MRV Communications LambdaDriver 400 User Manual
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MRV Communications LambdaDriver 400 User Manual

Wavelength division multiplexer
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LambdaDriver
Wavelength Division Multiplexer
Models 400 and 800
User Manual
MRV Communications, Inc.
URL:
http://www.mrv.com

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Summary of Contents for MRV Communications LambdaDriver 400

  • Page 1 LambdaDriver Wavelength Division Multiplexer Models 400 and 800 User Manual MRV Communications, Inc. URL: http://www.mrv.com...

  • Page 2: Contact Information

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Standards Compliance This equipment is certified to UL 1950; CSA 22.2 No 950; FCC Part 15 Class B; CE-89/336/EEC, 73/23/EEC. FCC Notice WARNING: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules.

  • Page 3: Table Of Contents

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Contents About this Manual... Error! Bookmark not defined. Audience ..........................15 Latest Revision ........................15 Related Documents .........................15 Organization..........................15 Typographical Conventions ....................16 Acronyms ..........................16 Safety Requirements ......... 18 Before Installing ........................18 Before Powering On ........................18 During Operation ........................19...
  • Page 4 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Overview .........................32 Features ..........................32 Layout..........................32 Product Specification.......................33 Demux Module ........................34 Overview .........................34 Features ..........................34 Layout..........................34 Product Specification.......................35 Management Module......................36 Overview .........................36 Features ..........................36 Layout..........................36 Product Specification.......................37 Service Module........................38 Overview .........................38 Features ..........................38 Models..........................38...
  • Page 5 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification ......................61 AC Primary Power Supply Module..................63 Overview .........................63 Features ..........................63 Layout..........................64 DC Primary Power Supply Module (Optional)..............65 Overview .........................65 Features ..........................65 Layout..........................65 AC Redundant Power Supply Module (Optional)..............66 Overview .........................66 Features ..........................66...
  • Page 6 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Scope ..........................73 Hardware.........................73 Cabling ..........................73 Data Flow ........................74 Central Office Ring .......................75 Scope ..........................75 Hardware.........................76 Cabling ..........................76 Data Flow ........................76 Star Network Topology ......................78 Scope ...........................78 Hardware ..........................78 Cabling ..........................78 Inter-LDx00 Cabling ......................78 Intra-LDx00 Cabling ......................78...
  • Page 7 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Chassis..........................101 Transponders ........................101 Environmental ........................101 Power ..........................101 Grounding...........................102 Networking..........................102 Multiplexing ........................102 Management .........................102 Procedure..........................103 Configuration ........................103 TM-SFP Single Transponder Module................103 TM2-SFP Dual Transponder Module ................105 TM-DXFP 10 Gbps Transponder Module ..............109 ESCON Module......................111...
  • Page 8 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 General..........................141 Global Commands......................142 Module-specific Commands ....................142 Specification ........................143 console ..........................143 system ...........................148 ip............................151 snmp (in Operational CLI only) ..................154 slot ..........................156 statistics (in Operational CLI only) ................163 Appendix A: Software Upgrading/Downloading165 General ...........................165...
  • Page 9 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Procedure........................181 LLB Test ..........................182 Purpose .........................182 Data Path ........................182 Preparation........................182 Interconnection......................182 Procedure........................182 TLB Test ..........................183 Purpose .........................183 Data Path ........................183 Preparation........................183 Interconnection......................183 Procedure........................183 Appendix D: Cable Wiring ......184 Appendix E: Cleaning Optical Connectors ..186 General ...........................186...
  • Page 10 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Tools ............................191 Procedure ..........................191 LD400 ..........................191 LD800 ..........................191 Appendix I: Redundancy Protection Networks192 General ...........................192 Topologies ..........................192 Point-to-Point with Inclusive End-to-End Total Redundancy ..........192 Ring with Inclusive End-to-End Total Redundancy ............193 Point-to-Point with Exclusive End-to-End Total Redundancy ..........194...
  • Page 11 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figures Figure 1: LD400 Chassis Layout ....................22 Figure 2: LD800 Chassis Layout ....................22 Figure 3: TM-SFP Single Transponder Module Layout..............25 Figure 4: TM2-SFP Dual Transponder Module Layout ..............25 Figure 5: TM-DXFP 10 Gbps Transponder Module Layout ............
  • Page 12 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 45: Single-Interface OADM to Single-Interface OADM Cabling in an LDx00 ....116 Figure 46: Dual-Interface OADM to Dual-Interface OADM Cabling in an LDx00....... 117 Figure 47: Single-Interface OADM to Single-Interface OADM Cabling between LDx00s..117 Figure 48: Dual-Interface OADM to Dual-Interface OADM Cabling between LDx00s ....
  • Page 13 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 90: Ethernet Cross Cable Wiring..................185 Figure 91: ASCII Terminal/Emulator Connection to LDx00 via Modem ........188 Figure 92: Point-to-Point with Inclusive End-to-End Total Redundancy ........193 Figure 93: Ring with Inclusive End-to-End Total Redundancy........... 194 Figure 94: Point-to-Point with Exclusive End-to-End Total Redundancy ........
  • Page 14 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Tables Table 1: CWDM Channels – Nominal Central Wavelengths ............68 Table 2: DWDM Channels – Numbers, Frequencies, and Wavelengths ........68 Table 3: Outband Operating Ranges for ESCON Multiplexer ............84 Table 4: Inband Medium Operating Ranges for ESCON Multiplexer...........

  • Page 15: About This Manual

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 About this Manual Audience This manual is intended for the use of network administrators who wish to apply, install, setup, operate, manage, and troubleshoot the LDx00 . The network administrator is expected to have working knowledge of: •...

  • Page 16: Typographical Conventions

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix G: Replacing a Module – shows how to replace a network module, power supply, and SFP module. Appendix H: Servicing the Fan Module – gives the procedure for cleaning/replacing the fan module.
  • Page 17 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Ground Graphical User Interface Input/Output Internet Protocol Internet Service Provider International Telecommunications Union Local Area Network Link Integrity Notification Metropolitan Area Network Media Dependent Interface MDIX Media Dependent Interface with cross-wiring...

  • Page 18: Safety Requirements

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Safety Requirements Caution! To reduce risk of electrical shock, equipment damage, and fire and to maintain proper operation, ensure that the safety requirements stated hereunder are met! Before Installing Power Ensure that all power to the LDx00 is cut off. Specifically, disconnect all LDx00 power cords from the power source/s (line/mains).

  • Page 19: During Operation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 LD400 AC: 100 to 120 Vac, 60 Hz or 200 to 240 Vac, 50 Hz DC: -48 to -60 Vdc. LD800 AC: 100 to 120 Vac, 60 Hz or 200 to 240 Vac, 50 Hz DC: -48 to -60 Vdc.

  • Page 20: Chapter 1 Overview

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Chapter 1 Overview Function LDx00 is a multi-functional modular wavelength-division multiplexer that can operate using DWDM and CWDM technologies. Model 400 can create as many as four virtual fibers (channels on a single physical fiber. Model 800 can create as many as eight virtual fibers on a single physical fiber.

  • Page 21: Application

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 • Hot-swappable SFP interface transceivers for Transponder, ESCON, and GM2 modules. • Mountable in 19-inch rack Application LDx00 is applied as a campus, access, or MAN solution for high-speed concurrent transfer of data, voice, and video of different bandwidths and protocols on a single pair of fibers.

  • Page 22: Components

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Components Chassis Overview The chassis is a host for up to six (for LD400) / twelve (for LD800) pluggable network modules and up to two pluggable power supplies, and contains WDM support functionality. It can support various combinations of network modules to offer a wide range of applications.

  • Page 23: Transponder Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Transponder Module Overview The Transponder module serves as an interface between the CWDM/DWDM network and an access unit port, converting data-carrier wavelength into the access unit port’s operating wavelength, which may be 850 nm, 1310 nm, or 1550 nm.

  • Page 24: Features

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Transponder model TM-DXFP has an especially wide frequency bandwidth that is used for 10.3 Gbps Ethernet or 9.95 Gbps OC-192/STM-64 communication. A Transponder module is required for each WDM channel. Figure 24 to Figure 31and Figure 92 to Figure 97 shows how Transponder modules can be applied.

  • Page 25: Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Layout Figure 3: TM-SFP Single Transponder Module Layout Figure 4: TM2-SFP Dual Transponder Module Layout...

  • Page 26: Figure 5: Tm-Dxfp 10 Gbps Transponder Module Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 5: TM-DXFP 10 Gbps Transponder Module Layout...

  • Page 27: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification TM-SFP and TM2-SFP Parameters Values Data Rate Range 8 Mbps to 2.7 Gbps WDM TX Port (WDM Transmit Port) Purpose: Connection to Mux TX port or OADM ADD port...
  • Page 28 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Cable Connectors: MiniSC (MU) WDM RX Port (WDM Receive Port) Purpose: Connection to Mux RX port or OADM DROP port Grid CWDM: ITU-T G.694.2 DWDM: ITU-T G.694.1 Receiver Sensitivity at WDM RX Port (Max) 1.25 Gbps:...
  • Page 29 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 ACCESS TX Port (Access Transmit Port) Purpose: Connection to access unit receive port or ESCON SFP RX port Per the transponder access SFP output Cable Fiber Length (max): power and access unit receiver sensitivity –...
  • Page 30 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 TM-DXFP Parameters Values Data Rate Range 10 Gbps WDM TX (WDM Transmit Port) Purpose: Connection to Mux TX port or OADM ADD port Grid (DWDM) ITU-T G.694.1 Transmitter Output Power 0 dBm...
  • Page 31 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Local Mux or OADM to Remote Mux or 100 km (62.1 mi) OADM (between two LDx00s) Singlemode 9/125 µm Cable Type: Cable Connectors: MiniSC (MU) ACCESS TX Port (Access Transmit Port)

  • Page 32: Mux Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Mux Module Overview The Mux module multiplexes egress data coming over WDM channels onto a single physical fiber. 8-channel CWDM as well as DWDM Mux modules are available. The modules are passive and use optics only for their operation.

  • Page 33: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values OUT Port (WDM Transmit Port) Purpose: Connection to Mux OUT port, Demux IN port, OADM IN port, Service MUX port, or 1+1 MUX port Power Attenuation (CWDM or DWDM)

  • Page 34: Demux Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Physical Dimensions (W x H x D) 26.93 mm (1.06 in) x 130.7 mm (5.145 in) x 227.5 mm (8.956 in) Weight (max) 0.7 kg (1.5 lb) Demux Module Overview The Demux module demultiplexes ingress data coming over WDM channels onto a single physical fiber.

  • Page 35: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values IN Port (WDM Receive Port) Purpose: Connection to Mux OUT port, Demux IN port, OADM OUT port, Service DMUX port, or 1+1 DMUX port Power Attenuation (CWDM or DWDM)

  • Page 36: Management Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Physical Dimensions (W x H x D) 26.93 mm (1.06 in) x 130.7 mm (5.145 in) x 227.5 mm (8.956 in) Weight (max) 0.7 kg (1.5 lb) Management Module Overview The Management module enables management with an SNMP manager, TELNET station, and craft terminal (e.g., VT100 terminal or emulator).

  • Page 37: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values ETH TX Port (Ethernet OSC Transmit Port) Purpose (optional): Connection to Service MGT RX port or 1+1 MGT RX port Output Power +2 to –1 dBm Operating Wavelength:...

  • Page 38: Service Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 LEDs PWR: Power status MGT: SNMP data flow status ACT: Ethernet data flow status LINK: Ethernet link status OSC ACT: OSC data flow status OSC LINK: OSC link status Mounting Handle/ejector/extractor...

  • Page 39: Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Layout Figure 9: Single Service Module Layout Figure 10: Dual Service Module Layout...

  • Page 40: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification EM800-CSRV Parameters Values MUX Port (Multiplexer Port) Purpose: Connection to Multiplexer OUT port Power Attenuation: 0.8 to 1 dB Cable Length (max): 1 m (~ 3 ft) Cable Type: Singlemode 9/125 µm...
  • Page 41 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 budget, which depends on whether the technology is CWDM or DWDM and on channel bandwidth (Data Rate Range) Singlemode 9/125 µm Cable Type: Cable Connector: OUT Port (WDM OSC Transmit Port)
  • Page 42 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 MGT 1 TX Port (Management 1 Transmit Port) Purpose: Connection to Management ETH 1 RX or ETH 2 RX port Power Attenuation: 0.8 to 1 dB Cable Length (max): 1 m (~ 3 ft) Cable Type: Singlemode 9/125 µm...
  • Page 43 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Power Attenuation: 0.8 to 1 dB Cable Length (max): 1 m (~ 3 ft) Cable Type: Singlemode 9/125 µm Cable Connector: MiniSC (MU) DMUX 2 Port (Demultiplexer 2 Port) Purpose: Connection to Demultiplexer 2 IN port Power Attenuation: 0.8 to 1 dB...

  • Page 44: 1+1 Redundancy Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Purpose (optional): Connection to Module 2 Service IN port Power Attenuation: 0.8 to 1 dB Cable Fiber Length (max): Per the local Transponder power budget, which depends on whether the technology is CWDM or DWDM and on channel bandwidth (Data Rate Range).

  • Page 45: Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Layout Figure 11: 1+1 Redundancy Module with Service Functionality Layout Figure 12: 1+1 Redundancy Module without Service Functionality Layout...

  • Page 46: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values MUX Port (Multiplexer Port) Purpose: Connection to Multiplexer OUT port Power Attenuation: 3.3 dB Cable Length (max): 1 m (~ 3 ft) Cable Type: Singlemode 9/125 µm...
  • Page 47 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Cable Connector: OUT P (WDM Primary Redundancy/OSC Transmit Port) Purpose (optional): Connection to 1+1 IN P port Cable Length (max): Per the local Transponder power budget, which depends on whether the...

  • Page 48: Oadm Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 OADM Module Overview The OADM module is a scalable, passive optical “add” and “drop” multiplexer/demultiplexer that can add and/or drop a specific channel (wavelength) to/from an optical WDM signal, while all other channels are routed from the input to the output with minimal attenuation.

  • Page 49: Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Layout Figure 13: Single-Interface OADM Module Layout Figure 14: Dual-Interface OADM Module Layout...

  • Page 50: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values ADD Port (Multiplexer Port) Purpose: Connection to Transponder WDM TX port Cable Length (max): 1 m (~ 3 ft) Singlemode 9/125 µm Cable Type: Cable Connector: MiniSC (MU)

  • Page 51: Oa Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 OUT COM Port (Dual-Interface OADM WDM Transmit Port) Purpose: Connection to remote OADM IN COM port Cable Length (max): 1 m (~ 3 ft) Singlemode 9/125 µm Cable Type: Cable Connector:...

  • Page 52: Features

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 when the distance between two LDx00s (or between an LDx00 and LD1600) exceeds 60-90 km, the exact distance depending on the quality of the fiberoptic cabling. There are three types OAs:...

  • Page 53: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values OUT Port (Multiplexer Port) Purpose: Connection to Demultiplexer IN port or OADM IN port Cable Length (max) Pre-amplifier: 1 m (~ 3 ft) In-Line: 1 m (~ 3 ft)
  • Page 54 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Typ: ± 0.5 dB Max: ± 1.0 dB Polarization Mode Dispersion Typ: 0.3 picosec Max: 0.5 picosec Polarization Dependent Gain ± 0.2 dB Typ: Max: ± 0.5 dB Transient Overshoot for 10 dB drop Typ: 0.5 dB...

  • Page 55: Escon Multiplexer Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Storage Temperature Min: C (+ 14 Max: C (+ 158 Humidity (Relative, non-condensing, max) 85 % Mounting Handle/ejector/extractor Posidrive screws (two) Physical Dimensions (W x H x D) 26.93 mm (1.06 in) x 130.7 mm (5.145 in) x...

  • Page 56: Features

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 − Lower cost − Advantages afforded by fiberoptic cabling, such as greater reliability, increased security, and added safety − Enables pluggable add-on scalability and growth The ESCON WDM interface can be fitted with any vendor SFP. This endows the ESCON module...

  • Page 57: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values Data Rate Range 184 to 209 Mbps WDM Grid CWDM (by interfacing with Transponder): ITU-T G.694.2 DWDM: ITU-T G.694.1 TX Port (Access Port) Connection to ESCON equipment input...

  • Page 58: Gm2 Gigagbit Ethernet Multiplexer Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Receiver Sensitivity Per the SFP APD Overload for ESCON-to-mux/demux -3 dBm module connection (Max) Cable Length (max): 1 m (~ 3 ft) Singlemode 9/125 µm Cable Type: Cable Connector: Per the SFP (usually LC)

  • Page 59: Features

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 This function enables a pair of GM2 modules to carry up to two Gigabit Ethernet channels over a fiberoptic cable. Gigabit Ethernet channels can be carried inband or outband . GM2 modules can be installed in the LDx00 in slots 1 to 16.

  • Page 60: Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Layout Figure 17: EM2009-GM2 Module Layout Figure 18: TM-GM2 Module Layout...

  • Page 61: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Product Specification Parameters Values Data Rate Range 1 to 2.5 Gbps TX Port (Access Transmit Port) Purpose: Connection to access unit receive port (RX) Cable Fiber Length (max): Per the GM2 access SFP output power and access unit receiver sensitivity –...
  • Page 62 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Inband GM2 to Mux or OADM 1 m (~ 3 ft) (in same LDx00) Local Mux or OADM to Remote Mux or OADM (between two LDx00s) EM2009-GM2 to EM2009-GM2 Per the local GM2 TRUNK SFP...

  • Page 63: Ac Primary Power Supply Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 OADM (between two LDx00s) EM2009-GM2 to EM2009-GM2 Per the remote GM2 TRUNK SFP transmitter output power, local GM2 TRUNK SFP receiver sensitivity, and power loss due to other elements in the signal path –...

  • Page 64: Layout

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Layout LD400 Figure 19: LD400 AC Power Supply Module Layout LD800 Figure 20: LD800 AC Power Supply Module Layout...

  • Page 65: Dc Primary Power Supply Module (Optional)

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 DC Primary Power Supply Module (Optional) Overview Power Supply Module powers the LDx00. It is auto-adaptive in the range -48 to -60 Vdc and can be backed up by a second power supply in the same LDx00 while equally sharing the output power load.

  • Page 66: Ac Redundant Power Supply Module (Optional)

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 LD800 Figure 22: LD800 DC Power Supply Module Layout AC Redundant Power Supply Module (Optional) Overview The AC redundant Power Supply Module is identical to the primary AC Power Supply Module. It serves two purposes: −...

  • Page 67: Blank Panel Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Blank Panel Module Overview The Blank Panel module covers a vacant slot in the LDx00. It protects the user against electrical shock and the LDx00 against harmful physical intrusion as well as overheating by assuring circulation of sufficient cooling air throughout the LDx00.

  • Page 68: Dwdm

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 1: CWDM Channels – Nominal Central Wavelengths Chan. Wavelength (nm) Chan. Wavelength (nm) 1270 1450 1290 1470 1310 1490 1330 1510 1350 1530 1370 1550 1390 1570 1410 1590 1430...

  • Page 69: Chapter 2 Applications

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Chapter 2 Applications General This chapter presents typical networking applications with the LDx00. These applications serve to show the scope of the application of the LDx00. The network in an example can be adopted as is or can be modified to meet a specific set of requirements.

  • Page 70: Data Flow

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Same as for left LDx00. LDx00 to RS-232/Ethernet Cabling LDx00-to-RS-232: As shown in Figure 78. LDx00-to-Ethernet: As shown in Figure 79. Data Flow Left LDx00 Transponders 1 to 8 transmit on channels 1 to 8 on one fiber and receive on channels 1 to 8 on the other fiber.

  • Page 71: Cabling

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Cabling Inter-LDx00 Cabling As in Figure 54. Intra-LDx00 Cabling Left LDx00 With Management Module: Transponder-to-Mux: As in Figure 55 Demux-to-Transponder: As in Figure 56 Mux-to-1+1: As in Figure 59 1+1-to-Demux: As in Figure 59...

  • Page 72: Single-Fiber Point-To-Point

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Single-Fiber Point-to-Point Scope In the Single-Fiber Point-to-Point topology (example shown in Figure 26), although up to 8 channels can be created across the network with a single fiber, a channel can be used to either transmit or receive;...

  • Page 73: Ring Network Topologies

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 26: Single-Fiber Point-to-Point with up to 4 Full-Duplex Channels Ring Network Topologies Single-Fiber Ring Scope In the Single-Fiber Ring topology (example shown in Figure 27), up to 8 channels can be created across the network.

  • Page 74: Data Flow

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Data Flow Top LDx00 Data from the access equipment units enter the ACCESS RX ports of Transponders 1, 3, 5, and 7. The data pass from the transponders WDM TX ports into the Add ports of the OADM. From the OUT port of the OADM, it passes onto the fiber connecting the Right LDx00.

  • Page 75: Central Office Ring

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 27: Single-Fiber Ring with up to 8 Full-Duplex Channels Central Office Ring Scope In Central Office Ring topology (example shown in Figure 28), up to 8 channels can be created across the network.

  • Page 76: Hardware

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Hardware CO LDx00 Basic Contents: 1 Mux Module, 1 Demux Module, and up to 8 Transponder Modules. Option: 1 Management Module. BO LDx00 Basic Contents: 1 OADM Module and up to 4 Transponder Modules Option: 1 Management Module.

  • Page 77: Figure 28: Central Office Ring With Up To 8 Full-Duplex Channels

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Data coming from an access equipment unit enters the Transponder ACCESS RX port, emerges at the WDM TX port to enter the OADM Add port. From here, the data along with those from other channels (transponders) are multiplexed on the OADM OUT port, and placed on the fiber connecting the downstream LDx00.

  • Page 78: Star Network Topology

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Star Network Topology Scope In the Star Network topology (example shown in Figure 29), up to 8 channels can be created across the network, which uses single-fiber cables. This means that up to 16 access-equipment units (e.g., LANs, PCs, etc.) can be interconnected with this network topology –...

  • Page 79: Data Flow

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Data Flow CO LDx00 Transponders 1 to 4 transmit, on channels 1 to 4, receive data from the access equipment numbered 1 to 4 attached to the CO LDx00. These Transponders receive, on channels 5 to 8, data from the access equipment numbered 5 to 8 attached to the left BO LDx00.

  • Page 80: Figure 29: Star With Up To 4 Full-Duplex Channels

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 29: Star with up to 4 Full-Duplex Channels...

  • Page 81: Multipoint Network Topologies

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Multipoint Network Topologies Regular Multipoint Scope In Regular Multipoint topology (example shown in Figure 30), up to 8 channels can be created across the network. This means that up to 16 access-equipment units (e.g., LANs, PCs, etc.) can be interconnected with this network topology –...

  • Page 82: Repeated-Channel-Use Multipoint

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 30: Multipoint with up to 8 Full-Duplex Channels Repeated-Channel-Use Multipoint In Repeated-Channel-Use Multipoint topology (example shown in Figure 31), 8 channels can be created per LDx00 by repeated use of one or more channels on differing fibers. This means that a virtually unlimited number of access-equipment units (e.g., LANs, PCs, etc.) can be...

  • Page 83: Escon

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Note that in the second (right top) LDx00, the transponders in slots 1-4 are the same as the transponders in slots 5-8. Figure 31: Repeated Channel Use Multipoint with up to 16 Full-Duplex Channels...

  • Page 84: Table 3: Outband Operating Ranges For Escon Multiplexer

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 3: Outband Operating Ranges for ESCON Multiplexer Link Range (Max) Cable Type Wavelength ESCON Equipment to 2 km (1.24 mi) Multimode 1310 nm ESCON Multiplexer ESCON Multiplexer to 60 km (37.3 mi)

  • Page 85: Figure 32: Escon Outband Point-To-Point Topology

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 32: ESCON Outband Point-to-Point Topology Star Scope In the Outband Star topology, up to 11 links, i.e., 44 ESCON channels can be supported by the topology. A link consists of a fiberoptic cable terminated by two ESCON Multiplexer modules, one at each end, and can carry up to four ESCON channels.
  • Page 86 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Intra-LDx00 Cabling None. LDx00 to RS-232/Ethernet Cabling LDx00-to-RS-232: As shown in Figure 78. LDx00-to-Ethernet: As shown in Figure 79. Data Flow CO LDx00 Data on ESCON channels to each ESCON Multiplexer module are multiplexed and sent to the BO LDx00s where they are demultiplexed to continue on their respective channels.

  • Page 87: Inband Topologies

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 33: ESCON Outband Star Topology Inband Topologies Medium Range Point-to-Point Scope In the Inband Medium Range Point-to-Point Topology, which uses CWDM, (example shown in Figure 34), up to 8 channels can be created across the network. This means that up to 32 ESCON lines can be interconnected with this network topology –...

  • Page 88: Table 4: Inband Medium Operating Ranges For Escon Multiplexer

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 4: Inband Medium Operating Ranges for ESCON Multiplexer Link Range (Max) Cable Type Wavelength ESCON Equipment to 2 km (6500 ft) Multimode 1310 nm ESCON Multiplexer LDx00 to LDx00 65 km (40.4 mi)

  • Page 89: Figure 34: Escon Inband Medium Range Point-To-Point Topology

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 34: ESCON Inband Medium Range Point-to-Point Topology Long Range Point-to-Point Scope In the Inband Long Range Point-to-Point Topology, which uses DWDM, (example shown in Figure 35), up to 8 channels can be created across the network. This means that up to 32 ESCON lines can be interconnected with this network topology –...
  • Page 90 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Right LDx00s Same as for left LDx00s. Cabling LDx00 (B) to LDx00 (B) Cabling With Service Modules: As in Figure 53. Without Service Modules: As in Figure 43. LDx00 (A) to LDx00 (B) Cabling...

  • Page 91: Gm2

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 35: ESCON Inband Long-Range Point-to-Point Topology Outband Topologies Point-to-Point Scope In the Outband Point-to-Point topology, up to 8 links (using the LD800), i.e., 16 Gigabit Ethernet lines, can be carried by the topology. A link consists of a fiberoptic cable terminated by two GM2 modules, one at each end, and can carry up to two Gigabit Ethernet lines.

  • Page 92: Figure 36: Gm2 Outband Point-To-Point Topology

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Right LDx00 Basic Contents: Same as for left LDx00. Options: Same as for left LDx00. Cabling Inter-LDx00 Cabling For each pair of GM2s, one in the left LDx00 and the other in the right LDx00, occupying slots of the same number, interconnect the trunk ports (TRUNK TX and TRUNK RX) of one GM2 to the trunk ports (TRUNK RX and TRUNK TX) of the other GM2 with a fiberoptic cable.
  • Page 93 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Star Scope In the Outband Star topology, up to 16 links, i.e., 32 Gigabit Ethernet lines, can be carried by the topology. A link consists of a fiberoptic cable terminated by two GM2s, one at each end, and can carry two Gigabit Ethernet lines.

  • Page 94: Inband Topology

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 37: GM2 Outband Star Topology Inband Topology Scope In the Inband Medium Range Point-to-Point Topology, which uses CWDM or DWDM technology, (example shown in Figure 38), up to 16 WDM channels can be created, each carrying two Gigabit Ethernet lines.
  • Page 95 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Hardware Left LDx00 Basic Contents: 1 Mux Module, 1 Demux Module, up to 16 GM2 Multiplexer Modules. Options: 1 Management Module, 1 Service Module, 1 or 2 OA Modules. Right LDx00 Same as for left LDx00.

  • Page 96: Figure 38: Gm2 Inband Point-To-Point Topology

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 38: GM2 Inband Point-to-Point Topology...

  • Page 97: Rules For Network Topologies

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Rules for Network Topologies Following is a set of rules to be applied when planning a network topology: 1. At least two LDx00s are required to create: 1 to 4 channels for LD400.
  • Page 98 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 P = [Transmitter Power – Receiver Sensitivity] dB. It is the power budget available between the LDx00 module and access unit. For the fiber connecting the Access TX port of the local module to the RX...
  • Page 99 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 For greater cabling lengths, an OA module (described in the section OA Module, page 51) has to be inserted: − in the LDx00 to serve as a booster or pre-amplifier, or −...

  • Page 100: Chapter 3 Installation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Chapter 3 Installation General This chapter describes the requirements and detailed step-by-step procedure for installing the LDx00 and its components (modules and chassis). Safety Before installing the LDx00, ensure that the safety requirements noted in the chapter Safety Requirements are met.

  • Page 101: Tools

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Tools • 6-inch Posidrive screwdriver (for the module screws) • 6-inch flat-tip screwdriver Mounting Chassis • Desktop (flat, stable, non-conductive static-free surface), or • Rack space − LD400: 19-inch x 2 U x 13 in (483 mm x 89 mm x 331 mm).

  • Page 102: Grounding

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 − 200 to 240 Vac, 0.4 A, 50 Hz – for other countries DC: -48 to -60 Vdc DC rated equipment must be installed under the following conditions: 1. The DC supply source to which the LDX00 is to be connected must be isolated from the alternating current source and reliably connected to earth or to a DC (SELV) source.

  • Page 103: Procedure

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 • Category 5 cable with RJ45 8-pin male connector (or multimode 62.5/125 µm or singlemode 9/125 µm fiberoptic cable for a 1000Base-FX Gigabit Ethernet module) if the TELNET station or SNMP NMS is to be connected directly to the LDX00.

  • Page 104: Table 8: Jp8 Jumper Positioning

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 in the same LDx00 and having the same operating wavelength. (This jumper setting is sufficient for redundancy mode operation; there is no need for further configuration, e.g., software using CLI commands, etc.) 3.

  • Page 105: Tm2-Sfp Dual Transponder Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 39: DIP Switch Location on TM-SFP Transponder Module TM2-SFP Dual Transponder Module Configure each TM2-SFP Transponder module as follows: 1. With the aid of Figure 40, locate Jumper JP1 on the TM2-SFP Transponder module and position it using Table 10.

  • Page 106: Table 11: Jp2 Jumper Positioning

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Transponders 1 and 2 transmit in the access and WDM directions irrespective of whether they receive. 2. With the aid of Figure 40, locate Jumper JP2 and position it using Table 11.

  • Page 107: Figure 40: Dip Switch Location On Tm2-Sfp Transponder Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 40: DIP Switch Location on TM2-SFP Transponder Module...

  • Page 108: Table 13: Dip Switch (Sw1 Or Sw2) Setting Of Tm-Sfp Or Tm2-Sfp Transponder Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 13: DIP Switch (SW1 or SW2) Setting of TM-SFP or TM2-SFP Transponder Module Control Transponder Protocol Data Rate Setting Type (Mbps) Software 10 to 2700 (Mgt) Hardware Medium Speed Having a data...

  • Page 109: Tm-Dxfp 10 Gbps Transponder Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 11: DIP Switch Setting of Transponder Module (Cont’d) Control Transponder Protocol Data Rate Setting Type (Mbps) 372 to 520 FC; DS4C; OC-12 483 to 718 707 to 765 702 to 802 744 to 1040 FC;...

  • Page 110: Table 15: Dip Switch Sw1 Setting Of Tm-Dxfp Transponder Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 LASER EN: Normal operation mode of TM-DXFP Transponder. In this mode, the Transponder transmits in the access and WDM directions irrespective of whether it receives. 2. With the aid of Figure 41, locate DIP switch SW1 on the TM-DXFP Transponder module.

  • Page 111: Escon Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 41: DIP Switch Location on TM-DXFP Transponder Module ESCON Module For each pair of ESCON modules to be linked to each other, do as follows: For one ESCON module: With the aid of Figure 42, locate the MASTER pins (J2) and make sure they are connected with a 2-pin jumper.

  • Page 112: Figure 42: Dip Switch Location On Escon Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 42: DIP Switch Location on ESCON Module...

  • Page 113: Mounting

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 16: DIP Switch Setting of ESCON Module Operating Setting Wavelength (DW8 to DW13) 850 nm MultiMode 1310 nm SingleMode 1470 nm 1490 nm 1510 nm 1530 nm 1550 nm 1570 nm...
  • Page 114 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 2. If a Blank Panel is covering the slot, remove it by unfastening the two screws with a 6- inch posidrive screwdriver. 3. Holding the module by the panel, place it between the top and bottom rails in the slot.

  • Page 115: Cabling

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 SFP Module 1. Holding the SFP module with the right side up, slide it about half-way into the SFP receptacle. 2. If the SFP module has a latching mechanism, while holding the SFP module with one hand gently release the latch with the other hand.

  • Page 116: Figure 44: Demux To Demux Cabling Between Ldx00S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Demux to Demux External Cabling for Single-Fiber Point-to-Point Figure 44: Demux to Demux Cabling between LDx00s Single-Interface OADM to Single-Interface OADM Internal Cabling Figure 45: Single-Interface OADM to Single-Interface OADM Cabling in an LDx00...

  • Page 117: Figure 46: Dual-Interface Oadm To Dual-Interface Oadm Cabling In An Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Dual-Interface OADM to Dual-Interface OADM-DF Internal Cabling Figure 46: Dual-Interface OADM to Dual-Interface OADM Cabling in an LDx00 Single-Interface OADM to Single-Interface OADM External Cabling Figure 47: Single-Interface OADM to Single-Interface OADM Cabling between LDx00s...

  • Page 118: Figure 48: Dual-Interface Oadm To Dual-Interface Oadm Cabling Between Ldx00S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Dual-Interface OADM to Dual-Interface OADM External Cabling Figure 48: Dual-Interface OADM to Dual-Interface OADM Cabling between LDx00s Single-Interface OADM to Service Internal Cabling Figure 49: Single-Interface OADM to Service Cabling in an LDx00...

  • Page 119: Figure 50: Single-Interface Oadm To 1+1 Cabling In An Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Single-Interface OADM to 1+1 Internal Cabling Figure 50: Single-Interface OADM to 1+1 Cabling in an LDx00 Single-Interface OADM to Mux External Cabling Figure 51: Single-Interface OADM to Mux Cabling between LDx00s...

  • Page 120: Figure 52: Single-Interface Oadm To Demux Cabling Between Ldx00S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Single-Interface OADM to Demux External Cabling Figure 52: Single-Interface OADM to Demux Cabling between LDx00s Service to Service External Cabling Figure 53: Service to Service Cabling between LDx00s...

  • Page 121: Figure 54: 1+1 To 1+1 Cabling Between Ldx00S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 1+1 to 1+1 External Cabling Figure 54: 1+1 to 1+1 Cabling between LDx00s Transponder to Mux Internal Cabling Figure 55: Transponder to Mux Cabling in an LDx00...

  • Page 122: Figure 56: Transponder To Demux Cabling In An Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Transponder to Demux Internal Cabling Figure 56: Transponder to Demux Cabling in an LDx00 Transponder to OADM Internal Cabling Figure 57: Transponder to OADM Cabling in an LDx00...

  • Page 123: Figure 58: Mux/Demux To Service Cabling In An Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Mux/Demux to Service Internal Cabling Figure 58: Mux/Demux to Service Cabling in an LDx00 Mux/Demux to 1+1 Internal Cabling Figure 59: Mux/Demux to 1+1 Cabling in an LDx00...

  • Page 124: Figure 60: Service To Mgt Cabling In An Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Service to Mgt Internal Cabling Figure 60: Service to Mgt Cabling in an LDx00 1+1 to Mgt Internal Cabling Figure 61: 1+1 to Mgt Cabling in an LDx00...

  • Page 125: Figure 62: Escon-To-Transponder Cabling In Or Between Ldx00S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 ESCON to Transponder Internal Cabling Figure 62: ESCON-to-Transponder Cabling in or between LDx00s ESCON to Mux Internal Cabling Figure 63: ESCON-to-Mux Cabling in or between LDx00s...

  • Page 126: Figure 64: Escon-To-Demux Cabling In Or Between Ldx00S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 ESCON to Demux Internal Cabling Figure 64: ESCON-to-Demux Cabling in or between LDx00s ESCON to ESCON Internal Cabling Figure 65: ESCON-to-ESCON Cabling between LDx00s...

  • Page 127: Figure 66: Pre-Amplifier Oa To Demux Cabling In Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Pre-Amplifier OA to Demux Internal Cabling Figure 66: Pre-Amplifier OA to Demux Cabling in LDx00 Pre-Amplifier OA to Single-Interface OADM Internal Cabling Figure 67: Pre-Amplifier OA to Single-Interface OADM Cabling in LDx00...

  • Page 128: Figure 68: Pre-Amplifier Oa To Dual-Interface Oadm Cabling In Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Pre-Amplifier OA to Dual-Interface OADM Internal Cabling Figure 68: Pre-Amplifier OA to Dual-Interface OADM Cabling in LDx00 Mux to Booster OA Internal Cabling Figure 69: Mux to Booster OA Cabling in LDx00...

  • Page 129: Figure 70: Single-Interface Oadm To Booster Oa Cabling In Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Single-Interface OADM to Booster OA Internal Cabling Figure 70: Single-Interface OADM to Booster OA Cabling in LDx00 Dual-Interface OADM to Booster OA Internal Cabling Figure 71: Dual-Interface OADM to Booster OA Cabling in LDx00...

  • Page 130: Figure 72: Single-Interface Oadm To In-Line Oa To Single-Interface Oadm Cabling In Ldxs00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Single-Interface OADM to In-Line OA to Single-Interface OADM Internal Cabling Figure 72: Single-Interface OADM to In-Line OA to Single-Interface OADM Cabling in LDxs00 Dual-Interface OADM to In-Line OA to Dual-Interface OADM Internal Cabling...

  • Page 131: Figure 74: Gm2-To-Transponder Cabling In An Ldx00

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 GM2 to Transponder Internal Cabling Figure 74: GM2-to-Transponder Cabling in an LDx00 GM2 to Mux Internal Cabling Figure 75: GM2-to-Mux Cabling in an LDx00...

  • Page 132: Access Ports

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 GM2 to Demux Internal Cabling Figure 76: GM2-to-Demux Cabling in an LDx00 GM2 to GM2 External Cabling Figure 77: GM2-to-GM2 Cabling between LDx00s Access Ports Connect the access (data) ports of the Transponders to the access equipment with fiberoptic...

  • Page 133: Management Ports

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Management Ports To manage the LDx00, connect at least one of the following ports as described below. Serial/RS-232 Port (For outband management) With a null-modem (uncrossed) RS-232 cable having a female DB-9 connector, connect an ASCII terminal/emulator serial port to the Management Module’s DB-9 male connector (marked RS-...

  • Page 134: Power Line Connection

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Power Line Connection Set the switch of each Power Supply to the 0 (off) position. Connect one (both) power cord(s) to the LDx00. Connect the end(s) of the power cord(s) to the power line (mains).

  • Page 135: Chapter 4 Startup, Setup, And Operation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Chapter 4 Startup, Setup, and Operation Startup To start up the LDx00, set the switch of each Power Supply to the I (On) position. This causes the LDx00 to undergo initialization.

  • Page 136: Custom Settings

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Setting CLI Command Description Value Read Community String – Password for getting public set-comm information on a specific SNMP setting of the LDx00. Write Community String – Password for private set-comm changing a specific SNMP setting of the LDx00.

  • Page 137: Table 18: Front Panel Leds

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 18: Front Panel LEDs Module Status Significance Power ON-Green Power distribution OK. Supply Power distribution faulty. Transponder ACCESS RX ON-Green Reception at access port OK. Reception at access port faulty.
  • Page 138 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 ON-Green Multiplexed port receiving valid data. Multiplexed port not receiving valid data. LASER ON-Red WDM Transmission laser to IN port off. SHTDWN WDM Transmission laser to IN port OK. ALARM ON-Red Module temperature out of range.

  • Page 139: Chapter 5 Cli Management

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Chapter 5 CLI Management General This chapter describes how to custom setup and manage the LDx00 through its CLI with either of the following management stations: • ASCII terminal/emulator (e.g., VT100 terminal or emulator), or •...

  • Page 140: Password

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Password Access to the CLI of the LDx00 is restricted by password. The existing password can be changed as follows: 1. Type set-password, press Enter . 2. Type the existing password, press Enter .

  • Page 141: Cli Commands

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 CLI Commands General CLI commands can be invoked when the Operational or Boot CLI is accessed. (The section CLI Access gives the procedure for accessing these two CLIs.) This section presents these CLI commands, describes their functions, specifies their interdependence (if any), explains their syntax, and gives examples of usage for each in order to show how they may be used.

  • Page 142: Global Commands

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 The CLI commands can be divided into two groups: − Global Commands − Module-specific Commands Global Commands All CLI commands in the section other than those listed in Table 21 are applicable to the LDx00 as a whole.

  • Page 143: Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 get-trans-counters Show module port counters. clear-trans-counters Clear module port counters. get-card-ports-stat Show status of module ports. get-oa-parameters Show optical amplifier parameters. get-oa-config Show optical amplifier configuration. The CLI commands are presented in detail below under their respective groups (console, system, ip, etc.).
  • Page 144 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Example Suppose the current display is SYS_console>ping 193.128.56.74 387106. To delete all the rightmost word ( press 387106 Ctrl Notes – Command ! (or ^P) Description Show previous command. Syntax ! (or Ctrl Default –...
  • Page 145 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Description When typed: Before a command (After the system prompt) – Show command menus. Within a command – Show all commands with same prefix. After a command – Show all command parameters.
  • Page 146 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 7: set-transponder-lb 5 n 8: set-page 22 Notes To type a command quickly, type # and the number code. Command banner Description Show device banner. Syntax banner Default – Example SYS_console>banner...
  • Page 147 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Description Set console page size. Syntax set-page opt.[arg #0] where, opt.[arg #0] = <5..127|0> 5..127 = Page size (number of lines of text displayable on the screen at a time) in the range 5..127 0 = Last lines of commands.

  • Page 148: System

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Notes Command available only in Operational CLI. Command set-attr-text Description Set text attributes. Syntax set-attr-text [arg #0] where, [arg #0] = <0|1|2|4|8> 0 = normal; 1 = bold; 2 = underlined; 4 = blinking; 8 = reverse video Default –...
  • Page 149 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Fan 3 is ....: OK SNMP Object ID is : < 1.3.6.1.4.1.629.100.2.1> System MAC Address : 00-20-1a-00-ce-03 Total uptime(hundredths of seconds) : 612900 Total uptime(days, hh:mm:ss format) : 0 days, 1:42:09.00 Notes –...
  • Page 150 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Command get-sw-file Description Show name of SNMP Agent software file to be downloaded. Syntax get-sw-file Default – Example SYS_console>get-sw-file NVRAM based remote software file name is flash.hex Notes – Command set-sw-file Description Set name of SNMP Agent software file to be downloaded.
  • Page 151 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Default opt.[arg #0] = client Example SYS_console>set-tftp-mode client Switch Tftp client is enabled for next download Notes – Command get-tftp-mode Description Show current TFTP download mode. Syntax get-tftp-mode Default – Example SYS_console>get-tftp-mode...
  • Page 152 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Device IP address changed in the NVRAM Notes – Command get-ip-cfg Description Show current IP configuration. get-ip-cfg Syntax Default – Example SYS_console>set-ip 191.222.38.57 Device IP address remain unchanged for this session...
  • Page 153 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 The default gateway address is : 197.090.222.58 Notes – Command set-gatew Description Set/change default gateway. set-gatew opt.[arg #0] Syntax where, opt.[arg #0] = <IP address of default gateway>. Default opt.[arg #0] = 0.0.0.0 Example SYS_console>set-gatew 197.090.222.58...

  • Page 154: Snmp (In Operational Cli Only)

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Description Add entry to ARP table. Syntax add-arp-entry [arg #0] [arg #1] [arg #2] where, [arg #0] = <IP address>. [arg #1] = <MAC (physical) address>. [arg #2] = <Interface number>.
  • Page 155 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Example SYS_console>get-comm * Current read community is: < public > Current write community is: < private > Notes – Command set-comm Description Change read or write community string. Syntax set-comm [arg #0] [arg #1] opt.[arg #0] = <read|write>...

  • Page 156: Slot

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Syntax add-trap [arg #0] [arg #1] where, [arg #0] = <IP address>. [arg #1] = <Community string>. Default – Example SYS_console>add-trap 198.33.45.222 Zorro Entry 198.33.45.222 - Zorro added SNMP TRAP TABLE...
  • Page 157 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Default opt.[arg #0] = all slots Example SYS_console>get-redun-card-stat CARD_TYPE SW_POSITION LAST_CMD PRIMARY_RX SECONDARY_RX =============================================================== LD800-RED Primary Manual Notes – Command get-card-ports-stat Description Show status of module ports. Syntax get-card-ports-stat Default –...
  • Page 158 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 CLI_set_transponder_rate: Transponder card in slot 8 is in rate HDTV Notes The value BYPASS must be selected for [arg #1] if the data rate of the terminal equipment is between 10 and 30 Mbps.
  • Page 159 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Port 2 Normal Normal Notes The letter T in the example above designates trunk. Command set-transponder-lb Description Set module mode (normal operation or LoopBack). Syntax set-transponder-lb [arg #0] [arg #1] opt.[arg #2] opt.[arg #3]...
  • Page 160 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Command set-trans-primary-state Activate primary or secondary transponder. (The other transponder of the pair Description goes into standby.) Syntax set-trans-primary-state [arg #0] opt.[arg #1] where, [arg #0] = <slot number>. opt.[arg #1] = <p|s>...
  • Page 161 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Transceiver : 1000BASE-LX Vendor Name : FINISAR CORP. Vendor P/N : FTRJ1521P1BCL Vendor Rev. : A Wavelength : 1550nm Notes To specify the trunk port, for [arg #1] type 0. For a GM2 module, the letter T appearing when the command get-sfp- diagnostics is invoked designates trunk.
  • Page 162 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Notes Counter 1 shows the number of frames received from the remote port by the local port. Counter 2 shows the number of error bits in the frames received from the remote port by the local port.

  • Page 163: Statistics (In Operational Cli Only)

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Alarm Information ----------------- Alarm Status : Optical Input Alarm Optical Output Alarm Notes – Command get-oa-config Description Show optical amplifier configuration. Syntax get-oa-config [arg #0] [arg #0] = <slot>-<slot>-<slot> and/or <slot>..<slot>...
  • Page 164 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Command get-eth-mgt-cnt Description Show Ethernet counter readings of management port. Syntax get-eth-mgt-cnt Default – Example SYS_console>get-eth-mgm-cnt Management Port MIB II Interface Counters ==================================================================== Received: Octets (ifInOctets) 2197152 Unicast Pkts (ifInUcastPkts) 1970...

  • Page 165: General

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix A: Software Upgrading/Downloading General Software can be upgraded/downloaded into the LDx00 in either of the following modes: − LDx00 as TFTP client − LDx00 as TFTP server Setup for upgrade/download can be done with either of the following: −...
  • Page 166 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 5. Enter the TFTP File Name with the command set-sw-file. 6. Start TFTP download with the command sw-dnld. After upgrading/downloading is completed, the LDx00 automatically performs reset to run the new software.

  • Page 167: Appendix B: Troubleshooting

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix B: Troubleshooting The troubleshooting procedure is given in Table 22. Read the entries in the column Problem until you reach the problem that applies to the LDx00. Then perform the corrective action(s) appearing in the same row.
  • Page 168 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 22: Startup and Operation Troubleshooting (Cont’d) Problem Probable Cause Corrective Actions Transponder Cable or port malfunction. 1. Check connections and Module LED integrity of cable LASER OFF on- interconnecting transponder red.
  • Page 169 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 22: Startup and Operation Troubleshooting (Cont’d) Problem Probable Cause Corrective Actions Management No connection 1. Verify that connection to the 1+1 or Module LED OSC between the Service Module is OK.
  • Page 170 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 22: Startup and Operation Troubleshooting (Cont’d) ESCON No valid data from 1. Check the remote ESCON Multiplexer remote ESCON equipment. Module A LED Multiplexer Module. permanently off. GM2 L1 or L2...
  • Page 171 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Table 22: Startup and Operation Troubleshooting (Cont’d) WDM power signal Check the link integrity by communication on too weak. performing the RLB test as a channel described in Appendix C. Check cable connections.

  • Page 172: Appendix C: Loopback Tests

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix C: LoopBack Tests General LoopBack tests (RLB, LLB, and TLB tests) are used to identify the faulty element of a network. Transponders This section describes the loopback tests for an LDx00 network using Transponders for connecting access units.

  • Page 173: Preparation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 WDM Trunk Cabling Local LDx00 (1+1 or Service OADM or Demux Transponder). Preparation TM-SFP Software Control The procedure for configuring the TM-SFP transponders in the local and remote LDx00s so that...
  • Page 174 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 4. With the aid of F igure 39 on page 105, locate Jumper JP8 on the Transponder module and, using Table 8 on page 104, set it to the position NOR (factory default).
  • Page 175 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 [arg #0] = Slot number of the local transponder [arg #1] = 1 (for Transponder 1) or 2 (for Transponder 2) opt.[arg #2] = rlb (RLB mode) opt.[arg #3] = l (enable loopback mode)
  • Page 176 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 opt.[arg #2] = rlb (RLB mode) opt.[arg #3] = n (enable normal mode) Remote 1. Place the Transponder to be installed in the remote LDx00 on a flat clean static-free stable surface.

  • Page 177: Interconnection

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Interconnection Interconnect the local and remote LDx00s, Tester (capable of generating frames), and Management station as shown in F igure 81 Figure 81: RLB/LLB Test Network Topology using Transponders Procedure Feed data signals from the tester and check them after they have made the roundtrip.

  • Page 178: Preparation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 82: Data Path in LLB Test using a Transponder Preparation TM-SFP Software Control LLB test is not available by software control for the TM-SFP transponder. Hardware Control The procedure for configuring the TM-SFP transponders in the local LDx00s so that they can be controlled by hardware is as follows: 1.

  • Page 179: Interconnection

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Hardware Control The procedure for configuring the TM-DXFP transponders in the local LDx00s so that they can be controlled by hardware is as follows: 1. Place the Transponder to be installed in the local LDx00 on a flat clean stable surface.

  • Page 180: Gm2S

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 GM2s This section describes the loopback tests for an LDx00 network using GM2s for connecting access units. RLB Test Purpose The RLB test is used to determine whether the local LDx00, WDM cabling connected to it, and remote LDx00’s...

  • Page 181: Interconnection

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 3. At the management station, invoke the CLI command: set-transponder-lb [arg #0] [arg #1] opt.[arg #2] opt.[arg where, [arg #0] = Slot number of the local GM2 [arg #1] = 1 (if access port 1 was selected for the local GM2 in step 2 of...

  • Page 182: Llb Test

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 LLB Test Purpose The LLB test is used to determine whether the local GM2’s electro-optical circuitry is OK. Data Path The data path (round-trip) in an LLB test is shown schematically in Figure 85 below. (The remote GM2 is not used in the LLB test.)

  • Page 183: Tlb Test

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 TLB Test Purpose The TLB test is used to determine whether the local GM2’s electro-optical circuitry and the local LDx00’s WDM interface are OK. Data Path The data path (round-trip) in an TLB test is shown schematically in Figure 86 below. (The remote GM2 is not used in the TLB test.)

  • Page 184: Appendix D: Cable Wiring

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix D: Cable Wiring DB-9 Connector DB-25 Connector Signal Signal Figure 87: Null-Modem RS-232 Cable Wiring DB-9 Connector DB-25 Connector Signal Signal Figure 88: Modem RS-232 Cable Wiring...

  • Page 185: Figure 89: Ethernet Straight Cable Wiring

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 89: Ethernet Straight Cable Wiring Figure 90: Ethernet Cross Cable Wiring...

  • Page 186: Appendix E: Cleaning Optical Connectors

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix E: Cleaning Optical Connectors General Intrusions (e.g., dust, grease, etc.) at the interface of two optical fibers, such as at a pair of coupled connectors, attenuate the signal through the fiber. Consequently, optical connectors must be clean before they are coupled with other connectors.

  • Page 187: Appendix F: Modem Setup And Installation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix F: Modem Setup and Installation General This appendix describes how to set up and install a dial-up modem via which the LDx00 can be managed from a remote station. Requirements LDx00 Side •...

  • Page 188: Figure 91: Ascii Terminal/Emulator Connection To Ldx00 Via Modem

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 91: ASCII Terminal/Emulator Connection to LDx00 via Modem...

  • Page 189: Appendix G: Replacing A Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix G: Replacing a Module General This appendix shows how to replace modules in the LDX00 chassis. Tools • 6-inch flat-tip screwdriver • 6-inch posidrive screwdriver • Possibly a replacement Power Supply...
  • Page 190 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 5. If the SFP module has a latching mechanism, while holding the SFP module with one hand gently release the latch with the other hand. Usually, the latch handle is a wire frame around the SFP module.

  • Page 191: Appendix H: Servicing The Fan Module

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix H: Servicing the Fan Module Tools • 6-inch flat-tip screwdriver • Possibly a replacement Fan module Procedure LD400 The procedure for cleaning/replacing the Fan module of the LD400 may be performed only at the...

  • Page 192: General

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix I: Redundancy Protection Networks General Redundancy Protection Network Topologies have site disaster recovery capability. They provide a backup for elements (e.g., transponder, OADM, cable, etc.) of the network so that no single failed element will prevent the network from operating properly.

  • Page 193: Ring With Inclusive End-To-End Total Redundancy

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 92: Point-to-Point with Inclusive End-to-End Total Redundancy Ring with Inclusive End-to-End Total Redundancy • Applicable to TEs having redundancy I/Os • Parallel-path and cross-path redundancy • Redundancy includes TE I/Os •...

  • Page 194: Point-To-Point With Exclusive End-To-End Total Redundancy

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 93: Ring with Inclusive End-to-End Total Redundancy Point-to-Point with Exclusive End-to-End Total Redundancy • Parallel-path and cross-path redundancy • No redundancy for TE I/Os...

  • Page 195: Ring With Exclusive End-To-End Total Redundancy

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 • Primed and unprimed elements are mutually redundant • Either primed or unprimed elements switched/enabled by the LDx00 • Dual I/O OADMs • Y-cables for connecting TEs • 2 transponder modules per channel per LDx00 node per link...

  • Page 196: Point-To-Point With Fiber-Only Redundancy

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 95: Ring with Exclusive End-to-End Total Redundancy Point-to-Point with Fiber-only Redundancy • No redundancy for TE I/Os • Primed and unprimed elements are mutually redundant...

  • Page 197: Ring With Fiber-Only Redundancy

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 • Either primed or unprimed TE ports switched/enabled by the TE • Dual I/O OADMs • 1 OADM module per channel per LDx00 node • 1 transponder module per channel per LDx00 node per link...

  • Page 198: Installation

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Figure 97: Ring with Fiber-only Redundancy Installation The installation described in the Chapter 3: Installation applies for all redundancy network topologies. In performing the installation steps, ensure, in particular, the following:...
  • Page 199 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 TM-SFP Transponders: 1. Jumper JP7 is set in the RED position, as shown in Table 7 on page 103. 2. Two mutually redundant transponders operating with the same channel (wavelength) and connected with a Y-cable must be placed in two adjacent slots, so that the odd-number slot has the smaller number.

  • Page 200: Appendix J: Product Specification

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix J: Product Specification Applications Protocols Fast Ethernet, Gigabit Ethernet, ATM or SONET/SDH at OC-1, OC-3, OC-12, OC-48, STM1, STM4, STM16, Fiber Channel, ESCON, Video, and other proprietary protocols. Network Topologies Point-to-point, Ring, Star, Multipoint –...
  • Page 201 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Compliance Safety Certified to UL 1950; CSA 22.2 No. 950; FCC Part 15, Class B; CE-89/336/EEC, 73/23/EEC Management Ethernet Port IEEE 802.3/Ethernet, IEEE 802.3u/Fast Ethernet Wavelength Grid DWDM: ITU G694.1 CWDM: ITU G694.2...
  • Page 202 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 130W 130W LD800 120W 165W Electrical Cabling Serial Port (RS-232) Cable Type: RS-232 Length (max): 15 m (~ 50 ft) Connector Type: D-type female 9-pin shielded connector Connector Pinout: Ethernet Port...
  • Page 203 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 LD400: With Mounting 482 x 89 or 2U x 324 mm (19 x 3.5 or 2U x 12.8 in Brackets Without Mounting 443 x 89 or 2U x 324 mm (17.5 x 3.5 or 2U x 12.8 in...

  • Page 204: Appendix K: Small Form-Factor Pluggables

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Appendix K: Small Form-factor Pluggables (SFPs) The SFP transceiver option offers a very wide selection of interfaces in respect of protocol (e.g., 10/100/1000Base-TX or 1000Base-FX), cable media type (e.g., fiber or copper), carrier wavelength, fiber type, and operating range to tailor suit the application and terminal equipment.
  • Page 205 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 SFP-GD-ELX SFP 1000Base-ELX, SM, 1310nm, 25km, with Digital Diagnostics. SFP-GD-XD SFP 1000Base-XD, SM, 1550nm, 50km, with Digital Diagnostics. SFP-GD-ZX SFP 1000Base-ZX, SM, 1550nm, 80km, with Digital Diagnostics. SFP-GD-EZX SFP 1000Base-EZX, SM 1550nm, 120km, with Digital Diagnostics.
  • Page 206 LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 SFP-48DCWIR-XX SFP OC-48 IR, SM CWDM (XX=Wavelength 1470-1610nm), 50km, with Digital Diagnostics. SFP OC-48 LR, SM CWDM (XX=Wavelength 1470-1610nm), 80 SFP-48DCWLR-XX km, with Digital Diagnostics. Protocol Independent (LC Connectors) SFP-MR27D-SR1 SFP Multi-rate SR1, 100-2700Mbps, SM,1310nm, 2km with Digital Diagnostics.

  • Page 207: Glossary

    LambdaDriver 400 & 800 October 2004 ML46430, Rev. 07 Glossary ALS/APR is a special algorithm-&-sensor mechanism that regularly ALS/APR checks link integrity on the access and trunk (WDM) side. If either of the links is broken (when for e.g., the fiberoptic cable on the access or trunk side is disconnected), the LDx00 performs Automatic Laser Shutdown (ALS/APR) on the WDM link.

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