Download Print this page

Nortel Meridian 1 Succession 1000M Installation And Configuration Manual

Large system

Hide thumbs Also See for Meridian 1 Succession 1000M:

Installation and configuration manual (564 pages)

,

Description (534 pages)

,

Manual (238 pages)

Table Of Contents

page of 378

/ 378
Contents
Table of Contents
Bookmarks

Table of Contents

Advertisement

Quick Links

Download this manual

Title page

Meridian 1

Succession 1000M

Succession 3.0 Software

Large System

Installation and Configuration

Document Number: 553-3021-210

Document Release: Standard 1.00

Date: October 2003

Year Publish FCC TM

Copyright © 2003 Nortel Networks

All Rights Reserved

Produced in Canada

Information is subject to change without notice. Nortel Networks reserves the right to make changes in design

or components as progress in engineering and manufacturing may warrant. This equipment has been tested

and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC rules, and the

radio interference regulations of Industry Canada. These limits are designed to provide reasonable protection

against harmful interference when the equipment is operated in a commercial environment. This equipment

generates, uses and can radiate radio frequency energy, and if not installed and used in accordance with the

instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a

residential area is likely to cause harmful interference in which case the user will be required to correct the

interference at their own expense.

SL-1, Meridian 1, and Succession are trademarks of Nortel Networks.

Table of Contents

Advertisement

Table of Contents

Need help?

Need help?

Do you have a question about the Meridian 1 Succession 1000M and is the answer not in the manual?

Questions and answers

Summary of Contents for Nortel Meridian 1 Succession 1000M

Page 1 All Rights Reserved Produced in Canada Information is subject to change without notice. Nortel Networks reserves the right to make changes in design or components as progress in engineering and manufacturing may warrant. This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC rules, and the radio interference regulations of Industry Canada.
Page 3 Page 3 of 376 Revision history October 2003 Standard 1.00. This document is a new NTP for Succession 3.0. It was created to support a restructuring of the Documentation Library, which resulted in the merging of multiple legacy NTPs. This new document consolidates information previously contained in the following legacy documents, now retired: •...
Page 4 Page 4 of 376 553-3021-210 Standard 1.00 October 2003...
Page 5: Table Of Contents
Page 5 of 376 Contents About this document ..... . . Subject ..........Applicable systems .
Page 6 Page 6 of 376 Contents Placing the fourth module on a column ......Positioning and leveling equipment ... Contents .
Page 7 Page 7 of 376 Installing the BIX cross-connect terminal ..... . . Installing the Krone cross-connect system (UK) ....Installing Power Failure Transfer Units (PFTUs) .
Page 8 Page 8 of 376 Contents Optioning the System Utility Card ......Connecting Core modules to a LAN ......Cabling common equipment in a multi group system .
Page 9 Page 9 of 376 Cabling lines and trunks ..... 225 Contents ..........Overview .
Page 10 Page 10 of 376 Contents Overview ..........Adding a module to the base of a column .
Page 11: About This Document
Page 11 of 376 About this document This document is a global document. Contact your system supplier or your Nortel Networks representative to verify that the hardware and software described is supported in your area. Subject This document provides installation and acceptance testing procedures for Meridian 1 Large Systems and Succession 1000M Large Systems.
Page 12 Page 12 of 376 About this document • Meridian 1 Option 81C CP PII • Succession 1000M Half Group • Succession 1000M Single Group • Succession 1000M Multi Group Note that memory upgrades may be required to run Succession 3.0 Software on CP3 or CP4 systems (Options 51C, 61, 61C, 81, 81C).
Page 13: Intended Audience
This document is intended for individuals responsible for installing and configuring Large Systems. To use this document, you should have a basic knowledge of Large System equipment and operation. Contact Nortel Networks for information on installation courses. You should also read and fully understand the Large System: Overview (553-3021-010) before you install a system.
Page 14: Related Information
Candeo Power System User Guide (P0914425) • Candeo Power System Installation Guide (P0914426) Online To access Nortel Networks documentation online, click the Technical Documentation link under Support on the Nortel Networks home page: http://www.nortelnetworks.com/ CD-ROM To obtain Nortel Networks documentation on CD-ROM, contact your Nortel Networks customer representative.
Page 15: Introduction
Page 15 of 376 Introduction Contents This section contains information on the following topics: Overview ..........Summary of procedures .
Page 16: Summary Of Procedures
Page 16 of 376 Introduction Summary of procedures Prepare equipment for installation; go to “Preparing the equipment for installation” on page Place the fourth module on a column (if required); go to “Placing the fourth module on a column” on page Position and level equipment;...
Page 17 Introduction Page 17 of 376 Install Power Failure Transfer Units (PFTUs) (if required); go to “Installing Power Failure Transfer Units (PFTUs)” on page 113. 10 Configure the system monitor; go to “Configuring the system monitor” page 119. 11 Connect a system terminal (or modem); go to “Connecting a system terminal or modem”...
Page 18 Page 18 of 376 Introduction Table 2 List of tasks in subsections Task Go to page Preparing for installation Placing the fourth module on a column Positioning and leveling equipment Installing overhead cable tray kits Installing ac power Installing dc power Planning and designating the Main Distribution Frame (MDF) Installing Power Failure Transfer Units (PFTUs)
Page 19: Preparing For Installation
Page 19 of 376 Preparing for installation Contents This section contains information on the following topics: Requirements..........System equipment –...
Page 20: System Equipment - Uems
Page 20 of 376 Preparing for installation System equipment – UEMs Universal Equipment Modules (UEMs) are the building blocks of the communications system. Each UEM is a self-contained unit with power, a card cage, I/O panels, and cable routing channels. It is a generic case containing sets of equipment used in system operations (see Figure 1 on page 21).
Page 21 Preparing for installation Page 21 of 376 Figure 1 Universal Equipment Modules Top caps A top cap is mounted on the top module of each column. It contains: • Air exhaust grills in the cap that release air from the blowers in the pedestal.
Page 22 Page 22 of 376 Preparing for installation Modules Up to four modules can be included in a column. The modules can include: NT4N41 CompactPCI ® (cCPI) Core/Network Module – required for all • Large Systems • NT8D35 Network Module – required for Meridian 1 Option 81C CP PII and Succession 1000M Multi Group •...
Page 23 Preparing for installation Page 23 of 376 Figure 2 Example of Large System column row UEMs are identified by function Each UEM contains a specialized set of equipment to digitalize, process, and route phone calls and voice messages (see Figure 3 on page 24).
Page 24 Page 24 of 376 Preparing for installation Figure 3 UEMs identified by function Card cage Inside each UEM is a metal card cage. This card cage holds the circuit cards, power card, and related equipment for that module. UEMs are named for the function of that card cage.
Page 25 Preparing for installation Page 25 of 376 Core/Net module Large Systems feature the NT4N41 Core/Net module. The Core/Net module provides a unified hardware platform for single group and multi-group configurations. The NT4N41 Core/Net module supports: • Two CD-ROM for all systems. •...
Page 26 Page 26 of 376 Preparing for installation Figure 4 NT4N41 Core/Net shelf fanout panel (backplane) Group 2 Group 1 Group 5 Group 4 Group 3 Group 6 Group 7 slot 11 slot 10 slot 9 slot 11 slot 10 slot 12 slot 12 port 1 port 0...
Page 27: System Options
Preparing for installation Page 27 of 376 System options The procedures in this document apply to the following system options: • Meridian 1 Option 61C CP PII: enhanced common control complex with dual CPU, full network group • Meridian 1 Option 81C CP PII: enhanced common control complex with dual CPU, multiple network groups •...
Page 28 Page 28 of 376 Preparing for installation Figure 5 Meridian 1 Option 61C CP PII stacked configuration Core/Net 1 Core/Net 0 Main column 553-5960 Figure 6 Meridian 1 Option 61C CP PII side-by-side configuration 553-3021-210 Standard 1.00 October 2003...
Page 29 Preparing for installation Page 29 of 376 Meridian 1 Option 81C CP PII and Succession 1000M Multi Group These systems feature a dual Pentium II Processor with standby processing capability, two Core/Net modules installed side-by-side, and two or more network groups. The Core/Net modules provide the first network group, and network module pairs provide additional network groups.
Page 30 Page 30 of 376 Preparing for installation Figure 7 Migration from single-group system to multi-group system Core/Net 1 Core/Net 0 Original Upgrade IPE expansion Column Column 553-7509 Figure 8 Migration from 3-tier single-group system to multi-group system Core/Net 1 Core/Net 0 Upgrade Original IPE expansion...
Page 31 Preparing for installation Page 31 of 376 Succession Signaling Server Succession 1000M systems use a Succession Signaling Server. The Succession Signaling Server provides a central processor to drive the signaling for Internet Telephones and IP Peer Networking. The Succession Signaling Server is an industry-standard PC-based server that provides signaling interfaces to the IP network, using software components that operate on the VxWorks™...
Page 32: Cable Routing Guidelines
Page 32 of 376 Preparing for installation Engineering rules Each system is defined using the following assumptions and general engineering rules. A system may be upgraded to the next larger system type as defined in Large System: Upgrade Procedures (553-3021-258). When expanding to the next system type, the changes to the physical configuration must be kept as simple as possible to reduce downtime and installation costs.
Page 33 Preparing for installation Page 33 of 376 must be shielded, and must enter and exit the EMI-shielded area through I/O panels and adapters. Figure 10 Cable routing troughs – front view of module Cabling troughs 553-3117 A typical routing scenario from the faceplate of a printed circuit pack (PCP) to one of the I/O panels is as follows: •...
Page 34 Page 34 of 376 Preparing for installation All other internal vertical cable routing from one module to another should be done only in the right vertical cable trough. Since all faceplate to I/O panel cables are the same length and the card position in the card cage can vary, a cable may contain excess slack.
Page 35 EMI shielding.) Nortel Networks recommends that you use the 90° connector end of the cable to route the cable through a module or cabinet instead of the 180° end since some openings are small (see Figures 12 and 13).
Page 36: Equipment Handling Precautions
Page 36 of 376 Preparing for installation Figure 13 180° cable connector 553-7498 Equipment handling precautions To avoid personal injury and equipment damage, review the following guidelines before handling the equipment. Unloading equipment Special ramps, packed inside the pallet holding Column 0, must be used to move the equipment off the pallet.
Page 37 Preparing for installation Page 37 of 376 Working with power supplies There are no user-repairable components in the power supply. If a power supply fails, the complete unit must be replaced. Do not disassemble a power supply under any circumstances. DANGER OF ELECTRIC SHOCK To avoid the danger of electric shock, be careful when working with power equipment and...
Page 38: Preparing The Equipment For Installation
Page 38 of 376 Preparing for installation Figure 14 Static discharge points Module rear Wrist strap connection point Bare metal strip Power supply slot Module Wrist strap Bare metal strip front connection point 553-5000 Preparing the equipment for installation Use the equipment room floor plan to position equipment. See Large System: Planning and Engineering (553-3021-120) to prepare the equipment room and floor plan.
Page 39 Preparing for installation Page 39 of 376 Procedure 1 Preparing the equipment for installation Remove equipment from the shipping pallets; follow the unpacking instructions that come with the packaging material. Remove the front and rear covers from each module: With a flat blade screwdriver, turn the lock clockwise on the two locking latches (see Figure 15 on page 39).
Page 40 Page 40 of 376 Preparing for installation Figure 16 Removing the pedestal grill Captive screw Captive screw 553-3054 Make sure all of the items on the system order form are on the packing slip that comes with the equipment. Inspect all equipment for physical damage. Report any damage to your supplier.
Page 41: Placing The Fourth Module On A Column
Page 41 of 376 Placing the fourth module on a column Contents This section contains information on the following topics: Overview ..........Placing the fourth module on a column .
Page 42 Page 42 of 376 Placing the fourth module on a column WARNING A fully loaded module weighs approximately 58.9 kg (130 lbs). More than one person is required to place a module on a column. Procedure 2 Placing the fourth module on a column Position and secure the fourth module.
Page 43 Placing the fourth module on a column Page 43 of 376 Figure 17 Module positioning guides Positioning guides Front Rear Opening for cables 553-3056 Large System Installation and Configuration...
Page 44 Page 44 of 376 Placing the fourth module on a column Figure 18 Module mounting bolts Mounting bolts 553-3057 Connect the module-to-module power and system monitor cables. Connect the power connectors between the modules (see Figure 19 page 45). Connect the system monitor cable from connector J2 on the third module to J1 on the fourth module.
Page 45 Placing the fourth module on a column Page 45 of 376 Figure 19 Power and system monitor connections Top cap I/O safety panel Module 3 Power connectors between modules System monitor connector — J2 in Module 2 to J1 in Module 3 I/O safety panel Module 2...
Page 46 Page 46 of 376 Placing the fourth module on a column 553-3021-210 Standard 1.00 October 2003...
Page 47: Positioning And Leveling Equipment
Page 47 of 376 Positioning and leveling equipment Contents This section contains information on the following topic: Positioning and leveling the equipment ......Positioning and leveling the equipment Columns normally stand on adjustable feet that provide leveling capability and ground isolation.
Page 48 Page 48 of 376 Positioning and leveling equipment Position a level across the top module cover on the front of the column. Loosen the locking nuts on the feet. Adjust the feet on each pedestal up or down to level the column. Perform step a to step e for leveling the rear of the system.
Page 49 Positioning and leveling equipment Page 49 of 376 Figure 20 Positioning spacer gaskets Gasket placement Rear Front 553-5641 Attach a spacer to one side of each module, except the end column (see Figures 21 and 22). — Position a spacer against the module. —...
Page 50 Page 50 of 376 Positioning and leveling equipment Figure 21 Spacer positioning Rear Spacer Screw Stand-off Spacer 553-A0130 553-3021-210 Standard 1.00 October 2003...
Page 51 Positioning and leveling equipment Page 51 of 376 Figure 22 Column positioning with spacers Step 1 Attach spacers to one side of each column (except the end column) (end column) Spacers Spacers Step 2 One at a time, push columns together, level, align, and attach the other side of the spacer Step 3 Positioning completed...
Page 52 Page 52 of 376 Positioning and leveling equipment 553-3021-210 Standard 1.00 October 2003...
Page 53: Installing Overhead Cable Tray Kits
Nortel Networks offers an NT8D63 Overhead Cable Tray Kit that provides equipment for mounting cable trays on the Large System columns. The kit includes two support brackets, and front and rear exhaust grills with cutouts for cable routing.
Page 54 Page 54 of 376 Installing overhead cable tray kits CAUTION System Failure Column frames must be insulated from contact with building structures such as concrete walls, floors, and ceilings. Whether the cable racks are column-mounted or ceiling-hung, the installation must maintain the integrity of the grounding architecture.
Page 55 Installing overhead cable tray kits Page 55 of 376 Figure 24 Overhead cable tray kit Bolt for bracket Customer-provided ladder rack J-bolt Bracket 553-3074 Install the front and rear air exhaust grills that come with the kit. Place the cable rack on top of the support brackets and fasten it to the supports with the J-bolts as shown in Figure 24.
Page 56 Page 56 of 376 Installing overhead cable tray kits 553-3021-210 Standard 1.00 October 2003...
Page 57: Installing Ac Power
Page 57 of 376 Installing ac power Contents This section contains information on the following topics: Ac-powered systems ........Safety ground/protective earth and logic return wiring .
Page 58: Safety Ground/Protective Earth And Logic Return Wiring
Page 58 of 376 Installing ac power Systems that use reserve power plug into the UPS, which in turn plugs into the power source (associated batteries can be located within the UPS or installed externally). Consult the UPS documentation for receptacle requirements.
Page 59 Installing ac power Page 59 of 376 Figure 25 Single column – ground and logic return distribution AC input Large System Service panel 120 V receptacle IG or ACEG Logic return Cord or (#6 AWG) conduit Safety ground (#6 AWG, min) AC conduit 208/240 V receptacle...
Page 60 Page 60 of 376 Installing ac power Figure 27 Multiple column, multiple row – ground and logic return distribution AC input Large System Common equipment columns Service panel 120 V receptacle IG or ACEG Safety ground (#6 AWG, min) Logic return reference (#6 AWG) AC conduit...
Page 61: Installing Ground Cabling
Installing ac power Page 61 of 376 Installing ground cabling Installing ground cabling involves: “Installing safety ground/protective earth and logic return wiring” on page 61 “Installing UPS ground cabling” on page 64 Installing safety ground/protective earth and logic return wiring Follow Procedure 5 to install safety ground/protective earth and logic return wiring.
Page 62 Page 62 of 376 Installing ac power Figure 28 PDU ground lug locations MAIN CIRCUIT BREAKER 8D53CB 553-8993 Ground lugs Connect the safety ground/protective earth wire (insulated ground wire must be used for system grounding). For a single-column system, connect a #6 AWG wire from the ground source in the service panel to a ground lug on the pedestal.
Page 63 Installing ac power Page 63 of 376 Place a warning tag on the connection at the ground source. The warning tag should read WARNING—TELEPHONE SYSTEM GROUND CONNECTION—DO NOT DISCONNECT. Using a volt/ohm meter, measure the resistance between the ground pin on the power plug and the ground terminal on the power outlet.
Page 64 Figure 31 is a block diagram of a UPS installation and associated wiring. Follow Procedure 6 to install UPS ground cabling. Note: Because UPS installation can be complex, Nortel Networks recommends that installers attend vendor training programs. Figure 31...
Page 65 Installing ac power Page 65 of 376 Procedure 6 Installing the UPS ground cabling CAUTION Damage to Equipment Take care when connecting battery leads to the UPS. A battery reversal can result in severe damage to the UPS. Make sure the safety ground/protective earth wire is connected on all Large System columns.
Page 66 Page 66 of 376 Installing ac power Figure 32 UPS grounding diagram Column frame grounds Column 0 Column 1 Column n UPS frame grounds UPS 0 UPS 1 UPS n Bypass switch frame grounds Isolated ground bus Service panel 553-3089 553-3021-210 Standard 1.00 October 2003...
Page 67: Installing Dc Power
Page 67 of 376 Installing dc power Contents This section contains information on the following topics: Dc-powered systems ........Candeo dc power system.
Page 68: Candeo Dc Power System
Page 68 of 376 Installing dc power To install reserve power equipment (batteries), follow the instructions provided with the equipment. To comply with safety requirements, consult the following articles before working with any battery systems. • Read the “Material Safety Data Sheet” that must be posted to meet OSHA requirements.
Page 69 Installing dc power Page 69 of 376 • Fully insulated environment • High efficiency • IP ready for simplified internet connectivity • HTML-based graphical user interface • Automated web-based maintenance and comprehensive on-screen troubleshooting • Remote access via modem or Ethernet permits remote operation of the power system •...
Page 70 Page 70 of 376 Installing dc power Candeo modules The Candeo platform uses a combination of modules or building blocks to deliver custom configurations. The modules include: Rectifier 50/48 Module System Manager Module Distribution 500 Module Rectifier 50/48 Module The shelfless Rectifier 50/48 provides up to 50 Amps (2 750 W) of -48 Vdc power.
Page 71 Installing dc power Page 71 of 376 System Manager Module The System Manager is the main control element of the Candeo system. The System Manager’s local and remote system management capabilities provide total control over the power system. System Manager Module features include: •...
Page 72 Page 72 of 376 Installing dc power Distribution Module features include: • Wide selection of distribution elements: – up to twenty, 1 to 100 A single pole circuit breakers – or up to ten, 100 to 150 A double pole circuit breakers –...
Page 73 Installing dc power Page 73 of 376 Sample configurations Example configuration #1 • 42" Frame with battery kit, LVD and distribution 500 (with 20 breaker positions). • 17 mid trip breakers (30 amp), one GMTX fuse block (takes up 3 breaker positions).
Page 74 Page 74 of 376 Installing dc power Installation reference guide The Candeo system can be easily installed using the Candeo Power Systems Installation Manual AP6C75 (P0914426). A basic synopsis of the installation manual is as follows. • Site Preparation – Overview, tools and test equipment, precautions and receiving materials.
Page 75: Nt6D53 Junction Box
Installing dc power Page 75 of 376 Configuring and Operating the Candeo Power System Maintenance Troubleshooting Replacement Parts Abbreviations and Acronyms Technical Service Assistance NT6D53 Junction Box If a rectifier is positioned at a distance from the Large System, the NT6D53 Junction Box can provide an interim connection between the rectifier and the field wiring terminal block in the pedestal.
Page 76: Safety Ground/Protective Earth And Logic Return Wiring
Page 76 of 376 Installing dc power For distances of up to 60 m (200 ft), there are: four split feeds per column with nine #10 AWG conductors in a single 3/4-in. conduit, and two 30-amp feeds from the distribution point to the junction box, with nine #4 AWG conductors in two 1-1/4 in.
Page 77 Installing dc power Page 77 of 376 CAUTION Maintain the integrity of the frame or safety ground The frame or safety ground shall not be confused with the reference ground lead, nor with the battery return leads. The frame or safety ground shall be wired in such a way as not to be carrying any ac or dc current at any time.
Page 78 Page 78 of 376 Installing dc power Note 1: The frame ground collector cable is normally sized according to its length (distance between the main dc distribution cabinet and the FGB or BPG) as well as the maximum fuse or circuit breaker size that can be provided in the power plant.
Page 79 Installing dc power Page 79 of 376 Table 4 Torque values for bolted connections (Part 2 of 2) Bolt size Threads/inch Torque (in-lb) Tension (lb) 7/16” 5110 5120 1/2” 6110 6140 5/8” 7350 3/4” 1400 9300 7/8” 1950 11100 1” 2580 12900 Procedure 7...
Page 80 Page 80 of 376 Installing dc power Secure the cables as required and use an identification tag bearing the mention “PWR PLT FG” to identify the cable(s) at the BPG or FGB ground bar connection. End of Procedure Figure 33 Typical installation of the power system frame ground lead 553-AAA0758 553-3021-210...
Page 81 Installing dc power Page 81 of 376 Figure 34 Connection of the frame ground lead inside the frame 553-AAA0759 Large System Installation and Configuration...
Page 82 Page 82 of 376 Installing dc power Figure 35 Ground and logic return distribution – Candeo Power System AC input Large System Service panel 120 V receptacle IG or ACEG Safety ground (#6 AWG, min) BRE/LRE Note 1 Battery / logic return reference Battery Connection Module (1000 A)
Page 83 Installing dc power Page 83 of 376 Figure 36 Ground and logic return distribution – Candeo Power System AC input Large System Service panel 120 V receptacle IG or ACEG Safety ground (#6 AWG, min) Battery/Logic Return Battery Connection Reference Module (1000 A) (#6 AWG, min) (No BLVD Contactor)
Page 84: Nt4N49Aa Four Feed Pdu
Page 84 of 376 Installing dc power NT4N49AA Four Feed PDU The NT4N49AA 4-wire PDU supports independent power feeds to each of 4 modules in a stack if required. However, in a typical installation where independent power feeds are not required, two jumper wires are provided to jumper adjacent battery leads.
Page 85 Installing dc power Page 85 of 376 Where independent power feeds are not required, 2 jumper wires are provided to jumper adjacent battery leads. When the jumper wires are used, the 4-wire PDU effectively provides the same “shared” power configuration provided by the existing dc PDU.
Page 86 Page 86 of 376 Installing dc power Circuit breakers must be located next to each other and labeled to show that both must be shut off to remove all power to the system. Figure 39 PDU circuit protection - 48 V source NT4N49AA PDU Terminal block Circuit protection...
Page 87 Installing dc power Page 87 of 376 A maximum loop drop of two volts is allowed between the pedestal, or junction box, and the external power equipment. See Table 5 for allowable wire sizes. See Large System: Planning and Engineering (553-3021-120) for detailed information on calculating wire size.
Page 88 Page 88 of 376 Installing dc power The following equipment is located in the rear of each pedestal (see Figure 40) in Large System columns. The PDU distributes power to the entire column. The field wiring terminal provides the connection point for wiring brought into the pedestal.
Page 89 Installing dc power Page 89 of 376 With the NT4N49AA PDU, the safety ground/protective earth wires and all wiring to the terminal block in the PDU must be neatly routed within the cable-tie saddles and under the cable restraint bar at the base of the pedestal (see Figure 41 on page 89).
Page 90: Installing The Nt4N49Aa Four Feed Pdu
Page 90 of 376 Installing dc power Installing the NT4N49AA Four Feed PDU Installing the NT4N49AA PDU is a two-step process. It involves: Installing safety ground/protective earth wiring on page 90 Connecting power from the power plant to the NT4N49AA PDU on page 92 Note: For installation in the UK, refer to the procedure Connecting UK power to the NT4N49AA PDU on...
Page 91 Installing dc power Page 91 of 376 For a single-column system, connect a #6 AWG wire from the ground source in the service panel to a ground lug on the pedestal. For a multiple-column system, connect a #6 AWG wire from the ground source in the service panel to a ground lug on the closest column.
Page 92 Page 92 of 376 Installing dc power Connecting power from the power plant to the NT4N49AA PDU Note 1: On columns which have only two modules, run five wires to facilitate future expansion to a four module column. Note 2: If only two modules are used in the column, set the CB2 and CB3 circuit breakers to off.
Page 93 Installing dc power Page 93 of 376 For installations that do not use a junction box: Route two red wires between the power plant and the pedestal of the column being wired. Route two black wires between the power plant and the pedestal of the column being wired.
Page 94 Page 94 of 376 Installing dc power Figure 43 PDU to Candeo connections 553-AAA0760 553-3021-210 Standard 1.00 October 2003...
Page 95 Installing dc power Page 95 of 376 Connecting UK power to the NT4N49AA PDU To connect the external power system to the pedestal, use the following procedure for each column (this procedure gives the connections for a four-module column). Note: All wiring to the PDU must be routed within the cable-tie saddles and under the cable restraint bar at the base of the pedestal.
Page 96 Page 96 of 376 Installing dc power Connect the black BATRTN (+48V) wires. At the 8B/2R or 8B/4R master power cabinet, connect wires to the +ve bus. At the PDU, connect the wires to the terminal block: — connect modules 0 to + BATRTN 0 —...
Page 97 Installing dc power Page 97 of 376 Figure 44 UEM to 8B/2R or 8B/4R master power cabinet 2R or 8B/4R master power cabinet connections To Test Jack Frame (TJF) Master Power Cabinet(s) 16 sq mm green/yellow Positive Bus Black wires Factory installed (16 sq mm Orange wire...
Page 98 Page 98 of 376 Installing dc power 553-3021-210 Standard 1.00 October 2003...
Page 99: Planning And Designating The Main Distribution Frame (Mdf)
Page 99 of 376 Planning and designating the Main Distribution Frame (MDF) Contents This section contains information on the following topics: About terminations ........Installation and designation.
Page 100: Terminal Block Requirements
Page 100 of 376 Planning and designating the Main Distribution Frame (MDF) This chapter describes how to install and connect a Succession 1000 system using the BIX or Krone Test Jack Frame (UK) cross-connect terminals. This chapter contains the following procedures: •...
Page 101: Installing The Bix Cross-Connect Terminal
Planning and designating the Main Distribution Frame (MDF) Page 101 of 376 Installing the BIX cross-connect terminal Procedure 11 describes how to install the BIX cross-connect terminal. Procedure 11 Installing the BIX cross-connect terminal Refer to the equipment layout plan to determine where to place the cross-connect terminal.
Page 102 Page 102 of 376 Planning and designating the Main Distribution Frame (MDF) Figure 46 BIX module QCBIX1A QSBIX20A QMBIX10A connector designation strip 553-3097 553-3021-210 Standard 1.00 October 2003...
Page 103 Planning and designating the Main Distribution Frame (MDF) Page 103 of 376 Figure 47 Recommended layout for NT8D37 IPE Modules Cable terminations for one NT8D37 IPE Module From Cable A panel Cable B Cable C Cable D (Note) Cable E Cable F Cable G Cable H (Note)
Page 104: Installing The Krone Cross-Connect System (Uk)
Page 104 of 376 Planning and designating the Main Distribution Frame (MDF) Installing the Krone cross-connect system (UK) In the Krone cross-connect system, one terminating strip holds 10 pairs of cable. When cross-connecting a 25-pair cable on this system, 8 of the 10 terminating points are used on each strip.
Page 105 Planning and designating the Main Distribution Frame (MDF) Page 105 of 376 Figure 48 IPE module card allocation – Krone cross-connect system Pair Pair Card 15 Cable T Card 14 Cable S Card 13 Cable R Card 12 Card 11 Cable M Card 10 Cable L...
Page 106 Page 106 of 376 Planning and designating the Main Distribution Frame (MDF) Figure 49 CE/PE module card allocation – Krone cross-connect system Pair Pair Card 9 Cable K Card 8 Cable G Card 7 Card 6 Cable F Card 5 Cable E Card 4 Card 3...
Page 107 Planning and designating the Main Distribution Frame (MDF) Page 107 of 376 There are two types of mandatory labels: those with safety warnings and those without. Mandatory labels with safety warnings are required for the following cards: • NT5K02 analog line card •...
Page 108 Page 108 of 376 Planning and designating the Main Distribution Frame (MDF) Table 7 Label for Analog Tie Trunk Card 553-3021-210 Standard 1.00 October 2003...
Page 109 Planning and designating the Main Distribution Frame (MDF) Page 109 of 376 Table 8 Label for Data Access Line Card (NT7D16) SAFETY WARNING LOOP..SHELF..CARD..DATA EQUIPMENT SEE INSTRUCTIONS FOR USE : Unit: Dir. Number: Unit: Dir. Number: SAFETY WARNING LOOP..
Page 110 Page 110 of 376 Planning and designating the Main Distribution Frame (MDF) Table 9 Label for Power Failure Transfer Unit SAFETY WARNING POWER FAIL TRANSFER UNIT CABLE SEE INSTRUCTIONS FOR USE PFT 1 LINE CO TRK. CARD CARD SAFETY WARNING POWER FAIL TRANSFER UNIT CABLE SEE INSTRUCTIONS FOR USE...
Page 111 Planning and designating the Main Distribution Frame (MDF) Page 111 of 376 Table 10 Label for Digital Line Card (NT8D02) SAFETY WARNING LOOP..SHELF..CARD..DIGITAL TELEPHONES SEE INSTRUCTIONS FOR USE : DIR. NO.'S SAFETY WARNING LOOP..SHELF..CARD..DIGITAL TELEPHONES SEE INSTRUCTIONS FOR USE : DIR.
Page 112 Page 112 of 376 Planning and designating the Main Distribution Frame (MDF) Table 12 Label for Direct Dial Inward Trunk Card (NT5K17) LOOP..DIRECT DIAL INWARDS SHELF..CARD..EXCHANGE LINES LOOP..DIRECT DIAL INWARDS SHELF..CARD..EXCHANGE LINES LOOP..DIRECT DIAL INWARDS SHELF..
Page 113: Installing Power Failure Transfer Units (Pftus)
Page 113 of 376 Installing Power Failure Transfer Units (PFTUs) Contents This section contains information on the following topics: PFTU configurations ........Installing PFTUs .
Page 114 Page 114 of 376 Installing Power Failure Transfer Units (PFTUs) Designated telephones (DTMF or rotary dial types) Central office trunks Figure 50 MDF terminations for typical PFTU operation PFTU PFTU Telephone/CO trunk Meridian 1 PE terminations terminations terminations Meridian 1 alarm (J3) Auxiliary terminations System monitor...
Page 115 Installing Power Failure Transfer Units (PFTUs) Page 115 of 376 Figure 51 Typical PFTU connection to the MDF and the Master System Monitor 50220-07 DEES 154 – 48 V Power Supply PFTU Meridian 1 – 48V master system P1–49 BATT monitor (SM) P1–24 P2–25...
Page 116: Installing Pftus
Page 116 of 376 Installing Power Failure Transfer Units (PFTUs) Installing PFTUs Use the following procedure and any instructions provided with the Power Failure Transfer Unit (PFTU) to install and connect PFTUs. Procedure 13 Installing the PFTUs Install PFTUs according to the manufacturer’s instructions. Attach the yellow PFTU label to the designation strip, indicating the top connector as P1 and the bottom connector as P2.
Page 117: Connecting Trunks And Telephones
Installing Power Failure Transfer Units (PFTUs) Page 117 of 376 Connect a #24 (or larger) AWG wire from the ground (GND) connection on the auxiliary power supply to the PFTU termination area on the MDF. Connect a second #24 (or larger) AWG wire from the GND connection on the auxiliary power supply to the Large System alarm termination area on the MDF.
Page 118: Installing Qua6 Pftus (Uk Installations)
Page 118 of 376 Installing Power Failure Transfer Units (PFTUs) For each trunk assigned to the PFTU. • Connect the tip and ring of the CO card to the third pair of the assigned PFTU. • Connect the tip and ring of the trunk to the fourth pair of the assigned PFTU.
Page 119: Configuring The System Monitor
Page 119 of 376 Configuring the system monitor Contents This section contains information on the following topics: System monitor cabling........Configuring the NT8D22 System Monitor .
Page 120 Page 120 of 376 Configuring the system monitor Figure 52 System monitor to system monitor serial link cabling Column 0 Column 1 Column n Master XSM Slave XSM Slave XSM Pedestal Pedestal Pedestal n=63 maximum NT8D46AL NT8D46AP 553-7551 Power failure transfer control The system monitor can be cabled to the MDF to provide power failure transfer control or additional alarms.
Page 121: Configuring The Nt8D22 System Monitor
Configuring the system monitor Page 121 of 376 Configuring the NT8D22 System Monitor The master NT8D22 System Monitor interfaces with a Serial Data Interface (SDI) port in the column with CPU 0. Procedure 15 Configuring the NT8D22 System Monitor Set the baud rate for the SDI port associated with the system monitor to 1200 baud in DTE mode.
Page 122 Page 122 of 376 Configuring the system monitor columns, set the system monitor in the column with CPU 1 as slave unit 1. Number the slaves sequentially wherever possible. End of Procedure Table 15 Switch settings for master in multiple-column system Switch on** To set positions 3–8, see Table 17 on...
Page 123 Configuring the system monitor Page 123 of 376 Table 17 SW2 on master—total number of slaves in the system Switch position Switch position How many How many slave units slave units Large System Installation and Configuration...
Page 124: Cabling The Nt8D22 System Monitor
Page 124 of 376 Configuring the system monitor Cabling the NT8D22 System Monitor The NT8D22 System Monitor is used to monitor the temperature, power supplies, and blower unit in a column. A series of daisy-chained flat-ribbon cables between each module is used to connect the power supplies and the top cap thermal sensors to the system monitor located in the pedestal.
Page 125 Configuring the system monitor Page 125 of 376 Follow the steps in Procedure 16 to cable the NT8D22 System Monitor. Procedure 16 Cabling the NT8D22 System Monitor Remove the I/O safety panel in the rear of the module with CPU 0. Connect the master system monitor to the SDI port.
Page 126 Page 126 of 376 Configuring the system monitor Figure 55 Cabling Succession 1000M Single Group or Meridian 1 Option 61C CP PII, single column with stacked Core/Net modules – cable master system monitor to SDI port To SDI port To next module NT8D46AG Backplane CPU 0...
Page 127 Configuring the system monitor Page 127 of 376 Figure 56 Multiple-column system monitor connections Column 0 Slave unit 1 Slave unit n Master system monitor From J6 To J5 From J6 to Terminate on J5 on master on slave 1 J5 on slave 2 of last column in series To J5 of next...
Page 128 Page 128 of 376 Configuring the system monitor Note 1: The system monitor to MDF cable is available in three lengths: NT8D46BH (32 ft), NT8D46EH (100 ft), and NT8D46DH (150 ft). Note 2: If additional contact closures are required through the J3 REMALMA or REMALMB leads (for a hard alarm in case a column loses power, for example), additional system monitor to MDF cables can be ordered.
Page 129 Configuring the system monitor Page 129 of 376 For ac-powered systems with a UPS: Connect the appropriate cable (see the following list) from connector J4 on the system monitor in the column with CPU 0 (the master system monitor) to the associated UPS. Table 19 gives the pin assignments and signal descriptions for the alarm cables.
Page 130 Page 130 of 376 Configuring the system monitor Figure 57 UPS alarm cabling Large System columns J4 on system monitor J4 on system monitor UPS alarm cable UPS for each column 553-3088 For dc-powered systems, extend the alarm and trip leads from connector J4 on the system monitor in the column with CPU 0 (the master system monitor) to the external power equipment using an NT8D46AV cable (see Table 20 on...
Page 131: Alarm Interfacing To Candeo
The Candeo interfaces with the system through the Candeo's system manager alarm output ports. A Nortel Networks cable (NT8D46xx) interfaces from the connector J4 of the System Monitor (NT8D22xx) located in the Large System pedestal to the Candeo's system manager alarm output ports. The intent of monitoring these alarms is to allow the Large System to report conditions such as low float voltage, major alarms and ac fail alarms.
Page 132 Page 132 of 376 Configuring the system monitor Low voltage disconnect (LVD) Alarm busy supply (ABSF) Internal fuse alarm (INT FA) Fuse alarm (FA) Rectifier fail alarm (RFA) Table 21 System Monitor connections – NT8D46xx Wire Connector pins Colour Label Suggested alarm P1-1 Black...
Page 133 Configuring the system monitor Page 133 of 376 manager for ease of wiring. Ensure that pin 1 is in the correct orientation for wiring when strip has been removed. Table 23 Alarm configuration – NT8D46xx Candeo Candeo Candeo Label Colour alarm port J8 connector configuration...
Page 134 Page 134 of 376 Configuring the system monitor All other “Output Ports” should be set to “None”. Note: For more detailed information refer to the Alarms section in the Candeo Power System User Guide (P0914425). End of Procedure Customizing alarms Under “Alarm Severity and Outputs”, the ports and severity can be configured per customers requirements.
Page 135: Connecting A System Terminal Or Modem
Page 135 of 376 Connecting a system terminal or modem Contents This section contains information on the following topics: About the system terminal........Connecting a terminal .
Page 136 Page 136 of 376 Connecting a system terminal or modem Figure 58 Terminal connection diagram Terminal Modem NT8D95AJ To remote terminal cable to 2- or 4-wire loop SDI port 553-A0131 During the initial installation of a dual CPU system, you may want to temporarily install additional terminals for split mode monitoring, or programming, or both.
Page 137: Connecting A Terminal
The ABCDE-Switch, which provides up to four-to-one switching, is available from Nortel Networks as part number A0377992. The switch box can be used to connect the SDI and CPSI/COM1 and COM2 ports to a terminal or a modem. If used, one switch box must be used for terminals and one for modems.
Page 138 Page 138 of 376 Connecting a system terminal or modem Terminals connected to the CPSI/COM1 ports can be installed as follows. One terminal connects to a CPSI/COM1 port in one CPU (the cable is switched from module to module as needed); one terminal is required in addition to the terminal for the SDI port connection (see Figure 59 on page 139).
Page 139 Connecting a system terminal or modem Page 139 of 376 Figure 59 One terminal for the CPSI/COM1 ports Terminal NT8D95 cable J25 on I/O panel Terminal Network Module SDI port on Core/Net 1 I/O panel Core/Net 0 NT8D95 cable Rear View 553-A0133 Connecting a switch box and terminal to CPSI/COM1 and COM2 ports...
Page 140 Page 140 of 376 Connecting a system terminal or modem To communicate directly with a CPSI/COM1 port, switch the cable as needed. The terminal connected to the SDI port will always communicate with whichever CPU is active. End of Procedure Figure 60 One terminal and a switch box to two CPSI/COM1 ports Terminal...
Page 141 Connecting a system terminal or modem Page 141 of 376 Connecting a switch box and terminal to the SDI and CPSI/ COM1 ports Use Procedure 20 to connect CPSI/COM1 ports to a switch box and a terminal (see Figure 60 on page 140 and Figure 61 on page...
Page 142: Connecting A Modem
Page 142 of 376 Connecting a system terminal or modem Figure 61 One terminal and a switch box to the SDI and CPSI/COM 1 ports Network Module SDI port on I/O panel J25 on J25 on I/O panel I/O panel Core/Net 1 Core/Net 0 NT8D95...
Page 143 RS-232 cable are required in all modem configurations. Required and recommended specifications for local end modems are: Required: true, not buffered, 9600 baud support (required for remote Nortel Networks technical support) Required: CCITT V.32 or V.32bis compliance Recommended: the ability to adjust to lower and higher speeds, depending on line quality, while maintaining 9600 baud at local DTE Recommended: V.42 error correction...
Page 144 Page 144 of 376 Connecting a system terminal or modem Configuring the modem Use Procedure 21 to configure the modem. You must configure the modem before you connect it to the Large System. A terminal, such as a PC computer, is required to configure the modem.
Page 145 Connecting a system terminal or modem Page 145 of 376 Disconnect the power cord and serial from the modem. Set DIP switches 1 and 4 to ON (down) and the remaining switches OFF (up). End of Procedure Connecting a modem to an SDI port Use Procedure 22 to connect an SDI port directly (no switch box) to a modem (see Figure 62 on page...
Page 146 Page 146 of 376 Connecting a system terminal or modem Figure 62 Modem to SDI port Smart mode RJ11 Terminal modem jack Modem cable RS-232 Remote end (or NT8D46) cable Public phone network RJ11 Dumb mode SDI port on jack modem I/O panel Network module...
Page 147 Connecting a system terminal or modem Page 147 of 376 At the local end, configure the modem. Follow the manufacturer’s instructions to set the modem for 9600 baud, autoanswer, dumb mode, command recognition OFF, and command echo OFF. At the local end, connect NT8D95 cables to: •...
Page 148 Page 148 of 376 Connecting a system terminal or modem Figure 63 Modem to a switch box and SDI and CPSI/COM 2 ports (dual-column systems) Smart mode RJ11 modem Terminal jack Modem cable RS-232 Remote end (or NT8D46) cable SDI port on Public phone I/O panel network...
Page 149 Connecting a system terminal or modem Page 149 of 376 Figure 64 Modem to a switch box and SDI and CPSI/COM 2 ports (single-column systems) Smart mode RJ11 modem jack Modem cable RS-232 Remote terminal (or NT8D46) cable SDI port Public phone I/O panel network...
Page 150 Page 150 of 376 Connecting a system terminal or modem 553-3021-210 Standard 1.00 October 2003...
Page 151: Cabling Common Equipment In A Single Group System
Page 151 of 376 Cabling common equipment in a single group system Contents This section contains information on the following topics: Cabling guidelines......... Core/Net module .
Page 152 Page 152 of 376 Cabling common equipment in a single group system As space permits, common equipment cables can be routed horizontally in the cable troughs at the front, rear, and sides of the module or vertically on the sides of the module. Note: In a dc-powered module, because there is no MPDU, there is room to route cables horizontally from front to rear on the left side (front view) of the module.
Page 153: Core/Net Module
Cabling common equipment in a single group system Page 153 of 376 Figure 65 NT4N41 Core/Net shelf fanout panel (backplane) NT4N89 cable Network backplane Core backplane System Monitor (XSM) connections Group 5 Group 4 Group 3 Group 2 Group 1 Group 7 Group 6 slot 11...
Page 154 Page 154 of 376 Cabling common equipment in a single group system Reviewing Core/Net module placement Core/Net modules can be installed side-by-side on top of separate pedestals (see Figure 66) for power and cooling redundancy or in a stacked configuration (see Figure 67) in a single column. Core/Net 1 is always on the left.
Page 155 Cabling common equipment in a single group system Page 155 of 376 Figure 67 Side-by-side configuration of Core/Net modules 553-AAA0756 Large System Installation and Configuration...
Page 156 Page 156 of 376 Cabling common equipment in a single group system Reviewing required Core cards All Core cards are installed in the factory. See Table 24 for the Core card requirements for each Core/Net module. Refer to “System equipment – UEMs”...
Page 157: Cabling The Core Side
Cabling common equipment in a single group system Page 157 of 376 NT4N48AA System Utility card. The System Utility card is located in slot c15. NT4N64AA Call Processor PII (CP PII). This card is located in the slot marked CP. NT4N43CA Multi-Media Disk Unit (MMDU).
Page 158 Page 158 of 376 Cabling common equipment in a single group system Table 26 Factory installed Core cables (internal) (Part 2 of 2) Cable part Number required number Description per system NT4N92AA CD-ROM/HDD Data NT4N93AA FDD Data NT4N95AA Core/Net FDD/HDD/CD ROM Power NT4N89AA System Utility Card to XSM (see Figure 69) Figure 68...
Page 159 Cabling common equipment in a single group system Page 159 of 376 Figure 69 CP PII Core and Network backplanes NT4N89 cable Network backplane Core backplane System Monitor (XSM) connections Group 6 Group 5 Group 4 Group 3 Group 2 Group 1 Group 7 slot 11...
Page 160 Page 160 of 376 Cabling common equipment in a single group system CAUTION Loss of Data Label all cables on both ends before installation. Labels help ensure that the cables are properly routed and connected. Cable labels also help installers to troubleshoot problems and replace equipment.
Page 161: Cabling The Network Side
Cabling common equipment in a single group system Page 161 of 376 Cabling the Network side Table 27 lists the number of circuit cards required by each system. Table 28 lists the number of net cables required by each system. Table 27 Required Net side cards Quantity...
Page 162: Configuring And Cabling The Clock Controllers (Ntrb53)
Page 162 of 376 Cabling common equipment in a single group system Figure 70 CP PII Core/Net Module slot Core MMDU cCNI UTIL COM 1 COM 2 LAN 2 LAN 1 INIT RESET ALRM SPKR HDD PWR c9 c10 c11 c12 c13 c14 c15 CP PS 0 10 11 553-9123r26revised...
Page 163: Connecting Network Group 0: Shelf 0 To Shelf 1
Cabling common equipment in a single group system Page 163 of 376 Connecting Clock Controller cables Procedure 25 Connecting the Clock Controller cables See Figure 74 on page 168. Connect P1 of the NT8D75 cable to port J3 of Clock Controller 0. Connect P2 of the NT8D75 cable to port J3 of Clock Controller 1.
Page 164 Page 164 of 376 Cabling common equipment in a single group system Procedure 26 Connecting the 3PE faceplates in the Core/Net modules Connect a NT8D80 cable from the J4 port in the Core/Net 0 3PE card to J4 port in the Core/Net 1 3PE card. Connect a second NT8D80 cable from the J3 port in Core/Net 0 to the J3 port in Core/Net 1.
Page 165 Cabling common equipment in a single group system Page 165 of 376 Use the extraction tool to disconnect the NT4N29 cables from the Core backplane. Connect the cables to the appropriate group (see Table 29). Table 29 Fanout panel to 3PE card connectors Group Fanout Panel Number...
Page 166 Page 166 of 376 Cabling common equipment in a single group system Connecting the Core/Net backplanes The Shelf 0 and Shelf 1 backplanes must be connected with two NT8D99AD cables (Core/Net modules only). Procedure 28 Connecting the Core/Net backplanes Connect one NT8D99AD cable from the “E” port in Core/Net 0 to the “E” port in Core/Net 1.
Page 167: Optioning The System Utility Card
Cabling common equipment in a single group system Page 167 of 376 Optioning the System Utility Card To install the system utility card, first identify Core/Net 0 and Core/Net 1 shelves. Then adjust the DIP switches according to Table 30. Table 30 System Utility Card DIP switch settings Core/Net 0...
Page 168: Connecting Core Modules To A Lan
Page 168 of 376 Cabling common equipment in a single group system Connecting Core modules to a LAN Connect each Core/Net module to a local area network (LAN). This connection provides a communication channel for LAN based systems management tools such as OTM, Symposium, Call Pilot and Element Manager.
Page 169 NORTEL Front of module Rear of module NORTEL NORTEL NORTEL NORTEL LAN 1 LAN 1 Core/Net 1 Core/Net 0 Core/Net 1 Core/Net 0 Nortel supplied NTRC17AA switch crossover Ethernet cable Customer supplied Ethernet cables 553-A0145 Large System Installation and Configuration...
Page 170 Page 170 of 376 Cabling common equipment in a single group system 553-3021-210 Standard 1.00 October 2003...
Page 171: Cabling Common Equipment In A Multi Group System
Page 171 of 376 Cabling common equipment in a multi group system Contents This section contains information on the following topics: Cabling guidelines......... Core/Net module .
Page 172: Cabling Guidelines
Page 172 of 376 Cabling common equipment in a multi group system Cabling guidelines The NT4N41 Core/Net module backplane (see Figure 76 on page 173), like all circuit boards, has a primary side and a secondary side. The primary side, which faces the front of the module, contains the primary shrouds, which provide mechanical guidance for the pins of the card edge connectors.
Page 173: Core/Net Module
Cabling common equipment in a multi group system Page 173 of 376 Figure 76 NT4N41 Core/Net shelf fanout panel (backplane) NT4N89 cable Network backplane Core backplane System Monitor (XSM) connections Group 6 Group 5 Group 4 Group 3 Group 2 Group 1 Group 7 slot 11...
Page 174 Page 174 of 376 Cabling common equipment in a multi group system Reviewing Core/Net module placement Core/Net modules are installed side-by-side on top of separate pedestals, for power and cooling redundancy. Core/Net 1 is always on the left. Core/Net 0 is always on the right (see Figure 77 on page 175).
Page 175 Cabling common equipment in a multi group system Page 175 of 376 Figure 77 Side-by-side placement of CP PII Core/Net modules PE Module PE Module Module 3 Module 3 (IPE) (IPE) Module 2 Module 2 (Network) (Network) Module 1 Module 1 (Network) (Network) Core...
Page 176: Cabling The Core/Net Module Backplane
Page 176 of 376 Cabling common equipment in a multi group system Checking Core card (front side) installation All Core cards are factory installed. The Core cards (front side) are: NT4N65AB cPCI Core Network Interface (cCNI) cards. Each system contains between one and four NT4N65 cCNI cards per Core/Net Module.
Page 177 Cabling common equipment in a multi group system Page 177 of 376 Procedure 30 Cabling the Core/Net module backplane Orient the cable connector so the strain relief paddle is to the right. Partially insert the cable connector so its guides mate to the corresponding backplane connector.
Page 178 Page 178 of 376 Cabling common equipment in a multi group system Procedure 31 Removing cable connectors from the backplane Use extreme caution to avoid bending or breaking backplane pins. Do not insert the extraction tool unless the cable connector is locked into the securing clip.
Page 179: Optioning The System Utility Card
Cabling common equipment in a multi group system Page 179 of 376 Optioning the System Utility Card To install the system utility card, first identify Core/Net 0 and Core/Net 1 shelves. Then adjust the DIP switches according to Table 32 below. Table 32 System Utility Card DIP switch settings Core/Net 0...
Page 180: Core Shelf Cabling
Page 180 of 376 Cabling common equipment in a multi group system Figure 78 Core card placement in the NT4N41 Core/Net Module (front) Core MMDU cCNI Sys Util CP PII Card status LEDs (internal check) COM 1 COM 2 LAN 2 System Utility disable LAN 1 switch...
Page 181 Cabling common equipment in a multi group system Page 181 of 376 Figure 79 Card placement in the NT4N41Core/Net Module Core MMDU cCNI UTIL COM 1 COM 2 LAN 2 LAN 1 INIT RESET ALRM SPKR HDD PWR PS 0 10 11 c9 c10 c11 c12 c13 c14 c15 CP 553-9123r26revised...
Page 182 Page 182 of 376 Cabling common equipment in a multi group system Table 33 Field installed Core cables (internal) (Part 2 of 2) Cable part Number required number Description per system Customer supplied Standard Ethernet cable (I/O Panel to LAN switch) Note: If there is no connection to a LAN, connect the 2 LAN 1 connectors using the NTRC17BA crossover cable.
Page 183 Cabling common equipment in a multi group system Page 183 of 376 Figure 80 Core/Net cable connections (top view) NTND14 cables:cCNI to 3PE cables in Network Shelves ( Customer install Group 1 cable) NT4N4405 Shelf Power cable J31: Ethernet cable (factory installed) from LAN 1 NT4N90BA NT4N89AA System Monitor cable...
Page 184: Cabling The I/O Panel
Page 184 of 376 Cabling common equipment in a multi group system Figure 81 CP PII Core and Network backplanes NT4N89 cable Network backplane Core backplane System Monitor (XSM) connections Group 2 Group 1 Group 7 Group 6 Group 5 Group 4 Group 3 slot 11...
Page 185 Cabling common equipment in a multi group system Page 185 of 376 Figure 82 on page 186 displays the COM and LAN cable connections. CAUTION Damage to Equipment Label all cables on both ends before installation. Labels help ensure that the cables are properly routed and connected.
Page 186: Cabling The Core Module To The Lan
Page 186 of 376 Cabling common equipment in a multi group system Figure 82 I/O panel connections Core shelf (front of module) I/O Panel (rear of module) Core MMDU NTRE40AA Ethernet Adapter cCNI UTIL COM 1 LAN 1 COM 2 LAN 2 LAN 1 INIT...
Page 187 Cabling common equipment in a multi group system Page 187 of 376 Note 1: If a LAN is not available, connect the second NTRC17BA crossover Ethernet cable (included in the basic package) between the J31 ports in Core/Net 0 and Core/Net 1. Note 2: The Core/Net I/O panel cables must be installed as described on “Cabling the I/O panel”...
Page 188: Cabling A Dual Ring Fiber Network
Connect J31 to J31 2. Connect J31 to LAN switch Rear of module Rear of module Core/Net 0 Core/Net 1 Core/Net 0 Core/Net 1 Nortel Networks supplied switch NTRC17BA crossover ethernet cable Customer supplied Ethernet cables 553-9595 Cabling a Dual Ring Fiber Network The FIJI cards in the Network modules are connected to form a Dual Ring Fiber Network.
Page 189 Cabling common equipment in a multi group system Page 189 of 376 • “Cabling and configuring the Clock Controller” on page 198. Figure 84 Dual Ring Fiber Network Group 1, shelf 1 Group 2, shelf 1 Group 3, shelf 1 Tx (J1) Tx (J1) Tx (J1)
Page 190 Page 190 of 376 Cabling common equipment in a multi group system Table 35 Fiber Network required cards (Part 2 of 2) Part Quantity number Description 8 per system (4 per NT4N65AA Compact Core Network Interface (cCNI-2) cards Core), as needed 2 per system NTRB53 Global Clock Controller cards...
Page 191: Fiji Card Cabling
Cabling common equipment in a multi group system Page 191 of 376 WARNING The shortest Fiber Cable must always be used. The cables from Group 0 to Group 1 must always be the same length as the cables from the last group back to Group 0 The delta between the lengths of each fiber ring from Group 0 to any other group must not exceed 50'.
Page 192 Page 192 of 376 Cabling common equipment in a multi group system Figure 85 FIJI card faceplate LCD Display Latch ENB/DIS Switch FIJI ENBL/DIS LEDs TX Port (J1) RX Port (J2) CLK/FIJI 1 CLK/FIJI 2 MAINT Serial Port Latch 553-8649 Optical Cable Management Card (OCMC) Because fiber optic cables are easily damaged if bent, the NTRE39 Optical Cable Management Card (OCMC) is installed in Network modules to store...
Page 193 Cabling common equipment in a multi group system Page 193 of 376 The OCMC contains no electronic components and is not powered by the backplane. This card is used primarily in upgrades where the intergroup cable distances vary greatly. OCMC is a single width card installed between the Power supply and slot 1 of a Network module.
Page 194: Installing The Shelf 0 Fiber Optic Ring (Ascending)
Page 194 of 376 Cabling common equipment in a multi group system Installing the Shelf 0 fiber optic ring (ascending) To create the Shelf 0 fiber optic loop, connect the FIJI cards in each Network Shelf 0 in ascending order (Figure 87 on page 195).
Page 195: Installing The Shelf 1 Fiber Optic Ring (Descending)
Cabling common equipment in a multi group system Page 195 of 376 Figure 87 Shelf 0 fiber optic ring on a 4 group machine Shelf 0 fiber optic ring Group 1, shelf 1 Group 3, shelf 1 Group 2, shelf 1 Tx (J1) Tx (J1) Tx (J1)
Page 196 Page 196 of 376 Cabling common equipment in a multi group system Continue to connect NTRC48xx FIJI Fiber Ring Cables of the appropriate length from the Tx (J1) port to the Rx (J2) port in Shelf 1 of each Network group.
Page 197: Fiji To Fiji Cabling
Cabling common equipment in a multi group system Page 197 of 376 FIJI to FIJI cabling The FIJI cards in Shelf 0 and Shelf 1 of each Network group (except Group 0) must be directly connected with a NTRC47AA FIJI to FIJI Synch Cable cable.
Page 198: Cabling And Configuring The Clock Controller
Page 198 of 376 Cabling common equipment in a multi group system Cabling and configuring the Clock Controller Two Clock Controller cards are required in each system. These cards synchronize Large System functions. Figure 90 on page 199 shows the two Clock Controllers installed in a two-column system.
Page 199 Cabling common equipment in a multi group system Page 199 of 376 Figure 90 Clock Controller placement CE Module CE Module Group 2, Group 1, shelf 1 shelf 1 CE Pwr Sup CE Pwr Sup IGS 1 IGS 0 IGS 1 IGS 0 Common Equipment Network Group...
Page 200 Page 200 of 376 Cabling common equipment in a multi group system Connect the Clock to Clock and Clock to FIJI cables: At Clock 0: Connect the “J1 Clock“ end of a Clock to FIJI cable (NTRC46Ax) to the J1 end of the Clock to Clock cable. At Clock 1: Connect the “J1 Clock“...
Page 201 Cabling common equipment in a multi group system Page 201 of 376 Figure 91 Clock Controller cable configuration NTRC49 cable J1 Clock J1 Clock FIJI card FIJI card Group 0, Group 0, shelf 1 shelf 0 FIJI FIJI ENBL/DIS ENBL/DIS CLK/FIJI 1 CLK/FIJI 1 CLK/FIJI 2...
Page 202 Page 202 of 376 Cabling common equipment in a multi group system 553-3021-210 Standard 1.00 October 2003...
Page 203: Cabling Network Modules And Loops
Page 203 of 376 Cabling network modules and loops Contents This section contains information on the following topics: Network-to-network cabling ....... . . Network module connections .
Page 204: Network Module Connections
Page 204 of 376 Cabling network modules and loops WARNING The shortest Fiber Cable must always be used. The cables from Group 0 to Group 1 must always be the same length as the cables from the last group back to Group 0 The delta between the lengths of each fiber ring from Group 0 to any other group must not exceed 50'.
Page 205 Cabling network modules and loops Page 205 of 376 Procedure 38 Connecting the 3PE faceplates in the Core/Net modules Connect a NT8D80 cable from the J4 port in the Core/Net 0 3PE card to J4 port in the Core/Net 1 3PE card. Connect a second NT8D80 cable from the J3 port in Core/Net 0 to the J3 port in Core/Net 1.
Page 206 Page 206 of 376 Cabling network modules and loops Connecting the Core/Net backplanes In Group 0 only, the Shelf 0 and Shelf 1 backplanes must be connected with two NT8D99AD cables (Core/Net modules only). Procedure 39 Connecting the Core/Net backplanes Connect one NT8D99AD cable from the “E”...
Page 207: Connecting Groups 1 Through 7: Shelf 0 To Shelf 1
Cabling network modules and loops Page 207 of 376 Connecting Groups 1 through 7: Shelf 0 to Shelf 1 On the back of each Network module backplane are five connectors: A, B, C, D and E. See Figure 94 on page 208.
Page 208 Page 208 of 376 Cabling network modules and loops Figure 94 Network Shelf 0 to Shelf 1 backplane connections (Groups 1 through 7) Network backplane: shelf 1 Network backplane: shelf 0 NT8D99AB cable 553-9584 553-3021-210 Standard 1.00 October 2003...
Page 209: Connecting The Network Modules To The Core/Net Modules
Cabling network modules and loops Page 209 of 376 Connecting the Network modules to the Core/Net modules Each Network shelf contains one 3PE card. These 3PE cards are connected to the Fanout panel in the back of the Core/Net shelves. Figure 95 on page 209, Figure 96 on...
Page 210 Page 210 of 376 Cabling network modules and loops Figure 96 Core/Net backplane (rear view) 3PE termination panel 3PE connection to Core cCNI transition card Slot 9-0 backplane (factory installed) + 12 553-9487 553-3021-210 Standard 1.00 October 2003...
Page 211 Cabling network modules and loops Page 211 of 376 Figure 97 3PE Fanout panel (rear module view) NTND14 to 3PE cables Install SDI Paddle Board before connecting 3PE cables 553-9529 NTND14 cables to Core Backplane Fanout panel Large System Installation and Configuration...
Page 212 Page 212 of 376 Cabling network modules and loops cCNI slot and port assignments Each system contains a minimum of one and a maximum of four cCNI cards. Each cCNI card contains two ports to support up to two Network groups. cCNI cards are identified by slot and port.
Page 213 Cabling network modules and loops Page 213 of 376 cCNI to 3PE Fanout panel cable connections The cCNI slot and port connections are labeled on the Fanout panel (see Figure 98). Each 3PE card is connected with two cables: one to J3 and one to J4.
Page 214: Connecting The 3Pe Cables To The 3Pe Fanout Panels
Page 214 of 376 Cabling network modules and loops Connecting the 3PE cables to the 3PE fanout panels Two NTND14 cables connect from J3 and J4 of each 3PE faceplate to the 3PE Fanout panel. See Figure 99 on page 214.
Page 215 Cabling network modules and loops Page 215 of 376 Refer to Table 37 on page 212 for cCNI port and slot assignments. Connect Shelf 0 3PE cards to the Core/Net 0 panel; connect Shelf 1 3PE cards to the Core/Net 1 panel. The 3PE cables for Network Group 0 are factory installed. WARNING The shortest Fiber Cable must always be used.
Page 216: Cabling The Nt8D04 Superloop Network Card
Page 216 of 376 Cabling network modules and loops Procedure 42 Connecting the Network Shelf 1 3PE cards to Core/Net 1 Connect a NTND14 cable of the appropriate length from J3 on the 3PE card faceplate in Network Group 1, Shelf 1 to the Port 9-1, J3 connection on the 3PE Fanout panel in Core/Net 1.
Page 217 Cabling network modules and loops Page 217 of 376 Procedure 43 Basic cabling for single-row network connections Refer to the work order and the cabling layout shipped with the system to determine: • Each loop number assigned • The module and slot assignments for the NT8D04 Superloop Network Card associated with each loop •...
Page 218 Page 218 of 376 Cabling network modules and loops Table 38 NT8D04 network loop configurations FROM Superloop Faceplate Controller Backplane network card connector card connector One segment per superloop NT8D04 #1 NT8D01AC #1 NT8D04 #2 NT8D01AC #1 NT8D04 #3 NT8D01AC #1 NT8D04 #4 NT8D01AC #1 Two segments per superloop...
Page 219 Cabling network modules and loops Page 219 of 376 Figure 100 NT8D04 Superloop Network Card network loops – connectors for single-row connections Superloop network card faceplate connectors NT8D91 cables NT8D01 Controller Card backplane connectors Controller Visible part of the backplane Note 1: The NT8D04 Superloop Network Card may be located in any acceptable slot in an NT4N41 Core/Network Module or NT8D35 Network Module.
Page 220 Page 220 of 376 Cabling network modules and loops Procedure 44 Basic cabling for multiple-row network connections Refer to the work order and the cabling layout shipped with the system to determine: • Each loop number assigned • The module and slot assignments of the NT8D04 Superloop Network Card associated with each loop •...
Page 221 Cabling network modules and loops Page 221 of 376 • Route the cable around the card cage to the I/O panel and mount the cable connector in one of the cutouts in the panel. The recommended order for connections is J16, J17, J37, J38, then, with superloop adapter plates, J2, J6, J10, J22, J26, J31 Figure 102 on page 223...
Page 222 Page 222 of 376 Cabling network modules and loops Figure 101 Installing a superloop adapter plate I/O panel I/O panel cutout label Superloop adapter plate QPC414 I/O panel cutout NT8D88 superloop to I/O panel cable 553-5289 553-3021-210 Standard 1.00 October 2003...
Page 223 Cabling network modules and loops Page 223 of 376 Figure 102 NT8D04 Superloop Network Card network loops – network card to I/O panel connections Superloop network card faceplate connectors NT8D88AD cables Core/Network Module I/O Panels Network Module I/O Panels Left Left Right Right...
Page 224 Page 224 of 376 Cabling network modules and loops Figure 103 NT8D04 Superloop Network Card network loops – controller card to I/O panel connections NT8D01 Peripheral Controller Card backplane connectors Controller Visible part of the backplane I/O panel connection locations in IPE Modules Left Right 553-3191...
Page 225: Cabling Lines And Trunks
Page 225 of 376 Cabling lines and trunks Contents This section contains information on the following topics: Overview ..........Cabling the NT8D37 IPE Modules .
Page 226 Page 226 of 376 Cabling lines and trunks Table 39 NT8D37 cable connections Backplane slots–shroud rows I/O panel/cable designation L0–1, 2, 3 L1–1, 2, 3 L2–1, 2, 3 L3–1, 2, 3 L4–1, 2, 3 L5–1, 2, 3 L6–1, 2, 3 L7–1, 2, 3 L8–1, 2, 3 L9–1, 2, 3...
Page 227: Cabling The Nt8D37 Ipe Modules
Cabling lines and trunks Page 227 of 376 Cabling the NT8D37 IPE Modules Follow Procedure 45 to cable NT8D37 IPE Modules. Note: The corner vertical channels in the rear of the module are outside of the EMI shield. Cables in those vertical channels must be shielded, and must enter and exit the EMI-shielded area through I/O panels and adapters.
Page 228 Page 228 of 376 Cabling lines and trunks Figure 105 NT8D37 IPE Module I/O panels Left Right 553-5928 553-3021-210 Standard 1.00 October 2003...
Page 229: Connecting Lines And Trunks
Cabling lines and trunks Page 229 of 376 Connecting lines and trunks Follow Procedure 46 to connect lines and trunks. Ensure that wiring is not reversed and is on the proper terminals. Allow enough slack in the wiring to allow tracing and to reconnect wires if they break at the terminal. Procedure 46 Connecting lines and trunks Extend incoming wiring (such as cables from the central office or wiring...
Page 230 Page 230 of 376 Cabling lines and trunks Table 40 Line and trunk pair-termination tables NT8D37 IPE Module Table 41 on page 230 Line cards NT8D14 Universal Trunk Card: Trunk cards Table 42 on page 232 NT8D15 E&M Trunk Card: Table 43 on page 233 through to Table 45 on...
Page 231 Cabling lines and trunks Page 231 of 376 Table 41 NT8D37 IPE Module: line card pair-terminations (Part 2 of 2) Unit Pair Pin numbers Pair color 24/card 14T/14R 39/14 BK-BR/BK-BR 15T/15R 40/15 BK-S/S-BK 16T/16R 41/16 Y-BL/BL-Y 17T/17R 42/17 Y-O/O-Y 18T/18R 43/18 Y-G/G-Y 19T/19R...
Page 232 Page 232 of 376 Cabling lines and trunks Table 42 NT8D37 IPE Module: NT8D14 Universal Trunk Card pair-terminations Lead designations Paging Other mode mode modes numbers Pair color Unit 0T/0R 0T/0R 0T/0R 26/1 W-BL/BL-W CP/MB A/PG 27/2 W-O/O-W 1T/1R 1T/1R 1T/1R 28/3 W-G/G-W...
Page 233 Cabling lines and trunks Page 233 of 376 Table 43 NT8D37 IPE Module: NT8D15 E&M Trunk Card 2-wire paging mode pair-terminations Pair Pin numbers Pair color Unit 0T/0R 26/1 W-BL/BL-W A/PG 29/4 W-BR/BR-W 1T/1R 30/5 W-S/S-W A/PG 33/8 R-G/G-R 2T/2R 34/9 R-BR/BR-R A/PG...
Page 234 Page 234 of 376 Cabling lines and trunks Table 44 NT8D37 IPE Module: NT8D15 E&M Trunk Card 2-wire type 1 mode pair-terminations (Part 2 of 2) Pair Pin numbers Pair color Unit 3T/3R 38/13 BK-G/G-BK 40/15 BK-S/S-BK Note: Each of the following I/O panel connectors is cabled as shown above: connectors A, B, C, D, E, F, G, H, K, L, M, N, R, S, T, and U.
Page 235 Cabling lines and trunks Page 235 of 376 Table 45 NT8D37 IPE Module: NT8D15 E&M Trunk Card 4-wire type 1 and type 2 mode pair-terminations (Part 2 of 2) Lead designations Type 1 Type 2 Pin numbers Pair color Unit TA/TB TA/TB 38/13...
Page 236 Page 236 of 376 Cabling lines and trunks Table 46 NT8D37 IPE Module: NT8D15 E&M Trunk Card 4-wire type 1 and type 2 mode pair-terminations (Part 2 of 2) Lead designations Type 1 Type 2 Pin numbers Pair color Unit TA/TB TA/TB 34/9...
Page 237 Cabling lines and trunks Page 237 of 376 Table 47 NT5K17 Direct Dial Inward Trunk connections for NT8D37 I/O panel connectors A, E, K, R (Part 1 of 2) Lead designations I/O panel connectors Pair Unit DDI Mode Pins color number W-BL Slot 0...
Page 238 Page 238 of 376 Cabling lines and trunks Table 47 NT5K17 Direct Dial Inward Trunk connections for NT8D37 I/O panel connectors A, E, K, R (Part 2 of 2) Lead designations I/O panel connectors Pair Unit DDI Mode Pins color number BK-G Slot 0...
Page 239 Cabling lines and trunks Page 239 of 376 Table 48 NT5K17 Direct Dial Inward Trunk connections for NT8D37 I/O panel connectors B, F, L, S (Part 2 of 3) Lead designations I/O panel connectors Pair Unit DDI Mode Pins color number Slot 1 Slot 5...
Page 240 Page 240 of 376 Cabling lines and trunks Table 48 NT5K17 Direct Dial Inward Trunk connections for NT8D37 I/O panel connectors B, F, L, S (Part 3 of 3) Lead designations I/O panel connectors Pair Unit DDI Mode Pins color number V-BL Slot 0...
Page 241 Cabling lines and trunks Page 241 of 376 Table 49 NT5K17 Direct Dial Inward Trunk connections for NT8D37 I/O panel connectors C, G, M, T (Part 2 of 3) Lead designations I/O panel connectors Pair Unit DDI Mode Pins color number Slot 2 Slot 6...
Page 242 Page 242 of 376 Cabling lines and trunks Table 49 NT5K17 Direct Dial Inward Trunk connections for NT8D37 I/O panel connectors C, G, M, T (Part 3 of 3) Lead designations I/O panel connectors Pair Unit DDI Mode Pins color number V-BL Slot 3...
Page 243 Cabling lines and trunks Page 243 of 376 Table 50 NT5K18 Flexible Central Office Trunk connections for NT8D37 I/O panel connectors A, E, K, R (Part 2 of 2) Lead designations I/O panel connectors Pair Unit Pins color number Slot 0 Slot 4 Slot 8 Slot 12...
Page 244 Page 244 of 376 Cabling lines and trunks Table 51 NT5K18 Flexible Central Office Trunk connections for NT8D37 I/O panel connectors B, F, L, S (Part 1 of 2) Lead designations I/O panel connectors Pair Unit Pins color number W-BL Slot 1 Slot 5 Slot 9...
Page 245 Cabling lines and trunks Page 245 of 376 Table 51 NT5K18 Flexible Central Office Trunk connections for NT8D37 I/O panel connectors B, F, L, S (Part 2 of 2) Lead designations I/O panel connectors Pair Unit Pins color number BK-S Slot 1 Slot 5 Slot 9...
Page 246 Page 246 of 376 Cabling lines and trunks Table 52 NT5K18 Flexible Central Office Trunk connections for NT8D37 I/O panel connectors C, G, M, T (Part 1 of 2) Lead designations I/O panel connectors Pair Unit Pins color number W-BL Slot 2 Slot 6 Slot 10...
Page 247 Cabling lines and trunks Page 247 of 376 Table 52 NT5K18 Flexible Central Office Trunk connections for NT8D37 I/O panel connectors C, G, M, T (Part 2 of 2) Lead designations I/O panel connectors Pair Unit Pins color number BK-S Slot 3 Slot 7 Slot 11...
Page 248 Page 248 of 376 Cabling lines and trunks Table 53 NT5K19 Flexible E&M 2-Wire Type 1 connections for NT8D37 I/O panel connectors A, E, K, R I/O panel connectors Pair Unit Pair Pins color number Slot 0 Slot 4 Slot 8 Slot 12 Unit 0 R-BL...
Page 249 Cabling lines and trunks Page 249 of 376 Table 54 NT5K19 E&M 2-Wire Type 1 connections for NT8D37 I/O panel connectors B, F, L, S I/O panel connectors Pair Unit Pair Pins color number Slot 1 Slot 5 Slot 9 Slot 13 Unit 0 R-BL...
Page 250 Page 250 of 376 Cabling lines and trunks Table 55 NT5K19 Flexible E&M 2-Wire Type 1 trunk connections for NT8D37 I/O panel connectors C, G, M, T I/O panel connectors Pair Unit Pair Pins color number Slot 2 Slot 6 Slot 10 Slot 14 Unit 2...
Page 251 Cabling lines and trunks Page 251 of 376 Table 56 NT5K19 Flexible E&M 2-Wire Paging trunk connections for NT8D37 I/O panel connectors A, E, K, R I/O panel connectors Pair Unit Pair Pins color number Slot 0 Slot 4 Slot 8 Slot 12 Unit 0 W-BR...
Page 252 Page 252 of 376 Cabling lines and trunks Table 57 NT5K19 Flexible E&M 2-Wire Paging trunk connections for NT8D37 I/O panel connectors B, F, L, S I/O panel connectors Pair Unit Pair Pins color number Slot 1 Slot 5 Slot 9 Slot 13 Unit 0 W-BR...
Page 253 Cabling lines and trunks Page 253 of 376 Table 58 NT5K19 Flexible E&M 2-Wire Paging trunk connections for NT8D37 I/O panel connectors C, G, M, T I/O panel connectors Pair Unit Pair Pins color number Slot 2 Slot 6 Slot 10 Slot 14 Unit 2 W-BR...
Page 254 Page 254 of 376 Cabling lines and trunks Table 59 NT5K19 Flexible E&M 2-Wire Recorded Announcement trunk connections for NT8D37 I/O panel connectors A, E, K, R I/O panel connectors Pair Unit Pair Pins color number W-BL Slot 0 Slot 4 Slot 8 Slot 12 Unit 0...
Page 255 Cabling lines and trunks Page 255 of 376 Table 60 NT5K19 Flexible E&M 2-Wire Recorded Announcement trunk connections for NT8D37 I/O panel connectors B, F, L, S I/O panel connectors Pair Unit Pair Pins color number W-BL Slot 1 Slot 5 Slot 9 Slot 13 Unit 0...
Page 256 Page 256 of 376 Cabling lines and trunks Table 61 NT5K19 Flexible E&M 2-Wire Recorded Announcement trunk connections for NT8D37 I/O panel connectors C, G, M, T I/O panel connectors Pair Unit Pair Pins color number W-BL Slot 2 Slot 6 Slot 10 Slot 14 Unit 2...
Page 257 Cabling lines and trunks Page 257 of 376 Table 62 NT5K19 Flexible E&M 4-Wire Type 1 connections for NT8D37 I/O panel connectors A, E, K, R Lead designations I/O panel connectors Pair Unit Type 1 mode Pins color number W-BL Slot 0 Slot 4 Slot 8...
Page 258 Page 258 of 376 Cabling lines and trunks Table 64 NT5K19 Flexible E&M AC15 trunk connections for NT8D37 I/O panel connectors A, E, K, R Lead designations I/O panel connectors Pair Unit Type 1 mode Pins color number W-BL Slot 0 Slot 4 Slot 8 Slot 12...
Page 259 Cabling lines and trunks Page 259 of 376 Table 63 NT5K19 Flexible E&M 4-Wire Type 1 connections for NT8D37 I/O panel connectors B, F, L, S (Part 1 of 2) Lead designations I/O panel connectors Pair Unit Type 1 mode Pins color number...
Page 260 Page 260 of 376 Cabling lines and trunks Table 63 NT5K19 Flexible E&M 4-Wire Type 1 connections for NT8D37 I/O panel connectors B, F, L, S (Part 2 of 2) Lead designations I/O panel connectors Pair Unit Type 1 mode Pins color number...
Page 261 Cabling lines and trunks Page 261 of 376 Table 65 NT5K19 Flexible E&M AC15 Trunk connections for NT8D37 I/O panel connectors B, F, L, S Lead designations I/O panel connectors Pair Unit Type 1 mode Pins color number W-BL Slot 1 Slot 5 Slot 9 Slot 13...
Page 262 Page 262 of 376 Cabling lines and trunks 553-3021-210 Standard 1.00 October 2003...
Page 263: Powering Up The System And Initial Loading
Page 263 of 376 Powering up the system and initial loading Contents This section contains information on the following topics: Overview ..........Powering up ac systems .
Page 264 265). Insert the Security Device into the Security Device holder on the System Utility card with the “Nortel” side facing up. Do not bend the clip more than necessary. Check that the Security Device is securely in place. End of Procedure 553-3021-210 Standard 1.00...
Page 265 Powering up the system and initial loading Page 265 of 376 Figure 106 Security Device NORTEL DALLAS Registered Security I 10000409 NT_STD 9603 202AA Side view This side This side faces up faces down 553-9149 Large System Installation and Configuration...
Page 266 Page 266 of 376 Powering up the system and initial loading Preparing to power up Follow Procedure 48 to prepare to power up a Large System. CAUTION Verify that the safety grounds are properly connected. Procedure 48 Preparing to power up Set the ac service panel circuit breakers OFF.
Page 267 Powering up the system and initial loading Page 267 of 376 Procedure 50 Option 2: Hard-wiring the power connections (optional) Instead of using the power-plug, each column can be hard-wired to the service panel. Route three #10 AWG wires (green, white, and black) through 3/4 in. conduit from the service panel to each Large System column.
Page 268 Page 268 of 376 Powering up the system and initial loading Set the main circuit breaker for Column 0 to ON. The main circuit breaker is located in the rear of the pedestal. Set the power supply switch (or MPDU circuit breaker) in each module to ON.
Page 269: Powering Up Dc Systems
Powering up the system and initial loading Page 269 of 376 Simultaneously turn the main circuit breakers for the two Core columns For each Core column, verify the following: • The main circuit breaker in the pedestal did not trip OFF. •...
Page 270 265). Insert the Security Device into the Security Device holder on the System Utility card with the “Nortel” side facing up. Do not bend the clip more than necessary. Check that the Security Device is securely in place. End of Procedure...
Page 271 Powering up the system and initial loading Page 271 of 376 Turning dc power ON Follow Procedure 55 to turn the dc power on. Procedure 55 Turning dc power ON Connect each dc rectifier to its associated ac outlet and set the breakers in the ac power panel to ON.
Page 272: Installing Software And Converting The Database
Page 272 of 376 Powering up the system and initial loading Repeat step 1 through step 5 for each column in the system. Start with Column 2 and continue until power is turned on in all the columns. Do the Core columns last.
Page 273 Powering up the system and initial loading Page 273 of 376 Press the manual RESET button on the CP PII card faceplate. Before the install runs, the system validates hard disk partitioning which takes about five minutes. The screen displays: Testing partition 0 0 percent done...1 percent done..99 percent done..
Page 274 Page 274 of 376 Powering up the system and initial loading The system then checks the partitions for any errors. The screen displays the following for each partition: Copyright (c) 1993-1996 RST Software Industries Ltd. All rights reserved ver: 2.6 FCS Disk Check In Progress...
Page 275 Powering up the system and initial loading Page 275 of 376 The system then enters the Main Menu for keycode authorization. Remove the CP PII Install Program diskette and insert the Keycode diskette M A I N M E N U The Software Installation Tool will install or upgrade Succession Enterprise System Software, Database and the CP-BOOTROM.
Page 276 Page 276 of 376 Powering up the system and initial loading The screen displays the Install Menu. Confirm that the keycode matches the CD-ROM release: Please confirm that this keycode matches the CDROM Release Please enter: <CR> -> <y> - Yes, the keycode matches. Go on to Install Menu.
Page 277 Powering up the system and initial loading Page 277 of 376 Verify the CD-ROM version: Please insert the installation CDROM into the drive on Core X. The labeled side of the CDROM should be side up in the CDROM tray. Please enter: <CR>...
Page 278 Page 278 of 376 Powering up the system and initial loading 10 Confirm all options before installing the software: INSTALLATION STATUS SUMMARY ------------------------------------------- =============+========+========+============= Option Choice | Status | Comment =================+========+========+========= | SW: CD to disk | | install for rel 0300K | =============+========+========+============ Option Choice...
Page 279 Powering up the system and initial loading Page 279 of 376 Database files will NOT be erased. You may continue installing the software or quit now and leave your system unchanged. Please enter: <CR> -> <a> - Continue with Upgrade. <q>...
Page 280 Page 280 of 376 Powering up the system and initial loading Spare Group A. vi. Spare Group B. 12 Continue with upgrade when prompted. Select a database to install: Software release 0300K was installed successfully on Core 0. All files were copied from CDROM to the hard disk. Please press <CR>...
Page 281 Powering up the system and initial loading Page 281 of 376 13 Confirm database transfer: You selected to transfer the database from the floppy disk - release: 2540 to the hard disk on Core X. release: 2540. This will erase the database on the hard disk. The database diskette has been inserted into the floppy disk drive.
Page 282 Page 282 of 376 Powering up the system and initial loading 16 Enter q to quit: I N S T A L L M E N U The Software Installation Tool will install or upgrade Succession Enterprise System Software, Database and the CP-BOOTROM.
Page 283 Powering up the system and initial loading Page 283 of 376 17 The system then prompts you to confirm and reboot: You selected to Quit the Software Installation Tool. You may reboot the system or return to the Main Menu. Before rebooting the system, remove Install diskette from the floppy drive(s).
Page 284: Testing Core/Net 1 And Core/Net 0
Page 284 of 376 Powering up the system and initial loading Testing Core/Net 1 and Core/Net 0 Follow Procedure 57 to test Core/Net 1 and Core/Net 0. Procedure 57 Testing Core/Net 1 and Core/Net 0 From the active CPU, Core/Net 1, perform these tests: Perform a redundancy sanity test using the following sequence: LD 135 STAT cCNI c s...
Page 285 Powering up the system and initial loading Page 285 of 376 Switch Cores and test the other side (Core/Net 0) LD 135 SCPU Switch cores. TEST CPU Test the inactive Core/Net. STAT cCNI c s Get status of cCNI cards. TEST cCNI c s Test cCNI cards.
Page 286 Page 286 of 376 Powering up the system and initial loading 553-3021-210 Standard 1.00 October 2003...
Page 287: Performing Acceptance Tests
Page 287 of 376 Performing acceptance tests Contents This section contains information on the following topics: Acceptance tests ......... . Testing the module power supply .
Page 288: Testing The Module Power Supply
Note: If you fail to see an expected display code while performing any test, contact your Nortel Networks support representative. Testing the module power supply Use this procedure to test module power supplies and ringing generators and their interface to the system monitor.
Page 289 Performing acceptance tests Page 289 of 376 Set the power supply to ON. • The green LED on the power supply should light. • The red column LED should go out. • The system terminal should display PWR0000. Set the power supply to OFF. Wait until the red column LED lights, then unseat the power supply.
Page 290: Testing The Blower Unit And Thermal Sensor
Testing blower unit and thermal sensor IMPORTANT! In the steps below, if you fail to see an expected display code, contact your Nortel Networks support representative. In the front of the pedestal, set the blower unit circuit breaker, or power switch, to OFF.
Page 291 Performing acceptance tests Page 291 of 376 Heat one of the two thermal sensors under the top cap of the column with a hand-held hair dryer or similar heat source. • The column LED should light. • Thirty seconds after the thermal sensor detects 70 degrees C (158 degrees F), the main circuit breaker, or the blower unit circuit breaker, at the rear of the pedestal should trip.
Page 292: Testing The Sysload
Page 292 of 376 Performing acceptance tests Testing the sysload Use Procedure 60 to test the sysload (manual reload) function. Procedure 60 Sysload test Start the sysload: • Simultaneously press the MAN RST buttons (the bottom buttons) on both Call Processor Cards. The following functions occur during a sysload: •...
Page 293: Testing The System Terminal And System Monitor
Performing acceptance tests Page 293 of 376 Testing the system terminal and system monitor Use Procedure 61 to test the system terminals connected to the Large System. Procedure 61 Testing system terminal and system monitor Log into the system: LOGI (password) Enter the program and check the status of the system monitor: LD 37 STAT XSM...
Page 294: Testing The Mmdu
Page 294 of 376 Performing acceptance tests Set the line transfer switch on the attendant console associated with the PFTU to ON. Associated attendant consoles should display a major alarm. Set the line transfer switch on the attendant console associated with the PFTU to OFF.
Page 295 Performing acceptance tests Page 295 of 376 Test the CMDU: TEST CMDU If the system response is not “OK,” see the Software Input/Output: Administration (553-3001-311) for the meaning of the message received. Exit LD 137: **** To test the second CMDU, enter: LD 135 Switch CPUs: SCPU...
Page 296 Page 296 of 376 Performing acceptance tests 553-3021-210 Standard 1.00 October 2003...
Page 297: Installing Earthquake Bracing
In certain seismic-approved applications where the pedestal attachment to the floor may be required but Nortel Networks does not offer the appropriate hardware, the installation organization must contact a seismic engineering firm to install the pedestal that meets Bellcore or California OSHPD requirements.
Page 298: Installing Seismic Bracing
Page 298 of 376 Installing earthquake bracing Installing seismic bracing Each Succession 1000M Large System and Meridian 1 Large System has been certified to meet two of the most stringent seismic specifications for concrete floor mounting: BELLCORE and CALIFORNIA OSHPD: •...
Page 299 Installing earthquake bracing Page 299 of 376 – concrete type (hardrock or lightweight aggregate), – minimum concrete compressive strength (megapascals or psi), – minimum concrete thickness First, choose the appropriate module bracing kit using Table 66 on page 299. Select a separate kit for each column of modules. For column expansion (when an additional module is added to a column which already contains seismic bracing) the expansion bracing kit should be used.
Page 300 You have the option of purchasing the contents directly from the manufacturer (using the listing below) or ordering the kits directly from Nortel Networks. • Kit A (NT8D64BE) contains four of each of the following items: —...
Page 301 Installing earthquake bracing Page 301 of 376 Drilling the floor The following tools are required to drill the holes for the anchor bolts. • dark marking pencil • center-punch • rotary hammer drill • carbide-tip drill bit: — 25.4 mm (1.00 inch) diameter (for Kit A, NT8D64BE) —...
Page 302 Page 302 of 376 Installing earthquake bracing Procedure 64 Drilling concrete floors IMPORTANT! This procedure applies only to installations into concrete floors. Using the equipment room floor plan mark the position of all of the columns. Center-punch each of the hole centers. Using a carbide-tipped drill bit, hammer drill the holes to the size and depth shown in Table 68 on page...
Page 303 Installing earthquake bracing Page 303 of 376 Installing anchor plates The following tools are required to install the anchors and the anchor plates: • Kit A — setting tool (Hilti HST 3/4”, manufacturer part#329821) — 1 1/8 inch open-end wrench •...
Page 304 Page 304 of 376 Installing earthquake bracing Figure 108 Mounting plate installation Pedestal Anchor holes Mounting plate Adapter bushing Anchor bolt Shim 553-6071 Procedure 66 Installing Kit B Locate the two mounting plates for each column over the anchor holes. Insert the anchors into the holes and tap the anchors into place with a mallet.
Page 305 Installing earthquake bracing Page 305 of 376 If the installation must meet CALIFORNIA OSHPD, tension proof load testing is required on 50 percent of the anchor bolts. These anchors must be tested to 6230 newtons (1400 pounds) tension and 122 newton-meters (90 foot-pounds) torque.
Page 306 Page 306 of 376 Installing earthquake bracing Use a 5/16 in. socket wrench to remove the six screws that secure the top cap (see Figure 110 on page 306). Lift the top cap from the column. Figure 110 Top cap assembly Mounting bolts Top cap Front of column...
Page 307 Installing earthquake bracing Page 307 of 376 Remove the side panels on the exterior of each module by removing the four bolts that secure the panel. Note: In a two-tier or three-tier column, with adequate ceiling clearance, you may be able to thread the rods down the sides of the column without removing the side panels.
Page 308 Page 308 of 376 Installing earthquake bracing Figure 111 Installing bracing rods for column support Tie bars Earthquake rods Rods in slots between modules and exterior side panels Side panel Rods screw into pedestal 553-3063 Reinstall the top cap and grills: •...
Page 309 Installing earthquake bracing Page 309 of 376 For a multiple-column system, install NT8D49AA Spacer Kits between adjacent columns: Attach gaskets to both sides in the front section of each spacer (see Figure 112 on page 309). Figure 112 Positioning spacer gaskets Gasket placement Rear Front...
Page 310 Page 310 of 376 Installing earthquake bracing Figure 113 Adding spacers to columns (end column) Spacers Spacers Attach spacers to one side of each column (except the end column) 553-5383 Go to “Positioning and leveling the system” on page 311. End of Procedure 553-3021-210 Standard 1.00...
Page 311 Installing earthquake bracing Page 311 of 376 Positioning and leveling the system The following tools are required to position and level the system: • socket wrench (anchor bolts) — 1 1/8 inch for Kit A — 24 mm for Kit B •...
Page 312: Installing Non-Seismic Bracing
The NT8D6401 Insulating Washer Kit is used for attaching the Large System to the floor when the installer is using a third party anchor kit instead of the Nortel Networks NT8D64BF Floor Mounting Kit. In this case, one NT8D6401 Insulating Washer Kit is required for each pedestal to electrically insulate the mounting bolts from the pedestal casting.
Page 313 Installing earthquake bracing Page 313 of 376 Installing a non-seismic anchor kit Procedure 69 Installing the NT8D64BF Floor Mounting Kit Mark the position of each Meridian 1 column using the equipment room floor plan. Mark the location of all four anchor holes for each column using a dark marking pencil.
Page 314 Page 314 of 376 Installing earthquake bracing Figure 114 Pedestal mounting flange (rear view) Pedestal Bolt Metal Washer Insulating Washer Anchor Shoulder Washer 553-7473 553-3021-210 Standard 1.00 October 2003...
Page 315: Adding A Module To A Column
Page 315 of 376 Adding a module to a column Contents This section contains information on the following topics: Overview ..........Adding a module to the base of a column.
Page 316: Adding A Module To The Base Of A Column
Page 316 of 376 Adding a module to a column A module can be added to a column in one of three positions. A specific procedure is provided for each situation. • “Adding a module to the base of a column” on page 316 •...
Page 317 Adding a module to a column Page 317 of 376 Procedure 70 Adding a module to the base of a column Disconnect and remove the NT8D22 System Monitor for the column in the rear of the pedestal (do not turn off the blower unit in the front of the pedestals): If the column houses the master system monitor, load LD 37, and software disable the associated SDI port:...
Page 318 Page 318 of 376 Adding a module to a column Figure 115 NT7D09CA Pedestal – module power and system monitor connections System monitor connector (NT8D46CB cable) Power plug (J1) CAUTION DISCONNECT FROM SOURCE OF DC POWER BEFORE REMOVING THIS UNIT FROM THE PEDESTAL 553-5469 Use a 9/16 in.
Page 319 Adding a module to a column Page 319 of 376 Figure 116 Module mounting bolts Mounting bolts 553-3057 Note: There is an EMI shield (it looks like a brass grill) on the top of each pedestal. Leave this shield on the pedestal. Use a few pieces of tape to hold the shield in position, so the holes for the mounting bolts are aligned with the screw holes on the pedestal.
Page 320 Page 320 of 376 Adding a module to a column Connect the power and system monitor cables in the module: Connect the power connectors to the pedestal and to the module above (see Figure 115 on page 318 and Figure 117 on page 321).
Page 321 Adding a module to a column Page 321 of 376 Figure 117 Module-to-module power and system monitor connections I/O safety panel to J1 Power connectors between modules System monitor connectors I/O safety panel to J2 Rear view 553-5152 Large System Installation and Configuration...
Page 322: Adding A Module Between Two Other Modules
Page 322 of 376 Adding a module to a column Adding a module between two other modules If conduit or other cabling runs through modules that are being moved, you must tag and disconnect the cables, pull them out of the modules, and reroute them after all of the modules are repositioned.
Page 323 Adding a module to a column Page 323 of 376 Remove the module that will be above the module being added: Disconnect the power connectors between the modules (review Figure 117 on page 321). Disconnect the system monitor cable from connector J1 in the module that will be above the module being added.
Page 324 Page 324 of 376 Adding a module to a column Position and secure modules: Locate the positioning guides on what is now the top module in the column (see Figure 119 on page 324). Make sure the module being added is facing the same direction as the column. Place the module being added on top of the column and adjust it until it is seated securely on the positioning guides.
Page 325 Adding a module to a column Page 325 of 376 Connect the power and system monitor cables between modules: Connect the power connectors between the module being added and the modules above and below it. Connect the system monitor cable from connector J2 in the module below to J1 in the module being added (review Figure 117 on page 321).
Page 326: Adding A Module To The Top Of A Column
Page 326 of 376 Adding a module to a column Adding a module to the top of a column In a dc-powered system, power to the column can remain on during this procedure. If conduit or other cabling runs through the top cap, you must tag and disconnect the cables, pull them out of the way, and reroute them after the new module and the top cap are positioned.
Page 327 Adding a module to a column Page 327 of 376 Disconnect power connections to the top cap: At the top of the rear of the module, disconnect the orange power connector from the module power harness (see Figure 120 on page 327).
Page 328 Page 328 of 376 Adding a module to a column Phillips head screwdriver and turn the fasteners 1/4-turn to release or secure the grill (see Figure 122 on page 328). Figure 122 UK air exhaust grill removal Top cap Air exhaust grill Air exhaust grill 1/4 turn fasteners 553-7375...
Page 329 Adding a module to a column Page 329 of 376 Figure 123 Top cap assembly Mounting bolts Top cap Front of column Screw for LED bracket on perforated panel 553-3038 Large System Installation and Configuration...
Page 330 Page 330 of 376 Adding a module to a column Position and secure the module being added: Locate the positioning guides on the module in the column (see Figure 124 on page 330). Make sure the module being added is facing the same direction as the column.
Page 331 Adding a module to a column Page 331 of 376 Figure 125 Module mounting bolts Mounting bolts 553-3057 Connect the power and system monitor cables between modules: Connect the power connectors between the module being added and the module below it (see Figure 126 on page 332).
Page 332 Page 332 of 376 Adding a module to a column Figure 126 Module-to-module power and system monitor connections I/O safety panel to J1 Power connectors between modules System monitor connectors I/O safety panel to J2 Rear view 553-5152 553-3021-210 Standard 1.00 October 2003...
Page 333 Adding a module to a column Page 333 of 376 Install the perforated panel and top cap on the module being added: Position the perforated panel and slide it slightly to the right (at the rear). Install the screw that secures the panel and LED bracket. Position wiring from the perforated panel so it rests in the cable well located next to the orange power connector at the rear of the module (see Figure 127 on...
Page 334 Page 334 of 376 Adding a module to a column Connect the orange power connector to the module power harness. Restore power to the module: • With ac power, set the main circuit breaker to ON (up) in the rear of the pedestal.
Page 335: Appendix A: Internal And External
Page 335 of 376 Appendix A: Internal and External Signaling Cables This appendix contains a list of all known internal and external signaling cables used in the Large System. The cable Product Engineering Code (PEC), CPC code, and length are listed for easy reference. A0660711 25DB Adapter Cable Length Description...
Page 336 Page 336 of 376 Appendix A: Internal and External Signaling Cables NT1R03 Shielded 4 Port Cable Length Description NT1R03BA A0400297 30 in. F50Telco-(4)F25DB, Round NT1R03 Shielded LAM Extension Cable Length Description NT1R03CA A0401483 2 ft M50Telco-F50Telco, Round NT1R03 25DB M/M Extension Cable Length Description NT1R03DB...
Page 337 Appendix A: Internal and External Signaling Cables Page 337 of 376 NT1R04 Clock Controller to I/O Panel Cable Length Description NT1R04AA A0401042 4 ft M50Telco-F50Telco, Round NT1R05 Intercabinet Module Cable Length Description NT1R05AA A0401044 16 ft F9DB-F9DB, Round NT4R20 RSM Adapter Cable Length Description NT4R20AA...
Page 338 Page 338 of 376 Appendix A: Internal and External Signaling Cables NT6D4407 GSP Cable Length Description NT6D4407 A0363746 F36Telco-(4)9DB, Ribbon NT6D4408 NVP Cable Length Description NT6D4408 A0363747 33 in. (2)F36Telco-(4)2x25Socket, Ribbon NT6D4410 CSL Cable Length Description NT6D4410 A0363749 33 in. M25DB-F25DB, Ribbon NT6D4411 DVS Bus Node to Node Cable Length...
Page 339 Appendix A: Internal and External Signaling Cables Page 339 of 376 NT6D4415 DVS Bus HABC Terminator Length Description NT6D4415 A0364039 76 ft 2x30-2x30Socket, Ribbon NT6D4416 DVS Bus, Node 2 to 3 Cable Length Description NT6D4416 A0364040 6 ft 2x30-2x30Socket, Ribbon NT6D54 QBL15 Field Wiring Kit (dc) Length Description...
Page 340 Page 340 of 376 Appendix A: Internal and External Signaling Cables NT7D90 Ethernet to I/O Panel Cable Length Description NT7D90AA A0387796 2 ft 60IDT-F15DB, Round NT7D90BA A0402054 12 in. 60IDT-F15DB, Round NT7D94 VME Transceiver Cable Length Description NT7D94AA A0387831 NT7D95 VME Transition Cable Length Description NT7D95AA A0387839 10 ft...
Page 341 Appendix A: Internal and External Signaling Cables Page 341 of 376 NT8D46AG System Monitor to Extended Serial Data Interface Cable Length Description NT8D46AG A0356976 34 in. F40-F40/10Socket, Ribbon NT8D46AJ UPS Alarm Cable (ac) Length Description NT8D46AJ A0356978 45 ft F9-M25DB, Round NT8D46AK UPS Alarm Cable (ac) Length Description...
Page 342 Page 342 of 376 Appendix A: Internal and External Signaling Cables NT8D46AS System Monitor Inter-CPU Cable Length Description NT8D46AS A0365088 9 ft F40Socket-F40/F40Socket, Ribbon NT8D46AT System Monitor/QBL15 Cable (dc) Length Description NT8D46AT A0366098 32 ft F9DB-Lugs, Round NT8D46AU UPS Alarm Cable (ac) Length Description NT8D46AU A0366276 45 ft...
Page 343 Appendix A: Internal and External Signaling Cables Page 343 of 376 NT8D46BA ST Upgrade QCA136 Internal Cable Length Description NT8D46BA A0373191 — Harness, Loose, Socket NT8D46BB ST Upgrade QCA136 Internal Cable with Expansion Length Description NT8D46BB A0373192 — Harness, Loose, Socket NT8D46BC ST Upgrade QCA137 External Cable Length Description...
Page 344 Page 344 of 376 Appendix A: Internal and External Signaling Cables NT8D46BH System Monitor to MDF Cable Length Description NT8D46BH A0372848 45 ft F9DB-Loose NT8D46BJ Upgrade QCA147 Internal Cable with Expansion Length Description NT8D46BJ A0373199 — Harness, Loose, Socket NT8D46BK RT Upgrade QCA137 External Cable with Expansion Length Description...
Page 345 Appendix A: Internal and External Signaling Cables Page 345 of 376 NT8D46DH/EH System Monitor to MDF Cable Length Description NT8D46DH A0388610 150 ft F9DB-Loose, Round NT8D46EH A0379247 100 ft F9DB-Loose, Round NT8D46FH System Monitor to SL-100 Cable Length Description NT8D46FH A0390418 Variable F9DB-Loose, Round NT8D73 Network I/O to Network I/O Intercabinet Cable...
Page 346 Page 346 of 376 Appendix A: Internal and External Signaling Cables NT8D76 InterGroup Switch to Junctor Cable Length Description NT8D76BC A0406503 4 ft M50Telco-M50Telco, Round NT8D76BD A0406504 5 ft M50Telco-M50Telco, Round NT8D76BE A0406505 6 ft M50Telco-M50Telco, Round NT8D76BF A0406506 8 ft M50Telco-M50Telco, Round NT8D76BG A0406507 10 ft...
Page 347 Appendix A: Internal and External Signaling Cables Page 347 of 376 NT8D80 CPU Interface Cable Length Description NT8D80BB A0406520 2 ft M50Telco-M50Telco, Round NT8D80BC A0406521 4 ft M50Telco-M50Telco, Round NT8D80BD A0406522 6 ft M50Telco-M50Telco, Round NT8D80BE A0406523 8 ft M50Telco-M50Telco, Round NT8D80BF A0406524 10 ft M50Telco-M50Telco, Round...
Page 348 Page 348 of 376 Appendix A: Internal and External Signaling Cables NT8D85 Network to PE Cable Length Description NT8D85BB A0406533 2 ft M36Telco-M36Telco, Round NT8D85BC A0406534 4 ft M36Telco-M36Telco, Round NT8D85BD A0406535 6 ft M36Telco-M36Telco, Round NT8D85BE A0406536 8 ft M36Telco-M36Telco, Round NT8D85BF A0406537 10 ft...
Page 349 Appendix A: Internal and External Signaling Cables Page 349 of 376 NT8D91 Superloop Network to Peripheral Controller Cable Length Description NT8D91AC A0358526 4 ft M24Telco-F24Socket, Round NT8D91AD A0358527 6 ft M24Telco-F24Socket, Round NT8D91AE A0358528 8 ft M24Telco-F24Socket, Round NT8D91AF A0358529 10 ft M24Telco-F24Socket, Round NT8D91AG A0358530 12 ft M24Telco-F24Socket, Round...
Page 350 Page 350 of 376 Appendix A: Internal and External Signaling Cables NT8D98 Superloop Network I/O to Superloop Network I/O Intercabinet Network Cable Length Description NT8D98AD A0363633 6 ft M24Telco-M24Telco, Round NT8D98AF A0363751 12 ft M24Telco-M24Telco, Round NT8D98AL A0363752 20 ft M24Telco-M24Telco, Round NT8D98AS A0363753 30 ft...
Page 351 Appendix A: Internal and External Signaling Cables Page 351 of 376 NT9J96 Network to I/O Intracabinet Network Cable Length Description NT9J96AC A0359316 40 in. M36Telco-F36Telco, Round NT9J96AD A0359540 70 in. M36Telco-F36Telco, Round NT9J96AE A0359541 85 in. M36Telco-F36Telco, Round NT9J96AG A0359542 12 ft M36Telco-F36Telco, Round NT9J96AH A0359543 14 ft...
Page 352 Page 352 of 376 Appendix A: Internal and External Signaling Cables NTAK0410 Battery Cable Length Description NTAK0410 A0373953 6 ft 1x5Socket-1x2Socket, Round NTBK04 1.5MB DTI/PRI T1 Cable Length Description NTBK04AA A0394216 20 ft F50Telco-F15DB, Round NTBK04 1.5MB Carrier/Clock Cable Length Description NTBK04AB A0394641 20 ft F50Telco-M15DB, Round...
Page 353 Appendix A: Internal and External Signaling Cables Page 353 of 376 NTND11 CMB to CMB Cable Length Description NTND11AA A0389598 6 ft 4x15HDR-4x15HDR, Round NTND13 SCSI Cable Length Description NTND13AA A0389600 1 ft 4x15Socket-4x15Socket, Round NTND13AB A0396616 3.5 ft 4x15Socket-4x15Socket, Round NTND13AC A0396617 6 ft 4x15Socket-4x15Socket, Round NTND14 CNI to 3PE Cable...
Page 354 Page 354 of 376 Appendix A: Internal and External Signaling Cables NTND27 MSDL to I/O Panel Cable Length Description NTND27AA A0393418 4 ft SCSII-25DB, Round NTND27 MSDL SDI/AM2 Cable Length Description NTND27AB A0393419 6 ft SCSII-25DB, Round NTND28 Network Expansion Intercabinet Cable Length Description NTND28BA A0399441 13 ft...
Page 355 Appendix A: Internal and External Signaling Cables Page 355 of 376 NTND71 BRA Clock Reference to Clock Controller Cable Length Description NTND71AA A0398302 6.5 ft M9DB-M9DB, Round NTND71AB A0398303 12 ft M9DB-M9DB, Round NTND71AC A0398304 25 ft M9DB-M9DB, Round NTND71AD A0398305 42 ft M9DB-M9DB, Round NTND72 Clock Reference to Clock Controller Cable Length...
Page 356 Page 356 of 376 Appendix A: Internal and External Signaling Cables NTND94 Cable Length Description NTND94BA A0402023 17.5 in. 4x15Socket-M50Telco, Round NTND94CA A0402056 13 in. 4x15Socket-M50Telco, Round NTND95 EMI Box to 3PE Cable Length Description NTND95AA A0399240 8 ft M50Telco-M50Telco, Round NTRC46 Clock to FIJI Cable Length NTRC46AA A0757801 4 ft - 13.5 ft (see note)
Page 357 Appendix A: Internal and External Signaling Cables Page 357 of 376 NTRC49 Clock to Clock Cable Length NTRC49AA 6 ft NTRC49BA 20 ft Large System Installation and Configuration...
Page 358 Page 358 of 376 Appendix A: Internal and External Signaling Cables 553-3021-210 Standard 1.00 October 2003...
Page 359: List Of Terms
Page 359 of 376 List of terms Alternating current ac equipment ground (ACEG) An insulated conductor, used to protect personnel from injury, that does not normally carry current. The ACEG is permanently bonded to the service panel ground and to metal parts of electrical equipment that do not normally carry current.
Page 360 Page 360 of 376 List of terms A copper bar, plate, or conductor Card cage A frame for holding circuit cards in a module; also called a card chassis CE/PE Common Equipment/Peripheral Equipment Canadian Electrical Code Central Office (CO) The site where a telephone company terminates customer lines and houses the switching equipment that interconnects those lines Central Processing Unit (CPU) The main portion of a computer that contains the primary storage, arithmetic...
Page 361 List of terms Page 361 of 376 Canadian Standards Association Direct current Data Communications Equipment Data Terminal Equipment Digitone Receiver EEPE Enhanced Existing Peripheral Equipment Floppy Disk Interface Floppy Disk Unit FG (or FGND) Frame Ground (safety ground) Ground A metallic connection, whether intentional or accidental, between an electric circuit or equipment and the earth, or some conducting body that serves in place of the earth.
Page 362 Page 362 of 376 List of terms Input/Output (I/O) Exchange between a machine and end user equipment Input/Output Processor Inter-Processor Bus Intelligent Peripheral Equipment Ligh-Emitting Diode Line A communications channel or circuit; an electrical path Logic Return (LR or LRTN) Sometimes referred to as logic ground, logic return is the voltage reference and current return path that is eventually connected to the single point ground for analog and digital circuits.
Page 363 List of terms Page 363 of 376 MFA150 150-amp modular front access dc power system, rack style Module power supplies Individual power units that generate the different dc voltages required by the cards installed in each module MPDU Module Power Distribution Unit MPP600 600-amp modular dc power plant, cabinet style Mass Storage Interface...
Page 364 Page 364 of 376 List of terms Power Distribution Unit (PDU) Input power is brought into the pedestal to the PDU. The PDU distributes input power to the column. QBL12 75-amp external dc power distribution unit QBL15 150-amp external dc power distribution unit QCA13 50–200-amp rectifier/distribution unit cabinet Remote Peripheral Equipment...
Page 365 List of terms Page 365 of 376 Top cap The top cap is mounted on the top module of each column. It provides airflow exits, EMI/RFI shielding, I/O cable entry and exit, and overhead cable rack mounting. The top cap covers thermal sensor assemblies for the column. Trunk A single circuit between two points, both of which are switching centers or individual distribution points...
Page 366 Page 366 of 376 List of terms 553-3021-210 Standard 1.00 October 2003...
Page 367: Index
Page 367 of 376 Index Numerics anchor bolts floor drilling for, 301 500/2500-type telephones, 117 anchor kit selection, 298, 300 anchor plate installation, 303 A0367916 Auxiliary –48V Power Supplies, 113, antistatic bags, 37 automatic ground start, 117 A0377992 ABCD-Switches auxiliary –48V power supplies, 113, 116 system terminal connections, 137 A0377992 Black Box ABCDE-Switches modem connections, 147...
Page 368 Page 368 of 376 connectors, 225 covers, module, 39 cables and cabling fourth modules, 44 CP (call processing) cards lines and trunks, 225 sysloads, 292 module additions, 320, 321, 323, 331, 332 system terminal connections, 136 network loops, 203 CPC codes, 335 PFTU, 116 CPIO ports routing guidelines, 32...
Page 369 Page 369 of 376 field wiring kits and terminals junction boxes PDU connections, 88 modular power systems, 75 floor drilling for anchor bolts, 301 floor plans, 38 Krone cross connect system (UK), 104 fourth modules, 41 L6-20 receptacles, 57 gaskets L6-30 receptacles, 57 bracing rod installation, 309 spacer kits, 48...
Page 370 Page 370 of 376 master switch settings, system monitor, 122 NE-A25B cable I/O panel connections, 227 MDF (modular distribution frames), 99 PFTU connections, 116 backplane cable expansion, 104 I/O panel connections, 227 network loops, 203 PFTU cross-connections, 116 network modules PFTU terminations, 114 cabling to another network module, 203 system monitor cabling, 127...
Page 371 Page 371 of 376 NT6P0110 Four-Port Cable, 339 NT8D37BA IPE Modules, 225, 228 NT7D0902 Rear Mount Conduit Kit, 89 NT8D37EC IPE Modules, 225, 228 NT7D09CA Pedestals, module additions, 318 NT8D37 IPE Modules backplane slots, 104 NT7D09 Pedestals, 85 cable connections, 226, 228 NT7D61Ax VME SDI I/O Intercable, 339 line pair-termination tables, 229 NT7D67CB PDU...
Page 372 Page 372 of 376 NT8D46AW System Monitor/QBL12 Cable (DC), NT8D46DH/EH System Monitor to MDF Cable, NT8D46AX System Monitor CE/PE ST Upgrade NT8D46EH cable, 128 Cable, 342 NT8D46FH System Monitor to SL-100 Cable, 345 NT8D46AY System Monitor XPE ST Upgrade NT8D49AA Spacer Kits, 309, 310 Cable, 342 NT8D49 Spacer Kits, 48 NT8D46BA ST Upgrade QCA136 Internal Cable,...
Page 373 Page 373 of 376 NT8D88 Superloop Network Card to I/O Cable, 348 NTBK05 2MB DTI/PRI Coax Carrier Cable, 352 NT8D90 SDI Multiple Port Extension Cable, 348 NTBK05 SDT12 120-OHM E1 Cable, 352 NT8D91 cable, 217 NTND11 CMB to CMB Cable, 353 NT8D91 Superloop Network to Peripheral NTND13 SCSI Cable, 353 Controller Cable, 349...
Page 374 Page 374 of 376 P069985 Top Cap Cable Egress Panel, 53 QCAD309 Cable, 335 pair-termination tables, 229 QCAD328 DCHI Interface Cable, 335 PDU (power distribution unit), 67 equipment layout, 88 junction boxes for, 75 ramps, 36 power to, 92 receptacles, 57 safety ground, 89 ringing generators system monitor cabling, 124...
Page 375 Page 375 of 376 Succession 1000M Multi Group, 27 top cap cable egress panels, 53 Succession 1000M Single Group, 27 top caps, 20 bracing rod installation, 305, 306 Succession Signaling Server, 27 fourth modules, 41 superloop adapter plates, 220 grills, 53 superloop cabling, 216 module additions, 327, 329 switch boxes...
Page 376 Page 376 of 376 553-3021-210 Standard 1.00 October 2003...
Page 378 Installation and Configuration Copyright © 2003 Nortel Networks All Rights Reserved Information is subject to change without notice. Nortel Networks reserves the right to make changes in design or components as progress in engineering and manufacturing may warrant. This equipment has been...