Page 1 Alcatel-Lucent 1665 1665 DATA MULTIPLEXER | RELEASE 7.1 INSTALLATION MANUAL 365-372-304R7.1 CC109666487 NOVEMBER 2007 ISSUE 1...
Page 2 In rare instances, unauthorized individuals make connections to the telecommunications network through the use of access features. In such an event, applicable tariffs require that the customer pay all network charges for traffic. Alcatel-Lucent and its predecessors cannot be responsible for such charges and will not make any allowance or give any credit for charges that result from unauthorized access.
Page 3: Table Of Contents
How to comment ............................xxii Packaging collection and recovery requirements ..................xxii Recycling/take-back/disposal of product ....................xxii Part I: 1665 Data Multiplexer (1665 DMX) physical installation and powering Equipment and cable installation for 1665 Data Multiplexer (1665 DMX) Planning ..............................1-3 Connector references ..........................
Page 4 Circuit pack firmware version verification ..................... 3-12 1665 DMX shelf initialization ........................ 3-13 Provision/enable/disable TCP/IP on an IAO LAN port ................3-14 Reset system date and time ........................3-17 Provision/Enable/disable the 1665 DMX as a TL1 TCP/IP GNE ............3-18 .................................................... 365-372-304R7.1 Issue 1, November 2007...
Page 5 Miscellaneous (environmental) discrete telemetry test ................5-16 Modem connection test ........................... 5-19 Final operations ............................5-21 Part III: 1665 Data Multiplexer (1665 DMX) ring setup and testing Ring setup and testing: integration procedures Fiber installation ............................6-4 Optical transmission test (OC-192, OC-48, OC-12) ................6-11 Automatic protection switching test ......................
Page 6 Contents Part IV: 1665 Data Multiplexer (1665 DMX) supplementary information and installation checklist Laser safety and classifications and Electrostatic Discharge (ESD) considerations Laser safety ...............................A-2 Electrostatic Discharge ESD considerations .....................A-5 Laser product classification ........................A-9 1665 DMX optical specifications ......................A-11 Fiber cleaning Equipment requirements and recommendations ..................B-3...
Page 7 Contents Glossary Acronyms and abbreviations ........................GL-1 Terms and definitions ........................... GL-15 Index ................................................... 365-372-304R7.1 v i i Issue 1, November 2007...
Page 8 Contents .................................................... v i i i 365-372-304R7.1 Issue 1, November 2007...
Page 9 Ethernet cable routing to faceplate SFP modules ..............1-62 1-20 LAN cable installation to front of 1665 DMX High-Capacity shelf ......... 1-65 1-21 IAO LAN/TCP-IP cable installation to rear of 1665 DMX High-Capacity shelf ...... 1-66 .................................................... 365-372-304R7.1 Issue 1, November 2007...
Page 10 Miscellaneous discrete cable installation .................. 1-85 1-28 CIT cable installation ......................... 1-97 Powering and initial circuit pack installation for 1665 Data Multiplexer (1665 DMX) Power connections on 1665 DMX High-Capacity shelf backplane ..........2-4 1665 DMX High-Capacity shelf ....................2-11 LNW221 - 259 channel positions ....................
Page 11 List of figures LC-Type LBO Inserted Into LC-Type Connector Port ...............C-3 Removing LC-Type LBO From LC-Type Connector Port ............C-4 LC-Type Fiber Connector ......................C-5 LC-Type Fiber Connection ......................C-6 Pluggable transmission module installation Pluggable Transmission Module With Dust Plug (Optical PTMs Only) ........G-6 Examples of Dust Plugs ......................
Page 12 List of figures .................................................... x i i 365-372-304R7.1 Issue 1, November 2007...
Page 13 List of tables Part I: 1665 Data Multiplexer (1665 DMX) physical installation and powering Computer requirements ........................ 1-6 Equipment and cable installation for 1665 Data Multiplexer (1665 DMX) Cable requirements and options ....................1-5 Power cable assemblies ......................1-25 Power connections ........................1-26 DS1 cable assemblies .........................
Page 14 Standard CIT cable connections ....................1-98 1-26 RJ-45 to DB-9 connector connections ..................1-98 Powering and initial circuit pack installation for 1665 Data Multiplexer (1665 DMX) 1665 DMX High-Capacity shelf power supply requirements ............. 2-3 Release 7.1 circuit pack compatibility ..................2-7 Software download and circuit pack installation Computer Requirements ......................
Page 15 List of tables Installation checklist Installation Acceptance Checklist ....................E-1 Pluggable transmission module installation Alcatel-Lucent Approved Pluggable Transmission Modules ............. G-2 Insert Pluggable Transmission Module Into Socket ..............G-11 .................................................... 365-372-304R7.1 Issue 1, November 2007...
Page 16 List of tables .................................................... x v i 365-372-304R7.1 Issue 1, November 2007...
Page 17: About This Document
INC. Please be patient as we migrate each of these items. You may experience a period of transition when you may receive a mixture of the company logo and product names on any of these items. For example, a document may say 1665 DMX while the ®...
Page 18: How To Use This Document
Part I: “1665 Data Multiplexer (1665 DMX) physical installation and powering” Chapter 1, “Equipment and cable installation for 1665 Data Multiplexer (1665 DMX)” This chapter provides the information and procedures for installing and cabling the 1665 DMX system. It provides the additional cabling information needed for the added DS1 and DS3 capacity.
Page 19: Pluggable Transmission Module Installation
Appendix C, “Installing fiber connectors and LBOs” This appendix provides procedures for installing and removing the types of Line Build Out (LBO) units and fiber connectors onto input and output ports found on the 1665 DMX circuit packs. Appendix D, “Backplane pin replacement”...
Page 20: Safety Information
• You must be properly grounded when making contact with the 1665 Data Multiplexer (1665 DMX) frame and handling circuit packs, disk drives, and tapes. Wrist strap ground cords should be routinely tested for the minimum 1-megohm resistance. Plug-in storage •...
Page 21: Related Information
LT- DMX :LUC 01: cta g:: DMX2 .5G 10G ; typeface indicates the system or PC response to a command. Courier For the remainder of this document, “1665 DMX” is used in place of 1665 Data Multiplexer (1665 DMX) in most cases. Related information...
Page 22: How To Order
About this document How to order To order Alcatel-Lucent documents and courses, use the following websites, or the e-mail, phone, and fax contacts linked from “Contact Us” on the following sites: Documentation: http://www.lucentdocs.com/ Training: http://training.lucent.com/ How to comment To comment on this information product, go to the Online Comment Form (http://www.lucent-info.com/comments) or email your comments to the Comments...
Page 23 Alcatel-Lucent will offer to provide for the collection and treatment of Alcatel- Lucent products at the end of their useful life. Alcatel-Lucent will also offer to provide for the collection and treatment of existing products displaced by Alcatel-Lucent equipment.
Page 24 About this document .................................................... x x i v 365-372-304R7.1 Issue 1, November 2007...
Page 25: Part I: 1665 Data Multiplexer (1665 Dmx) Physical Installation And Powering
..................................Purpose Part I covers the physical mounting of the 1665 Data Multiplexer (1665 DMX) shelf, the running and connecting of power cables, interconnecting cables, alarm cables, and as required, external timing and communication cables. This section also covers initial circuit pack installation (not seated).
Page 26 X.25 ALM MULT NC-DMX-156 Contents This section is organized into the following chapters: Equipment and cable installation for 1665 Data Multiplexer (1665 DMX) Chapter 1 Powering and initial circuit pack installation for 1665 Data Multiplexer Chapter 2 (1665 DMX) Tools, test equipment, and accessories This section lists the tools, test equipment and accessories needed to perform all the procedures in this installation manual.
Page 27 1665 Data Multiplexer (1665 DMX) physical installation and powering Quantity Description Comments Thomas & Betts The crimping tool and wire stripper are only 5648B Crimping Tool required if installing DS3 cables. The replacement cassette is for the wire stripper tool.
Page 28 15-dB LC-Type LBO Two 15-dB LBOs are required when optically ITE-7196 (108279480) looping the 1665 DMX shelf for test purposes. In addition, for shelves containing optical circuit packs in any of the Function Unit slots, a single 15-dB LBO is required for testing of the...
Page 29 1665 Data Multiplexer (1665 DMX) physical installation and powering Quantity Description Comments CLETOP Cleaning Type A Reel Cassette Replacement Reel ITE-7137 D1 Luminex Stick Port 1.25 mm and 2.5 mm sizes Cleaners ITE-7134 & ITE-7135 Luminex Cloth R-6033 5.5” x 5.5”...
Page 30: Computer Requirements
1665 Data Multiplexer (1665 DMX) physical installation and powering PC minimum requirements It is anticipated that most customers will dedicate a laptop or personal computer (PC) to ® run the WaveStar CIT software. However, any properly configured computer will also suffice.
Page 31: Equipment And Cable Installation For 1665 Data Multiplexer (1665 Dmx)
Equipment and cable installation for 1665 Data Multiplexer (1665 DMX) Overview .................................................... Purpose This section provides installation and cabling instructions for the 1665 Data Multiplexer (1665 DMX). Contents This chapter provides information on the following topics: Planning Connector references Inspection...
Page 32 Equipment and cable installation for 1665 Data Multiplexer (1665 DMX) Modem cable installation 1-69 Sync cable installation 1-72 Office alarm cable installation 1-78 Miscellaneous (environmental) discrete telemetry cable installation 1-84 Main optical fiber installation (OC-12, OC-48, OC-192) 1-88 Fiber installation for low-speed packs...
Page 33: Planning
Equipment and cable installation for 1665 Data Multiplexer Planning (1665 DMX) Planning .................................................... Description This section provides information about the following: Tools, test equipment and accessories • Mounting options • Cabling checklist. • Tools, test equipment and accessories Listed below are the tools, test equipment and accessories necessary to perform the procedures in this section.
Page 34 ® 1665 DMX added to the Lambda Unite MSS configurations In order for the 1665 DMX shelf to be placed in a NEBS-2000 Cabinet frame combined ® with Lambda Unite MSS, mounting kit 848856514 is required. For a more complete ®...
Page 35: 1665 Dmx High-Capacity Shelf
Equipment and cable installation for 1665 Data Multiplexer Planning (1665 DMX) Table 1-1 Cable requirements and options Cable assembly description Required See note Power CIT or Cross over LAN Cable Optional Optional TMUX Optional 10/100BaseT Ethernet Optional Office Alarm Optional...
Page 36 Equipment and cable installation for 1665 Data Multiplexer Planning (1665 DMX) 5. a. Two DS3 Cable Assemblies are required for each Function Unit equipped for 12 DS3 service (LNW16). One cable consists of 12 inputs and the other cable consists of 12 outputs.
Page 37: Connector References
Equipment and cable installation for 1665 Data Multiplexer Connector references (1665 DMX) Connector references .................................................... Description Figure 1-1, Connector types and pinouts (p. 1-7) provides the pinouts of some of the connectors used to interface with the 1665 DMX. Figure 1-1 Connector types and pinouts...
Page 38: Inspection
Inspection (1665 DMX) Inspection .................................................... Description Perform the following procedure before installing the 1665 DMX High-Capacity shelf and cables. Procedure ............................................Inspect the shelf for visible damage including bent or touching backplane pins. If any backplane pins are damaged, refer to Appendix D, “Backplane pin...
Page 39: 1665 Dmx High-Capacity Shelf Installation
.................................................... Description As an example of the 1665 DMX High-Capacity shelf installation, the following steps describe mounting the shelf from the rear of a 23-inch bay frame. Mounting from the front of a 23-inch bay frame or from the front/rear of a 19-inch bay frame is similar with the exception of the position of the side brackets.
Page 40 Equipment and cable installation for 1665 Data Multiplexer 1665 DMX High-Capacity shelf installation (1665 DMX) Figure 1-2 1665 DMX High-Capacity shelf mounting bracket positions — 23-inch frame .................................................... 1 - 1 0 365-372-304R7.1 Issue 1, November 2007...
Page 41 To enable the filter alarm, remove the fan unit from the 1665 DMX High- Capacity shelf, move the switch to the "CF ALM ON" position and then reinstall the fan unit in the shelf.
Page 42: Typical 1665 Dmx High-Capacity Shelf Bay Mounting Arrangements
1665 DMX High-Capacity shelf installation (1665 DMX) ............................................Position the 1665 DMX High-Capacity shelf in the frame and secure it to the frame using the thread-forming screws included with the shelf (4 screws per side). Tighten the screws to 21 in.-lb. (minimum)/30 in.-lb. (maximum).
Page 43 1665 DMX High-Capacity shelf installation (1665 DMX) ............................................Verify with an ohmmeter that the 1665 DMX High-Capacity shelf is grounded to the bay frame. Measure between the 1665 DMX High-Capacity shelf mounting bracket and the office ground lug on the bay frame.
Page 44: Heat Baffle Installation
The heat baffle mounting brackets may have to be repositioned and remounted, depending on the frame type and mounting position (front or rear)............................................If necessary, reposition the heat baffle mounting brackets to match the position of the 1665 DMX High-Capacity shelf............................................
Page 45: Heat Baffle Position
Equipment and cable installation for 1665 Data Multiplexer Heat baffle installation (1665 DMX) Figure 1-5 Heat baffle position T E P S ..................................................................................365-372-304R7.1 1 - 1 5 Issue 1, November 2007...
Page 46: Power Cable And Cable Bracket Installation
Verify that the BDCBB breakers are off or that the BDFB fuses are not installed. Procedure Proceed as follows: ............................................Install cable brackets (two per 1665 DMX High-Capacity shelf, 1 on each side) as shown Figure 1-6, “Cable brackets” (p. 1-17)..................................................... 1 - 1 6 365-372-304R7.1...
Page 47: Cable Brackets
Figure 1-6 Cable brackets CABLE BRACKET (sold separately) Depicted above is the 1665 DMX shelf for reference purposes only, the Important! cable bracket is the same for the 1665 DMX High-Capacity shelf............................................If installation is on raised floors, rotate the power connectors on each side of the shelf 180 degrees, as shown: ....................................................
Page 48 (1665 DMX) Otherwise, ensure that power connector is in the following position: ............................................There are two mounting positions on each side of the 1665 DMX High-Capacity shelf chassis as shown in Figure 1-7, “Power connector mounting positions” (p. 1-19). It is...
Page 49: Power Connector Mounting Positions
Important! power cabling for four 1665 DMX High-Capacity shelf shelves in a standard bay frame. The side view shows the power connectors for shelves 3 and 1 mounted closest to the rear of the shelves (default position) with the cabling for shelf 1 bending away from the power connector on shelf 3 and running over it until the power cables exit the bay.
Page 50: Alternating Power Cable Routing
Equipment and cable installation for 1665 Data Multiplexer Power cable and cable bracket installation (1665 DMX) Figure 1-8 Alternating power cable routing ............................................Connect power cable to the power connector housing on the 1665 DMX High-Capacity shelf chassis [Figure 1-9, “Power connection” (p. 1-21)].....................................................
Page 51: Power Connection
Figure 1-10, “Power cable routing with cable bracket” (p. 1-22) Figure 1-11, “Power cable routing without cable bracket” (p. 1-23). The 1665 DMX High-Capacity shelf is powered by -48 V DC. Important! .................................................... 365-372-304R7.1...
Page 52: Power Cable Routing With Cable Bracket
POWER CABLES CABLE BRACKET The shelf shown in Figure 1-10 is the 1665 DMX and not the 1665 DMX Important! High-Capacity shelf, however the power cabling remains the same and is depicted here for reference..................................................... 1 - 2 2 365-372-304R7.1...
Page 53: Power Cable Routing Without Cable Bracket
DMX High-Capacity shelf, however the power cabling remains the same and is depicted here for reference............................................Splice feeders from the BDCBB or BDFB to the 1665 DMX High-Capacity shelf power cable. Refer to Table 1-3, “Power connections” (p. 1-26).
Page 54 ............................................Leave the BDCBB breakers off or BDFB fuses out until you are ready to perform the procedures in Chapter 2, “Powering and initial circuit pack installation for 1665 Data Multiplexer (1665 DMX)” of this manual............................................
Page 55: Power Cable Assemblies
Equipment and cable installation for 1665 Data Multiplexer Power cable and cable bracket installation (1665 DMX) Table 1-2 Power cable assemblies 1665 DMX High- Cable Capacity shelf Cable Cable length backplane Description gauge assembly # (feet) connections Power cable 848841839...
Page 56: Power Connections
Equipment and cable installation for 1665 Data Multiplexer Power cable and cable bracket installation (1665 DMX) Table 1-3 Power connections 1665 DMX High- Capacity Shelf power shelf bkpl connectors conn. (on sides) Pin# Color Designation Name BAT A -48VA BAT A...
Page 57: Fiber Management Installation (Optional)
Equipment and cable installation for 1665 Data Multiplexer Fiber management installation (optional) (1665 DMX) Fiber management installation (optional) .................................................... Description This section describes how to install the fiber management pieces that may be shipped with the bay. If fiber management is to be installed, the width of the bay footprint must Important! be extended by at least 2.5 inches beyond the bay upright on each side.
Page 58 Equipment and cable installation for 1665 Data Multiplexer Fiber management installation (optional) (1665 DMX) ............................................Spin the spool until the peg on its back fits into the smaller hole on the arm of the bracket. This will keep the spool from spinning any further.
Page 59 Equipment and cable installation for 1665 Data Multiplexer Fiber management installation (optional) (1665 DMX) ............................................Position one of the brackets along the left side of shelf 1. Secure with 3 bracket mounting screws............................................Repeat Step 8 for all the other shelves being installed.
Page 60 Equipment and cable installation for 1665 Data Multiplexer Fiber management installation (optional) (1665 DMX) ............................................Using a label maker, create 16 labels "LS" and 8 labels "HS"............................................Attach the "HS" labels to the uppermost spool on each of the brackets.
Page 61: Installing The Fiber Ducts (Optional)
Equipment and cable installation for 1665 Data Multiplexer Installing the fiber ducts (optional) (1665 DMX) Installing the fiber ducts (optional) .................................................... Description This procedure describes how to install the fiber ducts on either side of the bay. The fiber ducts may be shipped with the 1665 DMX.
Page 62: Cable And Optical Fiber Installation
Equipment and cable installation for 1665 Data Multiplexer Cable and optical fiber installation (1665 DMX) Cable and optical fiber installation .................................................... Introduction Ensure only ANGLED LC connectors appear at IN ports of optical Important! circuit packs............................................If fiber management systems have been installed: a.
Page 63 Equipment and cable installation for 1665 Data Multiplexer Cable and optical fiber installation (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................365-372-304R7.1 1 - 3 3 Issue 1, November 2007...
Page 64: Ds1 Cable Installation
1665 DMX High-Capacity shelf backplane connections. Thus the IN on the 1665 DMX High-Capacity shelf backplane connects to the IN of the DSX and the OUT of the 1665 DMX High-Capacity shelf backplane connects to the OUT of the DSX respectively.
Page 65 Equipment and cable installation for 1665 Data Multiplexer DS1 cable installation (1665 DMX) ............................................Connect the function group cables at the 1665 DMX High-Capacity shelf end, carefully matching the correct connector with the appropriate backplane connectors as shown in Figure 1-12, “DS1 cable installation” (p. 1-35).
Page 66: Ds1 Cable Routing
Equipment and cable installation for 1665 Data Multiplexer DS1 cable installation (1665 DMX) Figure 1-13 DS1 cable routing ............................................Route the cables along the cable rack and into the terminating bay............................................Remove slack and cut the DS1 cables to the desired length at the DSX.
Page 67: Ds1 Cable Assemblies
Equipment and cable installation for 1665 Data Multiplexer DS1 cable installation (1665 DMX) Table 1-4 DS1 cable assemblies 1665 DMX Cable length Cable backplane (feet) assembly # Description connections 848954988 DS1 Cables, 24 gauge J1, J24 - J2, J20 (A OUT - A IN)
Page 68: 1665 Dmx High-Capacity Shelf Backplane
Equipment and cable installation for 1665 Data Multiplexer DS1 cable installation (1665 DMX) Table 1-5 DS1 transmission connections DSX-1 connections 1665 DMX High-Capacity shelf backplane connections Function Function Function Function 62 pin group A group B group C group D conn.
Page 69 Equipment and cable installation for 1665 Data Multiplexer DS1 cable installation (1665 DMX) DSX-1 connections 1665 DMX High-Capacity shelf backplane connections Function Function Function Function 62 pin group A group B group C group D conn. conn. conn. conn. conn.
Page 70 Equipment and cable installation for 1665 Data Multiplexer DS1 cable installation (1665 DMX) DSX-1 connections 1665 DMX High-Capacity shelf backplane connections Function Function Function Function 62 pin group A group B group C group D conn. conn. conn. conn. conn.
Page 71: Ds3/Ec1 And 48Tmux Cable Installation
1665 DMX High-Capacity shelf backplane connections. Therefore, the IN on the 1665 DMX High-Capacity shelf backplane connects to the IN of the DSX and the OUT of the 1665 DMX High-Capacity shelf backplane connects to the OUT of the DSX.
Page 72: Ds3/Ec1 And 48Tmux Cable Installation
Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) ............................................Table 1-6 DS3 connections for different function groups Function group Associated connectors A IN (J2 and J20) A OUT (J1 and J24) B IN (J4 and J21) B OUT (J3 and J25)
Page 73: Ds3/Ec1 And 48Tmux Cable Routing
Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) Figure 1-15 DS3/EC1 and 48TMUX cable routing This figure shows DS3 cabling for FNA and FNB. Important! ............................................Route the cables along the cable rack and into the terminating bay (DSX or other terminating transmission equipment).
Page 74 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Table 1-7 DS3/EC1 or TMUX cable assemblies 1665 DMX...
Page 75 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) 1665 DMX Cable Cable length backplane Description assembly # (feet) connections DS3#1-12 Cables with no BNC, 849040688 J1, J24 - J2, J20 LNW16, LNW18 only...
Page 76 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) 1665 DMX Cable Cable length backplane Description assembly # (feet) connections DS3#1-24 Cables with ITT Canon 848923124 J1, J24 - J2, J20 BNCs, for LNW16, LNW18,...
Page 77 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) 1665 DMX Cable Cable length backplane Description assembly # (feet) connections DS3#1-24 Cables with no BNC, for 849040886 J1, J24 - J2, J20 the LNW16, LNW18, LNW19,...
Page 78 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) 1665 DMX Cable Cable length backplane Description assembly # (feet) connections DS3#1-24 Cables with ITT Canon 848932083 J1, J24 - J2, J20 BNCs (A OUT - A IN)
Page 79 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) 1665 DMX Cable Cable length backplane Description assembly # (feet) connections Customer Specific 12 pack Mini- 109508416 BNC Cable Harness 109508424 12 individual 735A coaxial cables...
Page 80: Ds3/Ec1 And Tmux Transmission Connections
Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) Table 1-8 DS3/EC1 and TMUX transmission connections Coaxial Lead Connector cable designation Name pin # Connectors J1 (Ports 1 - 24) - J8 DS3 1R/1T...
Page 81 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) Coaxial Lead Connector cable designation Name pin # DS3 15R/15T Signal FRG15 Ground DS3 16R/16T Signal FRG16 Ground DS3 17R/17T Signal FRG17 Ground DS3 18R/18T...
Page 82 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) Coaxial Lead Connector cable designation Name pin # DS3 30R/30T Signal FRG30 Ground DS3 31R/31T Signal FRG31 Ground DS3 32R/32T Signal FRG32 Ground DS3 33R/33T...
Page 83 Equipment and cable installation for 1665 Data Multiplexer DS3/EC1 and 48TMUX cable installation (1665 DMX) Coaxial Lead Connector cable designation Name pin # DS3 45R/45T Signal FRG45 Ground DS3 46R/46T Signal FRG46 Ground DS3 47R/47T Signal FRG47 Ground DS3 48R/48T...
Page 84: 12Tmux (Lnw18) Cable Installation
1665 DMX High-Capacity shelf backplane connections. Therefore, the IN on the 1665 DMX High-Capacity shelf backplane connects to the IN of the DSX and the OUT of the 1665 DMX High-Capacity shelf backplane connects to the OUT of the DSX.
Page 85: 12Tmux Cable Installation
Equipment and cable installation for 1665 Data Multiplexer 12TMUX (LNW18) cable installation (1665 DMX) Figure 1-16 12TMUX cable installation ............................................Route the cables along the backplane and out of the bay to the DSX per Figure 1-17, “TMUX cable routing” (p.
Page 86: Tmux Cable Routing
Figure 1-17 TMUX cable routing TMUX Cables The shelf depicted above is a 1665 DMX standard shelf and is used for Important! cable routing reference only............................................Route the cables along the cable rack and into the terminating bay (DSX or other terminating transmission equipment).
Page 87: 12Tmux Transmission Connections
Equipment and cable installation for 1665 Data Multiplexer 12TMUX (LNW18) cable installation (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Table 1-9 12TMUX transmission connections Coaxial Lead Connector cable designation...
Page 88: 10/100Baset Backplane Ethernet Cable Installation
10/100BaseT backplane Ethernet cable installation .................................................... Description This section describes how to connect the 10/100BaseT cables to the 1665 DMX High- Capacity shelf backplane and route the cables out of the bay and to the 10/100BaseT ® terminating equipment (for example, a 110/RJ45 punch down block).
Page 89 Equipment and cable installation for 1665 Data Multiplexer 10/100BaseT backplane Ethernet cable installation (1665 DMX) Figure 1-18 10/100BaseT cable installation ............................................Route the cables along the backplane and out of the bay to the 110/RJ45 punch down block. Route the cables in the same manner as DS3/EC1 cables. Refer to Figure 1-15, “DS3/EC1 and 48TMUX cable routing”...
Page 90: 10/100Baset Ethernet Cable Assemblies
Equipment and cable installation for 1665 Data Multiplexer 10/100BaseT backplane Ethernet cable installation (1665 DMX) Backplane connectors are associated with function Groups as follows: Important! J1, J2 ➠ Function Group A • J3, J4 ➠ Function Group B • J5, J6 ➠ Function Group C •...
Page 91: 10/100Baset Ethernet Connections
Equipment and cable installation for 1665 Data Multiplexer 10/100BaseT backplane Ethernet cable installation (1665 DMX) Table 1-11 10/100BaseT Ethernet connections Port# Wire Dsub 62M J2, J4, J5, J7 J1, J3, J6, J8 color pin # Signal RJ-45 pin # 50/49...
Page 92: Ethernet Cabling To Sfp Modules On Circuit Pack Faceplates
Equipment and cable installation for 1665 Data Multiplexer Ethernet cabling to SFP modules on circuit pack faceplates (1665 DMX) Ethernet cabling to SFP modules on circuit pack faceplates .................................................... Description Use this section to run Category 5e cables to the SFP modules on the front of LNW63, LNW64, LNW70 or LNW170, Ethernet circuit packs.
Page 93: Gbe Ethernet Cables
Equipment and cable installation for 1665 Data Multiplexer Ethernet cabling to SFP modules on circuit pack faceplates (1665 DMX) ............................................Connect the RJ45 plugs to the faceplate SFP modules and run the cables out of the shelf as shown. Table 1-12...
Page 94: Iao Lan And Tcp/Ip Cable Installation
IAO LAN. The IAO LAN/TCP-IP interface cable is available in two configurations (cross-over and straight-through) and may be connected to either the front or rear of the 1665 DMX High- Capacity shelf. The following tables provide additional information: Table 1-13, “LAN 10BaseT cable assemblies” (p. 1-67) •...
Page 95: Lan Cable Installation To Front Of 1665 Dmx High-Capacity Shelf
To PC LAN port (cross-over cable) or hub port (straight-thru cable) The above Figure shows a standard 1665 DMX shelf as reference only. Important! The placement of the packs and PC lan port are the same on the 1665 DMX High- Capacity shelf.....................................................
Page 96: Iao Lan/Tcp-Ip Cable Installation To Rear Of 1665 Dmx High-Capacity Shelf
Equipment and cable installation for 1665 Data Multiplexer IAO LAN and TCP/IP cable installation (1665 DMX) Figure 1-21 IAO LAN/TCP-IP cable installation to rear of 1665 DMX High-Capacity shelf LAN Cable ............................................If a cross-over cable is used, route the cable to the desired PC LAN port.
Page 97: Lan 10Baset Cable Assemblies
Equipment and cable installation for 1665 Data Multiplexer IAO LAN and TCP/IP cable installation (1665 DMX) Table 1-13 LAN 10BaseT cable assemblies 1665 DMX connections Cable Cable Description assembly # length (feet) Front Rear LAN 10BaseT 109321810 SYSCTL J16 (IAO LAN)
Page 98: 1665 Dmx
Equipment and cable installation for 1665 Data Multiplexer IAO LAN and TCP/IP cable installation (1665 DMX) Table 1-14 LAN 10BaseT cross-over cable connections 1665 DMX High- Capacity Connection shelf f bkpl Color Other side J16 (IAO LAN) BL - W...
Page 99: Modem Cable Installation
............................................Obtain the modem cable per Table 1-16, “Modem cable assemblies” (p. 1-71). Connect the RJ45 end of the modem cable to the MODEM port (J17) of 1665 DMX High-Capacity shelf (See Figure 1-22, “Modem cable installation” (p. 1-70).....................................................
Page 100: Modem Cable Installation
(1665 DMX) Figure 1-22 Modem cable installation ............................................Route the modem cable out of the 1665 DMX High-Capacity shelf bay to the modem or distribution frame............................................Dress and tie the modem cable to the 1665 DMX High-Capacity shelf backplane per Figure 1-22, “Modem cable installation”...
Page 101: Modem Cable Assemblies
Equipment and cable installation for 1665 Data Multiplexer Modem cable installation (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Table 1-16 Modem cable assemblies 1665 DMX High-Capacity Cable Cable length...
Page 102: Sync Cable Installation
(Sync) cables to the 1665 DMX High-Capacity shelf. A Sync cable is required if the shelf is to be externally timed. The 1665 DMX High- Capacity shelf can provide DS1 external timing to a BITS clock. When the shelf is externally timed by a DS1 Reference and/or is configured to provide a Sync Output, a Sync Input timing cable is required.
Page 103: Sync Cable With Molded Db9 Connector Installation
Equipment and cable installation for 1665 Data Multiplexer Sync cable installation (1665 DMX) Figure 1-23 Sync cable with molded DB9 connector installation TO DS1 SYNCHRONOUS TIMING REFERENCE CABLE TIE (TYPICAL) TIE CABLE ASSY'S TO CABLE SUPPORT BAR (AS REQUIRED) ............................................
Page 104: Sync Cable With Wire-Wrap Connector Installation
Equipment and cable installation for 1665 Data Multiplexer Sync cable installation (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Sync cable with wire-wrap DB-9 connector procedure Perform the following steps when using the Sync cable with the wire-wrap DB-9 connector.
Page 105 Equipment and cable installation for 1665 Data Multiplexer Sync cable installation (1665 DMX) ............................................Wire-wrap Rx1 and Tx1 (red cable) on the D-Sub connector for an output signal............................................Wire-wrap Rx2 and Tx2 (gray cable) on the D-Sub connector for an input signal.
Page 106: Synchronization Cable Assemblies (Sync1 And Sync2)
Equipment and cable installation for 1665 Data Multiplexer Sync cable installation (1665 DMX) Table 1-18 Synchronization cable assemblies (SYNC1 and SYNC2) 1665 DMX Cable Cable length backplane Description assembly # (feet) connections Sync cable with molded 848839619 J9 (Sync1)/ DB-9 connector...
Page 107: Synchronization Cable (Ds1 Timing Reference) Connections
Equipment and cable installation for 1665 Data Multiplexer Sync cable installation (1665 DMX) Table 1-19 Synchronization cable (DS1 timing reference) connections 9-Pin Special Conn. Jacket Color conn. conn. Designation Name Sync1 (J9)/ RGO1/RGO2 Sync Output Sync2 (J14) TPO1/TPO2 Gray RGI1/RGI2...
Page 108: Office Alarm Cable Installation
For example, J12 of one shelf should be connected to the office alarm terminal. J13 of the same shelf should be connected to J12 of the next 1665 DMX High-Capacity shelf and the same procedure should be continued to connect more shelves.
Page 109: Office Alarm Cable Installation
Connect the office alarm cable to ALM (J12) of the bottom 1665 DMX High-Capacity shelf............................................Route the office alarm cable from the bottom shelf out of the 1665 DMX High-Capacity shelf bay per Figure 1-25, “Office alarm cable installation” (p. 1-79) to the office alarm panel.
Page 110 No shelf should be skipped............................................Obtain the office alarm mult cable (848589602 for DMX to DMX and 848861530 for DMX to Lambda Unite). Connect one end to ALM MULT (J13) of the 1665 DMX High- Capacity shelf............................................
Page 111: Office Alarm Mult Cable Installation
Equipment and cable installation for 1665 Data Multiplexer Office alarm cable installation (1665 DMX) Figure 1-26 Office alarm mult cable installation CONNECT OTHER END OF CABLE ASSEMBLY TO SUCCEEDING DMX SHELF (J12 ALM) 848589602 CABLE ASSEMBLY CONNECT THIS END OF CABLE...
Page 112: Office Alarm Cable Assemblies
Equipment and cable installation for 1665 Data Multiplexer Office alarm cable installation (1665 DMX) ............................................Repeat this procedure for each shelf in the bay............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................
Page 113: Office Alarm Connections
Equipment and cable installation for 1665 Data Multiplexer Office alarm cable installation (1665 DMX) Table 1-21 Office alarm connections Conn. Pin# Color Designation Name J12-J13 BL-W RYMJV1 Major Alarm Visible W-BL RYMJV2 Major Alarm Visible Return RYMJA1 Major Alarm Audible...
Page 114: Miscellaneous (Environmental) Discrete Telemetry Cable Installation
.................................................... Description The miscellaneous (environmental) discrete telemetry access allows the maintenance center to control and monitor equipment collocated with the 1665 DMX High-Capacity shelf. The environmental control feature enables the maintenance center to remotely initiate up to four contact closures at the remote terminal (RT) for equipment operation such as pumps, generators, etc.
Page 115: Miscellaneous Discrete Cable Installation
CABLE TIE (TYPICAL) TIE CABLE ASSY'S TO CABLE SUPPORT BAR (AS REQUIRED) ............................................Route the cable out of the 1665 DMX High-Capacity shelf bay per Figure 1-27, “Miscellaneous discrete cable installation” (p. 1-85) to the telemetry panel............................................Cut the miscellaneous (environmental) discrete telemetry cable to the desired length at the telemetry panel.
Page 116: Miscellaneous Discrete Cable Assemblies
Each miscellaneous (environmental) discrete telemetry designation is Important! connected to the 1665 DMX High-Capacity shelf by two leads (wires). For each input, one lead should be connected to input-common and the other lead should be connected to the appropriate alarm indication.
Page 117: Miscellaneous (Environmental) Discrete Telemetry Connections
Equipment and cable installation for 1665 Data Multiplexer Miscellaneous (environmental) discrete telemetry cable (1665 DMX) installation Table 1-23 Miscellaneous (environmental) discrete telemetry connections Conn. Pin# Color Designation Name BL-W TLMI1 Env. Input - #1 W-BL TLMI2 Env. Input - #2 TLMI3 Env.
Page 118: Main Optical Fiber Installation (Oc-12, Oc-48, Oc-192)
1665 DMX High-Capacity shelf. This procedure does not cover routing the optical fiber cable between sites. The optical fiber cables will be connected to the 1665 DMX after the circuit packs are installed. The 1665 DMX requires single-mode fiber for the main OLIUs.
Page 119 Main optical fiber installation (OC-12, OC-48, OC-192) (1665 DMX) Procedure Proceed as follows: ............................................Route the optical fiber cables from the interconnecting equipment into the 1665 DMX High-Capacity shelf. Protective covers must be left on fibers. Important! ............................................Place the optical fiber cables in a protective tube or channel.
Page 120: Fiber Installation For Low-Speed Packs
PVC tubing, or PANDUIT cable channel, when running the cable from the 1665 DMX to the cable rack. The fibers should be placed in the cable rack in a protective channel with nothing on top of them.
Page 121 Equipment and cable installation for 1665 Data Multiplexer Fiber installation for low-speed packs (1665 DMX) Procedure Proceed as follows: ............................................Refer to the engineering job specification. Determine the function slot where the pack will be inserted. The OC-3/OC-12/OC-48 pack can be inserted into any of the function slots including the growth slots.
Page 122: 1000Base-F And 100Base-F Fiber Installation
PVC tubing, or PANDUIT cable channel, when running the cable from the 1665 DMX High-Capacity shelf to the cable rack. The fibers should be placed in the cable rack in a protective channel with nothing on top of them.
Page 123 Equipment and cable installation for 1665 Data Multiplexer 1000Base-F and 100Base-F fiber installation (1665 DMX) LNW74, use FN-A, FN-B, FN-C or FN-D. Only optical ports can be used when LNW74 is located in the Growth-1 position............................................Label the optical fiber cables, indicating bay, shelf, function group, pack, and direction (IN or OUT).
Page 124: Fibre Channel Fiber Installation
PVC tubing, or PANDUIT cable channel, when running the cable from the 1665 DMX to the cable rack. The fibers should be placed in the cable rack in a protective channel with nothing on top of them.
Page 125 Equipment and cable installation for 1665 Data Multiplexer Fibre channel fiber installation (1665 DMX) ............................................Label the optical fiber cables, indicating bay, shelf, function group, pack, and direction (IN or OUT)............................................Route optical fiber cables from the interconnecting equipment into the optical ports.
Page 126: Cit Cable Installation
Equipment and cable installation for 1665 Data Multiplexer CIT cable installation (1665 DMX) CIT cable installation .................................................... Description This section provides the procedure to connect the CIT cable from the LNW2 (SYSCTL) to a PC (serial port). This will allow communications between the PC and the CIT port located on the LNW2.
Page 127: Cit Cable Installation
Equipment and cable installation for 1665 Data Multiplexer CIT cable installation (1665 DMX) Figure 1-28 CIT cable installation ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Table 1-24 CIT Cable Assembly Cable...
Page 128: Standard Cit Cable Connections
Equipment and cable installation for 1665 Data Multiplexer CIT cable installation (1665 DMX) Table 1-25 Standard CIT cable connections RJ45 connector 9-Pin D-type connector Connection Pin# Designation Color Pin# Designation Front CIT cable FRS232N W - O DCE Ready FDTR...
Page 129: Final Operations
Equipment and cable installation for 1665 Data Multiplexer Final operations (1665 DMX) Final operations .................................................... Description Final check on equipment and cable installation. Procedure Proceed as follows: ............................................Verify that all the cables are properly dressed/connected............................................Verify that all cables are properly labeled.
Page 130 Equipment and cable installation for 1665 Data Multiplexer Final operations (1665 DMX) .................................................... 1 - 1 0 0 365-372-304R7.1 Issue 1, November 2007...
Page 131: Powering And Initial Circuit Pack Installation For 1665 Data Multiplexer
Shelf powering • Circuit pack option settings and installation. • Detailed information on the function of each circuit pack is contained in 365-372-300, 1665 Data Multiplexer, Applications and Planning Guide. Contents This chapter provides information on the following topics: Description Powering...
Page 132: Powering And Initial Circuit Pack Installation For 1665 Data Multiplexer (1665 Dmx)
Powering and initial circuit pack installation for 1665 Data Description Multiplexer (1665 DMX) Description .................................................... Overview This section should be performed on all shelf installations. Tools, test equipment and accessories Listed below are the tools, test equipment and accessories necessary to perform the procedures in this section.
Page 133: Powering
Verify that the frame or structure into which the 1665 DMX High-Capacity shelf is installed is properly grounded............................................Verify that both circuit breakers on the 1665 DMX High-Capacity shelf are in the ON position. These breakers are located on the front of the 1665 DMX High-Capacity shelf............................................
Page 134: Power Connections On 1665 Dmx High-Capacity Shelf Backplane
............................................If fuses are being used, install fuses that are rated 1.5 times higher than the circuit breaker value on the shelf, in the BDFB that powers the 1665 DMX High-Capacity shelf A and B feeders. The 30-ampere shelf is comcode 848793287. The 20-ampere shelf is Important! comcode 848935193.
Page 135 At the BDFB either remove the fuse or put the circuit breaker, associated with the “B” feed of the 1665 DMX High-Capacity shelf in the OFF position............................................Verify the PWR A LED on the 1665 DMX High-Capacity shelf is lighted with only the “A” feed powered............................................
Page 136 1665 DMX High-Capacity shelf in the ON position............................................Verify that the both the PWR A LED and PWR B LED on the 1665 DMX High-Capacity shelf user panel are lighted with both the “A” and “B” feeds powered.
Page 137: Circuit Pack Compatibility
Powering and initial circuit pack installation for 1665 Data Circuit pack compatibility Multiplexer (1665 DMX) Circuit pack compatibility .................................................... Overview Table 2-2, “Release 7.1 circuit pack compatibility” (p. 2-7) lists all the circuit packs that are compatible with Release 7.1 and their respective shelf locations (slots).
Page 138 Powering and initial circuit pack installation for 1665 Data Circuit pack compatibility Multiplexer (1665 DMX) Slot name A1, A2 B1, B2 C1, C2 D1, D2 LNW55 LNW55 LNW55 LNW55 LNW55 LNW55 LNW56 LNW56 LNW57 LNW57 LNW58 LNW58 LNW59 LNW59 LNW60...
Page 139 Powering and initial circuit pack installation for 1665 Data Circuit pack compatibility Multiplexer (1665 DMX) Slot name A1, A2 B1, B2 C1, C2 D1, D2 LNW202 LNW202 LNW221 LNW221 LNW259 LNW259 LNW421 LNW421 LNW421 LNW421 LNW421 LNW421 LNW459 LNW459 LNW459...
Page 140 Powering and initial circuit pack installation for 1665 Data Circuit pack compatibility Multiplexer (1665 DMX) – LNW26B (jumper set to enhanced mode) – LNW28 (jumper set to enhanced mode) – LNW77 (jumper set to enhanced mode) – LNW121B - 159B (jumper set to enhanced mode) OC-48 Circuit Packs with 48 STS-1 switch fabric: •...
Page 141 Powering and initial circuit pack installation for 1665 Data Circuit pack compatibility Multiplexer (1665 DMX) Figure 2-2 1665 DMX High-Capacity shelf .................................................... 365-372-304R7.1 2 - 1 1 Issue 1, November 2007...
Page 142: Initial Circuit Pack Installation
This section provides instructions for installing, BUT NOT fully seating, circuit packs into the 1665 DMX High-Capacity shelf. After circuit packs have been unpacked, they may be placed in their respective slots in the 1665 DMX High-Capacity shelf but NOT FULLY ENGAGED IN THE BACKPLANE CONNECTOR.
Page 143 Initial circuit pack installation Multiplexer (1665 DMX) ............................................Place the SYSCTL circuit pack into the CTL slot on the 1665 DMX High-Capacity shelf. Do NOT engage the circuit pack in the backplane connector............................................Check off the appropriate box in Appendix E, “Installation...
Page 144 2-11)............................................Place the second OLIU circuit pack into the M2 slot on the 1665 DMX High-Capacity shelf. Do NOT engage the circuit pack in the backplane connector. If any of the Main slots are to remain unequipped, install a blank circuit pack Important! to provide proper air flow for cooling.
Page 145: Lnw221 - 259 Channel Positions
Multiplexer (1665 DMX) Figure 2-3 LNW221 - 259 channel positions CH X CH Y nc-dmx-244 OC192 main OLIU installation Follow this procedure to install the following OC-192 OLIU circuit packs in the 1665 DMX High-Capacity shelf. LNW56 • LNW57 •...
Page 146 High-Capacity shelf” (p. 2-11)............................................Place the OC-192 OLIU circuit pack into the M1 slot on the 1665 DMX shelf. Do NOT engage the circuit pack in the backplane connector............................................Remove the second OC-192 OLIU from the packing material.
Page 147 High-Capacity shelf” (p. 2-11)............................................Place the OC-12 OLIU circuit pack into the M1 slot on the 1665 DMX High-Capacity shelf. Do NOT engage the circuit pack in the backplane connector............................................Remove the second OC-12 OLIU from the packing material.
Page 148 Figure 2-2, “1665 DMX High-Capacity shelf” (p. 2-11)............................................Place the OLIU circuit pack into the M1 slot on the 1665 DMX High-Capacity shelf. Do NOT engage the circuit pack in the backplane connector............................................Remove the second OLIU from the packing material.
Page 149 Initial circuit pack installation Multiplexer (1665 DMX) ............................................Place the LNW80 circuit pack into the M1 slot on the 1665 DMX High-Capacity shelf. Do NOT engage the circuit pack in the backplane connector............................................Remove the second LNW80 from the packing material.
Page 150 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Place the circuit pack into the shelf (slot A1, A2, B1, B2, C1, C2, D1, D2, G1, or G2 as required). Do NOT engage the circuit pack in the backplane connector.
Page 151 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Place the circuit pack into the shelf (slot A2, B2, C2, or D2 as required). Do NOT engage the circuit pack in the backplane connector.
Page 152 T E P S ................................ LNW36 (OC-3 OLIU) low-speed installation (optional) Follow this procedure only if installing LNW36 (OC3 OLIU) circuit packs into the 1665 DMX shelf. LNW36 and LNW37 may be used as a protection pair. LNW36 may be...
Page 153 Follow this procedure only if installing the LNW37 (4 OC-3 SFP OLIU), LNW45 (8 OC- 3 SFP OLIU), LNW49 (4 OC-12 SFP OLIU), LNW55 (12 OC-3/12 OC-12/4 OC-48 SFP OLIU) or LNW62 (4 OC-48 SFP OLIU) circuit packs into the 1665 DMX shelf. Shelf cover (comcode 849068358) is required for shelves equipped with Important! LNW55 circuit packs.
Page 154 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Refer to the engineering job specification. Identify the proper function group(s) and/or growth slot(s) where the low-speed OLIU circuit packs will be installed.
Page 155 Initial circuit pack installation Multiplexer (1665 DMX) LNW46 (OC-12 OLIU) low-speed installation (optional) Follow this procedure only if installing LNW46 (OC-12 OLIU) circuit packs into the 1665 DMX High-Capacity shelf............................................Refer to the engineering job specification. Identify the proper function group(s) and/or growth slot(s) where LNW46 circuit packs will be installed.
Page 156 LNW31 (OC-48 OLIU), or LNW421-459 (OC-48 PWDM OLIU) low-speed installation (optional) Follow this procedure only if installing LNW31 (OC-48 OLIU) or LNW421-LNW459 (DWDM OC-48 OLIU) circuit packs into the 1665 DMX shelf............................................Refer to the engineering job specification. Identify the proper function group(s) and/or growth slot(s) where LNW31 or LNW421-LNW459 circuit pack will be installed.
Page 157 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) LNW66 (10/100T) or LNW71 (10/100-PL) installation (optional) Follow this procedure only if installing LNW66 (10/100T) or LNW71 (10/100-PL) circuit packs into the 1665 DMX shelf.
Page 158 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) LNW70 (100/1G FXS), LNW74 (10/100 T/F), LNW63 (1000BASE-SX/LX/LX10), LNW64 (8 GbE), LNW78 (RPR) and LNW170 (100/1G FXS) installation (optional) Follow this procedure only if installing LNW70 (100/1G FS), LNW74 (10/100 T/F), LNW63 (1000BASE-SX/LX/LX10), LNW64 (8 GbE), LNW78 (RPR) and LNW170 (100/1G FXS) circuit packs into the 1665 DMX shelf.
Page 159 Appendix E, “Installation checklist”. T E P S ................................ LNW67 (1G SX) installation (optional) Follow this procedure only if installing LNW67 (1G SX) circuit packs into the 1665 DMX shelf. The LNW67 (1G SX) requires multi-mode fiber. Important! ............................................Refer to the engineering job specification. Identify the proper function group slot (A1, A2, B1, B2, C1, C2, D1, D2) and/or growth slot (G1 or G2) where the LNW67 circuit pack will be installed.
Page 160 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................2 - 3 0 365-372-304R7.1 Issue 1, November 2007...
Page 161 LNW73 (FC-1X/2X) and LNW73C (FC-1X/2X with compression) installation (optional) Follow this procedure only if installing LNW73 (FC-1X/2X) and LNW73C (FC-1X/2X with compression) circuit packs into the 1665 DMX High-Capacity shelf. The LNW73 and LNW73C circuit pack requires SFP modules for the Important! optical interface.
Page 162 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Refer to the engineering job specification. Identify the proper function group slot (A1, A2, B1, B2, C1, C2, D1, D2) and/or growth slot (G1, G2) where the LNW73 or LNW73C circuit pack will be installed.
Page 163 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) 177D/LNW98 blank CP installation (optional) Follow this procedure to install 177D Apparatus Blank(s) or LNW98 Detectable Blank(s) into the 1665 DMX High-Capacity shelf. A 177D Apparatus Blank or LNW98 Detectable Blank is required in any Important! unequipped slots to provide proper air flow for cooling.
Page 164 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Install pluggable transmission modules This section contains the instructions for the installation of the pluggable transmission modules.
Page 165 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................365-372-304R7.1 2 - 3 5 Issue 1, November 2007...
Page 166 Powering and initial circuit pack installation for 1665 Data Initial circuit pack installation Multiplexer (1665 DMX) .................................................... 2 - 3 6 365-372-304R7.1 Issue 1, November 2007...
Page 167: Part Ii: 1665 Data Multiplexer (1665 Dmx) Stand-Alone Installation Tests
..................................Purpose Part II covers the generic software download to the 1665 Data Multiplexer (1665 DMX), stand-alone installation tests to verify correct interconnect cabling, alarm cabling, and as required, external timing and communication cabling. This section also covers circuit pack installation (fully seated).
Page 168 1665 Data Multiplexer (1665 DMX) stand-alone installation tests .................................................... I I - 2 365-372-304R7.1 Issue 1, November 2007...
Page 169: Software Download And Circuit Pack Installation
Provision/enable/disable TCP/IP on an IAO LAN port 3-14 Reset system date and time 3-17 Provision/Enable/disable the 1665 DMX as a TL1 TCP/IP GNE 3-18 Tools, test equipment and accessories Listed below are the required tools, test equipment and accessories. Quantity...
Page 170: Computer Requirements
Software download and circuit pack installation Quantity Description Comments CIT Interface Cables Serial Connection 8-ft. long RJ45 to 9-pin D-sub serial cable (Comcode 848748869). Required to connect the PC to the CIT jack on the front of the SYSCTL circuit pack. OSI LAN Connection CAT5 Ethernet cable with either a 10/100 hub or a cross-over cable for the...
Page 171 * Available hard disk space required to install and store the CIT and Generic Software is approximately 250 MB (it is 550 MB, if all graphical packages are installed). The additional disk space specified is to provide hard disk space to store 1665 Data Multiplexer (1665 DMX) backup files.
Page 172: Software Download And Circuit Pack Installation Software Installation
Software download and circuit pack installation Software installation Software installation .................................................... Description Software installation is accomplished by performing the appropriate software download procedures in the Software Release Description (SRD) which is shipped with the software. When the software installation is complete check off the appropriate box in Appendix E, “Installation checklist”.
Page 173: Circuit Pack Installation
This section provides instructions and the recommended order for installing (fully seating) the circuit packs in the 1665 DMX shelf. The procedures in this section assume that the SYSCTL is installed and software has been successfully downloaded as described in the section, Software installation (p.
Page 174 ..............................Fully seat blank packs in any unequipped Main slots..............................Connect IN to OUT on the OLIU in the M1 slot of the 1665 DMX shelf using an optical fiber jumper cable. Refer to Appendix B, “Fiber cleaning” for proper fiber cleaning instructions.
Page 175 Software download and circuit pack installation Circuit pack installation After a few minutes the flashing FAULT LEDs should extinguish on each Result: OLIU circuit pack. The FAULT, MJ and NE LEDs will light on the SYSCTL due to DCC alarms created by optically looping the OLIUs. These SYSCTL LEDs will remain lit until the DCC is disabled.
Page 176 Software download and circuit pack installation Circuit pack installation ..............................Attach the fiber bracket to the blank pack with the hardware provided. The bracket must be positioned with the LC openings in the down Important! position..............................If there are any FAULT LEDs on or flashing on any of the inserted circuit packs, press the UPD/INIT pushbutton on the SYSCTL circuit pack.
Page 177 .................................................... Description ® Complete the following steps to login to the 1665 DMX via WaveStar CIT. It is assumed that the CIT software has been installed on the PC and the NE software has been downloaded to the 1665 DMX shelf per the Software Release Description. See Software installation (p.
Page 178: Use Of Wavestar ® Cit Software
® Software download and circuit pack installation Use of WaveStar CIT software The following is displayed. Result: ..............................Under , enter NE Name LT-DMX ..............................Under click on the drop-down menu arrow and choose DMX from the drop- NE Type down list.
Page 179 Enter the Login for the shelf: User Id LUC01 (case sensitive) Password DMX2.5G10G ..............................Click The 1665 DMX system view is displayed. Result: ..............................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................................................
Page 180: Circuit Pack Firmware Version Verification
This section provides instructions to verify firmware versions on the circuit packs in the 1665 DMX shelf. The procedures in this section assume that the SYSCTL is installed and software has been successfully downloaded and the circuit packs have been installed in the shelf as described in the preceding sections.
Page 181: 1665 Dmx Shelf Initialization
Shelf initialization procedure ..............................Log on to the 1665 DMX shelf using the CIT software as described in the Use of ® WaveStar CIT software (p.
Page 182: Provision/Enable/Disable Tcp/Ip On An Iao Lan Port
Proceed as follows: ..............................® Use the WaveStar CIT to log in to the 1665 DMX shelf being provisioned using a Graphical connection..............................Determine which IAO LAN Port(s) you want to use (front or rear). If you are using the rear IAO LAN port, use lan-2 as the AID. If you are Important! using the front IAO LAN port, use lan-1 as the AID.
Page 183 Selecting Disable allows you to stay logged on to the system to perform more provisioning. You can then come back to this window and enable the TCP/IP function. Following a 1665 DMX system reset, the date and time may revert to Important! January 1, 1970 (70-01-01) at midnight (00:00:00).
Page 184 Software download and circuit pack installation Provision/enable/disable TCP/IP on an IAO LAN port ..............................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................................................3 - 1 6 365-372-304R7.1 Issue 1, November 2007...
Page 185: Reset System Date And Time
..............................From the System View menu, select Administration -> Set Date and Time to bring up the Set Systems Date and Time screen for 1665 DMX..............................From the Date panel, select the Year and Month from the pull-down menus.
Page 186: Provision/Enable/Disable The 1665 Dmx As A Tl1 Tcp/Ip Gne
Provision/Enable/disable the 1665 DMX as a TL1 TCP/IP Provision/Enable/disable the 1665 DMX as a TL1 TCP/IP GNE .................................................... Purpose Use this task to provision, enable or disable the 1665 DMX as a TL1 TCP/IP GNE. Required equipment The following equipment is required: ®...
Page 187 The OS Type which may consist of standard types or listed as other. • Repeat this step for each of the Host IP address you want to authorize for access to the 1665 DMX TL1 TCP/IP GNE. There may be up to 50 provisioned entries in the list..................................365-372-304R7.1...
Page 188 Software download and circuit pack installation Provision/Enable/disable the 1665 DMX as a TL1 TCP/IP ..............................On the Data Communications window under TCP/IP Gateway Control, select Enable to enable the TCP/IP Gateway, or select Disable to disable the TCP/IP Gateway..............................
Page 189: Installation Tests
Purpose The purpose of this section is to verify proper transmission cabling installation and Release 7.1 functionality as well as the associated functionality of the 1665 Data Multiplexer (1665 DMX) shelf. For end-to-end turn-up and testing procedures, refer to 365-372-301, 1665 Data Multiplexer User Operations Guide.
Page 190 LC-type Optical Fiber Jumper Two optical fiber jumpers with LC-type (108918269) connectors are required to optically loop the 1665 DMX shelf for test purposes. In addition, for shelves containing optical circuit packs in any of the Function Unit slots, a single optical fiber jumper is required for testing of the individual ports.
Page 191 (Comcode 848748869). Required to connect the PC to the CIT jack on the front of the SYSCTL circuit pack. LAN 10BaseT Straight- As required to reach from front of 1665 DMX to through Cable CAT 5 or better the RJ45 patch panel LAN 10BaseT Cross-over...
Page 192: Installation Tests
............................................Setting DS1 LBOs Follow this procedure to set the LBOs for the DS1, DS3/EC1 and TMUX circuit packs............................................Log on to the 1665 DMX shelf using the CIT software as described in the Chapter “Use ® of WaveStar CIT software”...
Page 193: Cable Lengths (Feet)
Installation tests LBO software settings ............................................If a change is made click Apply............................................Repeat Step 2 through Step 6 for all DS1 ports in all function unit slots which are populated with DS1 circuit packs............................................Check off the appropriate box in Appendix E, “Installation checklist”.
Page 194 Installation tests LBO software settings ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................4 - 6 365-372-304R7.1 Issue 1, November 2007...
Page 195: Clearing Alarms
.................................................... Description In order to clear standing alarms the 1665 DMX synchronization will be optioned for "Free Running." The DCC will be disabled in order to prevent DCC alarms from being generated due to the optical loopback on the main OLIUs.
Page 196 Installation tests Clearing alarms ............................................If there are any FAULT LEDs on or flashing, press the UPD/INIT push button on the SYSCTL circuit pack. LNW16 (DS3/EC1) circuit pack require either a 75-ohm termination or a Important! loopback at the DSX-3 on all ports. If loopbacks are used, make sure to take down any cross-connections.
Page 197: Local Equipment And Cross-Connect Tests
The tests in this section verify the proper operation of the circuit packs and the circuit pack positions in the 1665 DMX shelf. It verifies proper cabling from the 1665 DMX to the DSX cross-connect panel or connecting equipment. The shelf must successfully pass this test before testing any other feature of the 1665 DMX.
Page 198 56DS1/E1 (LNW8) circuit pack in order to perform this test. The 56DS1/E1 circuit packs can only be used with high capacity shelves. If the 1665 DMX shelf is not fully populated, it may be necessary to move the circuit pack(s) from slot to slot in order to test all DS1 cabling.
Page 199 ................................ DS1 non-terminating equipment transmission testing (optical main OLIU) Perform the following steps for all 1665 DMX shelf Function Unit slots that are cabled to a DSX-1 and not to any terminating equipment. A Function Unit slot cabled to the DSX-1 must contain a 28DS1 (LNW6 or LNW7) circuit pack or a 56DS1/E1 (LNW8) circuit pack in order to perform these tests.
Page 200 ................................ DS1 non-terminating equipment transmission testing (LNW80 switch or LNW59 without optics) Perform this test when the 1665 DMX is equipped with LNW80 switch packs or LNW59 without optics in the main slots. Facility loopback testing allows the installer to verify the electrical cabling to the 1665 DMX NE.
Page 201 Installation tests Local equipment and cross-connect tests ............................................Select Fault -> Analysis -> Loopback............................................Choose the DS1 port to test and click Select............................................Select Operate and Loopback Type: Facility and click Apply............................................Once the loopback is up, a test signal shall be generated at the DS1 terminating equipment which will verify that the cabling is correct.
Page 202: Ds1 Protection Switching
Installation tests DS1 protection switching DS1 protection switching .................................................... DS1 function unit protection switching test (manual) While a VT cross connection exists, and a test set is connected, path switching will be verified. Use this procedure to test all of the Function Unit Slots occupied by a LNW6/LNW7/LNW8 (DS1) circuit pack.
Page 203 Installation tests DS1 protection switching The ACTIVE LED on the reseated circuit pack will light. The FAULT LED on Result: the circuit pack will light for several seconds then extinguish. On the SYSCTL, the CR alarm extinguishes and the MN alarm and the NE LED will be lit.
Page 204 Installation tests DS1 protection switching The pack that was active should now be the standby pack and the pack that Result: was standby is now active. Transmission should take a momentary hit as it is switched to the other pack. This information should agree with the ACTIVE LEDs on the LNW6/LNW7 or LNW8 circuit packs.
Page 205 Installation tests DS1 protection switching ............................................Repeat Step 1 through Step 7 to verify a switch back to the original ring............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................365-372-304R7.1 4 - 1 7 Issue 1, November 2007...
Page 206: Ds1 Cleanup Procedures
Installation tests DS1 cleanup procedures DS1 cleanup procedures .................................................... Delete any existing DS1 cross-connections Before moving on to the next port to test, it is necessary to remove the cross-connection. This procedure details the necessary steps to delete a cross-connection............................................
Page 207 Installation tests DS1 cleanup procedures Tributary @ DSX-1 Cross-Connection m-1-1-1-4,a-1-1-4 m-1-1-2-1,a-1-2-1 m-1-1-2-2,a-1-2-2 m-1-1-2-3,a-1-2-3 m-1-1-2-4,a-1-2-4 m-1-1-3-1,a-1-3-1 m-1-1-3-2,a-1-3-2 m-1-1-3-3,a-1-3-3 m-1-1-3-4,a-1-3-4 m-1-1-4-1,a-1-4-1 m-1-1-4-2,a-1-4-2 m-1-1-4-3,a-1-4-3 m-1-1-4-4,a-1-4-4 m-1-1-5-1,a-1-5-1 m-1-1-5-2,a-1-5-2 m-1-1-5-3,a-1-5-3 m-1-1-5-4,a-1-5-4 m-1-1-6-1,a-1-6-1 m-1-1-6-2,a-1-6-2 m-1-1-6-3,a-1-6-3 m-1-1-6-4,a-1-6-4 m-1-1-7-1,a-1-7-1 m-1-1-7-2,a-1-7-2 m-1-1-7-3,a-1-7-3 m-1-1-7-4,a-1-7-4 m-1-2-1-1,a-2-1-1 m-1-2-1-2,a-2-1-2 m-1-2-1-3,a-2-1-3 m-1-2-1-4,a-2-1-4 .................................................... 365-372-304R7.1 4 - 1 9 Issue 1, November 2007...
Page 208 Installation tests DS1 cleanup procedures Tributary @ DSX-1 Cross-Connection m-1-2-2-1,a-2-2-1 m-1-2-2-2,a-2-2-2 m-1-2-2-3,a-2-2-3 m-1-2-2-4,a-2-2-4 m-1-2-3-1,a-2-3-1 m-1-2-3-2,a-2-3-2 m-1-2-3-3,a-2-3-3 m-1-2-3-4,a-2-3-4 m-1-2-4-1,a-2-4-1 m-1-2-4-2,a-2-4-2 m-1-2-4-3,a-2-4-3 m-1-2-4-4,a-2-4-4 m-1-2-5-1,a-2-5-1 m-1-2-5-2,a-2-5-2 m-1-2-5-3,a-2-5-3 m-1-2-5-4,a-2-5-4 m-1-2-6-1,a-2-6-1 m-1-2-6-2,a-2-6-2 m-1-2-6-3,a-2-6-3 m-1-2-6-4,a-2-6-4 m-1-2-7-1,a-2-7-1 m-1-2-7-2,a-2-7-2 m-1-2-7-3,a-2-7-3 m-1-2-7-4,a-2-7-4 Important! Tribs 29-56 (denoted *) are only used for LNW8 circuit packs............................................
Page 209 ................................ Verify cross-connects removed ............................................Select View -> Cross-Connections............................................Choose shelf (1665 DMX) and click Select............................................Verify that there are no cross-connections on the shelf............................................Select Configuration -> Update System... -> Update All. This command will remove alarms generated by removing the test signals Result: from the DSX-1.
Page 210: Ds3/Ec1 And Tmux Testing Procedure
DSX-3 ports called out in the procedure. If the 1665 DMX shelf is not fully populated, it may be necessary to move the circuit pack(s) from slot to slot in order to test all DS3/EC1 and TMUX cabling.
Page 211 Facility Loopback testing allows the installer to verify the electrical cabling to the 1665 DMX NE. Follow the procedure below to perform a facility loopback test at the 1665 DMX shelf. When the 1665 DMX is cabled to other DS3 terminating equipment, in order to complete the loopback testing, it will be necessary to contact the Customer Network Control Center and have a signal established at the port(s) under test.
Page 212 T E P S ................................ DS3 terminating equipment loopback testing (LNW80 switch and LNW59 without optics) Perform this test when the 1665 DMX is equipped with LNW80 switch packs or LNW59 without optics in the main slots..................................................... 4 - 2 4 365-372-304R7.1...
Page 213 Facility Loopback testing allows the installer to verify the electrical cabling to the 1665 DMX NE. Follow the procedure below to perform a facility loopback test at the 1665 DMX shelf. When the 1665 DMX is cabled to other DS3 terminating equipment, in order to complete the loopback testing, it will be necessary to contact the Customer Network Control Center and have a signal established at the port(s) under test.
Page 214 M13 should be used to test TMUX............................................Connect a cable from the DS3 test set transmit connection to the IN jack of the DSX-3 associated with the first DS3 or TMUX tributary of the 1665 DMX Function Unit slot to be tested.....................................................
Page 215 ............................................Connect a cable from the DS3 test set receive connection to the OUT jack of the DSX-3 associated with the first DS3 or TMUX tributary of the 1665 DMX Function Unit slot to be tested. The DS3 test set should indicate it is receiving an error free PRBS signal. To...
Page 216: Ds3 Protection Switching
Installation tests DS3 protection switching DS3 protection switching .................................................... DS3 function unit protection switching test (manual) Use this procedure to test all of the Function Unit Slots occupied with an LNW16(DS3/EC1), LNW19/LNW19B(48DS3/EC1), LNW18 (TMUX) or LNW20 (48TMUX) circuit pack, whether they are cabled to a DSX or terminating equipment. This test is performed when the DS3 circuit packs are in a 1x1 protection Important! arrangement.
Page 217 Installation tests DS3 protection switching The ACTIVE LED on the first circuit pack remains on. Requirement: The ACTIVE LED on the second circuit pack remains off. The FAULT LED on the second circuit pack will light for several seconds then extinguish. On the SYSCTL, the MN alarm extinguishes.
Page 218 Installation tests DS3 protection switching ............................................Repeat Step 1 through Step 5 to verify a switch back to the original Function Unit circuit pack, with the same results as the previous step............................................Check off the appropriate box in Appendix E, “Installation checklist”.
Page 219 Installation tests DS3 protection switching ............................................Repeat Step 1 through Step 7 to verify a switch back to the original ring............................................Repeat Step 1 through Step 7 to verify a switch back to the original ring............................................Check off the appropriate box in Appendix E, “Installation checklist”...
Page 220: Ds3 Cleanup Procedures
Installation tests DS3 cleanup procedures DS3 cleanup procedures .................................................... Delete the existing DS3 cross-connections Before moving on to the next port to test, it is necessary to remove the cross-connection............................................Select Configuration -> Cross-Connections............................................Use the Cross-Connection Wizard to Delete leg(s) of an existing cross-connection associated with CP main-1, Port 1.
Page 221: Ds3 Cross-Connections
Installation tests DS3 cleanup procedures Table 4-3 DS3 Cross-Connections Tributary @ DSX-3 Cross-Connection m-1-2,a-2 m-1-3,a-3 m-1-4,a-4 m-1-5,a-5 m-1-6,a-6 m-1-7,a-7 m-1-8,a-8 m-1-9,a-9 m-1-10,a-10 m-1-11,a-11 m-1-12,a-12 m-1-13,a-13 m-1-14,a-14 m-1-15,a-15 m-1-16,a-16 m-1-17,a-17 m-1-18,a-18 m-1-19,a-19 m-1-20,a-20 m-1-21,a-21 m-1-22,a-22 m-1-23,a-23 m-1-24,a-24 m-1-25,a-25 m-1-26,a-26 m-1-27,a-27 m-1-28,a-28 m-1-29,a-29 ....................................................
Page 222 Installation tests DS3 cleanup procedures Tributary @ DSX-3 Cross-Connection m-1-30,a-30 m-1-31,a-31 m-1-32,a-32 m-1-33,a-33 m-1-34,a-34 m-1-35,a-35 m-1-36,a-36 m-1-37,a-37 m-1-38,a-38 m-1-39,a-39 m-1-40,a-40 m-1-41,a-41 m-1-42,a-42 m-1-43,a-43 m-1-44,a-44 m-1-45,a-45 m-1-46,a-46 m-1-47,a-47 m-1-48,a-48 Tribs 13-48 (denoted *) are for LNW19/LNW19B and LNW20 circuit packs Important! only.
Page 223 Installation tests DS3 cleanup procedures This command will remove alarms generated by removing the test signals Result: from the DSX-3............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................365-372-304R7.1 4 - 3 5 Issue 1, November 2007...
Page 224: Lnw66, Lnw71 And Lnw74 (10/100T) Tx Ethernet Cabling Testing
Installation tests LNW66, LNW71 and LNW74 (10/100T) TX Ethernet cabling testing LNW66, LNW71 and LNW74 (10/100T) TX Ethernet cabling testing .................................................... Description This procedure is used to test the Ethernet 10/100 TX cabling from the function groups to the RJ45 patch panel. Ethernet port assignment verification testing ............................................
Page 225 Installation tests LNW66, LNW71 and LNW74 (10/100T) TX Ethernet cabling testing ............................................Connect the RJ45 cable to the next jack on the RJ45 patch panel and repeat starting at Step until all connected jacks have been tested............................................Check off the appropriate box in Appendix E, “Installation checklist”.
Page 226 Successful login to the 1665 DMX. Result: ............................................Log out of the 1665 DMX shelf............................................At the RJ45 Ethernet patch panel disconnect the RJ45 Ethernet cable run to the PC Ethernet port and connect it to the next position on the RJ45 Ethernet patch panel to be tested.
Page 227 RJ45 patch panel connected to the LNW66 under test, then continue on to Step ............................................Disconnect the PC from the RJ45 patch panel and the 1665 DMX LAN port from the RJ45 patch panel............................................Connect the Front CIT cable between the PC and the CIT/RS 232 jack of System Controller and login to the shelf using the serial connection.
Page 228 Installation tests LNW66, LNW71 and LNW74 (10/100T) TX Ethernet cabling testing ............................................Log out and disconnect the PC from the 1665 DMX serial port............................................Repeat this procedure for every slot containing and LNW66, LNW71, and LNW74............................................Check off the appropriate box in Appendix E, “Installation...
Page 229 Installation tests OC-3 (LNW37, LNW45, LNW55)/OC-12 (LNW49, LNW55)/OC-48 (LNW55, LNW62) low-speed SFP test procedure OC-3 (LNW37, LNW45, LNW55)/OC-12 (LNW49, LNW55)/OC-48 (LNW55, LNW62) low-speed SFP test procedure .................................................... OC-3/OC-12/OC-48 SFP low-speed SFP test procedure CAUTION Laser safety When connecting fiber loops between the IN and OUT ports on optical circuit packs, always connect to the IN port first and then the OUT port.
Page 230: Lnw37, Lnw45, Lnw55)/Oc-12 (Lnw49, Lnw55)/Oc-48 (Lnw55, Lnw62) Low-Speed Sfp Test Procedure
Select Configuration -> Update System... -> Update All. Requirement: The flashing FAULT LED should extinguish on the OLIU. There should be no alarm indications on the 1665 DMX shelf............................................From the system view click Alarm List to verify that the circuit pack alarm is cleared.
Page 231: Oc-3 (Low-Speed) Testing
OC-3 (low-speed) testing OC-3 (low-speed) testing .................................................... OC-3 testing procedure Perform the following steps for all 1665 DMX shelf Function Unit or Growth slots containing OC-3 (LNW36) OLIU circuit packs. CAUTION Laser safety When connecting fiber loops between the IN and OUT ports on optical circuit packs, always connect to the IN port first and then the OUT port.
Page 232 Select Configuration -> Update System... -> Update All. Requirement: The flashing FAULT LED should extinguish on the OC-3 OLIU. There should be no alarm indications on the 1665 DMX shelf............................................Place the 15-dB LBO that was removed from the OC-3 OLIU (Port 1) and place it on the IN connector directly below it (Port 2).
Page 233 Select Configuration -> Update System... -> Update All. Requirement: The flashing FAULT LED should extinguish on the OC-3 OLIU. There should be no alarm indications on the 1665 DMX shelf............................................Remove the 15-dB LBO from the OC-3 OLIU (Port 2) and place it on the IN connector directly below it (Port 3).
Page 234 Replace all protective dust covers on the OC-3 OLIU connectors (OLIU and LGX), that were removed to perform this procedure............................................Repeat this entire procedure for each OC-3 OLIU in the 1665 DMX shelf............................................Check off the appropriate box in Appendix E, “Installation...
Page 235: Oc-12 (Low-Speed) Testing
OC-12 (low-speed) testing OC-12 (low-speed) testing .................................................... OC-12 testing procedure Perform the following steps for all 1665 DMX shelf Function Unit or Growth slots containing OC-12 (LNW46) OLIU circuit packs. CAUTION Laser safety When connecting fiber loops between the IN and OUT ports on optical circuit packs, always connect to the IN port first and then the OUT port.
Page 236 Select Configuration -> Update System... -> Update All. Requirement: The flashing FAULT LED should extinguish on the OC-12 OLIU. There should be no alarm indications on the 1665 DMX shelf............................................Remove the 15-dB LBO from the OC-12 OLIU (Port 1) and place it on the IN connector directly below it (Port 2).
Page 237 Facility Loopback testing allows the installer to verify cabling to the OC-12 equipment. This test is only required if the 1665 DMX shelf is connected to OC-12 equipment. If the shelf is NOT connected to OC-12 equipment, skip this section and continue to the section OC-48 low-speed testing procedure (p.
Page 238 Installation tests OC-12 (low-speed) testing ............................................Use the Cross-Connection Wizard to enter a new cross-connection at the STS-12 rate, UPSR Ring Add/Drop, between m-1-1 and fn-1-1 (fn will be a,b,c,d or g depending on the slot where the OC-12 CP is located). This command creates a cross-connect to map the first OC-12 of an OC-12 circuit pack to the first STS-12 of the Main OLIUs.
Page 239 Installation tests OC-12 (low-speed) testing ............................................Choose the correct port on the OC-12 CP and click Select............................................Click on Release............................................Click Apply............................................Verify loss of transmission at the patch panel. This should be evident by a SONET alarm and a loss of pattern alarm.
Page 240: Oc-48 (Low-Speed) Testing
Installation tests OC-48 (low-speed) testing OC-48 (low-speed) testing .................................................... OC-48 low-speed testing procedure Perform the following steps for all 1665 DMX shelf Function Unit or Growth slots containing OC-48 (LNW31, LNW425, LNW427, LNW447, LNW449, LNW453, LNW455, LNW459) OLIU. CAUTION Laser Safety When connecting fiber loops between the IN and OUT ports on optical circuit packs, always connect to the IN port first and then the OUT port.
Page 241 Facility Loopback testing allows the installer to verify cabling to the OC-48 equipment. This test is only required if the 1665 DMX shelf is connected to OC-48 equipment. If the shelf is NOT connected to OC-48 equipment, skip this section and continue to the next chapter.
Page 242 Installation tests OC-48 (low-speed) testing ............................................Log on to the 1665 DMX shelf using the CIT software as described in the Chapter 3, ® “Software download and circuit pack installation”, “Use of WaveStar CIT software” 3-9)............................................Select Configuration -> Cross-Connections...
Page 243 Installation tests OC-48 (low-speed) testing ............................................Verify transmission at the patch panel. There should be no alarms at the test set............................................Select Fault -> Analysis -> Loopback............................................Choose the correct port on the OC-48 CP and click Select............................................
Page 244: Led Test
.................................................... Description This test verifies proper operation of all LEDs on the 1665 DMX circuit packs. Operation of all the LEDs is necessary to assist in trouble isolation. If there are any LED failures, determine if the problem is with the circuit Important! pack or shelf and replace the faulty unit.
Page 245: Additional Optical Tests (Optional)
15-dB LBOs. If using OC-192 in the high-speed slots, attenuate with 5 dB. LBOs are installed on the OLIU faceplate IN port. Procedure Log in to the 1665 DMX shelf and verify that there are no existing alarms by viewing the Alarm List.....................................................
Page 246 1665 DMX. If levels are not within specification at the 1665 DMX, replace the pack with a spare and return the suspect pack back through the RMA process. If levels meet specifications, check the fiber to the LGX panel for continuity.
Page 247: Optical Test Set Arrangement
Installation tests Additional optical tests (optional) Figure 4-1 Optical test set arrangement Standby (FN-2) Optical splitter Test OC12 OC48 Active (FN-1) ............................................Set the test set to the required rate for the packs under test. Refer to Table 4-4, Transmission rate.
Page 248: Optical Test Arrangement Rx Fiber Moved
Installation tests Additional optical tests (optional) ............................................Check the transmission at the test set. It should show no alarms. If alarms are present, check the test set provisioning and the cross-connection to ensure they correspond to the pack under test. Make any adjustments necessary, and do not continue the test until transmission is good.
Page 249 Installation tests Additional optical tests (optional) card FN-1. Retrieving the alarms can be accomplished by selecting the Alarm List button on the top right of the GUI. The test set will indicate that there was a transmission hit indicating the Important! switch, but should clear and show good transmission.
Page 250 Installation tests Additional optical tests (optional) .................................................... 4 - 6 2 365-372-304R7.1 Issue 1, November 2007...
Page 251: Operational Tests
This section provides instructions to test protection switching and the non-transmission cabling. This section is not intended to replace acceptance test procedures. If problems are encountered, refer to 365-373-302, 1665 Data Multiplexer Alarm Messages and Trouble Clearing Guide for detailed troubleshooting procedures.
Page 252: Operational Tests
An ONC3, OC-12, or OC-48 test set is required for testing of optical circuit packs. An Agilent OmniBER 718 or equivalent is recommended. LC-type Optical Two optical fiber jumpers with LC type connectors 1665 DMX Fiber Jumper are required to optically loop the shelf (108918269) for test purposes.
Page 253 Operational tests Safety instructions All precautions should be observed when handling fiber. Important! WARNING Laser hazard Unterminated optical connectors may emit laser radiation. Do not view beam with optical instruments. CAUTION Laser Safety When connecting fiber loops between the IN and OUT ports on optical circuit packs, always connect to the IN port first and then the OUT port.
Page 254: Office Alarm Test
“Office Alarm Connections” (p. 5-5) lists the office alarms connections. It is a requirement that alarms on the 1665 DMX do not affect and are not affected by • other equipment via office alarm connections. During this test, the alarm state of other equipment connected to the same office alarms as the 1665 DMX should be examined after creating or clearing every alarm.
Page 255 Office alarm test procedure ............................................Connect the office alarm cable to J12 (ALM) on the backplane of the 1665 DMX shelf. If the shelf to be tested is part of a multiple shelf bay arrangement, the office alarm cable connects to shelf 1.
Page 256 Operational tests Office alarm test This command creates a cross-connection to map 28 DS1s of a DS1circuit pack or the first DS3 of a DS3/EC1 or TMUX circuit pack in a Function Unit slot(s) to the first STS-1 of the Main OLIUs............................................
Page 257 Operational tests Office alarm test ............................................Press the ACO pushbutton on the SYSCTL. Activated office alarm: CR visual. Result: The CR audible alarm should clear............................................Reseat the pair of function units............................................Turn on the breaker that was turned off in Step After a few minutes, all alarm indications should clear.
Page 258: Automatic Protection Switching And Alarm Test
A properly grounded wrist strap must always be worn while handling circuit • packs. This test is performed with the 1665 DMX shelf optically looped back on itself • (that is, with the IN of the OLIU M1 looped to the OUT of the OLIU M1, and the IN of the OLIU M2 looped to the OUT of the OLIU M2).
Page 259 ............................................Select View -> Cross-Connections............................................Choose shelf (1665 DMX) and click Select............................................Verify that the cross-connection entered in the previous section is on the list. If there is no cross connect remaining from the previous section, then a cross connection must be established before continuing.
Page 260 Operational tests Automatic protection switching and alarm test ............................................Select View -> Protection............................................Under Path Protection choose m-1-1............................................Click Select............................................Note the Active Path: (m1-1-1 or m2-1-1). The M1 OLIU is associated with Ring 1 and the M2 OLIU is associated with Ring 2............................................
Page 261: Manual Switching Tests
Operational tests Manual switching tests Manual switching tests .................................................... Description This test will initiate switching commands from the CIT and verify proper switching and LED indications. Main OLIU switch test An STS-1 cross-connect should still exist from the previous tests. Important! ............................................
Page 262 Operational tests Manual switching tests ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................5 - 1 2 365-372-304R7.1 Issue 1, November 2007...
Page 263: External Timing Verification
.................................................... Description This test should be performed if the 1665 DMX shelf is going to be externally timed. The shelf timing cable must be installed and connected between the 1665 DMX shelf and the office timing source (BITS clock) and the timing source must be active.
Page 264 • If a reference does not indicate IS, that input is not receiving a proper Important! timing reference. Verify: – Cabling between the timing source and the 1665 DMX shelf – Correct line coding – Correct frame format............................................At the rear of the shelf (see Figure 5-1, “1665 DMX Shelf Backplane”...
Page 265 Operational tests External timing verification Above is the 1665 DMX shelf, but it should be noted that the timing Important! connections are the same for the 1665 DMX High-Capacity shelf............................................Click Refresh in the View Timing/Sync window The other reference is now the active reference.
Page 266: Miscellaneous (Environmental) Discrete Telemetry Test
............................................Miscellaneous discrete telemetry test procedure ............................................Determine which environmental inputs are to be monitored via the 1665 DMX shelf............................................Verify that the miscellaneous discrete cable is connected to the J11 MISC connector on the shelf. See Figure 5-1, “1665 DMX Shelf Backplane”...
Page 267: Miscellaneous (Environmental) Discrete Functions
Operational tests Miscellaneous (environmental) discrete telemetry test ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Figure 5-2 Miscellaneous (Environmental) Discrete Functions Remote Terminal Input Common Env. Input #1 Env. Input #2 Env. Alarm/Status Inputs (Open Door, High Temp, High Water, Fire, etc.)
Page 268: Miscellaneous (Environmental) Discrete Telemetry Connections
Operational tests Miscellaneous (environmental) discrete telemetry test Table 5-2 Miscellaneous (Environmental) Discrete Telemetry Connections Conn. Pin# Color Designation Name BL-W TLMI1 Env. Input - #1 W-BL TLMI2 Env. Input - #2 TLMI3 Env. Input - #3 TLMI4 Env. Input - #4 TLMI5 Env.
Page 269: Modem Connection Test
Operational tests Modem connection test Modem connection test .................................................... Description This test will verify proper modem connection to the 1665 DMX shelf. This test should only be performed if a modem is required............................................Modem connection test procedure ............................................Verify the generic parameters of the modem are set to the following:...
Page 270 -us er: LT-D MX: LUC 01: ctag ::D MX2 .5G 10G; A message indicating that the command completed will be displayed along Result: with the Alcatel-Lucent disclosure............................................Enter the command: can c-u ser :LT- DMX :LU C01 :cta g;...
Page 271: Final Operations
Final operations Final operations .................................................... Description The following procedure ensures that all test signals and cross-connects have been removed and the 1665 DMX shelf is alarm free and ready for network connection procedures. Procedure ............................................Select Configuration -> Cross-Connections............................................
Page 272 Operational tests Final operations .................................................... 5 - 2 2 365-372-304R7.1 Issue 1, November 2007...
Page 273 DMX) ring setup and testing Overview ..................................Purpose This section starts the process of integrating the 1665 Data Multiplexer (1665 DMX) into the customer’s network. The section provides the procedures to connect inter-office fibers and verify DCC communications and path switching. Contents...
Page 274 1665 Data Multiplexer (1665 DMX) ring setup and testing .................................................... I I I - 2 365-372-304R7.1 Issue 1, November 2007...
Page 275: Ring Setup And Testing: Integration Procedures
This procedure is used to make fiber connections between nodes in a ring. It is not intended to replace acceptance test procedures. If problems are encountered, refer to 365- 373-302, 1665 Data Multiplexer Alarm Messages and Trouble Clearing Guide for detailed troubleshooting procedures.
Page 276 Ring setup and testing: integration procedures Tools, test equipment and accessories Listed below are the tools, test equipment and accessories necessary to perform the procedures in this section. Quantity Description Comments Screwdriver(s) A screwdriver(s) with the appropriate head(s) is (are) required for securing the mounting screws, repositioning the mounting brackets, installing the interfacing cables, and for setting the circuit breakers to the OFF position.
Page 277 Ring setup and testing: integration procedures Safety instructions All precautions should be observed when handling fiber. Important! WARNING Laser hazard Unterminated optical connectors may emit laser radiation. Do not view beam with optical instruments. CAUTION The operational tests in this section are run only in an out-of-service mode of operation.
Page 278: Ring Setup And Testing: Integration Procedures Fiber Installation
The 1665 DMX Main OLIUs should be optically looped from the previous section. • Verify that the 1665 DMX shelf is clear of all alarms (only green LEDs are lighted) prior to and after completing this test. CIT is still connected to the 1665 DMX.
Page 279 The following procedures are performed at each end of the optical span being tested............................................Verify that the office alarm cable to J12 (ALM) on the backplane of the 1665 DMX shelf is disconnected. If the shelf to be tested is part of a multiple shelf bay arrangement, the office alarm cable connects to shelf 1.
Page 280: Attenuation Table
Function Group slot (A, B, C, D, or G) 1 will connect to Main 2 on whatever shelf the 1665 DMX is being connected to. The Function Group slot (A, B, C, D, or G) 2 will connect to Main 1.
Page 281: Attenuation Table (Pluggable Transmission Modules)
Ring setup and testing: integration procedures Fiber installation Received Optics Circuit Pack Power (dBM) (dB) OC-12 (high LNW48 -8.0 to -28.0 speed) LNW50 +2.0 to -7.0 -7.0 to -30.5 LNW54 +2.0 to -7.0 -7.0 to -29.0 OC-192 (high LNW57 +6.0 to +3.0 speed) +3.0 to -7.0 -7.0 to -24.0...
Page 282 Ring setup and testing: integration procedures Fiber installation SFP/XFP Circuit Pack Received optics Power (dBM) (dB) OC-3 LR1-I1 LNW37, LNW45, 0.0 to -5.0 LNW55, LNW82 -5.0 to -10 -10 to -34.0 OC-12 IR1-I1 LNW49, LNW55, -8.0 to -28.0 LNW82 OC-12 LR1-I1 LNW49, LNW55, +2.0 to -5.0 LNW82...
Page 283 At the other end, verify that the associated FAULT LED is flashing, indicating a loss of signal. Reconnect the fiber and repeat the process for the other direction of transmission............................................Enable communications with the adjacent 1665 DMX nodes. Configuration -> DCC Terminations............................................
Page 284 Set the timing to internal (free running) at LT-DMX-1 and line time LT-DMX-2. Configuration -> Timing/Sync... Timing Mode: Free Running............................................Verify proper communications with the adjacent 1665 DMX nodes. Administration->OSI Neighbor Map. The adjacent node appears in the neighbor list.
Page 285: Optical Transmission Test (Oc-192, Oc-48, Oc-12)
CP main-2 in Step ............................................Repeat Step 1 through Step 7 for all 1665 DMX shelves at the test location............................................Repeat Step 1 Step 8 for each node in the ring............................................Check off the appropriate box in Appendix E, “Installation...
Page 286: Automatic Protection Switching Test
Ring setup and testing: integration procedures Automatic protection switching test Automatic protection switching test .................................................... Description This section provides the procedures for verifying the 1665 DMX shelf automatic and manual protection switching. Note the following: These tests do NOT simulate circuit pack failures. •...
Page 287 Ring setup and testing: integration procedures Automatic protection switching test ............................................Reconnect the optical fiber to the OLIU. After a short time, the MJ alarm LED on the SYSCTL and the FAULT LED Result: on the OLIU should extinguish............................................Repeat Step 2 through...
Page 288: Manual Switching Tests
Ring setup and testing: integration procedures Manual switching tests Manual switching tests .................................................... Description This test will initiate switching commands from the CIT and verify proper switching and LED indications. An STS-1 cross-connect is required in order to perform manual Important! switching.
Page 289 Ring setup and testing: integration procedures Manual switching tests ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ................................ Function units/growth slots, switching test This test will initiate switching commands from the CIT and verify proper switching and LED indications.
Page 290 Ring setup and testing: integration procedures Manual switching tests ............................................Swap circuit packs from another function group to test any unequipped function slots............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................6 - 1 6 365-372-304R7.1 Issue 1, November 2007...
Page 291: Final Operations
Final operations Final operations .................................................... Description The following procedure ensures that all test signals and cross-connects have been removed and the 1665 DMX shelf is alarm free and ready for network connection procedures. Procedure ............................................Select Configuration -> Cross-Connections............................................
Page 292 Ring setup and testing: integration procedures Final operations ............................................Check off the appropriate box in Appendix E, “Installation checklist”. T E P S ..................................................................................6 - 1 8 365-372-304R7.1 Issue 1, November 2007...
Page 293: Part Iv: 1665 Data Multiplexer (1665 Dmx) Supplementary Information And Installation Checklist
Overview ..................................Purpose This section provides supplementary information that is useful when installing the 1665 Data Multiplexer (1665 DMX) system and using this Installation Manual. The Installation Checklist is also contained in this part. Contents This section is organized into the following sections: Appendix A, “Laser safety and classifications and Electrostatic Discharge (ESD)
Page 294 1665 Data Multiplexer (1665 DMX) supplementary information and installation checklist .................................................... I V - 2 365-372-304R7.1 Issue 1, November 2007...
Page 295: Laser Safety And Classifications And Electrostatic Discharge (Esd) Considerations
This appendix provides laser safety information and precautions. Contents This appendix provides information on the following topics: Laser safety Electrostatic Discharge ESD considerations Laser product classification 1665 DMX optical specifications A-11 .................................................... 365-372-304R7.1 A - 1 Issue 1, November 2007...
Page 296: Laser Safety
Laser safety .................................................... System design The Alcatel-Lucent 1665 Data Multiplexer (1665 DMX) product line complies with FDA/CDRH 21 CFR 1040.10 and 1040.11 as a Class IIIb laser product and with IEC 60825-1:2001 as a Class 1M Optical Fiber Telecommunication laser product.
Page 297: Laser Warning Labels
Laser safety and classifications and Electrostatic Laser safety Discharge (ESD) considerations Laser warning labels The following figure shows the different types of laser warning labels. Figure A-1 Laser Warning Labels CLASS 1 LASER HAZARD PRODUCT LEVEL CAUTION DANGER CLASS 1M INVISIBLE LASER RADIATION WHEN OPEN INVISIBLE LASER RADIATION...
Page 298 Laser safety and classifications and Electrostatic Laser safety Discharge (ESD) considerations Laser safety instructions Observe the following instructions to avoid exposing yourself and others to risk. Read the relevant descriptions in the manuals before taking equipment into operation • or carrying out any installation and maintenance work on the optical port units, and follow the instructions.
Page 299: Electrostatic Discharge Esd Considerations
Laser safety and classifications and Electrostatic Electrostatic Discharge ESD considerations Discharge (ESD) considerations Electrostatic Discharge ESD considerations .................................................... ESD precautions CAUTION ESD hazard Industry experience has shown that all integrated circuit packs can be damaged by static electricity that builds up on work surfaces and personnel. The static charges are produced by various charging effects of movement and contact with other objects.
Page 300: Static Control Wrist Strap
Laser safety and classifications and Electrostatic Electrostatic Discharge ESD considerations Discharge (ESD) considerations for connection of wrist straps is located at the upper left-hand corner of each assembly and is labeled. When grounding jacks are not provided, an alligator clip adapter enables connection to bay frame ground.
Page 301 Incorrect reassembly can cause electrical shock when the unit is subsequently used. 19. Some of the 1665 DMX Family hardware modules contain FDA/CDRH Class IIIb/IEC Class 1M single-mode laser products that are enclosed lightwave transmission systems.
Page 302 Laser safety and classifications and Electrostatic Electrostatic Discharge ESD considerations Discharge (ESD) considerations Disconnect up to two (2) power supply connections when removing power from • the system. This equipment must be provided with a readily accessible disconnect device as •...
Page 303: Laser Product Classification
Laser safety and classifications and Electrostatic Laser product classification Discharge (ESD) considerations Laser product classification .................................................... Standards compliance The product complies with both IEC standards and the Food and Drug Administration’s Center for Devices and Radiological Health (FDA/ CDRH) regulations. FDA/CDRH regulations Laser products are classified in accordance with the FDA/CDRH - 21 CFR 1010 and 1040.
Page 304: Laser Safety And Classifications And Electrostatic Discharge (Esd) Considerations
Laser safety and classifications and Electrostatic Laser product classification Discharge (ESD) considerations Laser classes The maximum output power of laser radiation depends on the type of laser diode used. The international standards IEC-60825 or DIN/EN 60825 define the maximum output power of laser radiation for each laser class in accordance with the wavelength.
Page 305 1665 DMX optical specifications Discharge (ESD) considerations 1665 DMX optical specifications .................................................... Overview Table A-2 provides the optical specifications for 1665 DMX optical circuit packs. Table A-2 1665 DMX Optical Circuit Pack Laser Safety Specifications Laser Maximum Circuit Pack Wavelength...
Page 306 Laser safety and classifications and Electrostatic 1665 DMX optical specifications Discharge (ESD) considerations Laser Maximum Circuit Pack Wavelength Output Fiber Type Connector FDA Class/ Code (nm) Power (dBm) (µm) Type IEC Class LNW245 1542.14 +2.0 Single Mode (9) I(LN50)/1 1541.35 LNW247 1540.56...
Page 307: 1665 Dmx Optical Specifications
+6.0 Single Mode (9) I(LN50)/1 LNW555 1533.465 +6.0 Single Mode (9) I(LN50)/1 ______________________________________________________________ * Refer to 1665 Data Multiplexer Application and Planning Guide for detailed Wavelength information. packs. Table A-3 1665 DMX Optical Specifications Supported Class/ Module Circuit Wavelength Output...
Page 308: 1665 Dmx Optical Specifications
Laser safety and classifications and Electrostatic 1665 DMX optical specifications Discharge (ESD) considerations Supported Class/ Module Circuit Wavelength Output Fiber Type Connector Code Pack(s) (nm) Power (dBm) (µm) Type Class LNW63 1310 -3.0 Single Mode I(LN50)/1 1X2XFC- LNW64 LX-I1 LNW70...
Page 309 Laser safety and classifications and Electrostatic 1665 DMX optical specifications Discharge (ESD) considerations Supported Class/ Module Circuit Wavelength Output Fiber Type Connector Code Pack(s) (nm) Power (dBm) (µm) Type Class OC12LR1- LNW49 1310 +2.0 Single Mode I(LN50)/1 LNW55 LNW82 OC12LR2-...
Page 310 Laser safety and classifications and Electrostatic 1665 DMX optical specifications Discharge (ESD) considerations Supported Class/ Module Circuit Wavelength Output Fiber Type Connector Code Pack(s) (nm) Power (dBm) (µm) Type Class S2D33C6 LNW82 1550.918 +4.0 Single Mode I(LN50)/1 LNW202 S2D35C6 LNW82 1549.315...
Page 311 Laser safety and classifications and Electrostatic 1665 DMX optical specifications Discharge (ESD) considerations Supported Class/ Module Circuit Wavelength Output Fiber Type Connector Code Pack(s) (nm) Power (dBm) (µm) Type Class OC192SR1- LNW59 1310 -1.0 Single Mode I(LN50)/1 LNW502 .................................................... 365-372-304R7.1...
Page 312 Laser safety and classifications and Electrostatic 1665 DMX optical specifications Discharge (ESD) considerations .................................................... A - 1 8 365-372-304R7.1 Issue 1, November 2007...
Page 313: Fiber Cleaning
.................................................... Purpose This appendix describes the Alcatel-Lucent recommended method for the cleaning and inspection of optical connectors using specific tools and materials that have been proven to be effective in the assembly and testing of optical transmission equipment. It is critical that connector faces are clean and free from particular contamination to assure proper performance and reliability of lightwave systems.
Page 314: Fiber Cleaning
Related information A course on connector cleaning and the connector inspection process is now offered through Alcatel-Lucent University, Course Code: LMC200H “Understanding Fiber Optic Cleaning, Inspection and Testing.” To learn more about this course, consult your local Alcatel-Lucent Account Representative.
Page 315: Equipment Requirements And Recommendations
Fiber cleaning Equipment requirements and recommendations Equipment requirements and recommendations .................................................... Description For proper cleaning, the following equipment and materials are recommended: Table B-1 Required and Recommended Equipment and Materials Model/ Installation Product Description Comcode ITE # Order # Optical Fiber Noyes OFS 408197028 ITE-7129...
Page 316 Fiber cleaning Equipment requirements and recommendations Model/ Installation Product Description Comcode ITE # Order # Luminex 5.5” x 5.5” 408201226 R6033 23603300 Cloth Notes: 1. This equipment may not be necessary at all locations. It is to be used when the ports need to be verified for cleanliness.
Page 317: Safety Instructions
Fiber cleaning Safety instructions Safety instructions .................................................... Description WARNING Laser hazard Never view an energized optical cable with the naked eye or with an optical magnifying instrument. Disconnected or separated optical connectors may emit invisible laser radiation and direct exposure can severely injure the eye. If inspecting the endface of a connector with a fiberscope, be absolutely certain that the system is deactivated.
Page 318: Cleaning/Inspecting Optical Connectors
Fiber cleaning Cleaning/inspecting optical connectors Cleaning/inspecting optical connectors .................................................... Introduction The procedure that follows utilizes the “Wet/Dry” method for connector cleaning. This method first applies a “wet” solvent such as high purity alcohol to the connector endface to dissolve/remove any organic particulate or oily films, followed by a “dry” double clean wipe using the CLETOP cleaning cassette.
Page 319: Cleaning The Ferrule Endface
Fiber cleaning Cleaning/inspecting optical connectors Figure B-1 Cleaning the Ferrule Endface ............................................If a CLETOP cassette cleaner is not available, proceed with Step 7. Otherwise, hold the CLETOP cassette cleaner in the palm of your hand with the cassette shutter door facing Figure B-2, “CleTop Cleaner”...
Page 320: Cletop Cleaner
Fiber cleaning Cleaning/inspecting optical connectors Figure B-2 CleTop Cleaner ............................................Insert and press the connector ferrule endface perpendicular against the cleaning cloth in the first of two slots of the cleaner. Figure B-3, “Acceptability Criteria for Fiber Cleaning” (p. B-10). Drag it down (in the direction indicated by the arrows on the cleaner).
Page 321 Fiber cleaning Cleaning/inspecting optical connectors ............................................Inspect the connector for cleanliness. If necessary, repeat the cleaning process. “Connector inspection” (p. B-9). T E P S ................................ Connector inspection After cleaning the connector, inspect the ferrule endface to ensure that it is free from any particulate contamination using an optical fiber inspection scope of at least 200X magnification.
Page 322: Acceptability Criteria For Fiber Cleaning
Fiber cleaning Cleaning/inspecting optical connectors Figure B-3 Acceptability Criteria for Fiber Cleaning Restricted Area Monitor 1/2 SM Core + 1/2 Fiber Viewing Diameters - 66 µm dia. Area No Loose or No Fixed Contamination No LOOSE contamination or particulate fibers in viewing area.
Page 323 Fiber cleaning Cleaning/inspecting optical connectors ............................................Using the appropriate CLETOP stick cleaner (2.5 mm for SC, ST, and FC connectors, 1.25 mm for LC connectors) dampen the stick cleaner with Ethyl alcohol using the alcohol wipe. Insert the stick cleaner into the adapter rotating the stick 360 degrees while inserting.
Page 324: Cleaning Pluggable Optics Modules
Cleaning pluggable optics modules .................................................... Purpose This task describes the Alcatel-Lucent recommended method for cleaning pluggable optics modules using specific tools and materials that have been proven to be effective in the assembly and testing of optical transmission equipment. Pluggable optics modules are shipped with a water-tight process plug...
Page 325 Fiber cleaning Cleaning pluggable optics modules CAUTION This step should only be performed on the transmit (TX) port if the air blows did not work. Do not perform this step on the receive (RX) port. The receive (RX) port contains a lens for focusing a wide input. The lens is more easily scratched than cleaned.
Page 326 Fiber cleaning Cleaning pluggable optics modules .................................................... B - 1 4 365-372-304R7.1 Issue 1, November 2007...
Page 327: Fiber Cleaning
.................................................... Purpose This appendix provides procedures for installing and removing Line Build Out units (LBOs) and fiber connectors onto input and output ports found on the 1665 Data Multiplexer (1665 DMX) optical circuit packs. Contents This appendix provides information on the following topics:...
Page 328: Installing Fiber Connectors And Lbos Lbos
(LC, ST, FC or SC-type) for external fiber connections. The 1665 DMX optical circuit packs are equipped with LC-type connector ports designed for use with LC-type LBOs and fiber connectors. Dust caps should be applied on all LBOs when not installed in connector ports.
Page 329: Lc-Type Lbo
Installing fiber connectors and LBOs LBOs ADVANTAGE optical connectivity solution (OCS), the new LC™ optic attenuators are designed to provide flat spectral loss across the full spectrum, allowing the attenuators to be used in the 1300-nm, 1400-nm, and 1500-nm bands. Figure C-2 LC-Type LBO SNAP-ACTION TAB ALIGNMENT KEY...
Page 330: Removing Lc-Type Lbo From Lc-Type Connector Port
Installing fiber connectors and LBOs LBOs Figure C-4 Removing LC-Type LBO From LC-Type Connector Port DEPRESS TAB TO RELEASE LBO .................................................... C - 4 365-372-304R7.1 Issue 1, November 2007...
Page 331: Fiber Connections
Fiber connections .................................................... General 1665 DMX uses AllWave ADVANTAGE™ Lightguide Jumpers, part of Lucent’s AllWave ADVANTAGE™ Optical Connectivity Solution (OCS). These jumpers contain a boot angled at 40 degrees, allowing the jumpers to dress appropriately into the fiber tray. The angled boot eliminates projection outside the front of the shelf assembly.
Page 332: Lc-Type Fiber Connection
Installing fiber connectors and LBOs Fiber connections Figure C-6 LC-Type Fiber Connection ALIGNMENT SLOT DEPRESS LEVER TO RELEASE THE SNAP-ACTION TAB .................................................... C - 6 365-372-304R7.1 Issue 1, November 2007...
Page 333: Backplane Pin Replacement
.................................................... Purpose This appendix provides information and the procedures used when a connector and/or pin on the 1665 Data Multiplexer (1665 DMX) backplane has been bent or broken. Contents This appendix provides information on the following topics: Pin and connector background...
Page 334: Backplane Pin Replacement
Description This section describes the procedures for the repair/replacement of the press-fit connector pins used on the backplane of the 1665 DMX shelf. Trouble clearing procedures may lead you to inspect the backplane for damaged connectors. Circuit packs are plugged into METRAL™ signal pin connectors which have been press- fit into the backplane.
Page 335: Backplane Locations Of Metral Pins
Backplane pin replacement Pin and connector background Table D-1 Backplane Locations of METRAL Pins Mating Tail Length Length Column Type (mm) (mm) 001, 154, 156, 162 Signal Pin 5.75 4.30 001, 154, 156, 162 a, b, c, d, e Signal Pin 8.00 4.30 All others...
Page 336: Repair Kits And Tools
The tail length includes a compliant press-fit section needed to achieve a gas- tight connection in four contact areas. All the METRAL pins used on the 1665 DMX shelves have the same tail length of 4.30 mm (0.169 in.).
Page 337: Simple Repair Methods
Backplane pin replacement Simple repair methods Simple repair methods .................................................... Precautions CAUTION These procedures should be done with the shelf out of service and powered down to ensure no further damage to the equipment or to the person doing the repair.
Page 338 Simple repair methods D-subminiature pins The D-subminiature connectors on the 1665 DMX backplane are all of the receptacle type. These connectors are designated as jacks and not as plugs. The individual connector terminals are protected somewhat by the molded plastic insert inside the connector shell. It is unlikely that these terminals would be bent in the manner that the exposed pin terminals of a plug might be bent.
Page 339: Replacement Methods
Any press-fit connector pin may be removed and replaced one time in Important! the 1665 DMX backplane. A second removal and replacement in the same plated- through hole may not meet the long-term reliability objectives. If a replacement is needed for a previously replaced connector pin, contact your next level of support before proceeding.
Page 340 Backplane pin replacement Replacement methods ............................................Verify that the new pin is securely in the backplane............................................If the replacement is not successful, contact your next level of support. T E P S ................................ Guide and keying pin procedure If it becomes necessary to replace Guide or Keying Pins, contact your next level of support for tooling, replacement parts and detailed replacement procedures.
Page 341: Installation Checklist
This chapter provides the recommended checklist to follow when installing a 1665 Data Multiplexer (1665 DMX) system. Use of the installation checklist is required to ensure a quality installation, all completed tasks should be checked off and those not completed should be duly noted as to the reason why.
Page 342 Installation checklist Overview Completed Section and Chapter Procedure Required Fiber management installation (optional) (p. 1-27) Installing the fiber ducts (optional) (p. 1-31) See Note 1 Cable and optical fiber installation (p. 1-32) DS1 cable installation (p. 1-34) See Note 1 DS3/EC1 and 48TMUX cable installation (p.
Page 343 Section and Chapter Procedure Required Chapter 2, “Powering and Powering (p. 2-3) initial circuit pack installation for 1665 Data Multiplexer (1665 DMX)” Initial circuit pack installation (p. 2-12) LNW2 (SYSCTL) installation (p. 2-12) OC-48 main OLIU installation (p. 2-13) See Note 1 OC192 main OLIU installation (p.
Page 344 See Note 1 (p. 2-33) Install pluggable transmission modules (p. See Note 1 2-34) Part II: “1665 Data Multiplexer (1665 DMX) stand-alone installation tests” Chapter 3, “Software Software installation (p. 3-4) See Note 1 download and circuit pack Circuit pack installation (p. 3-5) See Note 1 installation”...
Page 345 Installation checklist Overview Completed Section and Chapter Procedure Required Setting DS3/EC1 and TMUX LBOs (p. 4-5) See Note 1 Clearing alarms (p. 4-7) Local equipment and cross-connect tests (p. 4-9) DS1 terminating equipment loopback testing See Note 1 (p. 4-10) DS1 non-terminating equipment transmission See Note 1 testing (optical main OLIU) (p.
Page 346 Installation checklist Overview Completed Section and Chapter Procedure Required Delete the existing DS3 cross-connections (p. See Note 1 4-32) LNW66, LNW71 and LNW74 (10/100T) TX Ethernet cabling testing (p. 4-36) Ethernet port assignment verification testing (p. See Note 1 4-36) Ethernet port wiring verification testing (p.
Page 347 Installation checklist Overview Completed Section and Chapter Procedure Required Manual switching tests (p. 5-11) Main OLIU switch test (p. 5-11) See Note 1 External timing verification (p. 5-13) Timing verification test procedure (p. 5-13) See Note 1 Miscellaneous (environmental) discrete telemetry test (p.
Page 348 Installation checklist Overview Completed Section and Chapter Procedure Required Part III: “1665 Data Multiplexer (1665 DMX) ring setup and testing” Chapter 6, “Ring setup and Fiber installation (p. 6-4) testing: integration procedures” Fiber installation procedure (p. 6-5) Optical transmission test (OC-192, OC-48, OC-12) (p.
Page 349 Appendix F: Fiber labeling Overview .................................................... Purpose This chapter describes the labeling of the fiber. Contents This chapter contains the following. Fiber description Fiber labels .................................................... 365-372-304R7.1 F - 1 Issue 1, November 2007...
Page 350: Fiber Labeling
.................................................... Fibers There are three different types of single-mode fiber used with the 1665 Data Multiplexer (1665 DMX) system, simplex blue fiber, simplex yellow fiber, and the customer's fiber, and two types of multi-mode fiber used with the 1665 DMX, multi-mode simplex gray fiber and the customer's multi-mode fiber.
Page 351 Fiber labeling Fiber description Precautions CAUTION Equipment Damage Fiber is constructed of glass and should be treated with care. It should not be pulled or stretched. This could cause damage to the fiber or the fiber connector. Fiber should not be bent in a radius of less than 1-1/2”. Single-mode fiber testing requirements All fibers shall be tested after they are installed as follows: All fibers shall be tested after installation, but prior to turn-up...
Page 352: Fiber Labels
Fiber labeling Fiber labels Fiber labels .................................................... Introduction If pre-printed labels are not available, use a label-maker to create labels for each end of each fiber. The label should include: Rack location • Circuit pack • Port • Direction (IN,OUT) •...
Page 353: Pluggable Transmission Module Installation
Appendix G: Pluggable transmission module installation Overview .................................................... Purpose This chapter describes how to insert a pluggable transmission module (PTM) into a 1665 Data Multiplexer (1665 DMX) circuit pack. PTMs are sometimes referred to as SFP (small form pluggable) modules. CAUTION Laser Safety When connecting fiber loops between the IN and OUT ports on optical circuit packs, always connect to the IN port first and then the OUT port.
Page 354: Alcatel-Lucent Approved Pluggable Transmission Modules
Pluggable transmission module installation Pluggable transmission modules Pluggable transmission modules .................................................... Alcatel-Lucent approved Class 1 SFP transceivers The following table lists all the current approved pluggable transmission modules to be used with 1665 DMX. Table G-1 Alcatel-Lucent Approved Pluggable Transmission Modules...
Page 355 Pluggable transmission module installation Pluggable transmission modules Apparatus Code Comcode Description Used in OC48LR1-I1 109493528 OC48 PTM TRCVR LNW55, LNW62, Long Reach, 1.3 LR-1 LNW82, LNW202 (40km), 1310nm OC48LR2-I1 109504431 OC-48 PTM TRCVR LNW55, LNW62, Long Reach, 1.5 LR-2 LNW82, LNW202 (80 km), 1550 nm S2D23C6 109610378...
Page 356 Pluggable transmission module installation Pluggable transmission modules Apparatus Code Comcode Description Used in S2D53C6 109610691 OC48/STM16/OTU1 LNW55, LNW62, DWDM LNW82, LNW202 195.3THz/1535.036nm S2D55C6 109610717 OC48/STM16/OTU1 LNW55, LNW62, DWDM LNW82, LNW202 195.5THz/1533.465nm S2D59C6 109610766 OC48/STM16/OTU1 LNW55, LNW62, DWDM LNW82, LNW202 195.9THz/1530.334nm OC192SR1-C1 109537902 OC-192 XFP TRCVR...
Page 357 Pluggable transmission module installation Pluggable transmission modules Apparatus Code Comcode Description Used in 109570606 LNW63, LNW64, GE-1X2XFC-SX-I1 GbE short-reach, (1000BASE-SX, Single Mode PTM, LNW70, LNW73, 1Gbps) supports Ethernet and LNW73C, LNW78, Fibre-Channel traffic, LNW170 LC-type connectors OSP hardened (GbE/FC/2FC-850) GE-1X2XFC-LX-I1 109568782 GbE long-reach, Single LNW63, LNW64,...
Page 358: Install Pluggable Transmission Modules
Pluggable transmission module installation Install pluggable transmission modules Install pluggable transmission modules .................................................... Procedure Complete the following steps to install pluggable transmission modules in a circuit pack that has already been installed in a shelf............................................Determine the circuit pack and socket being equipped with the pluggable transmission module.
Page 359: Examples Of Dust Plugs
Pluggable transmission module installation Install pluggable transmission modules Figure G-2 Examples of Dust Plugs MA-DMX-421 ............................................Referring to Figure G-3, “Module Types” (p. G-7) below, determine the type of latching mechanism on the pluggable transmission module you have. Figure G-3 Module Types Gold Fingers Port Gold Fingers...
Page 360 Pluggable transmission module installation Install pluggable transmission modules Gold Fingers Port Gold Fingers Port Gold Fingers Port MA-DMX-439 Gold Fingers Port Gold Fingers Port MA-DMX-442 Optical pluggable transmission modules are shipped with a dust plug Important! installed into the optical ports to maintain cleanliness during storage and/or transportation.
Page 361: Latch Type 3 (Opened And Closed
Pluggable transmission module installation Install pluggable transmission modules ............................................Referring to Step 3, what type of latching mechanism does your module have?. If... Then... Type 1 or 2 (optical) Proceed to Step 8 Type 3 (optical) Continue with Step 5 Type 4, 5, or 6 (optical) Proceed to Step 7...
Page 362: Latch Type 4, 5, 6, 7 And 8 (Opened And Closed
Pluggable transmission module installation Install pluggable transmission modules Figure G-5 Latch Type 4, 5, 6, 7 and 8 (Opened and Closed) Swivel Latch Closed Position (to the left) Swivel Latch Open Position (to the right) MA-DMX-424 ............................................With your left hand, hold the pluggable transmission module by the dust plug (optical) or port end (electrical).
Page 363: Insert Pluggable Transmission Module Into Socket
Each pluggable transmission module has unique internal data for warranty purposes. If this data for any reason is not unique, both pluggable transmission modules with the duplicated information will be declared failed. Refer to the 1665 Data Multiplexer Alarm Messages and Trouble Clearing Guide, 365-372-302.
Page 364 Pluggable transmission module installation Install pluggable transmission modules ............................................If installing a pluggable transmission Then... module in an... Optical OLIU circuit pack, Continue with Step Ethernet/DATA circuit pack, Proceed to Step ............................................To test the OC-n optical port on installed OLIU circuit packs, loop back the OC-n optical port on itself (IN to OUT) with a 15-dB Attenuator.
Page 365 Appendix H: Technical support Overview .................................................... Purpose This chapter provides important technical assistance information for the 1665 Data Multiplexer (1665 DMX). Contents This appendix contains the following sections Technical assistance Accessing and navigating the On-Line Customer Support (OLCS) web site...
Page 366 Repair and Replacement (R&R) - technical support services for device repair/return or • parts replacement. Alcatel-Lucent On-Line Customer Support (OLCS) - online access to information and • services that can help resolve technical support requests. Technical Support Services are available 24 hours a day, 7 days a week.
Page 367: Technical Support Technical Assistance
Alcatel-Lucent product technical issue. When additional assistance is required, the Alcatel-Lucent Welcome Center is the first point of contact. An Alcatel-Lucent Welcome Center operator can direct the request to engineers that are highly trained and skilled in resolving issues, involving Alcatel-Lucent products.
Page 368 OLCS web site and view ARs 24 hours a day, 7 days a week. Data Drop Box The Data Drop Box feature allows Alcatel-Lucent support technicians to provide customers with a quick method to share files. The Data Drop Box allows a technician to provide or receive a file from a customer quickly.
Page 369 Technical support Technical assistance – Modification Implementation Procedure (MIP) – User Guide – Alarm Messaging and Trouble Clearing Guide (AMTCG) – Framework User Guide – Graphical User Interface (GUI) Guide – Maintenance Guide, Provisioning Guide – User Operations Guide (UOG) Technical Notes •...
Page 370 This may not apply to all products. Important! The RMA area provides a list of contact information on all Alcatel-Lucent products. There is a “request an RMA number” on-line for most Alcatel-Lucent products. An RMA number is required for all returned parts and this feature provides you with an easy method to obtain the RMA number.
Page 371: Accessing And Navigating The On-Line Customer Support (Olcs) Web Site
(if necessary), and navigate to each feature listed in this document. Accessing the OLCS web site To access the Alcatel-Lucent OLCS web site, enter: www.alcatel-lucent.com/support. Once you are at this web page, select Lucent Global Support. This will bring you to the web site where you can log in to gain access to the entitled products.
Page 372 Technical support Accessing and navigating the On-Line Customer Support (OLCS) web site Need Help while registering? From the U.S. 1 (866) 582 3688, prompt 7 From outside the U.S. +1 (630) 218 7688 In Asia/Pacific Please contact the in-country technical support hotline.
Page 373 “My Bookmarks” section (if Data Drop Box has been added there). Click the “Upload a file” button in the Data Drop Box window to send a file to the Alcatel-Lucent support technician. An email address can also be entered so that the ....................................................
Page 374 Alcatel-Lucent technician will be notified when the file has been sent. Click the “Download a file” button from the Data Drop Box if the Alcatel-Lucent technician has sent a file to be downloaded. These files will remain on the site for 7 days.
Page 375 You can access Alcatel-Lucent Alerts from the left column on the Customer Support homepage (unless this view has been changed), from the “Technical Support” section in the center of the page, or from the “My Bookmarks” section (if Alcatel-Lucent Alerts is added there).
Page 376 Technical support Accessing and navigating the On-Line Customer Support (OLCS) web site Once on the RMA web page, a table with contact information is displayed. Use the contact information provided or choose to fill in the online RMA request form at the bottom of that web page.
Page 377: Other Technical Support Services
Generally, customers should have a basic understanding of digital fundamentals and lightwave transmission systems. In addition, customers should have taken a previous Alcatel-Lucent Operating & Maintenance course or have equivalent experience with operations and maintenance issues related to the product ....................................................
Page 378 Technical support Other technical support services Activities Prior to Workshop Delivery: The effectiveness of this workshop series relies on the fact that it allows a customer to address the issues experienced in their network today. To achieve this, prior to the workshop, a conference call will be set up with the engineers that will facilitate the workshop.
Page 379 Glossary Acronyms and abbreviations .................................................... Abnormal (status condition) Alarm Cutoff ACO/SW Alarm Cutoff and Test Add/Drop Multiplexer AGNE Alarm Gateway Network Element Alarm Indication Signal Alternate Mark Inversion ANSI American National Standards Institute Automatic Protection Switch Access Resource Manager AS&C Alarm, Status, and Control ASCII American Standard Code for Information Interchange...
Page 380 ASN.1 Abstract Syntax Notation 1 ASNE Alarm Server Network Element Asynchronous Transfer Mode Auto Automatic AUXCTL Auxiliary Control .................................................... B3ZS Bipolar 3-Zero Substitution B8ZS Bipolar 8-Zero Substitution BDFB Battery Distribution and Fuse Bay Bit Error Ratio Bit Interleaved Parity BITS Building Integrated Timing Supply Basic Rate Interface ....................................................
Page 381 Craft Interface Terminal Carrier Line Failure Status Clock CMISE Common Management Information Service Element CMOS Complementary Metal Oxide Semiconductor CMTS Cable Modem Termination System Central Office Circuit Pack Customer Premises Equipment Critical (alarm status) Carrier Serving Area Channel Service Unit CS&O Customer Support and Operations Coding Violation...
Page 382 Digital Loop Carrier DPLL Digital Phase-Locked Loop Dual Ring Interworking Digital Signal Level 1 Digital Signal Level 3 DSLAM Digital Subscriber Line Access Multiplexer DSNE Directory Services Network Element Digital Cross-Connect Panel Distant Terminal Data Terminating Equipment .................................................... EC-1 Electrical Carrier Level 1 Equipment Catalog Item EEPROM Electrically-Erasable Programmable Read-Only Memory...
Page 383 Equipped (memory administrative state) Errored Seconds Electrostatic Discharge Extended Super Frame Environmental Stress Testing .................................................... Federal Communications Commission FDDI Fiber Distribution Data Interface Far End FE ACTY Far End Activity FEBE Far End Block Error FE ID Far End Identification FEPROM Flash EPROM FERF...
Page 384 Telcordia Technologies General Requirement General Telemetry Processor GTSIP Global Technical Support Information Platform Graphical User Interface .................................................... HECI Humans Equipment Catalog Item .................................................... Internal Clock Identifier International Electrotechnology Commission Infant Mortality Factor Incoming Status Input/Output Internet Protocol Intermediate Reach In Service ISCI Intershelf control Interface Intershelf Interface...
Page 385 International Standards Organization Internet Service Provider IVHS Intelligent Vehicle Highway System .................................................... Local Area Network LAPD Link Access Procedure "D" Line Build Out Local Communications Network Local Exchange Carrier Light-Emitting Diode Loss of Frame Loss of Pointer Loss of Signal Long Reach Low Speed ....................................................
Page 386 huMan-Machine Language Minor Alarm MPEG Moving Picture Experts Group MSDT Multi-Services Distant Terminal MTBF Mean Time Between Failures MTBMA Mean Time Between Maintenance Activities Mult Multipling Multiplex MXBIU Multiplexer and Backplane Interface Unit .................................................... Near End Network Element NE ACTY Near-End Activity NEBS Network Equipment-Building System...
Page 387 Not Service Affecting NSAP Network Services Access Point No Trouble Found .................................................... OAM&P Operations, Administration, Maintenance, and Provisioning OC-1 Optical Carrier Level 1 Signal (51.84 Mb/s) OC-3 Optical Carrier Level 3 Signal (155 Mb/s) OC-12 Optical Carrier Level 12 Signal (622 Mb/s) OC-48 Optical Carrier Level 48 Signal OLIU...
Page 388 .................................................... P-bit Performance Bit Personal Computer Power Conversion Unit Program Identification PINFET Positive Intrinsic Negative Field Effect Transistor Pointer Justification Count Phase-Locked Loop Performance Monitoring Power Minor Alarm Path Overhead Points of Presence POTS Plain Old Telephone Service Performance Report Message PROTN Protection Primary Reference Source...
Page 389 Power .................................................... Random Access Memory Reliability Prediction Procedure (described in Telcordia Technologies TR-NWT-00032) Remote Terminal NARTAC Lucent Regional Technical Assistance Center (1-866-LUCENT8) Return to Zero .................................................... Service Affecting SCADA Supervisory Control and Data Acquisition Signal Degrade Synchronous Digital Hierarchy SEFS Severely Errored Frame Seconds Single-Ended Operations Severely Errored Seconds...
Page 390 SLIM Subscriber Loop Interface Module Single Mode SONET Synchronous Optical NETwork Synchronous Payload Envelope Sync Quality Unknown Software Release Description STS, STS-n Synchronous Transport Signal Synchronous Transfer Mode STS-1 SPE STS-1 Synchronous Payload Envelope STS-3c Synchronous Transport Level 3 Concatenated Signal STS-12c Synchronous Transport Level 12 Concatenated Signal SYSCTL...
Page 391 TCVCXO Termperature-Compensated Voltage-Controlled Crystal Oscillator Time Division Multiplexing Target Identifier Transaction Language 1 Timing Looped Back Task Oriented Practice Telcordia Technologies Technical Requirement Time Slot Assignment Time Slot Interchange Technical Support Organization .................................................... Unavailable Seconds User Network Interface Universal Optical Connector UPD/INIT Update/Intialize UPSR...
Page 392 VLSI Very Large Scale Integration Violation Monitor Violation Monitor and Removal VoIP Voice over Internet Protocol VONU Virtual Optical Network Unit Virtual Private Network Virtual Tributary VT1.5 Virtual Tributary 1.5 (1.728 Mb/s) VT-G Virtual Tributary Group .................................................... Wide Area Network ....................................................
Page 393 Terms and definitions See Ring (0x1) Low-Speed Interface. The 1+1 protection switching architecture protects against failures of the optical transmit/receive equipment and their connecting fiber facility. One bidirectional interface (two fibers plus associated OLIUs on each end) is designated "service," and the other is designated "protection." In each direction, identical signals are transmitted on the service and protection lines ("dual-fed").
Page 394 Automatic Protection Switch A feature that allows another synchronization source to be automatically selected and the synchronization source provisioning to be automatically reconfigured in the event of a synchronization source failure or network synchronization change, for example, a fiber cut. Available Time In performance monitoring, the 1-second intervals.
Page 395 Channel State Provisioning A feature that allows a user to suppress reporting of alarms and events during provisioning by supporting multiple states (automatic, in-service and not monitored) for VT1.5 and STS-1 channels. See Port State Provisioning. CV - Coding Violation A performance monitoring parameter.
Page 396 DRI - Dual Ring Interworking Two ring networks interconnected at two common nodes. Drop and Continue A technique that allows redundant signal appearances at two central offices in a DRI network, allowing protection against central office failures. Digital Signal Level 1 (1.544 Mb/s). DS1(28) Circuit Pack The DS1(28) circuit pack interfaces to the DSX-1 panel.
Page 397 ESF - Extended Super Frame The format for a DS1 signal..................................................... FE - Far End Any other network element in a maintenance subnetwork other than the one the user is at or working on. Also called remote. FE ACTY - Far End Activity An LED on the SYSCTL circuit pack faceplate.
Page 398 Holdover An operating condition of a network element in which its local oscillator is not locked to any synchronization reference but is using storage techniques to maintain its accuracy with respect to the last known frequency comparison with a synchronization reference.....................................................
Page 399 Loop Timing Loop timing is a special case of line timing. It applies to NEs that have only one OC-N interface. For example, terminating nodes in a linear network are loop timed. See Line Timing. LOP - Loss of Pointer A failure to extract good data from an STS-1 payload.
Page 400 Node In SONET, a node is a line terminating element. Non-Revertive A protection switching mode in which, after a protection switch occurs, the equipment remains in its current configuration after any failure conditions that caused a protection switch to occur clear or after any external switch commands are reset.
Page 401 .................................................... Pass Through Paths that are cross-connected directly across an intermediate node in a ring network. Plesiochronous Network A network that contains multiple maintenance subnetworks, each internally synchronous and all operating at the same nominal frequency, but whose timing may be slightly different at any particular instant. For example, in SONET networks, each timing traceable to their own Stratum 1 clock are considered plesiochronous with respect to each other.
Page 402 Ring A configuration of nodes comprised of network elements connected in a circular fashion. Under normal conditions, each node is interconnected with its neighbor and includes capacity for transmission in either direction between adjacent nodes. Path switched rings use a head-end bridge and tail-end switch. Line switched rings actively reroute traffic over a protection line.
Page 403 Single 0x1 Cross-Connection In a dual-homed application, the DMX 2.5G Multiplexer uses a single 0x1 cross-connection to map the VT1.5 channels between the DDM-2000 FiberReach, OC-3 Multiplexer, or OC-12 Multiplexer and the DMX 2.5G Multiplexer rings. This single 0x1 architecture maps low speed to high speed on a specified ring rotation.
Page 404 .................................................... UAS - Unavailable Seconds In performance monitoring, the count of seconds in which a signal is declared failed or, in which, 10 consecutively severely errored seconds (SES) occurred, until the time when 10 consecutive non-SES occur. Unidirectional A protection switching mode in which the system at each end of an optical span monitors both service and protection lines and independently chooses the best signal (unless overridden by an equipment failure or by an external request, such as a forced switch or lockout).
Page 405 Index minor (MN) 1-83 DS3/EC-1 cable connections test equipment 1-44 office environmental 1-84 Alternate Mark Inversion (AMI) ................5-13 IAO LAN/TCP-IP 1-64 10/100Base-T cables 1-58 automatic protection switch miscellaneous discrete 1-84 1000Base-T 6-12 modem 1-69 1-70 optical fiber cables 1-92 1-93 1-94 1-95...
Page 406 Index CLETOP cleaning cassette environmental alarm 1-84 laser safety environmental discrete 1-84 Laser A-10 coaxial wire stripper 5-16 5-17 laser commands 5-11 6-14 6-15 classes A-10 damage connectors DMX optical specifications DB-15 pinouts electronic components A-10 DB-25 pinouts jack product classifications DB-62 pinouts wrist strap radiation...
Page 407 Index ................remote terminal (RT) 1-84 ohmmeter O OC 2-16 RJ-45 connector pinouts optical fiber jumpers OC-3 optical fiber scope ................optical fiber cables 1-90 Personal Computer (PC) 1-91 safety FDA/CDRH OC-48 screwdrivers optical fiber cables 1-88 instructions video fiber scope 1-89 laser timing...
Page 408 Index .................................................... I N - 4 365-372-304R7.1 Issue 1, November 2007...

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