT4X25AD NT4X25AF NT4X25AV NT4X25BA NT4X25BB NT4X25BC NT4X25BE NT4X25BH NT4X25CH NT4X25BZ NT4X25CH NT4X25DA NT4X45AA NT4X50AA NT4X50AB NT4X50AF NT4X50AH NT4X50AJ NT4X51AA NT4X52AA NT4X53AA NT4X54AA NT4X54AB NT4X55AA NT4X56AA NT4X57AA NT4X58AA NT4X59AA NT4X6008 NT4X61AA NT4X62AA NT4X63AA NT4X63EA NT4X64AC NT4X64BA NT4X64BB NT4X64CA NT4X65AA NT4X65AB NT4X71AA NT4X71AB NT4X71AC NT4X71AD NT4X71AE NT4X71AF NT4X72AA NT4X73AF NT4X73BA NT4X73CA NT4X73DA NT4X74AB NT4X75AA NT4X76AA NT4X76AB NT4X76AC NT4X76AD NT4X76AE
NT6X01AA NT6X01AB NT6X01AD NT6X01AF NT6X01BA NT6X02xx NT6X03AA NT6X03RA NT6X03RB NT6X03RC NT6X03RD NT6X03RE NT6X05AA NT6X05AY NT6X05DA NT6X05EA NT6X0511 NT6X0512 NT6X0513 NT6X0514 NT6X06AA NT6X06AB NT6X06AC NT6X08AA NT6X08CA NT6X08CC NT6X0801 NT6X09AA NT6X10AA NT6X10AC NT6X10AD NT6X10AE NT6X12AG NT6X1201 NT6X1205 NT6X13AB NT6X1301 NT6X14AA NT6X14CA NT6X17AA NT6X17AB NT6X17AC NT6X17AD NT6X17BA NT6X18AA NT6X18AB NT6X18BA NT6X19AA NT6X20AA NT6X20AB NT6X21AA NT6X21AB NT6X21AC NT6X21AD NT6X21BC NT6X23AA NT6X25AA
NT6X70AA NT6X70BA NT6X71AA NT6X71AB NT6X71AC NT6X71BA NT6X72AA NT6X72AB NT6X72BA NT6X73AA NT6X73BA NT6X74AA NT6X74AB NT6X75AA NT6X75DA NT6X75EA NT6X75KA NT6X76AA NT6X76AC NT6X76AD NT6X77AA NT6X78AA NT6X78AB NT6X79AA NT6X80AA NT6X80BA NT6X81AA NT6X81BA NTX82AA NTX84AA NT6X85AA NT6X85AB NT6X85AC NT6X85BA NT6X86AA NT6X86AB NT6X90AA NT6X90AB NT6X90CA NT6X91AA NT6X91AB NT6X91BB NT6X91CA NT6X92AA NT6X92BA NT6X92BB NT6X92BC NT6X92CA NT6X92DA NT6X92EA NT6X93AA NT6X93BA NT6X93CA NT6X93DA NT6X93EA NT6X93FA NT6X94AA N
NT9X55AA NT9X56AA NT9X62AA NT9X62BA NT9X62CA NT9X62CB NT9X63AA NT9X63AB NT9X6534 NT9X66AA NT9X67AA NT9X68AA NT9X69AA NT9X69BA NT9X70AA NT9X70BA NT9X70BB NT9X71AB NT9X7101 NT9X7204 NT9X73AA NT9X73BA NT9X73BB NT9X73CA NT9X74AA NT9X74BA NT9X74CA NT9X74DA NT9X75AA NT9X76AA NT9X76BA NT9X76CA NT9X77AA NT9X77AB NT9X77BA NT9X78AA NT9X78BA NT9X78CA NT9X78DA NT9X13BB CPU (Static RAM) CP (MD) NT9X13BC CPU (Static RAM) CP (MD) NT9X13CA CPU Plus 4MB CP (MD) NT9X13DA CPU PCP (MD) NT9X13DB CPU (16MHZ) CP (MD) NT9X13DC CP
Circuit Pack Descriptions Note: The following circuit pack descriptions are for most of the packs shown within the various hardware shelves in this QRG. NTAX78AB or BA — The Enhanced time switch (ETS) card is functionally equivalent to the NT6X44CA time switch card. As of NA003, the NTAX78 replaces the NT6X44 that will implement DTA for ESMU or SMA. As of NA004, SMA interfacing TR-303 compliant terminals require the NTAX78 card.
NTEX26 — The NTEX26AA link interface unit (LIU) channel-bus interface (CBI) circuit pack is used in the CCS7 LIU (LIU7) within a link peripheral processor (LPP) equipped for channelized access. The NTEX26AA is located behind the NT9X76AA signaling terminal (ST) in an LIU7. NTEX28 — The NTEX28AA network interface unit (NIU) DS30 link interface Paddle Board (LPB) is used in the link peripheral processor (LPP) for channel access.
NTGX10 — The NTGX10AA Bus Controller Main card provides system clocks and acts as the bus master for the MSM. NTGX11 — The NTG08AA Bus Controller Transition Module Paddle Board can be found in the rear of the MSM shelves. NTGX12 — The NTGX12AA VP12 voice channel cards on an MSM provide a maximum of 24 channels for each SPN, or 12 channels for each voice processor card. The cards provide the channels for a maximum of four SPNs to an NTGX0201 electronics shelf.
XMS-based peripheral modules. It is a hybrid of features in the NT6X69 & NT6X42, with added logic for extra features. The AB version is required if the RSC-S will also support Spontaneous Call Waiting Display (SCWID) based on an Analog Display Services Interface (ADSI) service. The AB version is also required in the LTC or LGC that supports the Star Remote. The AD version is used in the TOPS Voice over IP Gateway peripheral.
ital trunk module (DTM). The card is located in a provisional trunk slot of the maintenance trunk module (MTM), the services trunk module (STM), or the integrated services module (ISM). The card has its own DS30 link and is connected to the network by means of a direct cable.
the supervision circuit card includes a hard-wired sequencer that exchanges channel supervi- sory messages with the network and parity-detection circuits that check incoming speech signals; the circuits are shared by all 120 speech channels. The circuit card also includes a processor bus interface with interrupt capabilities. NT2X35 — This DCM interface (DS1 line) circuit card contains the DS1 transmit and receive interface circuits.
NT3X19 — This speech interface card, used in the NT0X48 Junctored Network, contains decoders and buffers for the incoming circuits, and buffers and encoders for the outgoing circuits. The decoders can accommodate four 32-channel ports (0-3) of incoming serial PCM at 2.56Mb/s, therefore, for the 64-port NM, 16 speech IF cards are required (designated IF-0 through IF-15). NT3X20 — This MD’d test card, used in the NT0X48 J-Net, inserts & detects test codes and provides an active bus termination.
serial format required by the serial port IF cards. The PS formatter consists of four identical sections. Each section is responsible for converting a 512-channel 10-bit parallel bus into sixteen (8-pairs) serial buses. Four parallel buses are received by the PS formatter, one from each of the four XPT cards which comprise one side of an NM. It outputs thirty-two (4 sections x 8 pairs) dual port (1-pair) serial data buses to eight serial IF cards.
lation (PCM) conversions on a per channel basis, allowing compatibility between the North American and international DMS-100 switches. The universal time switch can perform nine different types of PCM conversions from central side (C-side) to peripheral side (P-side) and vice versa. The NT6X44EA can directly replace all current versions of the NT6X44 except the AC and CA versions. NT6X45 — Master processor has been replaced has been replaced with the NTMX77 Unified Processor (XPM PLUS).
NT6X70 — The continuity tone detector card detects tones that are used in call processing to verify the continuity of the voice/data path between LTCs. It monitors and records the frequency and level of the tones. The continuity tone detector CP retains this data for use by the XPM processor CP in the LTC. NT6X72 — The remote formatter card is located in the RCC shelf.
NT8X13 — This crosspoint card, used in the NT8X10 Junctored Network, contains the TS for 2048 input channels and 1024 output channels. Two pairs of cards are required, one pair for switching from the peripheral input channels to the junctor output channels on the A-side, and one pair for switching from the junctor input channels to the peripheral output channels on the B-side.
NT9X13LA — The AP/FP 68030 HPM-based CPU card provides the processing capability for the application processor (AP) or the file processor (FP). The capability to run foreign (not switch) operating systems is provided by the 68030 CPU on the card. NT9X13MA or MB — These 20-MHz 68020 CPU SuperNode SE core CM processor cards are high-performance microcomputer boards based on a 68020 32-bit microprocessor. The NT9X13MA and MB is a recycled board based on the NT9X13BC.
NT9X26DA, DB, or DC — This reduced instruction set computer (BRISC) remote terminal interface (RTIF) paddle board incorporates the features of all existing RTIF cards. It also provides CPU firmware (CPUFW) PROM residence for the NT9X10AA and the NT9X13MA CPU cards. This card provides a reset system for monitoring and controlling the subsystems of the DMS-100 SuperNode and related subsystems. The NT9X26DC is available to support mixed memory configuration available in NA004.
NT9X49CC — This message switch (MS) processor-bus (P-bus) terminator card, located only in the combined MS of the SNSE, provides termination for message switch backplane tracks primarily used by the message switch processor (MSP). This pack provides a time-out on the MS transaction bus (T-bus). The time-out on the MS T-bus is longer for the NT9X49CC than for the NT9X49CA.
vides a 4-wire twisted-pair connection externally. NT9X86 — The dual-port message controller, with a link paddle board, provides two serial message communications links to the DMS-bus from a computing module, an applications processor module, or a file processor module.
87 2 3 6 6X40 7 Slot 23 10 DS30 11 14 15 DS30 PORTS 0 1 4 6X40 5 Slot 22 8 DS30 9 12 13 NOTE: The 6X40AA and AB cards are 8 port cards.
XPM Link Configuration Note: See the “XPM PACK RELATIONSHIP DIAGRAM” on the previous page for another view of the XPM. 19 15 11 7 3 18 14 10 6 2 17 13 9 5 1 16 12 8 4 01 02 03 04 0 18 19 16 17 14 15 12 13 UNIT 10 11 8 9 1 6 7 4 5 2 3 0 1 18 19 16 17 14 15 12 13 UNIT 10 11 8 9 0 6 7 4 5 (Shelf 18 & 51) 2 3 0 1 05 06 07 <— SLOTS —> NT6X50 DS1 Interface P-side Links NT6X48 DS30A LCM Note: See DIP switch settings Links for 6X50 in this QRG.
89 DS1 Spans and DS0 Circuits ————> (Ex: Span 0 and Circuit 18) DTC (DS1) & Network (DS30) Port and Channel Mapping C-Side Ports ————> 0 1-1 0-2 4-2 3-3 2-4 1-5 0-6 4-6 3-7 2-8 1-9 0-10 4-10 3-11 2-12 1-13 0-14 4-14 3-15 2-16 1-17 0-18 4-18 3-19 2-20 1-21 0-22 4-22 3-23 2-24 1 2-1 1-2 0-3 4-3 3-4 2-5 1-6 0-7 4-7 3-8 2-9 1-10 0-11 4-11 3-12 2-13 1-14 0-15 4-15 3-16 2-17 1-18 0-19 4-19 3-20 2-21 1-22 0-23 4-23 3-24 2 3-1 2-2 1-3 0-4 4-4 3-5 2-6 1-7 0-8 4-8 3-9 2-10 1-11 0-12 4-12 3-13 2-14 1-15 0-16 4-16
DIP Switch Settings for 6X50 and 6X85 DS1 Cards (NTP 297-8991-505 & NTP 297-YYYY-847) The following equalization/build-out DIP switch settings are for 6X50AA & AB DS1 packs located in the DTC/LGC frames, and 6X85AA & AB DS1 packs located in the SMS/SMU/SMS-R frames. It is important that the DIP switch settings are set properly to prevent SLIPs on the P-side of the carrier system.
DIP Switch Settings for 6X21AD Line Card (NTP 297-8991-805, Hardware Description Manual) Note: DIP switch settings for the card are dependent on the customer equipment, distance from the office, and cable characteristics Note: Default setting from the factory are S1 OFF, S3 ON, S3 & S4 OFF. Ralationship of this setting is for a Nortel UDLC line that is Non-loaded, and has a signaling level required for a .14 peak to peak voltage (Vpp) setting.
Junctored Double Shelf Network (NT8X10) (MD) Note: The NT8X10 is a dual shelf network (DSN) equipped with two networks per frame.
Input/Output Controller (IOC) shelf (NT1X61) (MD) Note: The MD’d IOC has bee replaced with the IOM 0 0 0 0 2 0 0 0 0 0 0 0 0 0 1 X X MO X O X O X O X O X O X O X O X O X X X X X 50 62 S P 50 P 50 P 50 P 50 P 50 P 50 P 50 P 50 P 50 67 50 50 70 P T T T T T T T T G T O I I I I I I I I I W O O O O O O O O P O E N N N N N N N N R N R A A A A A A A A O A L L L L L L L L C L 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Note: For further description of the following IOC packs, s
Line Module (LM) shelf (NT2X14) (MD) 2 X R G 05 I E N N G E I R N A G T O 01 R 2 X R G 05 I E N N G E I R N A G T O 02 R 2 2 2 0 0 2 2 2 0 2 2 2 2 2 X X X X X X X X X X X X X X 27 24 25 50 50 26 33 34 50 22 23 36 21 70 R S S G P P IF M P P P R R O O C C IF M U X P O W E R 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 Remote Line Module (RLM) shelf (NT2X14) (MD) 2 X R G 05 I E N N G E I R N A G T O 01 R 2 X R G 05 I E N N G E I R N A G T O 02 R 2 2 2 0 3 2 3 3 3 2 2 0 2 2 X X X X X X X X X X X X
Maintenance Trunk Module (MTM) shelf (NT2X58) 2 0 2 2 X X X X < — O 45 70 53 59 or P C 4 R O X O N 0 2 4 65 C T 1 3 5 2 0 2 P T I O N A L — > X X X 09 50 06 C I R C U I T P or P N U M B E R S O O W 2 W 6 8 10 12 14 16 18 20 22 E X E 7 9 11 13 15 17 19 21 23 R 70 R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 Note: For further description of the following MTM packs, see the “Circuit Pack Description” within this QRG or see NTP 297-8991-805.
Integrated Services Module (ISM) shelf (NTFX4101) The ISM is a single shelf unit that replaces the existing TM or MTM shelves. The ISM shelf is mounted on either the cabinetized ISM (CISM), the frame ISM (ISME), the cabinetized metallic test access (CMTA), or the metallic test access equipment (MTAE).
ISM NTFX44 ILTA and NT2X90 IC/OG test trunk assignments to MLT and other test equipment (PLN-8991-103, Vol 1, Engineering Manual (No longer provided)) Note: The following is for assignments on the ISM shelf located at position 53 on the frame. The ISM shelf located at position 39 will not have NTFX44 and NT2X90 assignments in shelf slots 6 through 10. Each increment of four NT2X09s and associated NTFX44 is called an “External Loop Test Group.
Global Peripheral Platform Common Peripheral Module (GPP CPM) Main and Extension shelves (NTP 297-8371-550, GPP Maintenance Manual) GPP CPM Main shelf (NTM85AA) Unit 0 Unit 1 M E M B 6 6 6 M 6 MMM 0 M 0 MMM 6 M 6 6 6 B M E M XMXXXXXXXXXXXXXXXXXXXXXXXMX 72 I 77 01 78 92 92 76 40 75 73 87 50 87 50 87 73 75 40 76 92 92 78 01 77 I 72 ->
Service Trunk Module (STM) shelf (NT1X58) 2 X 70 or P O 0 W X E 50 R 4 X 65 C O N T S E E S E R V I C E C A R D S B E L OW 4 X 65 0 2 X X 50 70 S E E S E R V. C O N T C A R D S B E L OW P O W E R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 STM-0 STM-1 The STM accepts analog trunks, digital service circuits, or both, and processes the signals to a common Pulse Code Modulation (PCM) format.
DRAM (modified MTM) shelf (NT2X58) 2 0 2 2 1 0 1 2 X X X X X 45 70 53 59 75 O P T or P M E 4 R X O C 65 C 3 4 5 6 7 0 0 0 2 0 2 X X X X X X 50 50 50 09 50 70 I O N A L P P O O M O R Y W W E E A R D S R R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 Note: For further description of the following packs, see the “Circuit Pack Description” within this QRG or see NTP 297-8991-805.
Subscriber Carrier Module Shelves Subscriber Carrier Module Urban (SMU) shelf (NT6X02) 6 6 6 6 6 0 0 0 0 0 0 M 0 6 0 6 0 6 6 6 6 6 6 0 2 XXXXXXXXXXXXXXXXXXXXXXXXX 85 85 85 85 85 50 50 50 50 50 50 77 50 44 50 78 50 43 80 42 41 40 40 50 70 or or or or P U T 6 6 6 6 C O < D S 1 > P S XXXX S W 92 92 92 69 M E R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Subscriber Carrier Module Remote (SMR) shelf (NT6X02) 6 6 6 6 6 0 0 0 0 0 0 M 6 6 0 0 0 6 6 6 6 6 6 0 2 XXXXXXXXXXXXXXXXX
Expanded Subscriber Carrier Module-100 Access 2 (SMA2) The SMA2 provides a multi-vendor interface for up to 28 DS1 ports for one remote digital terminal (RDT), and up to 48 DS1 links for each SMA2.
Small Remote Unit (SRU) (NT8X95) (MD) The international small remote unit (SRU) is a DMS-100 remote peripheral module (PM) that provides access for a maximum of 240 subscriber lines. It is located at a remote site up to 240 km (150 miles) from the host DMS-100. The SRU communicates with the host DMS-100 through pulse code modulation 30 (PCM30) links and provides a variety of services, including plain ordinary telephone service (POTS) and Centrex.
Star Remote Hub Control shelf (NTP 297-8353-550, Star Remote System Maintenance Manual) Note: The Star Remote Hub Control shelf is located in the Star Remote Hub Equipment Frame (NT0825). The Star Remote Module located off the hub is now MD.
Remotes Quick Reference Note: The following block diagram is not an all inclusive view of the many possible remote applications. For more information, see the references listed below. Some remotes are now MD. DMS Host Switch Network DCM DS1 DS30 or DS512 DS30 or DS512 DS30 LTC/ LGC DS1 LTC/ LGC SRU RLCM Star OPM Remote Hub DS30A RCC DS30A Notes: • • • • • • • • • • • • • • • DS1 RLCM SLC96 DS1 DS1 DS1 DS1 SLC- DMS- DMS96 1U 1R DS1 Clear Ch DS1 RCC2 DS1 Star FCOT in Star Rem.
SPM Quick References SPM Frame Layout for a 4-slot High-Speed Backplane The Power Cabling Interface Unit (PCIU) contains the: Alarm Indicator Lamps Fan Failure Lamp Cooling Unit (Four fans per individual alarm) (Alm LED on left of each fan) SPM 1 Shelf 1 Shelf Trough and Cable Area SPM 1 Shelf 0 equipped for two Common Equipment Modules (CEMs), two OC-3 Interface Modules, Shelf Interface Module (SIM), and Resource Modules (see layout below) Shelf Trough and Cable Area Air Filter (NTLX5015) Pt # A0665487 U
Note: 9X40DA ENET Paddle Board connects to front of CEMs. Note: SPM Module with two shelves can provide up to 26 Resource Modules (RM) in addition to the required CEM and SIM circuit packs. Note: Each serial link (SL) has 256 time slots. Where 3 SLs are assigned, there are 768 timeslots that can service the bandwidth equivalent to one STS-1 or DS-3 Resource Module. Note: Serial links in diagram above are shown as 1-S, 3-S, and 9-S.
DSP Island (DSPI) Resource Provisioning Note: * Each DSP RM provides a total of 9 DSP Islands (DSPIs). The resources should be allocated across the RMs so that the DSP messaging load is evenly distributed. Only one type of resource can be provisioned per DSPI. The following table defines the capacity number for each resource: ** Notes and Descriptions COT = Continuity tone transceiver.
Table MNHSCARR (Mgmnt Network High Speed Carrier) (NTP 297-YYYY-351, Customer Data Schema Reference Manual OC3-3 ckt 2 OC3-S ckt 1 • STS3L Layer • Electrical • OC3 Protection switching • These 2 STS3L’s MUST be INSERVICE for Protection switching If OC3 Protection Switching occurs, the 3 STS1’s will switch over to the next STS3. All sub-carriers follow.
Note: Even though some changes to tables MNPRIID and TRKSGRP are allowed while LTID is mapped in table LTMAP. To help prevent possible corruption, perform the following steps to complete PRI datafill: 1. BSY;BSY INB the D-Channel and B-Channels of the trunk. 2. Remove the associated LTID tipple from table LTMAP. 3. Make the desired table changes. 4. Add the associated LTID tipple back into table LTMAP. 5. BSY;RTS the D-Channel and B-Channels of the trunk.
DAL prefix on the same SPM Note: To allow DAL and PX FX trunks to function on the same SPM, the following must be performed: Reference: • PLN-8021-004 DMS-100F North American DMS-100 Release Doc. Volume 1 of 2 • LET0014 Preliminary 12.02 October 2000 Pages 161 - 168, inclusive; Page 165 - 166, excerpt 7.6 Upgrade Procedure (Paraphrased and edited for clarity...) This feature requires a special upgrade procedure to properly activate its functionality without causing a loss of service in an active switch.
SPM Log References Use SPM logs SPM300 thru SPM710 and other related logs: SPRF670 671; CARR300, 310, 500, 510, 511, 512, 800, 810, 811; ENET211, 308, 311; PRSM400. SPM Alarms Note: Note: Note: If your office is pre-NA011 and you have a non-node visible alarm, (such as a PROTFAIL), you must use logutil and/or dlog/scanlog to locate an SPM331 log indicating the source of the alarm.
Digital Trunk Controller (DTC) shelf (NT6X02) 6 6 6 6 6 0 0 0 0 0 0 M 0 6 0 0 0 0 0 6 6 6 6 0 2 XXXXXXXXXXXXXXXXXXXXXXXXX 50 50 50 50 50 50 50 50 50 50 50 77 50 44 50 50 50 50 50 42 41 40 40 50 70 or or or D D D D D F F F F F F A or or or 6 or 6 or C F D D F P S S S S S I I I I I I X X X S O S S I O 1 1 1 1 1 L L L L L L 74 6 A 6 92 6 69 6 M R 30 30 L W or or or or or L L L L L L or X X X or X or X M L E 0 0 0 0 0 E E E E E E S 70 78 92 6 62 M 79 A N N E R XXXXX R R R R R R X X X T I I R 50 50 50 50 50 05 6
“XPM Link Configuration Diagram” within this QRG.
Common Peripheral Controller Equipment Frame for LGC, DTC, DTCI, LTC, SMU, SMS.......
Line Concentrating Array (LCA) LCM Unit 0 shelf Note: Unit 0 serves even line subgroups and unit 1 serves odd subgroups. 6 X 53 P O W E R 6 6 X X 51 52 P R O C 01 02 03 04 6X05 6X05 6X05 6X05 6X05 LINE LINE LINE LINE LINE DRAWER DRAWER DRAWER DRAWER DRAWER C 0 1 2 3 4 N T 01 03 05 07 09 L LSG LSG LSG LSG LSG 00 02 04 06 08 05 Line Concentrating Array ISDN (LCAI) LCME Unit 0 shelf (NTBX31BA) Note: Unit 0 serves line subgroups 0-7 and unit 1 serves subgroups 8-15.
Line Concentrating Equipment (LCE) frame (NT6X03AA) Cooling unit (rear, part of FSP) Ringing Gen. 0 Ringing Gen.
118 C A R D I N T E R F A C E B U S Front 00 16 00 16 02 18 02 18 03 19 03 19 04 20 04 20 06 22 07 23 08 24 09 25 10 26 11 27 06 22 07 23 08 24 09 25 10 26 11 27 Line Cards for Line Subgroup 0 (LSG-0) 05 21 Line Cards for Line Subgroup 1 (LSG-1) 05 21 12 28 12 28 13 29 13 29 14 30 14 30 15 31 15 31 Back NT6X54 Bus Interface Card (BIC) or NTEX54 Data BIC (DBIC) for 1-Meg Modem 01 17 01 17 LCM line drawer layout C A R D I N T E R F A C
Digital Line Module (DLM) shelf (NTP 555-4001-101, DLM Reference Manual) DLM Unit 0 DLM Unit 1 6 8 8 6 6 8 8 8 8 8 0 8 0 8 8 8 8 8 6 6 8 8 6 X XXXXXXXXXXXXXXXXXXXXXX 53 P 49 46 51 52 47 47 47 47 47 50 55 50 47 47 47 47 47 52 51 46 49 53 P O O P OR T S P OR T S W W E 0 1 2 3 4 5 6 7 8 9 E R R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 6X51: LCM Peripheral Processors: controls the activity of the LCA and functions as the interface between the DS30A links and the digroup control
Remote Cluster Controller (RCC) shelf (NT6X12) 6 6 6 6 6 6 6 6 0 0 6 6 6 0 6 6 6 0 6 6 6 6 6 0 2 XXXXXXXXXXXXXXXXXXXXXXXXX 50 50 50 50 50 48 48 45 50 50 47 46 45 50 44 92 69 50 72 50 50 50 50 50 70 or or or or or or or or or or or or P 0 0 0 0 0 DD 0 6 6 0 0 M T UM 6 F HO S T O XXXXX S S XXXXXX S T S XOD S 1 W 50 50 50 50 50 30 30 50 47 47 50 50 77 R G 79 R L IN K S E AA R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Unit 1 Ports DS30A Links to LCMs DS30A Links to LCMs
RCC2 shelf (NTMX8501) M X 72 A B 6 6 6 6 MMM B M B M B MMM 6 6 6 6 B A M XXXXXXXXXXXXXXXXXXXXXXX X 74 01 78 92 92 69 87 75 73 02 74 02 74 02 73 75 87 69 92 92 78 01 74 72 A or or or or or A P at C C U U or M M S M D M D M S M M or U U C C at P O or M T T X A I X S3 X S3 X I A X T T M or O W N B R R R M 81 T G 87 0 87 0 87 G T 81 M R R R B N W E AA or X or R or A or A or R or X or AA E R 0 0 76 M I 81 81 81 I M 76 0 0 R 12 I X X X or or or X X X I 12 S 50 83 83 83 83 83 50 S P P 01 02 03 04 05 06 07 08 09 1
Outside Plant Access Cabinet (NTP 297-8211-550, OPAC Maintenance Manual) L D 5 L D 6 L D 7 L D 8 L D 9 L C A - 1 BCU B C C 0 LCM L D 0 L D 1 L D 2 L D 3 L D 4 L C A - 0 B C C 1 Filler panel PO747175 Rectifiers MSP Host Interface Equipment Remote Maintenance Module Cooling unit Cooling unit BAY 0 BAY 1 Note: BCC0 & 1 are NT8X02XX Battery Charging Controller packs.
Outside Plant Module (NTP 297-8361-550, OPM Maintenance Manual) OPM-640 Bay Frame (NT8X01AA, AB) Hi temp Alarm Bay locking knobs Door switch Hi temp Alarm RECT1 BCC0 BCC1 Fuse panels LCA- 1 PCU RECT0 DS-1 Repeater Card s LCA- 0 FS P RMM HIE ECU BAY 0 Low temp heater switch EC U BAY 1 Low temp alarm sensors Diffuser filters Low Diffuser Bay locking temp filters Damper knobs heater cont. Sens switch Low temp alarm sensors.
Message Services Module (MSM) for DMS VoiceMail (NTP 297-7001-502, DMS VoiceMail Card Replacement Procedures) DMS VoiceMail is a voice processing system designed to provide call answering and voice messaging services for the central office (CO) environment. A DMS VoiceMail system uses a message services module (MSM) and voice processing software, and is administered from either a local or remote terminal.
TOPS Message Switch (TMS) shelf (NT6X0201) 6 6 6 6 6 0 0 6 6 6 6 6 0 6 0 B 0 6 0 6 6 6 0 0 2 X XXXXXXXXXXXXXXXXXXXXXXXX 50 50 50 50 50 50 50 45 47 47 46 45 50 44 50 01 50 69 50 42 41 40 50 50 70 or or or or or or or or or or or or or P B B B B B 6 6 0 0 0 0 M T 6 S M C S N O X XXXXXXXXXXX S X P S S B E W 02 02 02 02 02 48 48 50 50 50 50 77 92 G MF T E IF R 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Note: For further description of the following TOPS TMS packs, see the “
SuperNode Data Manager (SDM) Quick References SDM Main Chassis Front View RX RX 50 50 C * ** O N DS I T 5 / R 1 O O 2 L L E R NTRX50FE or FF Fan Tray 0 (Domain 0) NTRX50FE or FF Fan Tray 1 (Domain 1) RX RX RX RX D O 50 C 50 C 50 50 *** O * ** U P *** O A T N N L I C T C T DS I O P R F F P R 5 / D N U O I I U O 1 O I A L L L L 2 S L L L L L K E E E E S R R R R C O N T R O L L E R D U A L D I S K S O P T I O N A L 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 Domain 0 CPU Core Domain 1 Note: For furthe
SDM Quick References continue. SDM References Logs: SDM, (See NTP 297-5051-840) Note: Log files exist on the SDM in directory /var/adm. Use unix commmands: more, pg, or tail to view logs.
SuperNode Cabinet Frame supervisory panel P P O O W W E E R R MS 0 P P O O W W E E R R MS 1 P P O O W W E E R R DMS-bus P P O O W W E E R R Computing module Shelf or Filler Shelf for XA-Core DMS-core or XA-Core Shelf located on bottom shelf P P O O W W E E R R CPU 0 P P O O W W E E R R SLM 0 CPU 1 P P O O W W E E R R SLM 1 P P O O W W E E R R Core cooling unit SuperNode Switch Enhanced (SNSE) Cabinet Frame supervisory panel (FSP) DMS-bus P P O O W W E E R R F P I O L W L E E R R P P O O W
Message Switch (MS) shelf (NT9X04) 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X NO T E B E L O W > 19 32 26 54 32 19 20 20 32 32 < S E E L L R or or F O T CO S H E L F A S S E E N F IF IF 9 9 I A I L A F R OM B A C K I P P X X L D F KD L B B 23 23 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 09 08 07 9 9 9 9 9 X X X X X 17 17 49 31 30 9 9 9 9 9 9 9 X X X X X X X 31 30 52 53 13 14 15 NO T E B E L OW > 4 4 T P P P P T C C MM < S E E E OO L P E A OO P P R WW S H E L F A S S E E N WW B K U
System Load Module (SLM) shelf (NT9X07) SLM 1 (REAR VIEW) SLM 0 (REAR VIEW) 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X X X X X X X X X X X X X XX X X 27 19 19 19 19 19 19 19 46 22 21 46 19 21 46 19 22 19 19 19 19 19 19 19 46 27 (S H E L F F R OM S E E N A S B A C K) 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 09 08 07 9 9 9 X X X 47 30 19 or or P D D OX X W 16 16 E A A R A A 9 9 9 9 9 9 9 9 X X X X X X X X 19 19 12 19 19 12 19 19 9 X 44 SYSTEM LOA
Link Peripheral Processor (LPP) Local Message Switch (LMS) shelf (NT9X71) LMS 1 (REAR VIEW) LMS 0 (REAR VIEW) 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X X X X X X X X X X X X X XX X X 19 79 23 23 19 19 19 19 19 19 26 19 19 19 19 26 19 19 19 19 19 19 23 23 79 19 (S H E L F A S S E E N F R OM B A C K) 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 09 08 07 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X X X X X X X X X X X
Link Interface Shelf with LIUs (NT9X72BA) (Example shown with twelve 2-pack CCS7 Link Interface Units (LIUs) 9 9 E 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 E 9 E 9 X X X X X X X X X X X X X X X X X X X X X X X X XX 79 78 20 78 19 78 19 78 19 78 19 78 19 78 19 78 19 78 19 78 19 78 20 78 20 79 or or A or or or or or or or or or or B or B or 9 A 9 A 9 9 9 9 9 9 9 9 9 9 9 A 9 X or X or X X X X X X X X X X X or X 98 77 9 77 77 77 77 77 77 77 77 77 77 9 77 9 98 X X X 19 19 S H E L F 19 F R OM B A C K S E E N A S 32
Link Interface Shelf with XLIUs and NIUs 9 9 9 9 9 9 9 9 9 9 9 E 9 E 9 9 9 9 9 9 9 F 9 F 9 9 X X X X X X X X X X X X X X X X X X X X X X X X XX 79 19 19 19 19 19 19 19 19 19 19 28 19 28 19 19 19 19 19 19 19 09 19 09 19 79 B D D B A C C S S A or 30 30 or 9 B B 9 X U U S H E L F X S 98 S F R OM B A C K S E E N A S 98 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 09 08 07 9 9 9 E F E F 9 9 9 9 9 9 E E E E 9 9 9 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X
File Processor shelf (NT9X81AA) Manufacture Discontinued (MD) 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X X X X X X X X X X X X X XX X X 19 21 19 19 19 62 26 26 62 19 19 19 21 21 19 88 88 62 26 26 62 88 88 19 21 19 T E R M D S 5 1 2 R T I F (S H E L F D S 5 1 2 T T E E R R MM A S S E E N R T I F P R O C P R O C D S 5 1 2 R T I F F R OM R T I F D S 5 1 2 P R O C T E R M P R O C B A C K) 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 09 08
SuperNode SNSE Block Diagram DMS-bus P P O O W W E E R R F P I O L W L E E R R P P O O W W E E R R P P O O W W E E R R Message Switch 0 Message Switch 1 LINK INTERFACE SHELF L I U 7 16K ENET Plane 0 L 16K I ENET U Plane 1 7 S DMS-core shown L or XA-Core M CPU 0 CPU 1 0 Msg Link Msg Link S L M 1 P P O O W W E E R R F I L L E R P O W E R P P O O W W E E R R P O W E R Note: The Input Output Controller (IOC) below has been replaced with the Input Output Module (IOM) located in the Integrated S
SuperNode SE Message Switch shelf (NT9X0470) MESSAGE SWITCH 1 MESSAGE SWITCH 0 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 X X X X X X X X X X X X X X X X X X X X X X XX X X 19 79 19 23 19 19 19 19 19 62 26 54 19 19 54 26 62 19 19 19 19 19 23 19 79 19 or or or or or or or or or or or or C R 62 69 69 69 69 69 69 69 69 69 69 62 R C or or or or L T T L or or or or 62 62 23 23 K I I K 23 23 62 62 or F F or 25 IF IF 25 (S H E L F A S S E E N F R OM B A C K) 32 31 30 29 28 27 26 25 24 23 22 21 20 19
SuperNode SE 16K ENET shelf PLANE 1 PLANE 0 9 9 E 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 E 9 X XX X X X X X X X X X X X X X X X X X X X XX X X 79 77 20 40 40 19 40 40 40 40 40 40 40 26 40 19 40 40 40 40 40 40 26 77 20 79 or A or or B or or or or or or or or B or or or or or or or B or 9 A 41 41 A 41 41 41 41 41 41 41 R 41 A 41 41 41 41 41 41 R 9 A 9 X X or or or or or or or or or T or or or or or or or T X 78 45 45 45 45 45 45 45 45 45 I 45 45 45 45 45 45 45 I 78 78 or F F 19 F R O M B A C K) S E E N A S
XA-Core shelf (NTLX0101) (NTP 297-8991-511, DMS SN & SNSE XA-Core Maintenance Guide) Note: Provisioning will vary depending upon configuration.
Distributed Processing Peripheral (DPP) (MD’d 4Q00; replaced with SBA on SDM) A Chassis (Processor A) 6 6 6 6M71 MMM Power Supply 62 63 64 Assembly 6M72 Disk Drive 6 6 6 MMM 65 60 94 F R O N T 6 6 6 6 MMMM 66 70 70 68 V I E W 01 02 03 04 05 06 07 08 09 10 11 12 13 14 B Chassis (Processor B) 6 6 6 6M71 MMM Power Supply 62 63 64 Assembly 6M72 Disk Drive 6 6 6 6 MMMM 66 70 70 68 M 6 6 6 MM 09 60 94 F R O N T V I E W 01 02 03 04 05 06 07 08 09 10 11 12 13 14 6M60 — Quad SIO 6M62 — Central Processor
DPP Commands Note: Use the following DPP commands with caution and refer to the following document for information on their use: • NTP 297-1001-539, DPP Hardware Component Replacement Guide • NTP 297-1001-544, DPP Quick Reference Guide • NTP 297-1001-545, DPP Commands and Messages Guide Alarm Operations: >ERRMAP ALARMS >ERRMAP e t l >RSERR s nn Displays a list of active alarms on active and standby processor. Change specified alarm parameters.
DPP Commands continue Index Manipulation: >IDXMAINT CLOSE Close file currently open for read. >IDXMAINT CHECK t Check the index file. >IDXMAINT CREATE DIR t i Creates a new index file with primary data only. >IDXMAINT CREATE DIR t i p Creates a new index file with secondary and primary data. >IDXMAINT CREATE DIR t i p v2 Creates a new index file with secondary and primary data plus the version containing the requested primary sequence number (see IDXMAINT SUMMARY).
DPP Commands continue Processor Activity: >SWACT o Site Data Entry: >AMAHRS >AMATPSW Change current active processor (A to B or B to A). o = FORCE: optional entry reset any alarms on the standby processor and then performs the SWACT. Displays hour boundaries currently assigned. >AMAHRS s e Set the time interval to verify that AMA records have been received from the Switching System. s = two digit start time(00 - 23). e = two digit end time (00 - 23). Examine the AMAT Password.
DPP Commands continue. Testing: >DPRTST >TEST s DSI Functions: >DSIMAINT SHOW x a Performs a Dual-Ported Random Access Memory test on standby processor. Performs built-in-tests on selected processor. s = ACT or STDBY Displays the argument of the selected DSI port on the active processor. >DOS S DSIMAINT SHOW x a Displays the argument of the selected DSI port on the standby processor. x = DSI Port ID: 1 or 2. = 1 = DSI in slot A13 = 2 = DSI in slot A12. a = argument: ERROR, STATUS, or VS.
Billing Media Converter (BMC) (MD’d 4Q00) (Bisync polling protocol) A Chassis (Processor A) 6 6 6 6M71 MMM Power Supply 62 63 64 Assembly 6M72 Disk Drive 6 6 6 6 MMMM 66 70 70 68 6 6 MM 65 60 F R O N T V I E W 01 02 03 04 05 06 07 08 09 10 11 12 13 14 B Chassis (Processor B) 6 6 6 6M71 MMM Power Supply 62 63 64 Assembly 6M72 Disk Drive M 6 6 M 09 60 F R O N T 6 6 6 6 MMMM 66 70 70 68 V I E W 01 02 03 04 05 06 07 08 09 10 11 12 13 14 6M62 — Central Processor Unit with Direct Memory Access (DMA) 6
145 IOC NT NT 1 1 X X 61 61 AB AG or AD X X X X X X X X X X X X X IOM NT F X 31 AA X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X NT N X 36 QA X NT 0 X 96 EH X NT 0 X 26 LY X NT 0 X 96 EF X NT 0 X 96 EG X Cable NT 0 X 96 JY X NT 0 X 96 HJ X NT 0 X 96 GS X NT 0 X 96 HG X NT 0 X 96 HH X X X NT 0 X 96 LU X NT F X 34 AA X X NT F X 35 AA Note 1 One (1) Smart Connector Extension Cable, NTFX40UC, is re
XPMTRAK (TAM-1001-004 PMDEBUG Technical Assistance Manual) Note: Reference the TAM for a complete list of XPMTRAK commands and any CAUTIONS and WARNINGS about their use. PMDEBUG XPMTRAK can gather a trmtrace, msgtrace, and pgmtrace all at once.
XPMIST Note: (TAM-1001-007 PMIST User Guide) Reference the TAM for a complete list of XPMIST commands and any CAUTIONS and WARNINGS about their use. To set up XPMIST: >XPMIST >SELECT ON >ASSOCIATE ENA >ASSOCIATE ON >INCLUDE . . .* >INTERCEPT BOTH MON >RECORD OPEN * Include up to eight node/terminal number combinations. Place test calls.
XPMIST Call Processing Messages (TAM-1001-007 PMIST User Guide) ABANDON_MSG ANI_MSG T I E R II S U P P O R T T O O L S Trunk exited during digit collection. Reports results of ANI identification on party line. ANSWER_MSG Terminal answered the call. ATD_RESULT_MSG Reports results from an audio tone detector. CALL_ABANDONED_MSG Line exited during digit collection. CALL_FAILURE_MSG Terminal detected call failure. CHANNEL_BLOCKING_ Call blocked in XPM (no P-side MESSAGE channel).
XPMIST Breakdown for Attendant Console (TAM-1001-007, PMIST User Guide) Note: The following examples contain abbreviations and may not appear exactly as a printout would. XPMIST Example: INCOMING 13:51:05.3 NODE TYPE= TM_NODE DM_REPORT_MSG NN= 0031 TN= 0007 MSGTAG= 01 ROUTE= 4080 ERR= 00 LENGHT= 13 AGENT= DMODEM 22 5F 00 00 07 01 14 12 0F 15 6C 1C CALLID= 925734 digits dialed: 5306 key hit message 1 + 4 -> 5 1 + 2 -> 3 0 + F -> 0 1 +5 -> 6 XPMIST Example: INCOMING 13:51:05.
ISDN BRI Troubleshooting PM180 and PM189 Logs Scenario: The following PM180 has just occurred from LTC 3: * PM180 JAN1 19:12:49 1300 TBL PM SW EXCEPTION REPORT LTC 3 Unit 0 : Act TASKID: 000E000E MPAUDTK, TIME: 19:12:48.99, COMID: FF NILCID TEXT : transssb 00 01 1B 64 00 15 00 00 Additional information on PM180s and PM189s can be obtained from the PMDEBUG Swerr level. Use the following procedures: STEP 1.
ISDN Q931 Procedures for Traces on BRI and PRI Note: For BRI Q931, see NTP 297-2401-501 DMS-100F ISDN BRI Maintenance Guide and the chapter on “Protocol Analysis” using PMDEBUG. TABLE: TRKSGRP >pos pri2w 0 PRI2W 0 DS1SIG ISDN 10 20 87Q931 2 N STAND USER PT_PT USER N UNEQ 30 N DEFAULT DTCI 0 11 24 64K HDLC $ %%%% 11 is span number needed for pmdebug >pmdebug dtci 0 PMDEBUG MODE - CONNECTING TO DTCI 0 UNIT 0 WARNING: You now have access to PM monitor....
ISDN Q931 procedure continues. UP:LLmsim> UP:LLmsim> >disp off (optional) >mon Incoming monitor is now on. OUT=Off; IN=Mon; Options=[verbose,stid,ltid,etid,spa,ramfile,screen] Outgoing monitor is now on. T I E R II <== Q931: SETUP: from S[7052] L[1,378,0] E[41,377,0] SPA[----] CR: 0,01 BC: speech 64 kbit/s circuit mode mu-law speech CID: 0 Channel Type: B - Channel Units (3). Number Map: Channel is indicated by the number following.
153 00 D1 key 1 (DN Key) CPINTENT TYPE SELECTOR LENGTH DATA = TERM SEND SET DATA%tell PM the key assignments on this set key 2, key 3, ...........etc. =0 = #26 = 15 15 15 15 15 14 14 14 1B 03 0B 88 C0 FD 2B 17 14 14 14 14 1C 20 15 15 15 15 14 14 14 14 14 1E 14 14 01 0F D0 FD OUTGOING 15:49:34.
S U P P O R T T O O L S Debug Verification of Line State II BRISC 268 268 XA-Core 25C 25C Verify the CLLI name for BRISC/XA-Core (trunk_group_prot_data) >di trkdui:pr.XXXX d 4 (&) d 128 (&).YY,0,d common_language_name Verify the TRUNK_STATE for BRISC/XA-Core: >di trkdui:pr.XXXX d 4 (&) d 128 (&).2 d 4 (&) d 7 (&).
Supplemental Debug Calculations for Trunks The following is a supplemental procedure for the calculation of low/high trunk group numbers and the trunk block and member as provided on the previous page for the “Debug Verification of Trunk State.” Calculation of trunk group high/low number and block and member: To calculate Node and Terminal number use the CONVERT command in PMIST: >CONVERT TRK Verify the CP_ID for BRISC/XA-Core >di iocpdef:pr.
CALLTRAK (TAM -1001-012, CALLTRAK User Guide) Note: CALLTRAK has a significant REALTIME impact on the switch. It affects every call. Reference the TAM above and see the CAUTIONS and WARNINGS before using any commands. Commands >CALLTRAK >ALLTOOLS >DISPLAY >MSGTRACE >PGMTRACE >QUIT >REMOVE >SELECT >SESSION T >START I >STATUS E >STOP >TIDTOVID R II >TIMECALL >VIDTOTID Description accesses the CallTrak level (may require password). use to enable or disable all available tools. use to show the output.
CCS7 Test Utility (C7TU) (TAM-1001-015, C7TU User Guide) Note: Before using the C7TU commands below, see the TAM above and review the Danger, Warning, and Caution messages. C7TU Commands: >C7TULINK access the C7TULINK test environment. Use Q or HELP C7TULINK to get list of optional commands. >C7TUREC record unformatted C7TU reports to a file on the specified device. Use HELP C7TUREC for commands >C7TUPRT formats and prints C7TU reports.
ISUP MSG Codes as listed with C7TU Msgcode T I E R II S U P P O R T T O O L S MSG CODE MTC LDR MON EXT . ISUP . . . IAM . . . SAM . . . INR . . . INF . . . COT . . . ACM . . . CON . . . FOT . . . ANM . . . UBM . . . REL . . . SUS . . . RES . . . RLSD . . . RLC . . . CCR . . . RSC . . . BLO . . . UBL . . . BLA . . . UBA . . . GRS . . . CGB . . . CGBA . . . CGU . . . CGUA . . . CMR . . . CMC . . . RCM . . . FAR . . . FAA . . . FRJ . . . FAD . . . FAI . . . LPA . . . CSVR . . . CSVS . . . DRS . . . PAM . . .
NOTES ASCI to HEX ______________________ A 41 ______________________ B 42 C 43 ______________________ D 44 E 45 ______________________ F 46 G 47 ______________________ H 48 I 49 ______________________ J 4A K 4B ______________________ L 4C M 4D ______________________ N 4E O 4F ______________________ P 50 Q 51 ______________________ R 52 ______________________ S 53 T 54 ______________________ U 55 V 56 ______________________ W 57 X 58 ______________________ Y 59 Z 5A ______________________ 0 30 1 31 ________
NOTES ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________ ______________________
Index A through Z Abbreviations and Acronyms .....................................................1 ACDDEBUG ............................................................................146 ACD-MIS Quick References ....................................................35 ACD Commands ..................................................................35 ACDDEBUG Command ......................................................... 35 ACDQSTAT Command .........................................................
CC MIS System Reports ..................................................... 40 CCS7 Fault scenario concerns a single STP failure. ............. 56 CCS7 Fault scenario concerns a single link failure ................ 54 CCS7 Fault scenario concerns both links failing .................... 55 CCS7 Fault scenario concerns linkset with one “A” link. .... 53 CCS7 Quick References ........................................................... 51 CCS7 Linksets ...........................................................
QACCT Commands .............................................................38 Travel Card Number Test (TCNTEST) Command ..............38 Trunk Group Types ..............................................................38 TRAVER of DAL Trunk .....................................................39 TRAVER of EANT Trunk ...................................................39 DRAM (modified MTM) shelf ..............................................100 Optional PROM and RAM Speech Memory Cards ...........
LM/RLM Ringing Table .......................................................... 94 Local Number Portability (LNP) Quick References ............. 34 Call to Ported DN ................................................................ 34 LNP TRAVER Examples .................................................... 34 LOGUTIL Info, Control, Routing, & Devices Commands ... 13 LOGUTIL Log Browsing Commands .................................... 13 Mag Tape (9 Track) Commands .............................................
SHOWAUD Command .............................................................14 SLM DISKUT NonMenu Commands .....................................15 Small Remote Unit (SRU) (MD) ............................................103 SMDI Quick References ...........................................................43 BSY/RTS card, & restore link .............................................43 Message Waiting Utility Commands ...................................44 MONMPC CI: Level Commands .............................
SuperNode Switch Enhanced (SNSE) Cabinet .................... 128 Switch Performance Monitoring System (SPMS) Commands12 System Load Module (SLM) shelf ......................................... 130 Table Audit (TABAUDIT) Commands .................................. 12 Table Editor Commands .......................................................... 21 TERMTRACE Setup ............................................................. 147 TOPS IP-XPM Gateway Peripheral .....................................
The technical writer of this document would like to thank all the customers and Nortel Network employees that have provided support to make this a very successful document since the first issue in 1993.
2002 DMS-100 Family QUICK REFERENCE GUIDE TAM-1001-018 Product release: multiple PCL loads through NA017 Release: Standard 09.01 Date: August 2002 © 2002 Nortel Networks Printed in the United States of America. This document, or parts thereof, may not be reproduced without the written permission of Nortel Networks. Nortel Networks Confidential: The information contained in this document is the property of Nortel Networks.