Turin Networks TraverseEdge 100 Installation And Commissioning Manual

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Traverse System

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Installation and Commissioning

Guide

Release TR3.2.1

Publication Date: Feburary 2009

Document Number: 800-0002-TR321 Rev. B

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Page 1 Turin Networks Inc. Traverse System Documentation Installation and Commissioning Guide Release TR3.2.1 Publication Date: Feburary 2009 Document Number: 800-0002-TR321 Rev. B...
Page 2 All rights reserved. This document contains proprietary and confidential information of Turin Networks, Inc., and may not be used, reproduced, or distributed except as authorized by Turin Networks. No part of this publication may be reproduced in any form or by any means or used to make any derivative work (such as translation, transformation or adaptation) without written permission from Turin Networks, Inc.
Page 3 Inserting and Removing Cards ........6-15 Chapter 4 Release TR3.2.1 Turin Networks Page i...
Page 4 Card Placement Planning and Guidelines ......12-1 Appendix B Page ii Turin Networks Release TR3.2.1...
Page 5 ............Index-1 Release TR3.2.1 Turin Networks Page iii...
Page 6 Page iv Turin Networks Release TR3.2.1...
Page 7 Introduction This description contains the following documentation topics: • Traverse System Product Documentation, page 1 • TraverseEdge 100 System Product Documentation, page 1 • TraverseEdge 206 System Product Documentation, page 1 • TransNav Management System Product Documentation, page 1 •...
Page 8 Traverse Installation and Commissioning Guide, : TraverseEdge 100 System Product Documentation TraverseEdge The TraverseEdge™ 100 User Guide includes the sections described in the table below. 100 System Product Table 0-2 TraverseEdge 100 System Product Documentation Documentation Section Description Target Audience Product Overview...
Page 9 • interfaces that must be hardwired TraverseEdge 206 Provides information vital for proper operation and Field and network Users Guide maintenance of Turin Networks TE-206 system. engineers, provisioning Information provided deals with processes and and network operation procedures for: center (NOC) personnel •...
Page 10 TransNav environment. System TL1 Guide This document also defines all input commands and expected responses for retrieval commands as well as autonomous messages that the system outputs due to internal system events. Page viii Turin Networks Release TR3.2.1...
Page 11 TE-206 and TE-2020 systems. engineers Information provided deals with processes and procedures for: • turn up • test • maintenance duties • input command sequences • valid parameters • expected responses using TN-Xpert Release TR3.2.1 Turin Networks Page ix...
Page 12 • Node software upgrades • Node hardware upgrades Information Traverse, TransNav, and TraverseEdge 100 system documentation uses the Information Mapping Mapping format which presents information in small units or blocks. The beginning of an information block is identified by a subject label in the left margin; the end is identified by a horizontal line.
Page 13 Calling for Repairs When shipping Traverse or TraverseEdge 100 equipment for repair, follow these steps: 1. Pack the unit securely. 2. Enclose a note describing the exact problem. 3. Enclose a copy of the invoice that verifies the warranty status.
Page 14 Traverse Installation and Commissioning Guide, : Calling for Repairs Page xii Turin Networks Release TR3.2.1...
Page 15: Table Of Contents
Example Traverse 1600 Shelf Card Layout ....1-5 List of Tables Table 1-1 Installation Process and References..... . . 1-1 Release TR3.2.1 Turin Networks Page xv...
Page 16 Traverse Installation and Commissioning Guide, Section 1 Installation Overview Page xvi Turin Networks Release TR3.2.1...
Page 17: Introduction
8-3 Install alarm cabling. Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 1—“Alarm Interface Cabling,” page 9-5 Install timing cabling. Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 2—“Timing Interface Cabling,” page 9-25 Release TR3.2.1 Turin Networks Page 1-1...
Page 18 Traverse shelf interface specifications are in the following sections: Interface • Section 2—Network Interface Specifications Specifications • Section 3—Alarm, Timing, and Management Interface Specifications • Section 4—Power Interface Specifications • Section 5—Cable Management Specifications Page 1-2 Turin Networks Release TR3.2.1...
Page 19: Introduction
ECTION NSTALLATION VERVIEW Chapter 2 Traverse System Configuration Examples Introduction This chapter includes the following topics: • Traverse System Configuration Example, page 1-4 • Example Traverse Shelf Card Layout, page 1-5 Release TR3.2.1 Turin Networks Page 1-3...
Page 20: Traverse System Configuration Example
Fan Tray with integrated air ramp Traverse 1600 Fan Tray with integrated air ramp Traverse 1600 Fan Tray with integrated air ramp Traverse 1600 Fan Tray with integrated air ramp Figure 1-1 Traverse 1600 Rack Configuration Page 1-4 Turin Networks Release TR3.2.1...
Page 21: Traverse System Configuration Examples
(6) DS3/EC-1, (2) OC-3/STM-1, (2) OC-12/STM-4, (2) OC-48/STM-16, (2) VT/TU Card Layout 5G Switch, and (2) GCM cards. VT/TU GCMA 5GSwitch DS3/ OC-3 OC-12 OC-48 and B Slot #s 13 14 15 Figure 1-2 Example Traverse 1600 Shelf Card Layout Release TR3.2.1 Turin Networks Page 1-5...
Page 22 Traverse Installation and Commissioning Guide, Section 1: Installation Overview Example Traverse Shelf Card Layout Page 1-6 Turin Networks Release TR3.2.1...
Page 23 Unprotected ..........2-30 Release TR3.2.1 Turin Networks Page i...
Page 24 DS1/E1 ECM—1:2 Protection Connectors ....2-30 Figure 2-12 DS1/E1 ECM—Unprotected Connectors ....2-30 Page ii Turin Networks Release TR3.2.1...
Page 25 Telco 50 Connector Pinouts/Color Code (Cable One) ..2-47 Table 2-19 Ethernet Electrical Interface and Ethernet Protection ECM Telco 50 Connector Pinouts/Color Code (Cable Two) ..2-48 Release TR3.2.1 Turin Networks Page iii...
Page 26 Traverse Installation and Commissioning Guide, Section 2 Network Interface Specifications Page iv Turin Networks Release TR3.2.1...
Page 27: Fiber Optic Interface Cabling Specifications
DCS Application MPX Optical Connector Scheme, page 2-13 For cabling procedures, see Section 8—Network Interface Cabling Procedures, Chapter 2—“Fiber Optic Cabling Procedures,” page 8-3. For electrical cabling specifications, see Chapter 5—“Ethernet (Electrical) Interface Cabling Specifications,” page 2-43. Release TR3.2.1 Turin Networks Page 2-1...
Page 28 • 4-port GbE SX plus 16-port 10/100BaseTX/CEP Combo (NGE Plus) • 4-port GbE LX plus 16-port 10/100BaseTX/CEP Combo (EoPDH) • 4-port GbE SX plus 16-port 10/100BaseTX/CEP Combo (EoPDH) • 4-port OC-3/STM-1 • 4-port OC-12/STM-4 Page 2-2 Turin Networks Release TR3.2.1...
Page 29 An MPX connector on the other end of the fiber optic cable is optional. Fiber optic cable with fan out for termination to single fiber connectors (SC, FC, ST, LC, or D4) is another option. Release TR3.2.1 Turin Networks Page 2-3...
Page 30: Gbe-10 Scm, Fiber Assignments, And Sfps
The outline of the 2-slot SCM for slots 1 and 2 is shown in light gray. 2-slot SCM Slot n+1=2 connectors Figure 2-2 2-Slot SCM on a Traverse 1600 Backplane Page 2-4 Turin Networks Release TR3.2.1...
Page 31: Sfp Types
Table 2-3 10-port GbE Card SFP Types Model Number SFP Description SFP-1000BASE-SX850 1000Base-SX SFP, MMF, 850nm (customer installable) SFP-1000BASE-LX1310 1000Base-LX SFP, SMF, 1310nm (customer installable) SFP-1000BASE-ZX1550 1000Base-ZX SFP, SMF, 1550nm (customer installable) SPF-1000BASE-TX 1000Base-TX SFP, Copper, RJ-45 connector (customer installable) Release TR3.2.1 Turin Networks Page 2-5...
Page 32: Sfp Specifications
Turin recommends customers to take actual fiber readings, as these values are based on standards qualification. These values account for the connector loss from connection to the optical interface and the worst case optical path penalty. Page 2-6 Turin Networks Release TR3.2.1...
Page 33: General Scm Housing To Optical Fiber Port Assignment
SFP Duplex LC Position 1-port optics 1 Each, 2 Fiber (SC/FC/ST/LC/D • 1 port each per Ports 1 & 2 Port #1 10-port GbE Top of Top of (Fiber: 1-Blue, 2-Orange) Port 1 Port 2 Release TR3.2.1 Turin Networks Page 2-7...
Page 34: Optical Gbe Port Protection
Optical port protection does not protect against fiber cuts. Figure 2-4 GbE Optical Coupler/Splitter For protection group creation instructions, see the Traverse Provisioning Guide, Section 3—Creating Protection Groups, Chapter 4—“Creating Equipment Protection Groups,” page 3-21. Page 2-8 Turin Networks Release TR3.2.1...
Page 35 General MPX The following diagram details the MPX connector fiber port assignments and MPX connector housing position. It describes Connector to the cables and which fibers are used for the various cards. Depending on the cable type, use either the fiber position number or multi-color code scheme and the receive (RX) and transmit (TX) indicators to clarify the optical fiber assignment.
Page 36 Table 2-6 Fiber Optic Port Assignment and MPX Connector and Housing Position (continued) Connector Fiber to MPX Housing Card Fiber Assignment Related to Ports Cable Position (A–upper & B–lower) GbE TX plus 1 Each, 4 Fiber Note: Ports 3 and 4 for LX or SX 2-port optics (SC/FC/ST/LC/D4) Port #3...
Page 37 Table 2-6 Fiber Optic Port Assignment and MPX Connector and Housing Position (continued) Connector Fiber to MPX Housing Card Fiber Assignment Related to Ports Cable Position (A–upper & B–lower) 4-port optics 1 Each, 8 Fiber (SC/FC/ST/LC/D4) • 4-port OC-3/STM-1 Port #1 Port #2 Port #3 Port #4...
Page 38 Table 2-6 Fiber Optic Port Assignment and MPX Connector and Housing Position (continued) Connector Fiber to MPX Housing Card Fiber Assignment Related to Ports Cable Position (A–upper & B–lower) 8-port optics 2 Each, 8 Fiber (SC/FC/ST/LC/D4) • 8-port OC-3/STM-1 Port #1 Port #2 Port #3 Port #4...
Page 39 2 Fibers 2 Fibers port 2 port 2 port 1 port 1 1-port OC-48 1 Each, 2 Fibers 2 Each, 2-port OC-48 2 Fibers 1-port OC-48 1 Each, 2 Fibers port 2 port 1 Release TR3.2.1 Turin Networks Page 2-13...
Page 40: Dcs Application Mpx Optical Connector Scheme
Traverse Installation and Commissioning Guide, Section 2: Network Interface Specifications DCS Application MPX Optical Connector Scheme Page 2-14 Turin Networks Release TR3.2.1...
Page 41: Ecm Interface Specifications
This chapter includes the following topics: • Electrical Connector Modules, page 2-16 • Electrical Connector Card Interface Specifications, page 2-17 • ECM Placement at the Traverse Main Backplane, page 2-18 • ECM and Card Placement Planning Guidelines, page 2-20 Release TR3.2.1 Turin Networks Page 2-15...
Page 42 Electrical The Traverse shelf uses electrical connector cards (ECM) to provide easy-operation network connections for copper and coax Connector interface cards using industry-standard cables and connectors. There are nine types of ECMs used for copper and coax cabling at the Traverse main backplane: Modules •...
Page 43 EoPDH) (Centronics) connector Of the 48 ports on the UTMX-48 module, the first 24 ports (1 through 24) can be used as electrical or optical (STS1-TMX) ports. Ports 25 through 48 are optical only. Release TR3.2.1 Turin Networks Page 2-17...
Page 44: 2-Slot Ecm
1 and 2 is shown in light gray. 2-slot ECM Slot n=1 connectors Figure 2-6 2-Slot ECM on a Traverse 1600 Backplane 2-slot ECM Slot n=1 connectors Figure 2-7 2-Slot ECM on a Traverse 600 Backplane Page 2-18 Turin Networks Release TR3.2.1...
Page 45 3-slot ECM for slots 1, 2, and 3 is shown in light gray. 3-slot ECM Slot n+1=2 connectors Figure 2-8 3-Slot ECM on a Traverse 1600 Backplane 3-slot ECM Slot n+1=2 connectors Figure 2-9 3-Slot ECM on a Traverse 600 Backplane Release TR3.2.1 Turin Networks Page 2-19...
Page 46: Ecm And Card Placement Planning Guidelines
• UTMX-24 configuration. Either leave the slot open • UTMX-48 for a future upgrade to 1:2 protection or 3-slot E1 place an optic card in the open slot. Page 2-20 Turin Networks Release TR3.2.1...
Page 47 Place a card in one slot and an optical card (OC-3/STM-1, OC-12/STM-4, or • DS3/EC-1 CC (optional) OC-48/STM-16) in the other slot. • DS3/EC-1 Connect the copper-interface cables to Transmux the ECM accordingly. • E1 • E3 CC • Ethernet Release TR3.2.1 Turin Networks Page 2-21...
Page 48 One card protects all remaining adjacent cards. (SDH network only) Where N = 1. The Traverse supports VT/TU 5G Switch card equipment protection groups. One card protects all remaining adjacent cards. Page 2-22 Turin Networks Release TR3.2.1...
Page 49: Ds1 And E1 Interface Cabling Specifications
Offers E1 (75 ohm) cabling using industry-standard coax cable (AT&T E1 ECM. 735A equivalent). The E1 ECM has male Mini-SMB connectors on the front and two 2 mm type B connectors on the back. Release TR3.2.1 Turin Networks Page 2-23...
Page 50: Traverse 2000 Ds1 And E1 Card Cabling Schemes
(n+2) cards. 1:1 protection Either the left-adjacent (n) or right-adjacent (n+2) card from the protecting card (n+1) is the working card. Unprotected The DS1/E1 ECM provides direct cable access to both cards (n and n+1). Page 2-24 Turin Networks Release TR3.2.1...
Page 51 (n and n+1). 3-slot E1 E1 ECMs provide direct cable (Mini-SMB) access to only the center (n+1) and left-most (n) cards, so place an optic card in the right-most (n+2) card position. Release TR3.2.1 Turin Networks Page 2-25...
Page 52 The remaining adjacent slot is open in this configuration. Do one of the following: • Leave open slot for future upgrade to 1:2 protection. • Place an optic card in the open slot. Page 2-26 Turin Networks Release TR3.2.1...
Page 53 (n and (Telco 64) n+1). 3-slot E1 E1 ECMs provide direct cable (Mini-SMB) access to only the center (n+1) and left-most (n) cards, so place an optic card in the right-most (n+2) card position. Release TR3.2.1 Turin Networks Page 2-27...
Page 54 The remaining adjacent slot is open in this configuration. Do one of the following: • Leave open slot for future upgrade to 1:2 protection. • Place an optic card in the open slot. Page 2-28 Turin Networks Release TR3.2.1...
Page 55 Connectors are used DS1 Ports 1–28 for 1:1 Protection or E1 Ports 1-21 Cabling of Slot n+1 Note: Plug the DS1/E1 ECM into Slot n 2 mm main backplane connectors Figure 2-10 DS1/E1 ECM—1:1 Protection Connectors Release TR3.2.1 Turin Networks Page 2-29...
Page 56 Slot n Output (O) Connector for DS1 Ports 1–28 Note: Plug the DS1/E1 E1 Ports 1-21 ECM into Slot n 2 mm of Slot n main backplane connectors Figure 2-12 DS1/E1 ECM—Unprotected Connectors Page 2-30 Turin Networks Release TR3.2.1...
Page 57: Ds1/E1 Ecm Connector Pinouts And Cable Color Codes
Blue/Violet DS1 Only (below) Port 22/Channel 22/Pair 22 Violet/Orange Orange/Violet Port 23/Channel 23/Pair 23 Violet/Green Green/Violet Port 24/Channel 24/Pair 24 Violet/Brown Brown/Violet Port 25/Channel 25/Pair 25 Violet/Slate Slate/Violet Port 26/Channel 26/Pair 26 White/Blue Blue/White Release TR3.2.1 Turin Networks Page 2-31...
Page 58 Port 16/Channel 16/Pair 16 Violet/Blue Blue/Violet Port 17/Channel 17/Pair 17 Violet/Orange Orange/Violet Port 18/Channel 18/Pair 17 Violet/Green Green/Violet Port 19/Channel 19/Pair 19 Violet/Slate Slate/Violet Port 20/Channel 20/Pair 20 White/Blue Blue/White Port 21/Channel 21/Pair 21 White/Orange Orange/White Page 2-32 Turin Networks Release TR3.2.1...
Page 59: E1 Ecm Mapping
Output (O) Mini-SMB Connectors Ports 1–21 of Slot n+2 Input (I) Mini-SMB Connectors Ports 1–21 of Slot n Output (O) Mini-SMB Connectors Ports 1–21 of Slot n Figure 2-13 3-Slot E1 (42-port Mini-SMB) ECM Mapping Release TR3.2.1 Turin Networks Page 2-33...
Page 60 Traverse Installation and Commissioning Guide, Section 2: Network Interface Specifications E1 ECM Mapping Page 2-34 Turin Networks Release TR3.2.1...
Page 61: Ds3 And E3 Interface Cabling Specifications
DS3/E3 ECM Mapping, page 2-40 For cabling procedures, see Section 8—Network Interface Cabling Procedures, Chapter 4—“DS3 and E3 Cabling Procedures,” page 8-27. For general ECM information, see Section 2—Network Interface Specifications, Chapter 2—“ECM Interface Specifications,” page 2-15. Release TR3.2.1 Turin Networks Page 2-35...
Page 62: Ds3/E3 Ecm Placement
The Traverse 2000 main backplane design supports 1:1 and 1:2 equipment protection and unprotected cabling schemes. Both 1:1 and 1:2 equipment protection groups can DS3/E3 Card start in any odd or even slot. Cabling Schemes Page 2-36 Turin Networks Release TR3.2.1...
Page 63 • Place an optic card in the open slot. Unprotected 3-slot DS3/E3 ECMs provide direct cable access to only the center (n+1) and right-most (n+2) cards, so place an optic card in the left (n) slot. Release TR3.2.1 Turin Networks Page 2-37...
Page 64 • Place an optic card in the open slot. Unprotected 3-slot DS3/E3 ECMs provide direct cable access to only the center (n+1) and right-most (n+2) cards, so place an optic card in the left (n) slot. Page 2-38 Turin Networks Release TR3.2.1...
Page 65 • Place an optic card in the open slot. Unprotected 3-slot DS3/E3 ECMs provide direct cable access to only the center (n+1) and right-most (n+2) cards, so place an optic card in the left (n) slot. Release TR3.2.1 Turin Networks Page 2-39...
Page 66: Ds3/E3 Ecm Mapping
BNC connector locations to support one 12-port DS3/E3/EC-1 or 12-port DS3/EC-1 Transmux card and 1:1 protection. Output (O) Input (I) BNC Connectors for BNC Connectors for Ports 1–12 of Slot n+1 Ports 1–12 of Slot n+1 Figure 2-14 2-Slot DS3/E3 (12-port BNC) ECM Mapping Page 2-40 Turin Networks Release TR3.2.1...
Page 67 BNC Connectors for Ports 1–12 of Slot n+2 Input (I) BNC Connectors for Ports 1–12 of Slot n Output (O) BNC Connectors for Ports 1–12 of Slot n Figure 2-15 3-Slot DS3/E3 (24-port BNC) ECM Mapping Release TR3.2.1 Turin Networks Page 2-41...
Page 68 Output (O) Mini-SMB Connectors Ports 1–24 of Slot n+2 Input (I) Mini-SMB Connectors Ports 1–24 of Slot n Output (O) Mini-SMB Connectors Ports 1–24 of Slot n Figure 2-16 3-Slot DS3/E3 (48-port Mini-SMB) ECM Mapping Page 2-42 Turin Networks Release TR3.2.1...
Page 69: Introduction
For electrical Ethernet cabling procedures, see Section 8—Network Interface Cabling Procedures, Chapter 5—“Ethernet (Electrical) Cabling Procedures,” page 8-37. For general electrical connector card (ECM) information, see Section 2—Network Interface Specifications, Chapter 2—“ECM Interface Specifications,” page 2-15. Release TR3.2.1 Turin Networks Page 2-43...
Page 70 To create CEPP protection groups, see the Traverse Provisioning Guide, Section 3—Creating Protection Groups, Chapter 1—“Overview of Protection Groups,” page 3-2. NGE and Turin Networks offers these single-slot GbE/FE interface combination cards: EoPDH Card Types • 2-port GbE TX plus 2-port GbE LX or SX plus 16-port 10/100BaseTX •...
Page 71 Ports 5 through 8 connect to the first Telco 50 connector (ECM PORTS 9–12) – Ports 9 through 20 connect to the second Telco 50 connector (ECM PORTS 13–24) For NGE card optical port cabling information, refer to Chapter 1—“Fiber Optic Interface Cabling Specifications,” page 2-1. Release TR3.2.1 Turin Networks Page 2-45...
Page 72 These tables provide signal and mapping information—card port numbers, ECM and Patch Panel port numbers, Telco 50 pin numbers, cable color code, RJ-45 pin numbers. Note: The RJ45 pinout matches the EIA/TIA-568A standard. Page 2-46 Turin Networks Release TR3.2.1...
Page 73 Black/Orange White/Orange RX+_n Orange/Black Orange/White RX–_n Unused Unused White/Brown White/Green TX+_n Brown/White Green/White TX–_n Black/Brown White/Orange RX+_n Brown/Black Orange/White RX–_n Unused Unused Red/Green White/Green TX+_n Green/Red Green/White TX–_n Yellow/Blue White/Orange RX+_n Blue/Yellow Orange/White RX–_n Release TR3.2.1 Turin Networks Page 2-47...
Page 74 Port 9 Port 13 White/Blue White/Green TX+_P9 (10/100) Blue/White Green/White TX–_P9 White/Orange White/Orange RX+_P9 Orange/White Orange/White RX–_P9 Port 10 Port 14 White/Green White/Green TX+_P10 (10/100) Green/White Green/White TX–_P10 White/Brown White/Orange RX+_P10 Brown/White Orange/White RX–_P10 Page 2-48 Turin Networks Release TR3.2.1...
Page 75 Port 18 Port 22 Yellow/Brown White/Green TX+_P18 (10/100) Brown/Yellow Green/White TX–_P18 Yellow/Slate White/Orange RX+_P18 Slate/Yellow Orange/White RX–_P18 Port 19 Port 23 Violet/Blue White/Green TX+_P19 (10/100) Blue/Violet Green/White TX–_P19 Violet/Orange White/Orange RX+_P19 Orange/Violet Orange/White RX–_P19 Release TR3.2.1 Turin Networks Page 2-49...
Page 76 ECM Ports 9-12 (for 10/100 TX) (Slot n+1) Connector 2 ECM Ports 13-24 (for 10/100 TX) (Slot n+1) Note: Plug the ECM into Slot n 2 mm main backplane connectors Figure 2-18 Ethernet Protection ECM—Unprotected Connectors Page 2-50 Turin Networks Release TR3.2.1...
Page 77 Unprotected Cabling Connector 1 ECM Ports 1-2 (for GbE TX) and ECM Ports 9-12 (for 10/100 TX) (Slot n) Connector 2 ECM Ports 13-24 (for 10/100 TX) (Slot n) Figure 2-19 10/100BaseT ECM with Ethernet Release TR3.2.1 Turin Networks Page 2-51...
Page 78 Traverse Installation and Commissioning Guide, Section 2: Network Interface Specifications 10/100BaseT ECM for Unprotected NGE and EoPDH Cards Page 2-52 Turin Networks Release TR3.2.1...
Page 79 Environmental Alarm Input Wire-Wrap Posts ....3-5 Figure 3-5 Timing Interface Wire-Wrap Posts ......3-8 Release TR3.2.1 Turin Networks Page i...
Page 80 DCN Ethernet Interface (RJ-45) Pinouts ....3-15 Table 3-10 RS-232 Interface DTE (RJ-45) Pinouts ..... 3-16 Page ii Turin Networks Release TR3.2.1...
Page 81: Introduction
GCMs are installed and operational, and then go into an out-of-service state. The fail-safe alarm is also generated when both GCMs are physically removed from the Traverse shelf. Normally-closed contacts are not currently supported. Release TR3.2.1 Turin Networks Page 3-1...
Page 82: Environmental Alarms
(1.1 mm) square wire-wrap posts on 0.200-inch (0.5 mm) centers. The following graphic shows where these wire-wrap posts are located on the Traverse main Posts backplane. Traverse 2000 Rear View Traverse 600 Rear View System Alarm Wire-Wrap Posts Figure 3-1 System Alarm Wire-Wrap Posts Page 3-2 Turin Networks Release TR3.2.1...
Page 83 Note: Traverse 600 does not include ACO RTN posts. Note: REMVIS and REMAUD are not operational. CRITVIS CRITAUD MAJVIS MAJAUD MINVIS MINAUD REMVIS REMAUD FAILSAFE ACO RTN Figure 3-2 System Alarm Wire-Wrap Posts Release TR3.2.1 Turin Networks Page 3-3...
Page 84: Alarm Output Contacts
(NO) and normally-closed (NC) contacts. All alarms, except the fail-safe alarm, are connected using the NO and COM contacts. Connect the fail-safe alarm using NC and COM contacts. Support for normally-closed contacts is planned for a future release. Page 3-4 Turin Networks Release TR3.2.1...
Page 85: Environmental Alarm Wire-Wrap Posts And Eam
ENV IN ENV OUT TBOS + TX - + RX - Figure 3-4 Environmental Alarm Input Wire-Wrap Posts The ENV OUT (environmental output) interface are planned for a future release. Release TR3.2.1 Turin Networks Page 3-5...
Page 86: Environmental Alarm Input Contacts
Post 11 Post 3 Post 4 Post 12 Post 4 Post 5 Post 13 Post 5 Post 6 Post 14 Post 6 Post 7 Post 15 Post 7 Post 8 Post 16 Post 8 Page 3-6 Turin Networks Release TR3.2.1...
Page 87: Introduction
Table 3-4 Timing Clock Reference per Traverse Node Type ANSI Timing Clock Reference 64 KHz composite DS1 (T1) 2 MHz BITS (SASE) clock is also referred to as a Timing Signal Generator (TSG) in the central office. Release TR3.2.1 Turin Networks Page 3-7...
Page 88 Timing Interface Wire-Wrap Posts Figure 3-5 Timing Interface Wire-Wrap Posts The following graphic provides Traverse main backplane timing interface labeling and wire-wrap post numbers. T1/E1 CC2M Figure 3-6 Timing Interface Wire-Wrap Post Numbers and Labeling Page 3-8 Turin Networks Release TR3.2.1...
Page 89: Timing Interface Contacts
Post Description Description CC2M_INA+ CC2M_INA- CC2M_INB+ CC2M_INB- Shield Shield CC2M_OUTA+ CC2M_OUTA- CC2M_OUTB+ CC2M_OUTB- DS1 timing inputs are labeled T1 on the Traverse main backplane and are referred to as T1 throughout the following procedures. Release TR3.2.1 Turin Networks Page 3-9...
Page 90: Preset Timing Jumpers On Headers J2 And J3
E1 and 2MHz Jumpers T1/E1_IN CC2M_IN 2M_INA Pins 3, 4 (primary) E1_INA Pins 3, 4 (primary) 2M_INB Pins 9, 10 (secondary) E1_INB Pins 9, 10 (secondary) Figure 3-8 Main Backplane Headers J2 and J3—E1 and 2MHz Page 3-10 Turin Networks Release TR3.2.1...
Page 91: Optional Balun Timing Connection
Figure 3-9 Standalone 75/120 ohm Balun Connection See Figure 1-30 (Rear View) (Front View) Figure 3-10 Traverse System Backplane Cover with 75/120 ohm Baluns Release TR3.2.1 Turin Networks Page 3-11...
Page 92 Traverse Installation and Commissioning Guide, Section 3: Alarm, Timing, and Management Interface Specifications Optional Balun Timing Connection Page 3-12 Turin Networks Release TR3.2.1...
Page 93: Introduction
Both the general control module (GCM) card and the Traverse backplane support Ethernet and RS-232 management interfaces as follows: • GCM Ethernet and RS-232 DCE Interface, page 3-14 • Backplane DCN Ethernet and RS-232 DTE Interface, page 3-15 Release TR3.2.1 Turin Networks Page 3-13...
Page 94 Table 3-7 GCM Ethernet (RJ-45) Pinouts 10/100BaseT Ethernet RJ-45 Connector Wire Color Description Gray ETH_TX+ Brown ETH_TX- Yellow ETH_RX+ Green Black ETH_RX- Orange Blue Table 3-8 GCM RS-232 DCE (DB-9) Pinouts RS-232 DB-9 Connector Description SGND Page 3-14 Turin Networks Release TR3.2.1...
Page 95: Backplane Dcn Ethernet
Turin recommends a 100BaseT with half-duplex configuration. Table 3-9 DCN Ethernet Interface (RJ-45) Pinouts 10/100BaseT DCN Ethernet Interface RJ-45 Connector Wire Color Description Gray ETH_TX+ Brown ETH_TX- Yellow ETH_RX+ Green Black ETH_RX- Orange Blue Release TR3.2.1 Turin Networks Page 3-15...
Page 96: Backplane Rs-232 Dte
DB-9 and DB-25, are provided in the following table. Table 3-10 RS-232 Interface DTE (RJ-45) Pinouts RS-232 DTE DB Pinouts Wire RJ-45 Connector Description DB-9 Pin DB-25 Pin Color Blue Orange Black Green Yellow Brown White Page 3-16 Turin Networks Release TR3.2.1...
Page 97 PDAP-2S Rear View ........4-4 Figure 4-7 Fan Tray Holder Interface Connector and Pinouts ... . 4-5 Release TR3.2.1 Turin Networks Page i...
Page 98 Traverse Installation and Commissioning Guide, Section 4 Power Interface Specifications Page ii Turin Networks Release TR3.2.1...
Page 99: Power Interface Specifications
For power consumption values, refer to the Traverse Product Overview Guide, Section 5—Planning and Engineering, Chapter 1—“Traverse Specifications,” Power Consumption, page 5-5. Release TR3.2.1 Turin Networks Page 4-1...
Page 100: Pdap-4S
Return “B” Supply Return “A” Supply Battery and Battery Return Distribution Terminal Blocks Chassis Ground Chassis Ground Figure 4-2 PDAP-4S Rear View Optional PDAP-4S TPA fuses are available up to a 50 amp maximum. Page 4-2 Turin Networks Release TR3.2.1...
Page 101 Chapter 1 Power Interface Specifications PDAP-4S Release TR3.2.1 Turin Networks Page 4-3...
Page 102: Pdap-15A
GMT Fuses Alarm LEDs Figure 4-3 PDAP-15A Front View Battery and Battery Battery and Battery Battery and Battery Return Return “B” Supply Return “A” Supply Distribution Terminal Blocks Chassis Ground Figure 4-4 PDAP-15A Rear View Page 4-4 Turin Networks Release TR3.2.1...
Page 103: Fan Tray Holder Power Interface
Pinouts for the fan tray holder interface connector are provided in the following table. Interface Fan Tray Interface Pin# Description Battsupply_A Battreturn 18 17 16 15 14 13 12 11 FanI2C_Reset FanAlarm_Int Battsupply_B Battreturn Fan_Present Fan_Override Fan_SDA Fan_SCL Figure 4-5 Fan Tray Holder Interface Connector and Pinouts Release TR3.2.1 Turin Networks Page 4-5...
Page 104 Traverse Installation and Commissioning Guide, Section 4: Power Interface Specifications Fan Tray Holder Power Interface Page 4-6 Turin Networks Release TR3.2.1...
Page 105 Traverse 600 Shelf Horizontal Installation—Cable Routing ..5-6 List of Tables Table 5-1 Traverse Cabling Ferrite Requirements ....5-6 Release TR3.2.1 Turin Networks Page i...
Page 106 Traverse Installation and Commissioning Guide, Section 5 Cable Management Specifications Page ii Turin Networks Release TR3.2.1...
Page 107: Cable Management Specifications
"B" Distribution Visual Alarm To Timing Interface Cabling Fuse Panel Battery Return "A" and "B" DCN Ethernet and Distribution RS-232 Cables Battery "B" Battery "A" Distribution Distribution Figure 5-1 Traverse Backplane Cable Routing—Left Side Release TR3.2.1 Turin Networks Page 5-1...
Page 108: Fiber Optic Cable Management
Fiber optic cable Fiber Cable is routed out to the Management Tray left or right side Fiber optic cable is routed out to the left or right side Figure 5-2 Fiber Cable Management Tray Page 5-2 Turin Networks Release TR3.2.1...
Page 109: Traverse Scm Fiber Optic Cable Routing
The SCM backplane device provides for the physical connection of the GbE-10 links to the Traverse. The SCM supports pluggable SFPs. It has ten SFP receptacles, into which the operator can insert (Turin recommended) SFPs. Optical cabling Electrical cabling Figure 5-4 GbE-10 SFP Connector Module (SCM) Release TR3.2.1 Turin Networks Page 5-3...
Page 110: Copper/Coax Cable Management
Ethernet DS1/E1 DS3/E3 Left-most back cover Ethernet and RS-232 cable opening Cable management Route Coax bars and Copper cables to the right or left side Figure 5-5 Traverse 1600 Shelf with Cable Management Bar Page 5-4 Turin Networks Release TR3.2.1...
Page 111: Traverse 600 Copper And Coax Cable Routing
DCN Ethernet and RS-232 cables. Routing DCN Ethernet and RS-232 cable opening Route coax and copper cables to the right side Figure 5-7 Traverse 600 Shelf Vertical Installation—Cable Routing Release TR3.2.1 Turin Networks Page 5-5...
Page 112: Ferrite Requirements
304.8 to 457.2 mm from the rack. DCN Ethernet One ferrite (2 turns) on each cable 152.4 mm from the rack. (RJ-45) Note: One ferrite turn is a single pass through the ferrite hole. Page 5-6 Turin Networks Release TR3.2.1...
Page 113 Insert a Traverse 600 Fan Air Filter....... . . 6-30 List of Figures Figure 6-1 Front Inlet Fan Module ESD Jack Location....6-7 Release TR3.2.1 Turin Networks Page i...
Page 114 Insert a Traverse 600 Fan Assembly..... . . 6-28 Table 6-11 Insert a Traverse 600 Fan Air Filter......6-30 Page ii Turin Networks Release TR3.2.1...
Page 115 May cause personal injury if the warning is not OPTIC WARNING! followed; for example, this warning applies to optical hazards. May cause equipment damage if the precaution is not Important: followed; for example, this note applies to electrostatic damage to equipment. Release TR3.2.1 Turin Networks Page 6-1...
Page 116: Environmental Precautions
Contact your local authorities for established procedures. If no local procedures are available, contact the Turin Networks Technical Assistance Center (TAC). Hardware Installation Always use thread-forming screws when installing a Traverse Important: shelf to ensure electrical continuity.
Page 117: Electrical Precautions
Verify that the polarity is the same (-48VDC) for both -48VDC_A and -48VDC_B battery cable connections. Verify that the polarity is the same (RETURN) for both RETURN_A and RETURN_B battery return cable connections. Release TR3.2.1 Turin Networks Page 6-3...
Page 118: Fiber Optic Cabling Precautions
Do not look into the optical connector of the transmitter with power applied. Laser output is invisible and eye damage can result. Do not defeat safety features that prevent looking into the optical connector. Page 6-4 Turin Networks Release TR3.2.1...
Page 119: Card Precautions
‘ Do not install Traverse cards (cards) until all installation and Important: cabling procedures are complete. Handle cards with care. Dropping a card can cause component Important: or other damage beyond repair or use. Release TR3.2.1 Turin Networks Page 6-5...
Page 120: Electrostatic Discharge Protection
Discharge (ESD) wrist strap must be worn during the following installation and Discharge maintenance activities: Protection • Handling Traverse cards. • Connecting copper or optical cables to the fuse panel, Traverse main backplane, fiber optic backplane, and fan tray module. Page 6-6 Turin Networks Release TR3.2.1...
Page 121: Esd Jack Locations
Traverse 1600 or Traverse 2000 standalone air ramp • Traverse 600 fan tray panel Figure 6-1 Front Inlet Fan Module ESD Jack Location Back Front ESD Jack ESD Jack Front Back TR 00104 Figure 6-2 Air Ramp with ESD Jack Locations Release TR3.2.1 Turin Networks Page 6-7...
Page 122 Traverse Installation and Commissioning Guide, Section 6: Precautions and Common Procedures ESD Jack Locations The Traverse 600 shelf has an ESD jack located on the fan tray panel. ESD Jack TR 00106 Figure 6-3 Traverse 600 with ESD Jack Location Page 6-8 Turin Networks Release TR3.2.1...
Page 123 Each cover is removed from the shelf chassis using a flat blade screwdriver to remove the screws. Important: Always wear a properly grounded Electrostatic Discharge (ESD) wrist strap when removing back covers from the Traverse shelf as there are static-sensitive components on the main backplane. Release TR3.2.1 Turin Networks Page 6-9...
Page 124 Figure 6-4 Traverse 1600 and Traverse 2000 Main Backplane Covers Alarm and Timing Cover Protruding Cover over DCN Ethernet and RS-232 RJ-45 Connectors Electrical Connector Modules Power Cover Figure 6-5 Traverse 600 Backplane Cover Page 6-10 Turin Networks Release TR3.2.1...
Page 125: Remove And Replace The Fiber Optic Management Tray Cover
Figure 6-6 Fiber Optic Management Tray Cover with Fasteners Pull the cover straight back to remove. To replace the fiber optic management tray cover, line up the fasteners with the holes at the top of the chassis. Release TR3.2.1 Turin Networks Page 6-11...
Page 126 Pull the cover straight back to remove. To replace the fiber optic management tray cover, line up the fasteners on top of the fiber optic management tray cover with the holes at the top of the chassis. Page 6-12 Turin Networks Release TR3.2.1...
Page 127 Procedure Align the protective cover to the back panel with the two thumb screws. Tighten the two thumb screws to secure the protective cover. The Replace the PDAP Protective Back Cover procedure is complete. Release TR3.2.1 Turin Networks Page 6-13...
Page 128 Traverse Installation and Commissioning Guide, Section 6: Precautions and Common Procedures Replace the PDAP Protective Back Cover Page 6-14 Turin Networks Release TR3.2.1...
Page 129 MPX cleaning materials to clean fiber optic cable and module MPX connectors: – Isopropyl alcohol of at least 91% purity – Lint-free wipes – Lint-free cleaning swabs with urethane foam heads – Pressurized optical duster (canned air) • Electrostatic Discharge (ESD) wrist strap Release TR3.2.1 Turin Networks Page 6-15...
Page 130 Follow all warnings and instructions included in card packaging to prevent electrostatic damage. Important: Handle cards by the edges and faceplate only. Do not touch any card connectors or components. Important: Do not touch the end of the MPX connectors. Page 6-16 Turin Networks Release TR3.2.1...
Page 131 Figure 6-8 Fiber Optic Backplane Housing A and B For specifications, refer to the Traverse Installation and Commissioning Guide, Section 2—Network Interface Specifications, Chapter 1—“Fiber Optic Interface Cabling Specifications,” General MPX Connector to Optical Fiber Port Assignment, page 2-9. Release TR3.2.1 Turin Networks Page 6-17...
Page 132 Gently push the MPX connector back into the correct fiber optic backplane housing. Repeat Steps 2 through 6 for each MPX connector. Remove the dust cap from the optical card MPX connector(s). Dust Cap on MPX Connector OPS 00083 Figure 6-10 Optical Card MPX Connector Page 6-18 Turin Networks Release TR3.2.1...
Page 133 Important: Do not place an electrical card (of another type) in the slot directly to the left of any 10/100BaseTX-inclusive card: • • NGE Plus • EoPDH • Legacy Ethernet Release TR3.2.1 Turin Networks Page 6-19...
Page 134 Flip the card locking tabs up. Hold the card with the tabs parallel to the top and bottom of the card. Guide Pins Locking Tabs in Open Position OPS 00083 Figure 6-11 Card Locking Tabs in the Unlocked Position Page 6-20 Turin Networks Release TR3.2.1...
Page 135 (from left to right) and that the card stays in the guides from the front to the back of the shelf. Card Cage Guides for Card Alignment Figure 6-13 Traverse 600 Shelf with Guides Release TR3.2.1 Turin Networks Page 6-21...
Page 136 Press the tabs into their locked position to secure the card. The card is locked into position when the top and bottom tabs are pressed down completely and the locking tabs are secured in the lip of the Traverse shelf. The Insert a Card procedure is complete. Page 6-22 Turin Networks Release TR3.2.1...
Page 137 Figure 6-15 Card Tabs in the Unlocked Position Hold the card with the tabs parallel to the top and bottom of the card and pull it straight out of the slot. The Remove a Card procedure is complete. Release TR3.2.1 Turin Networks Page 6-23...
Page 138 Traverse Installation and Commissioning Guide, Section 6: Precautions and Common Procedures Remove a Card Page 6-24 Turin Networks Release TR3.2.1...
Page 139 Electrostatic Discharge (ESD) wrist strap Fan tray air filters are available in 63% arrestance at 300 FPM—feet per minute (91.4 meters per minute) and 80% arrestance at 300 FPM (91.4 meters per minute) depending on your installation requirements. Release TR3.2.1 Turin Networks Page 6-25...
Page 140 Tighten the captive fasteners to secure it. OPS 00088 Captive Fasteners Figure 6-16 Front Inlet Fan Card Captive Fasteners Continue to the next procedure, Insert a Traverse 1600 and Traverse 2000 Fan Air Filter. Page 6-26 Turin Networks Release TR3.2.1...
Page 141 Slide the air filter along the fan tray holder guides until the filter is flush with the front of the fan tray holder. The Insert a Traverse 1600 and Traverse 2000 Fan Air Filter procedure is complete. Release TR3.2.1 Turin Networks Page 6-27...
Page 142 Loosen the two captive screws on the right-front cover of the Traverse 600 fan assembly to release it. OPS 00089 Captive Fasteners Figure 6-18 Fan Assembly Front Cover - Traverse 600 Open the right-front fan assembly cover. Page 6-28 Turin Networks Release TR3.2.1...
Page 143 Traverse 600 Shelf Fan Assembly OPS 00090 Figure 6-19 Traverse 600 Fan Assembly Installation TheInsert a Traverse 600 Fan Assembly Insert a Traverse 600 Fan Assembly procedure is complete. Release TR3.2.1 Turin Networks Page 6-29...
Page 144 Insert the air filter in the gap between the fan assembly and the left of the fan cage. Slide the air filter along the guides until the filter is flush. The Insert a Traverse 1600 and Traverse 2000 Fan Air Filter procedure is complete. Page 6-30 Turin Networks Release TR3.2.1...
Page 145 Rotated Traverse Shelf Flange Slots ..... . 7-22 Figure 7-12 Fan Tray Power Connection at the Main Backplane... 7-23 Release TR3.2.1 Turin Networks Page i...
Page 146 Install the Front Inlet Fan Tray Holder in a 19-inch Rack ..7-20 Table 7-10 Install a Traverse 2000 in a 19-inch Rack ....7-22 Page ii Turin Networks Release TR3.2.1...
Page 147: Traverse System Rack Installation Overview
(600 mm) rack installation. The PDAP, Traverse 1600 shelf, and front inlet fan tray holder can be installed in a 23-inch (600 mm) rack using two 15-RU rack adapters instead of individual rack adapters for each piece of equipment. Release TR3.2.1 Turin Networks Page 7-1...
Page 148 A Phillips screwdriver and 5/16-inch (8 mm) socket for PDAP-15A power cabling • A 3/8-inch (9 mm) and 9/16-inch (14 mm) socket for PDAP-2S power cabling • Wire brush for removing paint and non-conductive material on the rack. Page 7-2 Turin Networks Release TR3.2.1...
Page 149: Traverse Shelf Back Covers
WARNING! The grounding terminals on the backplane are for power terminal cables only and SHOULD NOT be used for chassis grounding. WARNING! DO NOT use f For power terminal cables only! cabinet or rack groundin Figure 7-1 Grounding Terminals on Backplane Release TR3.2.1 Turin Networks Page 7-3...
Page 150: Traverse System Rack Hardware Installation Process
Note: This does not apply to the (vertical-mount) Traverse 2000 in a 19-inch (483 mm) rack. Note: In a Turin-only equipment installation, the standalone air ramp is not required, but optional. Page 7-4 Turin Networks Release TR3.2.1...
Page 151 Procedures, Chapter 3—“Battery and Battery Return Distribution,” page 10-7. Once the power cabling is complete, follow through all other remaining sections of this manual beginning with Section 8—Network Interface Cabling Procedures, Chapter 1—“Network Interface Cabling Overview,” page 8-1. Release TR3.2.1 Turin Networks Page 7-5...
Page 152 Traverse Installation and Commissioning Guide, Section 7: Hardware Installation Procedures Traverse System Rack Hardware Installation Process Page 7-6 Turin Networks Release TR3.2.1...
Page 153: Traverse System Hardware Installation
The instructions may be too detailed if you are experienced in central office installations. In this case, scan the topic labels in the left margin for tasks to review or refer to Appendix B—“Installation and Commissioning Checklists,” page 12-21. Release TR3.2.1 Turin Networks Page 7-7...
Page 154 Install the Traverse Shelf, page 7-9 • Install the Front Inlet Fan Tray Holder, page 7-11 • Install the Fan Tray Holder with Separate Air Ramp, page 7-12 • Install the Air Ramp, page 7-14 Page 7-8 Turin Networks Release TR3.2.1...
Page 155 The Install the Traverse Shelf, Standard Configuration procedure is complete. Continue to the next procedure. Which fan tray holder type? • Install the Front Inlet Fan Tray Holder, page 7-11 • Install the Fan Tray Holder with Separate Air Ramp, page 7-12 Release TR3.2.1 Turin Networks Page 7-9...
Page 156: Flush Mount A Traverse Shelf
The Install the Traverse Shelf, Standard Configuration procedure is complete. Continue to the next procedure. Which fan tray holder type? • Install the Front Inlet Fan Tray Holder, page 7-11 • Install the Fan Tray Holder with Separate Air Ramp, page 7-12 Page 7-10 Turin Networks Release TR3.2.1...
Page 157: Install The Front Inlet Fan Tray Holder
Note: The front inlet fan tray holder flange has two 1-RU slots. Align the flange holes with the holes on the rack. Place thread-forming screws through the flange slot on each side of the front inlet fan tray holder and into the rack. Release TR3.2.1 Turin Networks Page 7-11...
Page 158: Install The Fan Tray Holder With Separate Air Ramp
Remove the back panel from the fan tray holder by loosening the two thumbscrews. The power cable is connected to the inside of the fan tray holder back panel. Fan Tray Holder Back Panel Front Figure 7-5 Fan Tray Holder Back Panel Page 7-12 Turin Networks Release TR3.2.1...
Page 159 Align the flange holes with the holes on the rack. Place thread-forming screws through the flange slot on each side of the fan tray holder and into the rack. Figure 7-7 Fan Tray Holder without Fan Tray Module Release TR3.2.1 Turin Networks Page 7-13...
Page 160: Install The Air Ramp
Note: The air ramp flange has one 1-RU slot. Align the flange holes with the holes on the rack. Place thread-forming screws through the flanges on each side of the air ramp and into the rack. Back Front Figure 7-8 Air Ramp Page 7-14 Turin Networks Release TR3.2.1...
Page 161 Was this a standalone air ramp installation? • Yes. Go to the next step. • The Install the Air Ramp procedure is complete. Continue to Section 8—Network Interface Cabling Procedures, Chapter 1—“Network Interface Cabling Overview,” page 8-1. Release TR3.2.1 Turin Networks Page 7-15...
Page 162 Traverse Installation and Commissioning Guide, Section 7: Hardware Installation Procedures Install the Air Ramp Page 7-16 Turin Networks Release TR3.2.1...
Page 163: Traverse 2000 Installation Into A 19-Inch Rack
• Install the Horizontal Rack Adapter Brackets, page 7-19 • Install the Front Inlet Fan Tray Holder in a 19-inch Rack, page 7-20 • Install a Traverse 2000 in a 19-inch Rack, page 7-22 Release TR3.2.1 Turin Networks Page 7-17...
Page 164 Fan Tray Holder Horizontal Mounting Bracket Front View Note: Install the shelf and fan in a standard 5-inch (127 mm) forward-mount from the rails. Figure 7-9 Traverse 2000 Vertical 19-inch (483 mm) Rack Configuration Page 7-18 Turin Networks Release TR3.2.1...
Page 165: Install The Horizontal Rack Adapter Brackets
Repeat Steps 1 and 2 for the lower horizontal bracket. The Install the Horizontal Rack Adapter Brackets procedure is complete. Continue to the next procedure, Install the Front Inlet Fan Tray Holder in a 19-inch Rack, page 7-20. Release TR3.2.1 Turin Networks Page 7-19...
Page 166: Install The Front Inlet Fan Tray Holder In A 19-Inch Rack
Note: The front inlet fan tray holder flange has two 1-RU slots. Partially tighten the thread-forming screws and position the front inlet fan tray holder. Page 7-20 Turin Networks Release TR3.2.1...
Page 167 Tighten the screws to secure and ground the front inlet fan tray holder to the rack. The Install the Front Inlet Fan Tray Holder in a 19-inch Rack procedure is complete. Continue to the next procedure, Install a Traverse 2000 in a 19-inch Rack, page 7-22. Release TR3.2.1 Turin Networks Page 7-21...
Page 168: Install A Traverse 2000 In A 19-Inch Rack
Before completing the shelf installation, connect the power cable for the front inlet fan tray holder to the Traverse backplane. Grasp the power cable and bring it out the top of the front inlet fan tray holder. Page 7-22 Turin Networks Release TR3.2.1...
Page 169 The Install a Traverse 2000 in a 19-inch Rack procedure is complete. Continue to and complete the procedures in Section 6—Precautions and Common Procedures, Chapter 4—“Insert Fan Module and Air Filters,” page 6-25 to install the fan tray module and air filter. Release TR3.2.1 Turin Networks Page 7-23...
Page 170 Traverse Installation and Commissioning Guide, Section 7: +Hardware Installation Procedures Install a Traverse 2000 in a 19-inch Rack Page 7-24 Turin Networks Release TR3.2.1...
Page 171 DS3 and E3 Panel Cabling ........8-35 Chapter 5 Ethernet (Electrical) Cabling Procedures Release TR3.2.1 Turin Networks Page i...
Page 172 DS3 and E3 Panel Cabling ......8-35 Page ii Turin Networks Release TR3.2.1...
Page 173 Connector Module........8-45 Release TR3.2.1 Turin Networks Page iii...
Page 174 Traverse Installation and Commissioning Guide, Section 8 Network Interface Cabling Procedures Page iv Turin Networks Release TR3.2.1...
Page 175: Network Interface Cabling Overview
Installation of Turin recommends that all cables (data, voice and power) be wrapped in fiber paper Fiber Paper when it exits the racking and again as it enters the cabinet or the relay rack. Release TR3.2.1 Turin Networks Page 8-1...
Page 176: Installation Of Clear Heat Shrink
Turin recommends that all compression connectors (crimp lugs) have clear heat shrink Clear Heat applied. This process allows for inspection of the crimp, verification of the die code, as well as viewing the cable in the inspection hole. Shrink Page 8-2 Turin Networks Release TR3.2.1...
Page 177 MPX connector or fan-out to single fiber connectors • Large Phillips screwdriver for the fiber optic management tray cover • Fiber optic cables with SFP connector module (SCM) for 10-port GbE (GbE-10) cards: Release TR3.2.1 Turin Networks Page 8-3...
Page 178: Mpx Fiber Optic Cabling
OPTIC WARNING! Follow all warning labels when working with optical fibers. Always wear eye protection when working with optical fibers. Never look directly into the end of a terminated or unterminated fiber or connector as it may cause eye damage. Page 8-4 Turin Networks Release TR3.2.1...
Page 179 – Traverse 1600 slots 9 through 16/Traverse 2000 slots 11 through 20, to the left side of the tray when facing the back of the shelf. Release TR3.2.1 Turin Networks Page 8-5...
Page 180 Traverse node is powered up. Turin recommends this inspection and cleaning procedure be done as part of card placement. Refer to Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” page 6-9 for detailed instructions. Page 8-6 Turin Networks Release TR3.2.1...
Page 181 Figure 8-2 Fiber Optic Backplane Housing A and B For further specifications, refer to Section 2—Network Interface Specifications, Chapter 1—“Fiber Optic Interface Cabling Specifications,” General MPX Connector to Optical Fiber Port Assignment, page 2-9. Release TR3.2.1 Turin Networks Page 8-7...
Page 182 Housing B Figure 8-3 Traverse 600 Fiber Optic Backplane Housing A and B Gently push the MPX connector into the fiber optic backplane housing. Repeat Steps 5 through 9 for each fiber optic cable. Page 8-8 Turin Networks Release TR3.2.1...
Page 183: Fiber Optic Gbe-10 Scm Cabling Procedures
SFP latches vary, depending on the manufacturer. The procedures below show SFPs with bale-clasp latches. Some SFPs have tabs on the bottom that click into place when Release TR3.2.1 Turin Networks Page 8-9...
Page 184: Insert An Sfp Into The Scm
Slide the SFP into the slot and move the bail clasp up (or, depending on the type of SFP, move it down) to secure it. The Insert an SFP into the SCM procedure is complete. Continue to the next procedure Install Fiber Optic Cables at the SCM, page 8-12. Page 8-10 Turin Networks Release TR3.2.1...
Page 185 If your SFP has a bottom tab, grasp the SFP between thumb and index finger, pressing the tab to release the catch, and carefully remove it from the socket. The Remove an SFP from the SCM procedure is complete. Release TR3.2.1 Turin Networks Page 8-11...
Page 186: Install Fiber Optic Cables At The Scm
Important: Fiber optic cable is very fragile, be careful when handling and routing the cable. Do not make any bends or coils in the cable less than 1½ inches (3.8 mm) in diameter. Kinks or sharp bends in the cable can cause signal distortion. Page 8-12 Turin Networks Release TR3.2.1...
Page 187 The Connect Fiber-Optic Cables procedure is complete. Fiber Optic Refer to the Operations and Maintenance Guide, Section 4—Diagnostics, Transmit and Chapter 2—“Traverse Transmit and Receive Signal Levels” for acceptable minimum/maximum output power and receiver levels. Receive Testing Release TR3.2.1 Turin Networks Page 8-13...
Page 188 Traverse Installation and Commissioning Guide, Section 8: Network Interface Cabling Procedures Fiber Optic Transmit and Receive Testing Page 8-14 Turin Networks Release TR3.2.1...
Page 189 DS1/E1 ECMs (Telco 64). Each ECM supports one or two working and one protection card, or two unprotected cards. • E1 ECMs (Mini-SMB). Each ECM supports one or two working and one protection card, or two unprotected cards. • Cables for each DS1/E1 ECM (Telco 64): Release TR3.2.1 Turin Networks Page 8-15...
Page 190 Traverse Installation and Commissioning Guide, Section 8: Network Interface Cabling Procedures Required Equipment and Tools Important: Turin Networks manufactures a Turin Telco 64 cable assembly for DS1 and E1 cabling with DS1/E1 EMCs. The Turin Telco 64 cable assembly provides additional shielding and passes all requirements for Telcordia NEBS, FCC Class B and ETSI Class B electromagnetic interference (EMI) testing.
Page 191: Ds1 And E1 Cabling Procedures
The Plug-in DS1/E1 or E1 Electrical Connector Module procedure is complete. Continue to the next appropriate procedure: • DS1/E1 ECM— DS1 (100 ohm) and E1 (120 ohm) ECM Cabling • E1 ECM— E1 (75 ohm) ECM Cabling Release TR3.2.1 Turin Networks Page 8-17...
Page 192 Connectors are used DS1 Ports 1–28 for 1:1 Protection or E1 Ports 1-21 Cabling of Slot n+1 Note: Plug the DS1/E1 ECM into Slot n 2 mm main backplane connectors Figure 8-8 DS1/E1 ECM—1:1 Protection Connectors Page 8-18 Turin Networks Release TR3.2.1...
Page 193 Connector for DS1 backplane Ports 1–28 connectors E1 Ports 1-21 of Slot n Figure 8-10 DS1/E1 ECM—Unprotected Connectors Tighten screws on Telco 64 connectors to secure cables to the ECM using a small flat blade screwdriver. Release TR3.2.1 Turin Networks Page 8-19...
Page 194 Label DS1 or E1 cables output (O) and input (I) following local procedures. Provide enough slack in the cables and bring them out the right side of the shelf. Repeat Steps 1 through 8 for cabling at each DS1/E1 ECM. Page 8-20 Turin Networks Release TR3.2.1...
Page 195 Note: Each working 28-port DS1 card requires 28 output and 28 input terminations at an intermediate patch panel or central office cross-connect panel. Each working/protection 21-port E1 card requires 21 Transmit/OUT and 21 Receive/IN terminations at an intermediate patch panel or central office cross-connect panel. Release TR3.2.1 Turin Networks Page 8-21...
Page 196 Do you have other network interface connections? • Yes. Repeat ECM and cabling connections for all network interfaces. • No. Continue to Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 1—“Alarm Interface Cabling.”. Page 8-22 Turin Networks Release TR3.2.1...
Page 197 The DS1 (100 ohm) and E1 (120 ohm) Panel Cabling is complete. Do you have other network interface connections? • Yes. Repeat ECM and cabling connections for all network interfaces. • No. Continue to Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 1—“Alarm Interface Cabling.”. Release TR3.2.1 Turin Networks Page 8-23...
Page 198 Label E1 coax cables to designate Output (1_OUT through 21_OUT) and Input (1_IN through 21_IN) following local procedures. Provide enough slack in the cables and bring them out the right side of the shelf. Page 8-24 Turin Networks Release TR3.2.1...
Page 199 (137 meters) to meet pulse template requirements. Strip and terminate connectors on the cables using a coax stripping tool and crimp tool. Terminate Output (O) and Input (I) coax cables on intermediate patch panel or central office cross-connect panel. Release TR3.2.1 Turin Networks Page 8-25...
Page 200: E1 (75 Ohm) Panel Cabling
The E1 (75 ohm) Panel Cabling procedure is complete. Do you have other network interface connections? • Yes. Repeat ECM and cabling connections for all network interfaces. • No. Continue to Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 1—“Alarm Interface Cabling.”. Page 8-26 Turin Networks Release TR3.2.1...
Page 201: Ds3 And E3 Cabling Procedures
The instructions may be too detailed if you are experienced in central office installations. In this case, scan the topic labels in the left margin for tasks to review or refer to Appendix B—“Installation and Commissioning Checklists,” Network Cabling Checklist, page 12-25. Release TR3.2.1 Turin Networks Page 8-27...
Page 202 75 ohm Mini-SMB socket connectors – Diagonal cutters – Coax center crimp tool – Coax cable stripping tool – Coax crimp tool • Electrostatic Discharge (ESD) wrist strap • Large flat blade screwdriver for electrical connector modules (ECMs) Page 8-28 Turin Networks Release TR3.2.1...
Page 203 Repeat Steps 2 through 5 for each DS3/E3 ECM as required. The Plug-in DS3/E3 Electrical Connector Module procedure is complete. Continue to the next procedure, DS3 and E3 Cabling at the Electrical Connector Module. Release TR3.2.1 Turin Networks Page 8-29...
Page 204 2-slot DS3/E3 (12-port BNC) ECM in a 1:1 protection scheme. Output (O) Input (I) BNC Connectors for BNC Connectors for Ports 1–12 of Slot n+1 Ports 1–12 of Slot n+1 Figure 8-15 2-Slot DS3/E3 (12-port BNC) ECM Connectors Page 8-30 Turin Networks Release TR3.2.1...
Page 205 BNC Connectors for Ports 1–12 of Slot n+2 Input (I) BNC Connectors for Ports 1–12 of Slot n Output (O) BNC Connectors for Ports 1–12 of Slot n Figure 8-16 3-Slot DS3/E3 (24-port BNC) ECM Connectors Release TR3.2.1 Turin Networks Page 8-31...
Page 206 24_OUT) and Input (1_IN through 12 or 24_IN) following local procedures. Provide enough slack in the cables and bring them out the right side of the shelf. Repeat Steps 1–6 for cabling at each DS3/E3 ECM. Page 8-32 Turin Networks Release TR3.2.1...
Page 207 450 feet (137 meters) to meet pulse template requirements. Strip and terminate connectors on the cables using a coax stripping tool and crimp tool. Terminate Output (O) and Input (I) coax cables on intermediate patch panel or central office DSX-3 cross-connect panel. Release TR3.2.1 Turin Networks Page 8-33...
Page 208 Do you have other network interface connections? • Yes. Repeat ECM and cabling connections for all network interfaces. • No. Continue to Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 1—“Alarm Interface Cabling.”. Page 8-34 Turin Networks Release TR3.2.1...
Page 209 The DS3 and E3 Panel Cabling procedure is complete. Do you have other network interface connections? • Yes. Repeat ECM and cabling connections for all network interfaces. • No. Continue to Section 9—Alarm, Timing, and Management Cabling Procedures, Chapter 1—“Alarm Interface Cabling.”. Release TR3.2.1 Turin Networks Page 8-35...
Page 210 Traverse Installation and Commissioning Guide, Section 8: Network Interface Cabling Procedures DS3 and E3 Panel Cabling Page 8-36 Turin Networks Release TR3.2.1...
Page 211: Ethernet (Electrical) Cabling Procedures
The instructions may be too detailed if you are experienced in central office installations. In this case, scan the topic labels in the left margin for tasks to review or refer to Appendix B—“Installation and Commissioning Checklists,” Network Cabling Checklist, page 12-25. Release TR3.2.1 Turin Networks Page 8-37...
Page 212 Category 5 cables (RJ-45). This patch panel is used for the optic plus electric Combo cards. It provides flexibility and better identification of fiber optic and copper pairs terminated at the intermediate patch panel. Turin PN 950-0070-00 (2-port SC Duplex Adapter, 16-port 10/100 Ethernet Category 5 Card). Page 8-38 Turin Networks Release TR3.2.1...
Page 213 Repeat Steps 2 through 5 for each ECM as required. The Plug-in Ethernet Protection Electrical Connector Module procedure is complete. Continue to the next procedure, Protected GbE TX and 10/100BaseTX Cabling at the ECM. Release TR3.2.1 Turin Networks Page 8-39...
Page 214 (ECM PORT 9-12) card) (Slot n+1) (Slot n+1) Figure 8-19 GbE TX and 10/100BaseTX Cabling using the ECM Tighten screws on Telco 50 connectors to secure cables to the ECM using a small flat blade screwdriver. Page 8-40 Turin Networks Release TR3.2.1...
Page 215 Ports 5–8 and ports 9–20 (for 16 10/100BaseTX ports). Provide enough slack in the cables and bring them out the right side of the shelf. Repeat Steps 1 through 5 for cabling at each Ethernet Protection ECM. Release TR3.2.1 Turin Networks Page 8-41...
Page 216 Table 2-18 Ethernet Interface and Ethernet Protection ECM Telco 50 Connector Pinouts/Color Code (Cable One), page 2-47 • Table 2-19 Ethernet Electrical Interface and Ethernet Protection ECM Telco 50 Connector Pinouts/Color Code (Cable Two), page 2-48 Page 8-42 Turin Networks Release TR3.2.1...
Page 217 Note: The ECM is placed in the right-most connectors (as viewed from the back of the shelf). Refer to Section 2—Network Interface Specifications, Chapter 5—“Ethernet (Electrical) Interface Cabling Specifications,” 10/100BaseT ECM for Unprotected NGE and EoPDH Cards, page 2-51. Release TR3.2.1 Turin Networks Page 8-43...
Page 218 Repeat Steps 2 through 5 for each electrical connector module as required. The Plug-in Ethernet Protection Electrical Connector Module procedure is complete. Continue to the next procedure, Unprotected 10/100BaseTX Cabling, Electrical Connector Module. Page 8-44 Turin Networks Release TR3.2.1...
Page 219 (16-port 10/100BaseTX Combo module) module) (Slot n) (Slot n) Figure 8-22 10/100BaseTX Cabling using the ECM Tighten screws on Telco 50 connectors to secure cables to the ECM using a small flat blade screwdriver. Release TR3.2.1 Turin Networks Page 8-45...
Page 220 Combo or 2-port GbE SX plus 16-port 10/100BaseTX Combo). Provide enough slack in the cables and bring them out the right side of the shelf. Repeat Steps 1 through 5 for cabling at each 10/100BaseT electrical connector module. Page 8-46 Turin Networks Release TR3.2.1...
Page 221 Category 5 cables (RJ-45). This patch panel is used for the Ethernet Combo module. It provides flexibility and better identification of pairs terminated at the intermediate patch panel. Turin part number 950-0070-00 (2-port SC Duplex Adapter, 16-port 10/100 Ethernet Category 5 Module). Release TR3.2.1 Turin Networks Page 8-47...
Page 222 Traverse Installation and Commissioning Guide, Section 8: Network Interface Cabling Procedures Unprotected 10/100BaseTX Cabling at the Electrical Connector Module Page 8-48 Turin Networks Release TR3.2.1...
Page 223 Figure 9-3 Visual Alarm Wire-Wrap Posts ......9-7 Release TR3.2.1 Turin Networks Page i...
Page 224 Connect PDAP-15A Fuse Alarms ......9-20 Table 9-14 Connect PDAP-15A Visual Alarm Inputs ....9-21 Page ii Turin Networks Release TR3.2.1...
Page 225 DCN Ethernet Interface Connection ..... . . 9-40 Table 9-20 RS-232 DTE Interface Connection ......9-42 Release TR3.2.1 Turin Networks Page iii...
Page 226 Traverse Installation and Commissioning Guide, Section 9 Alarm, Timing, and Management Cabling Procedures Page iv Turin Networks Release TR3.2.1...
Page 227: Alarm Interface Cabling
Wire-wrap tool for .045-inch x .045-inch (1.1 mm x 1.1 mm) posts • Electrostatic Discharge (ESD) wrist strap • (SDH network only) Two clamp-on ferrites (Turin part number 499-0135) per alarm cable bundle (1 turn) Release TR3.2.1 Turin Networks Page 9-5...
Page 228: Visual Alarm Output Connections At The First Shelf
Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” page 6-9 for detailed instructions. Bring the visual alarm wires through the top cable port on the left side of the first Traverse shelf. Page 9-6 Turin Networks Release TR3.2.1...
Page 229 Table 9-1 Visual Alarm Output Connections at the First Shelf (continued) Step Procedure Bring the visual alarm wires over to the visual alarm wire-wrap posts on the Traverse main backplane. Figure 9-1 Visual Alarm Wire-Wrap Posts Figure 9-2 Traverse 600 Visual Alarm Wire-Wrap Posts Release TR3.2.1 Turin Networks Page 9-7...
Page 230: Visual Alarm Output Connections At The Next Shelf
Route the visual alarm wires out through the top cable port on the left side of the Traverse shelf and down the rack rails to the next Traverse shelf in the rack following local procedures. Remove the back cover from the Traverse main backplane. Page 9-8 Turin Networks Release TR3.2.1...
Page 231 Figure 9-3 Visual Alarm Wire-Wrap Posts Figure 9-4 Traverse 600 Visual Alarm Wire-Wrap Posts Cut the visual critical alarm wires to the correct length and strip back the insulation by .025 inch (7 mm). Release TR3.2.1 Turin Networks Page 9-9...
Page 232 Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” page 6-9 for detailed instructions. Bring the audible alarm wires through the top cable port on the left side of the Traverse main backplane. Page 9-10 Turin Networks Release TR3.2.1...
Page 233: Audible Alarm Output Connections At The First Shelf
First Shelf (continued) Step Procedure Bring the audible alarm wires over to the audible alarm wire-wrap posts on the Traverse main backplane. Figure 9-5 Audible Alarm Wire-Wrap Posts Figure 9-6 Traverse 600 Audible Alarm Wire-Wrap Posts Release TR3.2.1 Turin Networks Page 9-11...
Page 234: Audible Alarm Output Connections At The Next Shelf
Route the audible alarm wires out through the top cable port on the left side of the Traverse shelf and down the rack rails to the next Traverse shelf in the rack following local procedures. Remove the back cover from the Traverse main backplane. Page 9-12 Turin Networks Release TR3.2.1...
Page 235 Traverse shelf. Bring the audible alarm wires over to the audible alarm wire-wrap posts on the Traverse main backplane. Figure 9-7 Traverse 2000 Audible Alarm Wire-Wrap Posts Figure 9-8 Traverse 600 Audible Alarm Wire-Wrap Posts Release TR3.2.1 Turin Networks Page 9-13...
Page 236: Optional Turin Pdap For Alarm Connections
PDAP-15A for Traverse 600: – PDAP-15A Power, Fuse, and Visual Alarm Wire-Wrap Posts, page 9-20 – PDAP-15A Power Alarm Connections, page 9-21 – PDAP-15A Fuse Alarm Connections, page 9-22 – PDAP-15A Visual Alarm Input Connections, page 9-23 Page 9-14 Turin Networks Release TR3.2.1...
Page 237: Pdap-4S Power, Fuse And Visual Alarm Wire-Wrap Posts
The following graphic provides PDAP-4S power, fuse, and visual alarm labeling and wire-wrap post numbers. Figure 9-10 PDAP-4S Alarm Wire-Wrap Post Numbers and Labeling Table 9-5 PDAP-4S Power Alarm Input Wire-Wrap Posts Power Alarm Visual Power (Normally-Closed) (Common) (Normally-Open) Post 1 Post 9 Post 17 Release TR3.2.1 Turin Networks Page 9-15...
Page 238 Table 9-8 PDAP-4S Visual Alarm Outputs (Optional) and Wire-Wrap Posts Visual Alarms Critical (Normally-Closed) (Normally-Open) (Common) Post 4 Post 5 Post 6 Major Post 12 Post 13 Post 14 Minor Post 20 Post 21 Post 22 Page 9-16 Turin Networks Release TR3.2.1...
Page 239: Pdap-4S Power Alarm Connections
Note: Two wires are required for the power alarm (normally-open and common or normally-closed and common). The PDAP-4S Power Alarm Connections procedure is complete. Continue to the next procedure, PDAP-4S Fuse Alarm Connections. Release TR3.2.1 Turin Networks Page 9-17...
Page 240: Pdap-4S Fuse Alarm Connections
Note: Two wires are required for each fuse alarm (normally-open and common or normally-closed and common). The PDAP-4S Fuse Alarm Connections procedure is complete. Continue to the next procedure, PDAP-4S Visual Alarm Input Connections. Page 9-18 Turin Networks Release TR3.2.1...
Page 241: Pdap-4S Visual Alarm Input Connections
Route visual alarm cables to the left side of the PDAP-4S and down the rack rails to the first Traverse shelf. The PDAP-4S Visual Alarm Input Connections procedure is complete. Continue to Chapter 2—“Timing Interface Cabling,” page 9-25. Release TR3.2.1 Turin Networks Page 9-19...
Page 242 Figure 9-14 PDAP-15A Power, Fuse, and Visual Alarm Wire-Wrap Posts The following graphic provides PDAP-15A power, fuse, and visual alarm labeling and wire-wrap post numbers. Figure 9-15 PDAP-15A Alarm Wire-Wrap Post Numbers and Labeling Page 9-20 Turin Networks Release TR3.2.1...
Page 243 Note: Two wires are required for the power alarm (normally-open and common or normally-closed and common). The Connect PDAP-15A Power Alarms procedure is complete. Continue to the Connect PDAP-15A Fuse Alarms procedure. Release TR3.2.1 Turin Networks Page 9-21...
Page 244 Note: Two wires are required for each fuse alarm (normally-open and common or normally-closed and common). The Connect PDAP-15A Fuse Alarms procedure is complete. Continue to the Connect PDAP-15A Visual Alarm Inputs procedure. Page 9-22 Turin Networks Release TR3.2.1...
Page 245 PDAP-15A. Terminate the two alarm wires for critical (CRIT) activate (A) and Return (R) using a wire-wrap tool. Figure 9-18 PDAP-15A Visual Alarm Input Wire-Wrap Posts Repeat Steps 1 and 2 for major (MAJ)/common (C) and minor (MIN)/common (C) wires. Release TR3.2.1 Turin Networks Page 9-23...
Page 246 Table 9-14 Connect PDAP-15A Visual Alarm Inputs (continued) Step Procedure Route visual alarm cables to the left side of the PDAP-15A and down the rack rails to the first Traverse shelf. The Connect PDAP-15A Visual Alarm Inputs procedure is complete. Page 9-24 Turin Networks Release TR3.2.1...
Page 247: Timing Interface Cabling
The step-by-step instructions may be too detailed if you are experienced in CO installations. In this case, scan the topic labels in the left margin for tasks to review or refer to Appendix B—“Installation and Commissioning Checklists,” Timing and Management Cabling Checklist, page 12-30. Release TR3.2.1 Turin Networks Page 9-25...
Page 248 (and shielded twisted-pair wire) for connection to the main backplane wire-wrap posts. Important: Always wear a properly grounded Electrostatic Discharge (ESD) wrist strap when making connections to the Traverse main backplane. Drain wire required for shielding. The secondary T1/E1 timing input connection is optional. Page 9-26 Turin Networks Release TR3.2.1...
Page 249 Traverse shelf. Remove the back cover from the Traverse shelf. Refer to Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” page 6-9 for detailed instructions. Release TR3.2.1 Turin Networks Page 9-27...
Page 250 Yes. Cut the coax cables to the correct length and terminate to the 75/120 ohm baluns (either standalone or on the optional Traverse backplane cover with 75/120 ohm baluns) using BNC connectors. Continue to the next step. • No. Continue to Step 8. Page 9-28 Turin Networks Release TR3.2.1...
Page 251 Are there additional Traverse shelves in the rack that require T1/E1 Timing? • Yes. Repeat Steps 1 through 11 for each shelf. • No. The T1/E1 Timing Interface Input Connections procedure is complete. Continue to the next procedure, T1/E1 Timing Interface Output Connections. Release TR3.2.1 Turin Networks Page 9-29...
Page 252: T1/E1 Timing Interface Output
Strip back the insulation on the primary and secondary (optional) output timing wires by ¼ inch (7 mm). Note: Two 2-pair wires are required for primary and secondary (T1/E1_OUTA and T1/E1_OUTB) connections. The secondary T1/E1 timing output connection is optional. Page 9-30 Turin Networks Release TR3.2.1...
Page 253 BITS/SASE Clock? • Yes. Repeat Steps 1 through 5 for each shelf. • No. The T1/E1 Timing Interface Output Connections procedure is complete. Continue to Chapter 3—“Management Interface Cabling,” page 9-37. Release TR3.2.1 Turin Networks Page 9-31...
Page 254: Cc2M Timing Interface Input
Remove the back cover from the Traverse shelf. Refer to Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” page 6-9 for detailed instructions. The secondary CC2M timing input connection is optional. Page 9-32 Turin Networks Release TR3.2.1...
Page 255: Verify Preset Jumpers On Headers J2 And J3
Terminate drain wire to shield wire-wrap posts using wire-wrap tool. Verify that the correct pins are jumpered on header J3 (CC2M_IN), see Verify Preset Jumpers on Headers J2 and J3, page 9-36. Release TR3.2.1 Turin Networks Page 9-33...
Page 256 Strip back the insulation on the primary and secondary (optional) output timing wires by ¼ inch (7 mm). Note: Two 2-pair wires are required for primary and secondary (CC2M_OUTA and CC2M_OUTB) connections. The secondary 2MHz timing output connection is optional. Page 9-34 Turin Networks Release TR3.2.1...
Page 257 BITS/SASE Clock? • Yes. Repeat Steps 1 through 5 for each shelf. • No. The 2MHz Timing Interface Output Connections procedure is complete. Continue to Chapter 3—“Management Interface Cabling,” page 9-37. Release TR3.2.1 Turin Networks Page 9-35...
Page 258 These jumpers are required for 2MHz timing signal termination. These 12-pin headers are located on the main backplane just below the timing interface wire-wrap posts. T1/E1_IN CC2M_IN Figure 9-24 Main Backplane Headers J2 and J3 Page 9-36 Turin Networks Release TR3.2.1...
Page 259: Management Interface Cabling
The step-by-step instructions may be too detailed if you are experienced in CO installations. In this case, scan the topic labels in the left margin for tasks to review or refer to Appendix B—“Installation and Commissioning Checklists,” Timing and Management Cabling Checklist, page 12-30. Release TR3.2.1 Turin Networks Page 9-37...
Page 260: Dcn Ethernet Interface Connection
Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” page 6-9. Bring the Ethernet cable over to the (J4) RJ-45 connector on the main backplane. Cut the Ethernet cable to the correct length. Page 9-38 Turin Networks Release TR3.2.1...
Page 261 Figure 9-25 RJ-45 Plug and DCN Ethernet Pinouts Insert the RJ-45 plug into the (J4) RJ-45 connector on the main backplane. (J4) DCN Ethernet Interface Figure 9-26 Traverse Main Backplane DCN Ethernet Interface Release TR3.2.1 Turin Networks Page 9-39...
Page 262: Dte Interface Connection
Connect the Category 5 cable to the RJ-45 side of the RJ-45 to DB-25 adapter. See Step 7 on page 9-41 for pinouts. Route the Category 5 cable from the external modem along the rack rails to the left side of the Traverse shelf following local procedures. Page 9-40 Turin Networks Release TR3.2.1...
Page 263 DB-9 and DB-25 pinouts are provided below. Figure 9-28 RJ-45 Plug and RS-232 Pinouts Insert the RJ-45 plug into the (J5) RJ-45 connector on the main backplane. (J5) RS-232 Interface (RJ-45) Figure 9-29 Traverse Main Backplane RS-232 Interface Release TR3.2.1 Turin Networks Page 9-41...
Page 264 Replace the back cover placing the RS-232 cable through the cable port provided in the left side of the cover. The RS-232 DTE Interface Connection procedure is completed. Continue to the next Section of this manual. Page 9-42 Turin Networks Release TR3.2.1...
Page 265 PDAP-4S Chassis Ground ......10-5 Release TR3.2.1 Turin Networks Page i...
Page 266 Connect Battery Return Supply Cables to the PDAP ..10-25 Table 10-9 Connect Supply Cables to the Central Office Source ..10-28 Page ii Turin Networks Release TR3.2.1...
Page 267: Power System Overview
Terminates central office battery return • Distributes redundant battery and battery return • Provides power protection for Traverse shelves and auxiliary equipment • Visually display input power, fuse power, and critical, major, and minor bay alarms Release TR3.2.1 Turin Networks Page 10-1...
Page 268 Commissioning Procedures, Chapter 1—“Node Start-up and Commissioning,” page 11-1. • No. Complete all remaining component installation and cable connections. Once complete, then (and only then) continue to Section 11—Node Start-up and Commissioning Procedures, page 11-1. Page 10-2 Turin Networks Release TR3.2.1...
Page 269: Power System Hardware Installation
1 – double-hole copper barrel cable lug for ground terminal connection: – 1 – 1/4-inch (6.35 mm) (clearance hole with .625-inch spacing) for the PDAP-4S – 1 – M5 (0.19-inch or 5 mm) (clearance hole with .625-inch spacing) for the PDAP-15A • Stepladder (optional) Release TR3.2.1 Turin Networks Page 10-3...
Page 270 Figure 10-1 Power System Keyhole Slots Position and lower the power system so the keyhole slots rest on the partially tightened screws. Tighten screws. Place two additional screws and tighten to secure the power system to the rack. Page 10-4 Turin Networks Release TR3.2.1...
Page 271 No additional grounding procedures are required when installed in a properly grounded telco rack. The Power System Hardware Installation procedure is complete. Continue on to Chapter 3—“Battery and Battery Return Distribution,” page 10-7. Release TR3.2.1 Turin Networks Page 10-5...
Page 272 Clean all surfaces and apply anti-oxidant before joining. Coat all bare conductors with an appropriate anti-oxidant compound before crimp connections are made. Bring all connectors to a bright finish and coat with an anti-oxidant before making the connection. Page 10-6 Turin Networks Release TR3.2.1...
Page 273: Battery And Battery Return Distribution
4 – #10 (clearance hole with .625-inch spacing) double-hole copper barrel cable lugs to connect battery distribution (-48VDC) cables (e.g., #8 AWG or 9 mm PDAP-4S or -2S, #12 AWG or 3.3 mm for PDAP-15A red or gray copper area Release TR3.2.1 Turin Networks Page 10-7...
Page 274: Pdap-4S Only
4 – SEMS screws to connect battery distribution (-48VDC) and battery return distribution (RETURN) cables to the PDAP-15A • A Phillips screwdriver • For further information, refer to the Telect website at www.telect.com and request the specification sheet for publication number #T009-92222112711 Page 10-8 Turin Networks Release TR3.2.1...
Page 275: Battery And Battery Return Distribution Cabling Procedures
Use the supplied -48VDC cable or use a crimping tool to attach a double-hole copper barrel cable lug to one end of the battery distribution (-48VDC) wire for the battery distribution cable connection to the Traverse shelf. Release TR3.2.1 Turin Networks Page 10-9...
Page 276 Use diagonal cutters to cut the battery distribution (-48VDC) cable to the correct length. Use a crimping tool to attach a single-hole copper barrel cable lug to the end of the battery distribution (-48VDC) cable. Page 10-10 Turin Networks Release TR3.2.1...
Page 277 Yes. Repeat Steps 1 through 11 for each Traverse shelf. • No. Continue to Step 13. The Connect PDAP-4S Battery Distribution Cables procedure is complete. Continue to the next procedure, Connect PDAP-4S Battery Return Distribution Cables. Release TR3.2.1 Turin Networks Page 10-11...
Page 278 1/4-inch socket (or nutdriver). Place the battery return distribution double-hole copper barrel cable lug over the RETURN_A power terminals. Replace and tighten the SEMS screws using a 1/4-inch socket (or nutdriver). Page 10-12 Turin Networks Release TR3.2.1...
Page 279 Use diagonal cutters to cut the battery return distribution (RETURN) cable to the correct length. Use a crimping tool to attach a single-hole copper barrel cable lug to the end of the battery return distribution (RETURN) cable. Release TR3.2.1 Turin Networks Page 10-13...
Page 280 (-48VDC) of the cable connections at the A and B side battery (-48VDC) power terminals. Verify equivalent polarity (RETURN) of the cable connections at the A and B side battery return (RETURN) power terminals. Page 10-14 Turin Networks Release TR3.2.1...
Page 281 Protective Back Cover, page 6-13 for details. Remove the back cover from the [first] Traverse shelf in the rack. Refer to Section 6—Precautions and Common Procedures, Chapter 2—“Removing and Replacing Back Covers,” Main Backplane Covers, page 6-9 for details. Release TR3.2.1 Turin Networks Page 10-15...
Page 282 (-48VDC) cable. Remove the SEMS screw from the battery "A" distribution power terminal, position A1 (shelf 1). Battery “A” Distribution Battery “B” Distribution Figure 10-9 PDAP-15A Battery Distribution Power Terminals Page 10-16 Turin Networks Release TR3.2.1...
Page 283 (RETURN) wire for the battery return distribution cable connection at the Traverse shelf. Remove the SEMS screw from the RETURN_A power terminal. Place the single-hole copper barrel cable lug on the battery return distribution (RETURN) terminal. Replace and tighten the screw. Release TR3.2.1 Turin Networks Page 10-17...
Page 284 Repeat Steps 2 through 9 to connect battery return “B” distribution cable (i.e., connect the battery return (RETURN) cable from the Traverse RETURN_B power terminals to the position B1 battery return distribution terminal on the PDAP-15A). Page 10-18 Turin Networks Release TR3.2.1...
Page 285 (RETURN) of the cable connections at the A and B side battery return (RETURN) power terminals. The Connect PDAP-15A Battery Return Distribution Cables procedure is complete. Continue to Section 10—Power Installation and Cabling Procedures, Chapter 4—“Battery and Battery Return Supply,” page 10-21. Release TR3.2.1 Turin Networks Page 10-19...
Page 286 Traverse Installation and Commissioning Guide, Section 10: Power Installation and Cabling Procedures Connect PDAP-15A Battery Return Distribution Cables Page 10-20 Turin Networks Release TR3.2.1...
Page 287: Battery And Battery Return Supply
The instructions may be too detailed if you are experienced in CO installations. In this case, scan the topic labels in the left margin for tasks to review or refer to Appendix B—“Installation and Commissioning Checklists,” Power Cabling Checklist, page 12-32. Release TR3.2.1 Turin Networks Page 10-21...
Page 288: General
4 – M5 (0.19-inch or 5 mm) lock washers to connect battery and battery return supply cables at the PDAP-15A • A 5/16-inch (8 mm) socket • For further information, refer to the Telect website at www.telect.com.and request the publication for Model #0HPGMT05BR. Page 10-22 Turin Networks Release TR3.2.1...
Page 289: Connect Battery Supply Cables To The Pdap
WARNING! Ensure battery supply cables are not connected to central office battery source before beginning this procedure to avoid personal injury. Important: Always wear a properly grounded Electrostatic Discharge (ESD) wrist strap when making cable connections to the PDAP and Traverse main backplane. Release TR3.2.1 Turin Networks Page 10-23...
Page 290 Remove the nuts and lock washers from the PDAP battery “A” and “B” NEG VDC input terminal lugs. Place the double-hole copper barrel cable lug on the battery “A” NEG VDC input terminal lugs. Replace the lock washers and tighten nuts. Page 10-24 Turin Networks Release TR3.2.1...
Page 291: Connect Battery Return Supply Cables To The Pdap
Did you first complete the Connect Battery Supply Cables to the PDAP? • Yes. Continue to the next step. • No. Go to Table 10-7 Connect Battery Supply Cables to the PDAP, page 10-24 to complete this cabling first. Release TR3.2.1 Turin Networks Page 10-25...
Page 292 Use a crimping tool to attach double-hole copper barrel cable lugs to the end of the battery return supply cables for connection to the PDAP. Remove the lock washers, flat washers (PDAP-4S only), and nuts from the PDAP battery return “A” and “B” RETURN bus bars. Page 10-26 Turin Networks Release TR3.2.1...
Page 293: Connect Supply Cables To The Central Office Source
WARNING! Use extreme caution when working with battery and battery return supply cables. Remove all metal jewelry when working with power circuits. WARNING! Complete continuity testing before connecting battery and battery return cables to the central office source. Release TR3.2.1 Turin Networks Page 10-27...
Page 294 Make sure GMT fuses are empty or contain dummy fuses Figure 10-18 PDAP-15A Front View Circuit Breakers—OFF Circuit Breakers—OFF Make sure GMT fuses are empty or contain dummy fuses Figure 10-19 PDAP-2S Front View Page 10-28 Turin Networks Release TR3.2.1...
Page 295: Verify Polarity
Battery and Battery Return “A” Supply Terminals Figure 10-20 PDAP-4S Battery and Return Supply Terminal Connections Battery and Return “B” Battery and Return “A” Supply Terminals Supply Terminals Figure 10-21 PDAP-15A Battery and Return Supply Terminal Connections Release TR3.2.1 Turin Networks Page 10-29...
Page 296: Verify Voltage
Figure 10-22 PDAP-2S Battery and Battery Return Supply Connections Verify Voltage Use a VOM to measure the voltage present at the NEG VDC "A" and "B" input lugs on the PDAP. Voltage reading must be between –48 and –60 VDC. Page 10-30 Turin Networks Release TR3.2.1...
Page 297 Determining Access Roles for Existing TE-206 User Privileges . . 11-14 Table 11-2 Access Roles for New TE-206 Users..... . 11-15 Release TR3.2.1 Turin Networks Page i...
Page 298 Traverse Installation and Commissioning Guide, Section 11 Node Start-up and Commissioning Procedures Page ii Turin Networks Release TR3.2.1...
Page 299 Requirement Reference Read through the entire chapter and Chapter 1—“Node Start-up and Commissioning” gather together reference material first. All hardware is installed. Section 7—Hardware Installation Procedures, Chapter 1—“Traverse System Rack Installation Overview,” page 7-1 Release TR3.2.1 Turin Networks Page 11-1...
Page 300 Address Planning,” page 2-11 provided by your local network administrator and is required for management purposes. Traverse node IP addresses should be allocated from the same domain. Conditional node commissioning Conditional Node Commissioning Parameters, page 11-5 parameters. Page 11-2 Turin Networks Release TR3.2.1...
Page 301 See the TransNav Management System Product Overview Guide, Section 2—Management System Planning, Chapter 3—“IP Address Planning,” page 2-11 for details on assigning IP addresses to network nodes. Release TR3.2.1 Turin Networks Page 11-3...
Page 302 Important: If the Operation Mode parameter is set to one of the DCS modes, then it is mandatory to also set the Matrix STS Access ID (MS AID) Format. For more information, see Conditional Node Commissioning Parameters, page 11-5. Page 11-4 Turin Networks Release TR3.2.1...
Page 303: Conditional Node Commissioning Parameters
Required for each ems-ip. This value depends on site practices. ems-gw-ip This address is the IP address of the port on the router connected to the Ethernet interface on the back of the Traverse shelf. This address is the same address as bp-dcn-gw-ip. Release TR3.2.1 Turin Networks Page 11-5...
Page 304: Commissioning Process
Important: The GCM power LED is solid green indicating that the GCM has power. The solid green Active/Standby LED indicates the active GCM card. Use the CLI to commission and configure the active GCM. Page 11-6 Turin Networks Release TR3.2.1...
Page 305: Commission The Node
Turin logo and session prompt. Your terminal responds with the Turin logo. Please type CLI to start a new session... To log on to the CLI: Type: CLI Release TR3.2.1 Turin Networks Page 11-7...
Page 306 No. Go to Step 14. • Yes. Enter the backplane DCN IP address information. Type: set node ip bp-dcn-ip aaa.bbb.ccc.ddd bp-dcn-mask aaa.bbb.ccc.ddd bp-dcn-gw-ip aaa.bbb.ccc.ddd where: aaa.bbb.ccc.ddd is the correct IP address from your network administrator. Page 11-8 Turin Networks Release TR3.2.1...
Page 307: Insert The Standby Gcm And All Cards In The Traverse Node
Type: yes The node begins the restart sequence. Exit your terminal emulation session. The Commission the Node procedure is complete. Continue to Insert the Standby GCM and All Cards in the Traverse Node, page 11-10. Release TR3.2.1 Turin Networks Page 11-9...
Page 308 “off”. Cards and ports are “unlocked” or enabled as part of equipment configuration. Refer to the Traverse Provisioning Guide for more information. The Insert the Standby GCM and All Other Cards procedure is complete. The Traverse system installation, start-up, and commissioning are complete. Page 11-10 Turin Networks Release TR3.2.1...
Page 309: Visual Status During And After Start-Up
Important: The solid green Active/Standby LED indicates the active GCM card. Use the CLI to commission and configure the active GCM. The POST takes approximately one minute to run and it invokes the LED activity for initialization. Release TR3.2.1 Turin Networks Page 11-11...
Page 310: Power And Active/Standby Led Indicators
Does not apply to GbE or OC-N cards. For the Traverse platform, refer to Appendix A—“Card Placement Planning and Guidelines,” page 12-1 for valid card placement guidelines. Page 11-12 Turin Networks Release TR3.2.1...
Page 311: Managing Te-206 Node Users From Transnav
Traverse platform. (For information on User Privileges the access roles available on the Traverse platform, see the TransNav Management System GUI Guide, Section 2—Administrative Tasks, Chapter 2—“Managing Node Security,” Access Roles.) Release TR3.2.1 Turin Networks Page 11-13...
Page 312 Administration Service Configuration Manager Resets Fault Manager Logs Report Manager Maintenance/Equipment User Manager Management General Basic SELECT (Custom Connections Fault Manager Privilege Level) Administration Report Manager Resets User Manager Logs Maintenance/Equipment Management General Basic Page 11-14 Turin Networks Release TR3.2.1...
Page 313 User ID / Password requirements, see Password Criteria. • Attempting to create more than the maximum number of node user accounts for each TE-206 node. The maximum number of user accounts per TE-206 node is 50. Release TR3.2.1 Turin Networks Page 11-15...
Page 314 If a new user account for a TE-206 node is detected when a new TE-206 is discovered, the user must reset their password the first time they log on to allow TransNav to verify the password. If the password is not reset, synchronization issues occur. Page 11-16 Turin Networks Release TR3.2.1...
Page 315 Power Cabling Checklist ....... . 12-32 Table 12-12 Node Start-up and Commissioning Checklist ....12-35 Release TR3.2.1 Turin Networks Page i...
Page 316 Traverse Installation and Commissioning Guide, Section 12 Appendices Page ii Turin Networks Release TR3.2.1...
Page 317 This appendix contains information on the following topics: ∞ Card Placement Guidelines, page 12-2 ∞ Traverse 1600 Card Placement, page 12-8 ∞ Traverse 2000 Card Placement, page 12-12 ∞ Traverse 600 Card Placement, page 12-16 Release TR3.2.1 Turin Networks Page 12-1...
Page 318 DS3/E3 and 3-slot E1 ECM provides access to only the center and right-most cards, so place an optical card in the left-most slot. For Optical Transmux card placement, see Optical Transmux in this table. Optical Transmux Page 12-2 Turin Networks Release TR3.2.1...
Page 319 (SONET network only) The UTMX cards support 1:N equipment protection for high-density optical transmux applications, where N=1 to 4 in a Traverse 2000. This application has no DS3/E3 ECM requirement. One card protects all remaining adjacent cards. Release TR3.2.1 Turin Networks Page 12-3...
Page 320 Requires an SFP connector card. See the Traverse Installation and Commissioning Guide, Section 2—Network Interface Specifications, Chapter 1—“Fiber Optic Interface Cabling Specifications,” GbE-10 SCM, Fiber Assignments, and SFPs, page 2-4. Ethernet over PDH (EoPDH) Page 12-4 Turin Networks Release TR3.2.1...
Page 321 The OC-192/STM-64 cards require two slots 5/6, 7/8, 5/6, 7/8, for placement. The left side of the 9/10, 9/10, OC-192/STM-64 card is placed in an odd 11/12, and 11/12, numbered slot. 13/14 13/14, 15/16, and 17/18 Release TR3.2.1 Turin Networks Page 12-5...
Page 322 The following table lists the redundancy rules for all GCM types: Table 12-2 Redundancy Rules for GCM Types Active GCM Standby GCM GCM Enhanced | Universal Page 12-6 Turin Networks Release TR3.2.1...
Page 323 Standby GCM GCM Enhanced | Universal GCM Enhanced | Universal GCM Enhanced | Universal GCM with OC-N/STM-N GCM with OC-N/STM-N GCM Enhanced or Universal environmental alarm function should not be used in this combination. Release TR3.2.1 Turin Networks Page 12-7...
Page 324 Traverse 1600 The following table provides card placement guidelines for the Traverse 1600 shelf. Card Legend: Gray Fill=valid slot for card, No Fill=invalid card slot, Standby or Active (S/A), Protecting (P), Working (W), Open Placement (O). Important: For standard electrical connector card (ECM) placement, the 2-slot ECMs plug into slot n of an n and n+1 slot combination.
Page 325 Table 12-3 Traverse 1600 Card Placement Guidelines (continued) Traverse 1600 Slot Numbers Card Type (Note: The Ethernet Combo cards have both optical ports and electrical ports. The card placement restriction is due to the electrical ports.) NGE, NGE Plus, EoPDH: •...
Page 326 Table 12-3 Traverse 1600 Card Placement Guidelines (continued) Traverse 1600 Slot Numbers Card Type ETHERNET (Single slot) unprotected with a 2-slot Ethernet (Protection) ECM NGE, NGE Plus, EoPDH: • GbE [LX, SX] plus 10/100BaseTX Combo [CEP\[EoPDH]] • GbE TX plus GbE [LX or SX] plus 10/100BaseTX Combo [CEP\[EoPDH]] NGE only:...
Page 327 Table 12-3 Traverse 1600 Card Placement Guidelines (continued) Traverse 1600 Slot Numbers Card Type • DS3/E3/EC-1 CC • DS3/EC-1 Transmux TDM unprotected with a 3-slot DS3/E3 ECM (Note: The card placement restriction is due to the electrical connector card.) • DS3/E3/EC-1 CC •...
Page 328 Traverse 2000 The following table provides card placement guidelines for the Traverse 2000 shelf. Card Legend: Gray Fill=valid slot for card, No Fill=invalid card slot, Standby or Active (S/A), Protecting (P), Working (W), Open Placement (O). Important: For standard electrical connector card (ECM) placement, the 2-slot ECMs plug into slot n of an n and n+1 slot combination.
Page 329 Table 12-4 Traverse 2000 Card Placement Guidelines (continued) Traverse 2000 Slot Numbers Card Type • 1-port 10GbE Slots 1/2 Slots 3/4 Slots 5/6 Slots 7/8 Slots 9/10 Slots 11/12 Slots 13/14 Slots 15/16 Slots 17/18 • 10-port GbE ETHERNET unprotected with a 2-slot 10/100BaseT ECM NGE, NGE Plus, EoPDH: •...
Page 330 Table 12-4 Traverse 2000 Card Placement Guidelines (continued) Traverse 2000 Slot Numbers Card Type • DS1 • DS3/E3/EC-1 CC • DS3/EC-1 Transmux • E1 TDM 1:1 equipment protection with a 2-slot ECM • DS1 • DS3/E3/EC-1 CC • DS3/EC-1 Transmux •...
Page 331 Table 12-4 Traverse 2000 Card Placement Guidelines (continued) Traverse 2000 Slot Numbers Card Type VT/TU 5G Switch with 1:1 Equipment Protection GCM with optics plus VTX VT/VC Switching unprotected VT/TU 5G Switch without Equipment Protection GCM with optics plus VTX Redundant GCMs can be different types;...
Page 332 Traverse 600 The following table provides card placement guidelines for the Traverse 600 shelf. Card Legend: Gray Fill=valid slot for card, No Fill=invalid card slot, Standby or Active (S/A), Protecting (P), Working (W), Open Placement (O). Important: For standard electrical connector card (ECM) placement, 2-slot ECMs plug into slot n of an n and n+1 slot combination.
Page 333 Table 12-5 Traverse 600 Card Placement Guidelines (continued) Traverse 600 Slot Numbers Card Type NGE, NGE Plus, EoPDH: • GbE [LX, SX] plus 10/100BaseTX Combo [CEP\[EoPDH]] • GbE TX plus GbE [LX or SX] plus 10/100BaseTX Combo [CEP\[EoPDH]] NGE only: •...
Page 334 Table 12-5 Traverse 600 Card Placement Guidelines (continued) Traverse 600 Slot Numbers Card Type TDM 1:2 equipment protection with the corresponding ECM • DS1 • DS3/E3/EC-1 CC • DS3/EC-1 Transmux • E1 TDM 1:1 equipment protection with a 2-slot ECM •...
Page 335 Table 12-5 Traverse 600 Card Placement Guidelines (continued) Traverse 600 Slot Numbers Card Type VT/VC Switching without Equipment Protection VT/TU 5G Switch OC-48/STM-16 with VTX Redundant GCMs can be different types; e.g., a GCM with integrated optics (OC-12/STM-4 and OC-48/STM-16) placed with an Enhanced GCM for GCM redundancy.
Page 337 • Network Cabling Checklist, page 12-25 • Alarm Cabling Checklist, page 12-27 • Timing and Management Cabling Checklist, page 12-30 • Power Cabling Checklist, page 12-32 • Node Start-up and Commissioning Checklist, page 12-35 Release TR3.2.1 Turin Networks Page 12-21...
Page 338 Power System (PDAP). Install the power system at the top of the equipment rack. The detail-level installation procedure is in Section 10—Power Installation and Cabling Procedures, Chapter 2—“Power System Hardware Installation,” page 10-3. All Power System Hardware Installation Checklist steps are complete. Page 12-22 Turin Networks Release TR3.2.1...
Page 339 3/8-inch (9.5 mm) space (for non-vertical installations only) to allow for proper air flow. Refer to Chapter 2—“Traverse System Hardware Installation”: – Install the Traverse Shelf, page 7-9 – Go to the next step Release TR3.2.1 Turin Networks Page 12-23...
Page 340 – Insert a Traverse 1600 and Traverse 2000 Fan Assembly, page 6-26 – Insert a Traverse 1600 and Traverse 2000 Fan Air Filter, page 6-27 All Traverse System Hardware Installation Checklist steps are complete. Page 12-24 Turin Networks Release TR3.2.1...
Page 341 Chapter 3—“DS1 and E1 Cabling Procedures,” Plug-in Electrical Connector Module, page 8-17 • Chapter 4—“DS3 and E3 Cabling Procedures,” Plug-in DS3/E3 Electrical Connector Module, page 8-29 • Chapter 5—“Ethernet (Electrical) Cabling Procedures,” Plug-in Ethernet Protection ECM, page 8-39 Release TR3.2.1 Turin Networks Page 12-25...
Page 342 Cabling, page 8-4. For information on acceptable minimum/maximum output power and receiver levels refer to the Operations and Maintenance Guide, Section 4—Diagnostics, Chapter 2—“Traverse Transmit and Receive Signal Levels.”. All Network Cabling Checklist steps are complete. Page 12-26 Turin Networks Release TR3.2.1...
Page 343 The detail-level alarm cabling procedure is in Chapter 1—“Alarm Interface Cabling”: • Chapter 1—“Alarm Interface Cabling,” PDAP-4S Fuse Alarm Connections, page 9-18 • Chapter 1—“Alarm Interface Cabling,” PDAP-15A Fuse Alarm Connections, page 9-22 Release TR3.2.1 Turin Networks Page 12-27...
Page 344 The location of these wire-wrap posts on the main backplane are provided in Section 3—Alarm, Timing, and Management Interface Specifications, Chapter 1—“Alarm Interface Specifications,” Alarm Output Wire-Wrap Posts, page 3-2. Page 12-28 Turin Networks Release TR3.2.1...
Page 345 (1 turn), one 152.4 mm (6-inches) from the rack, the other 304.8 to 457.2 mm (12 to 18-inches) from the rack. All Power, Fuse, Visual, Audible, Environmental and Fail-safe Alarm Cabling Checklist steps are complete. Release TR3.2.1 Turin Networks Page 12-29...
Page 346 DCN Ethernet cabling from the LAN/WAN network device to the Traverse main backplane J4 (ETHERNET) RJ-45 connector. The detail-level DCN Ethernet interface connection procedure is located in Chapter 3—“Management Interface Cabling,” DCN Ethernet Interface Connection, page 9-38. Page 12-30 Turin Networks Release TR3.2.1...
Page 347 Traverse main backplane J5 (RS-232) RJ-45 connector using an RJ-45 to DB-25 adaptor. The detail-level RS-232 interface connection procedure is located in Chapter 3—“Management Interface Cabling,” RS-232 DTE Interface Connection, page 9-40. All Timing and Management Cabling Checklist steps are complete. Release TR3.2.1 Turin Networks Page 12-31...
Page 348 Connect PDAP-4S Battery Return Distribution Cables, page 10-12 • Connect PDAP-15A Battery Distribution Cables, page 10-15 • Connect PDAP-15A Battery Return Distribution Cables, page 10-17 • Connect PDAP-15A Battery Return Distribution Cables, page 10-19 Page 12-32 Turin Networks Release TR3.2.1...
Page 349 The detail-level supply cabling to the central office source procedure is located in Chapter 4—“Battery and Battery Return Supply,” Connect Supply Cables to the Central Office Source, page 10-27. Release TR3.2.1 Turin Networks Page 12-33...
Page 350 OFF position and fuse holders are empty before verifying polarity or voltage. Procedures are provided in Chapter 4—“Battery and Battery Return Supply”: • Verify Polarity, page 10-29 • Verify Voltage, page 10-30 All Power Cabling Checklist steps are complete. Page 12-34 Turin Networks Release TR3.2.1...
Page 351 Important: The GCM power LED is solid green indicating that the GCM has power. The solid green Active/Standby LEd indicates that it is the active GCM card. Initial configuration is done through the active GCM via the CLI. Release TR3.2.1 Turin Networks Page 12-35...
Page 352 Chapter 1—“Node Start-up and Commissioning,” Required Node Commissioning Parameters, page 11-3 for the descriptions of these parameters. Reinitialize the GCM Database. At the command prompt, type Y to reinitialize the database on the GCM. Page 12-36 Turin Networks Release TR3.2.1...
Page 353 Important: The Active/Standby LED on the standby GCM flashes amber while it is synchronizing with the active GCM. Important: Wait for synchronization to complete. The Active/Standby LED flashes green indicating that it is the standby GCM and that synchronization is complete. Release TR3.2.1 Turin Networks Page 12-37...
Page 354 Insert a Card, page 6-19 Place 1-slot Wide Blank Faceplates. Place 1-slot wide blank faceplates in any empty Traverse card cage slots to ensure EMI protection and proper cooling. All Node Start-up and Commissioning Checklist steps are complete. Page 12-38 Turin Networks Release TR3.2.1...
Page 355 3-2 LEDs shelf, fiber optic, 2-3 power and standby, 11-12 Balun timing connection optic, 12-5 back cover, 9-26 remove, 6-23 back cover with baluns, 3-11 Carrier Ethernet Protection Pair standalone balun, 3-11, 9-26 card Release TR3.2.1 Turin Networks Index-1...
Page 356 16-slot shelf, 2-38 20-slot shelf, 2-36 cabling options, 2-24, 2-26, 2-28 6-slot shelf, 2-39 ECM Telco 64 connector pinouts, 2-31 panel cabling, 8-26 panel cabling, 8-23 ECM, see Electrical connector module DS1/E1 Electrical connector module, 2-31 Index-2 Turin Networks Release TR3.2.1...
Page 357 6-27 front inlet fan tray holder, 7-11, 7-20 rack adaptation, 7-8 shelf, 7-9, 7-22 Fail-safe Installation ACO wire-wrap posts, 3-4 checklist power system hardware, 12-22 power interface specification, 4-5 Release TR3.2.1 Turin Networks Index-3...
Page 358 PDAP, 9-20 Power Distribution and Alarm Panel, see PDAP Operation mode Power supply commissioning, 11-4 central office, 10-27 Optic Power-up cards, 12-5 node, 11-1 module placement, 12-8 Precaution statements, 6-1 electrical, 6-3 Index-4 Turin Networks Release TR3.2.1...
Page 359 12-35 Verify polarity, 10-29 GCM visual status, 11-11 voltage, 10-30 node, 11-1 Voltage System verify, 10-30 configuration VT/TU Switch example, 1-4 card placement, 12-6 management gateway node, 3-15 timing interface wire-wrap posts, 3-9 Release TR3.2.1 Turin Networks Index-5...
Page 360 Index Warning statements, see Precaution statements White stripe reference marker, 2-9, 2-13 Wire-wrap posts timing interface, 3-9 Index-6 Turin Networks Release TR3.2.1...
Page 362 Visit our website at: www.turinnetworks.com Release TR3.2.1 Traverse System Documentation 800-0002-TR321...

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Turin Networks TraverseEdge 100 Installation And Commissioning Manual

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