OP+DWDM8+1D OP+DWDM8+2D / OP+DWDM40 Fiber Optic DWDM Multiplexers and Demultiplexers

Installation and Operation Manual OP+DWDM8+1D OP+DWDM8+2D / OP+DWDM40 Fiber Optic DWDM Multiplexers and Demultiplexers Edition A 175-100110-00 Delivering the Moment

Publication Information 2014 Imagine Communications Corp. Proprietary and Confidential. Imagine Communications considers this document and its contents to be proprietary and confidential. Except for making a reasonable number of copies for your own internal use, you may not reproduce this publication, or any part thereof, in any form, by any method, for any purpose, or in any language other than English without the written consent of Imagine Communications. All others uses are illegal. This publication is designed to assist in the use of the product as it exists on the date of publication of this manual, and may not reflect the product at the current time or an unknown time in the future. This publication does not in any way warrant description accuracy or guarantee the use for the product to which it refers. Imagine Communications reserves the right, without notice to make such changes in equipment, design, specifications, components, or documentation as progress may warrant to improve the performance of the product. Trademarks 6800+, ADC, CCS Navigator, Channel ONE, ChannelView, ClipSync, Delay, D Series, D Series DSX, Deliver the Moment, Delivering the Moment, FAME, Farad, G8, G Scribe, HView, IconMaster, IconLogo, IconStation, IconKey, InfoCaster, InfoCaster Creator, InfoCaster Manager, InfoCaster Player, InstantOnline, Invenio, Live Update, mcapture, Magellan, Magellan CCS Navigator, Magellan Q SEE, MultiService SDN, NetPlus, NetVX, NewsForce, Nexio G8, Nexio AMP ChannelView, Nexio Channel ONE, Nexio ClipSync, Nexio Delay, Nexio Digital Turnaround Processor, Nexio Farad, Nexio G Scribe, Nexio IconKey, Nexio IconLogo, Nexio IconMaster, Nexio IconStation, Nexio InfoCaster, Nexio InfoCaster Creator, Nexio InfoCaster Manager, Nexio InfoCaster Player, Nexio InfoCaster Traffic, Nexio InstantOnline, Nexio mcapture, Nexio News- Force, Nexio NXIQ, Nexio Playlist, Nexio Remote, Nexio RTX Net, Nexio TitleMotion, Nexio TitleOne, Nexio Velocity ESX, Nexio Velocity PRX, Nexio Velocity XNG, Nexio Volt, OPTO+, Panacea, Platinum, Playlist, Predator II GRF, Predator II GX, Punctuate, Remote, RTX Net, QuiC, Q SEE, SD STAR, Selenio, Selenio 6800+, SelenioNext, Selenio X50, Selenio X85, Selenio X100, TitleMotion, TitleOne, Velocity ESX, Velocity PRX, Velocity XNG, Versio, Videotek SD STAR, X50, and X85 are trademarks of Imagine Communications or its subsidiaries. Altitude Express, Connectus, Enabling PersonalizedTV, ICE Broadcast System, ICE Illustrate, ICE Q algorithms, ICE- PAC, Imagine ICE, Inscriber, Inscriber Connectus, Invenio, NEO, Nexio, Nexio AMP, PersonalizedTV, Router- Works, Videotek, Videotek ASI STAR, Videotek GEN STAR, and Videotek HD STAR are registered trademarks of Imagine Communications or its subsidiaries. Microsoft and Windows are registered trademarks of Microsoft Corporation. HD BNC is a trademark of Amphenol Corporation. Some products are manufactured under license from Dolby Laboratories. Dolby and the double D symbol are registered trademarks of Dolby Laboratories. DTS Neural audio products are manufactured under license from DTS Licensing Limited. DTS and the Symbol are registered trademarks & the DTS Logos are trademarks of DTS, Inc. 2008 2010 DTS, Inc. All other trademarks and trade names are the property of their respective companies. Contact Information Imagine Communications has office locations around the world. For locations and contact information see: http://www.imaginecommunications.com/contact us/ Support Contact Information For support contact information see: Support Contacts: http://www.imaginecommunications.com/services/technical support/ ecustomer Portal: http://support.imaginecommunications.com 2014 Imagine Communications Corp. Proprietary and Confidential

OP+DWDM8+1D OP+DWDM8+2D OP+DWDM40 Fiber Optic DWDM Multiplexers and Demultiplexers Installation and Operation Manual Edition A June 2009

Contents Preface Manual Information...v Unpacking/Shipping Information... vii References... viii Restriction on Hazardous Substances (RoHS) Compliance... ix Waste from Electrical and Electronic Equipment (WEEE) Compliance.x Safety Terms and Symbols... xi Chapter 1: Introduction Product Description...1 Back Modules...3 Signal Flow...4 Applications...6 Chapter 2: Installation and Operation Installing and Removing the Modules...11 Installation Overview...11 Back Module Installation...12 Front Module Installation...13 Removing Modules...14 Inspecting and Cleaning Fiber Optic Connections...15 Important Points...15 Inspection and Cleaning Procedure...17 Parameter Settings and Operation...18 Chapter 3: Specifications Wavelengths...19 Miscellaneous...21 Power Consumption...22 OP+DWDM Installation and Operation Manual Copyright 2008-2009, Harris Corporation iii

Contents Appendix A: Laser Safety Guidelines Laser Safety... 23 Precautions for Enclosed Systems... 24 Precautions for Unenclosed Systems... 24 Labels... 25 Appendix B: Communication and Control Troubleshooting Tips Overview... 27 Software Communication Problems... 28 Hardware Communication Problems... 31 Index Keywords... 33 iv OP+DWDM Installation and Operation Manual Copyright 2008-2009, Harris Corporation

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface Manual Information Purpose Audience Revision History This manual details the features, installation procedures, operational procedures, and specifications of the OP+DWDM Fiber Optic DWDM Multiplexers and Demultiplexers. This manual is written for engineers, technicians and operators responsible for the installation, setup, and/or operation of the OP+DWDM Fiber Optic DWDM Multiplexers and Demultiplexers. Table P-1. Manual Revision History Edition Date Revision History A June 2009 Initial release OP+DWDM Installation and Operation Manual v

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface Writing Conventions To enhance your understanding, the authors of this manual have adhered to the following text conventions: Table P-2. Manual Style and Writing Conventions Term or Convention Bold Italics CAPS Code Description Indicates dialog boxes, property sheets, fields, buttons, check boxes, list boxes, combo boxes, menus, submenus, windows, lists, and selection names. Indicates email addresses, the names of books or publications, and the first instances of new terms and specialized words that need emphasis. Indicates a specific key on the keyboard, such as ENTER, TAB, CTRL, ALT, or DELETE. Indicates variables or command-line entries, such as a DOS entry or something you type into a field. > Indicates the direction of navigation through a hierarchy of menus and windows. hyperlink Internet address Note Indicates a jump to another location within the electronic document or elsewhere Indicates a jump to a Web site or URL Indicates important information that helps to avoid and troubleshoot problems. Obtaining Documents Technical documents can be viewed or downloaded from our website. Alternatively, contact your Customer Service representative to request a document. vi OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface Unpacking/Shipping Information This product was carefully inspected, tested, and calibrated before shipment to ensure years of stable and trouble-free service. 1. Check equipment for any visible damage that may have occurred during transit. 2. Confirm that you have received all items listed on the packing list. 3. Contact your dealer if any item on the packing list is missing. 4. Contact the carrier if any item is damaged. 5. Remove all packaging material from the product and its associated components before you install the unit. In the unlikely event that your product fails to operate properly, please contact Customer Service to obtain a Return Authorization (RA) number, then send the unit back for servicing. Keep at least one set of original packaging, in the event that you need to return a product for servicing. If the original package is not available, you can supply your own packaging as long as it meets the following criteria: The packaging must be able to withstand the product s weight. The product must be held rigid within the packaging. There must be at least 2 in. (5 cm) of space between the product and the container. The corners of the product must be protected. Ship products back to us for servicing prepaid and, if possible, in the original packaging material. If the product is still within the warranty period, we will return the product prepaid after servicing. OP+DWDM Installation and Operation Manual vii

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface References ITU-T G.694.1: Spectral grids for WDM applications: DWDM wavelength grid ITU-T G.694.2: Spectral grids for WDM applications: CWDM wavelength grid ITU-T G.695: Optical interfaces for coarse wavelength division multiplexing applications ITU-T G.652: Characteristics of a Single-Mode Optical Fibre Cable IEC 61754-4-1: Fibre optic connector interfaces - Part 4-1: Type SC connector family - Simplified receptacle SC-PC connector interfaces IEC 60874-14-2: Detail specification for fiber optic connector type SC-PC tuned terminated to single-mode fiber type B1 IEC 60874-14-5: Detail specification for fiber optic connector type SC-PC untuned terminated to single-mode fiber type B1 viii OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface Restriction on Hazardous Substances (RoHS) Compliance Directive 2002/95/EC commonly known as the European Union (EU) Restriction on Hazardous Substances (RoHS) sets limits on the use of certain substances found in electrical and electronic equipment. The intent of this legislation is to reduce the amount of hazardous chemicals that may leach out of landfill sites or otherwise contaminate the environment during end-of-life recycling. The Directive, which took effect on July 1, 2006, refers to the following hazardous substances: Lead (Pb) Mercury (Hg) Cadmium (Cd) Hexavalent Chromium (Cr-V1) Polybrominated Biphenyls (PBB) Polybrominated Diphenyl Ethers (PBDE) According to this EU Directive, all products sold in the European Union will be fully RoHS-compliant and lead-free. (See our website for more information.) Spare parts supplied for the repair and upgrade of equipment sold before July 1, 2006 are exempt from the legislation. Equipment that complies with the EU directive will be marked with a RoHS-compliant emblem, as shown in Figure P-1. Figure P-1. RoHS Compliance Emblem OP+DWDM Installation and Operation Manual ix

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface Waste from Electrical and Electronic Equipment (WEEE) Compliance The European Union (EU) Directive 2002/96/EC on Waste from Electrical and Electronic Equipment (WEEE) deals with the collection, treatment, recovery, and recycling of electrical and electronic waste products. The objective of the WEEE Directive is to assign the responsibility for the disposal of associated hazardous waste to either the producers or users of these products. As of August 13, 2005, the producers or users of these products were required to recycle electrical and electronic equipment at end of its useful life, and may not dispose of the equipment in landfills or by using other unapproved methods. (Some EU member states may have different deadlines.) In accordance with this EU Directive, companies selling electric or electronic devices in the EU will affix labels indicating that such products must be properly recycled. (See our website for more information.) Contact your local Sales representative for information on returning these products for recycling. Equipment that complies with the EU directive will be marked with a WEEE-compliant emblem, as shown in Figure P-2. Figure P-2. WEEE Compliance Emblem x OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface Safety Terms and Symbols This product manual uses the following safety terms and symbols to identify certain conditions or practices. Table P-3. Safety Terms and Symbols WARNING: Identifies conditions or practices that can result in personal injury or loss of life high voltage is present. Uninsulated dangerous voltage within the product s enclosure may be sufficient to constitute a risk of electric shock to persons. CAUTION: Identifies conditions or practices that can result in damage to the equipment or other property. Important operating and maintenance (servicing) instructions are included in the literature accompanying the product. OP+DWDM Installation and Operation Manual xi

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Preface xii OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1 Introduction Product Description Table 1-1. OP+DWDM Product Descriptions The OP+DWDM8 and OP+DWDM40 are Dense Wavelength Division Multiplexing (DWDM) multiplexers and demultiplexers. The 8-channel version is a modular product. The 40-channel version is a standalone 1RU frame. Both are both passive fiber devices. Product Name OP+DWDM8+1D OP+DWDM8+2D Description 8-channel optical DWDM multiplexer/demultiplexer, operating in the 193.1 THz to 193.8 THz group of channels (with 100 GHz spacing) 8-channel optical DWDM multiplexer/demultiplexer, operating in the 195.3 THz to 196.0 THz group of channels (with 100 GHz spacing) OP+DWDM40 40-channel optical DWDM multiplexer/demultiplexer in the 192.1 THz to 196.0 THz group of channels (with 100 GHz spacing) OP+DWDM8 The main features of the OP+DWDM8 include: Bidirectional capability Multiplexer and demultiplexer capability in one module Express port for expansion Compliance with ITU-T G.694.1 standards for DWDM wavelengths OP+DWDM Installation and Operation Manual 1

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction OP+DWDM40 The main features of the OP+DWDM40 include: 40-channel passive mux/demux capability in a 1 RU frame Compliance with ITU-T G.694.1 standards for DWDM wavelengths Multiplexer and demultiplexer capability in one frame Bidirectional capability 2 OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Back Modules Chapter 1: Introduction OP+DWDM8+1D OP+DWDM8+2D COM CH31 1552.52 nm CH33 1550.92 nm CH35 1549.32 nm CH37 1547.72 nm EXP CH32 1551.72 nm CH34 1550.12 nm CH36 1548.51 nm CH38 1546.92 nm COM CH53 1535.04 nm CH55 1533. 47 nm CH57 1531.90 nm CH59 1530.33 nm EXP CH54 1534.25 nm CH56 1532.68 nm CH58 1531.12 nm CH60 1529.55 nm Figure 1-1. OP+DWDM8+1D and OP+DWDM8+2D Back Modules COMMON CH21 CH23 CH25 CH27 CH29 CH22 CH24 CH26 CH28 CH30 Figure 1-2. OP+DWDM40 Back Panel, Left Corner OP+DWDM Installation and Operation Manual 3

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction Signal Flow Figure 1-3. OP+DWDM8 Signal Flow Diagram 4 OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction Common Ch39 Ch39 Ch40 Ch40 Ch41 Ch41 Ch42 Ch42 Red/Blue WDM_02 Ch51 Ch51 Ch29 Ch29 Ch52 Ch52 Ch30 Ch30 Red/Blue WDM_03 Ch53 Ch53 Red/Blue WDM_04 Ch31 Ch31 Ch43 Ch43 Ch54 Ch54 Ch21 Ch21 Ch32 Ch32 Ch44 Ch44 Ch55 Ch55 Ch22 Ch22 Ch33 Ch33 Ch45 Ch45 Ch56 Ch56 Ch23 Ch23 Ch34 Ch34 Ch46 Ch46 Ch57 Ch57 Ch24 Ch24 Ch35 Ch35 Ch47 Ch47 Ch58 Ch58 Ch25 Ch25 Ch36 Ch36 Ch48 Ch48 Ch59 Ch59 Ch26 Ch26 Ch37 Ch37 Ch49 Ch49 Ch60 Ch60 Ch27 Ch27 Ch38 Ch38 Ch50 Ch50 Ch28 Ch28 Figure 1-4. OP+DWDM40 Signal Flow OP+DWDM Installation and Operation Manual 5

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction Applications Typical applications for the OP+DWDM8 and OP+DWDM40 are shown in the following pages. Express ports on the OP+DWDM8 provide expansion capability, as shown in Figure 1-5. Bidirectional Common to Common OP+DWDM8+1D OP+DWDM8+1D 8 inputs/outputs bidirectional 8 inputs/outputs bidirectional COM CH31 1552.52 nm CH33 1550.92 nm CH35 1549.32 nm CH37 1547.72 nm EXP CH32 1551.72 nm CH34 1550.12 nm CH36 1548.51 nm CH38 1546.92 nm COM CH31 1552.52 nm CH33 1550.92 nm CH35 1549.32 nm CH37 1547.72 nm EXP CH32 1551.72 nm CH34 1550.12 nm CH36 1548.51 nm CH38 1546.92 nm OP+DWDM8+1D OP+DWDM8+1D Figure 1-5. 8-Channel Bi-directional Mux/Demux Between 2 OP+DWDM8 Modules 6 OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction Bidirectional inputs/ outputs Bidirectional inputs / outputs Common to Express OPT EXPRESS IN OPT OUT 1551 nm IN 1471 nm IN 1571 nm IN 1491 nm IN 1591 nm IN 1511 nm IN 1611 nm IN 1531 nm IN OMS6800+CL8D OP+DWDM8+1D COM EXP CH31 1552.52 nm CH32 1551.72 nm CH33 1550.92 nm CH34 1550.12 nm CH35 1549.32 nm CH36 1548.51 nm CH37 1547.72 nm CH38 1546.92 nm Common to Express Bidirectional Common to Common OPT IN OPT EXPRESS OUT 1351 nm OUT 1271 nm OUT 1371 nm OUT 1291 nm OUT 1431 nm OUT 1311 nm OUT 1451 nm OUT 1331 nm OUT ODS6800+CL8D OP+DWDM8+2D COM EXP CH53 1535.04 nm CH54 1534.25 nm CH55 1533.47 nm CH56 1532.68 nm CH57 1531.90 nm CH58 1531.12 nm CH59 1530.33 nm CH60 1529.55 nm Common to Express Common to Express Bidirectional inputs / outputs Bidirectional inputs / outputs OP+DWDM8+1D OP+DWDM8+2D OP+DWDM8+2D OP+DWDM8+1D Bidirectional inputs / outputs COM CH53 1535.04 nm CH55 1533.47 nm CH57 1531. 90 nm CH59 1530.33 nm EXP CH54 1534. 25 nm CH56 1532.68 nm CH58 1531.12 nm CH60 1529.55 nm COM CH31 1552.52 nm CH33 1550.92 nm CH35 1549.32 nm CH37 1547.72 nm EXP CH32 1551.72 nm CH34 1550.12 nm CH36 1548.51 nm CH38 1546.92 nm Bidirectional inputs / outputs OP+DWDM8+2D OP+DWDM8+1D Figure 1-6. 24-Channel Bidirectional Mux/Demux Between CDWDM and DWDM Modules OP+DWDM Installation and Operation Manual 7

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction 22 channels of mux/demux 22 channels of mux/demux OP+DWDM8+2D OP+DWDM8+2D Bidirectional inputs /outputs (DWDM) COM CH53 1535.04 nm CH55 1533.47 nm CH57 1531. 90 nm CH59 1530.33 nm OP+DWDM8+2D OP+DWDM8+1D EXP CH54 1534. 25 nm CH56 1532.68 nm CH58 1531.12 nm CH60 1529.55 nm 1550 nm 1530 nm Bidirectional inputs/outputs OPT EXPRESS IN OPT OUT 1551 nm IN 1471 nm IN 1571 nm IN 1491 nm IN 1591 nm IN 1511 nm IN 1611 nm IN 1531 nm IN OMS6800+CU8D Bidirectional Common to Common up to 31 miles (50 kilometers) OPT IN OPT EXPRESS OUT 1351 nm OUT 1271 nm OUT 1371 nm OUT 1291 nm OUT 1431 nm OUT 1311 nm OUT 1451 nm OUT 1331 nm OUT ODS6800+CU8D Bidirectional inputs/outputs 1550 nm 1530 nm COM CH53 1535.04 nm CH55 1533.47 nm CH57 1531.90 nm CH59 1530.33 nm OP+DWDM8+2D OP+DWDM8+1D EXP CH54 1534.25 nm CH56 1532.68 nm CH58 1531.12 nm CH60 1529.55 nm Bidirectional inputs /outputs (DWDM) Bidirectional inputs /outputs (DWDM) COM CH31 1552.52 nm CH33 1550.92 nm CH35 1549.32 nm CH37 1547.72 nm EXP CH32 1551.72 nm CH34 1550.12 nm CH36 1548.51 nm CH38 1546.92 nm OP+DWDM8+1D COM EXP CH31 1552.52 nm CH32 1551.72 nm CH33 1550.92 nm CH34 1550.12 nm CH35 1549.32 nm CH36 1548.51 nm CH37 1547.72 nm CH38 1546.92 nm OP+DWDM8+1D Bidirectional inputs /outputs (DWDM) Figure 1-7. 22-Channel Bidirectional Mux/Demux System with 2 DWDM Modules Connected to 2 Channels of CWDM Modules for Wavelength Expansion 8 OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction 8 bidirectional channels 48 channels Common to Express OPT EXPRESS IN OPT OUT 1551 nm IN 1471 nm IN 1571 nm IN 1491 nm IN 1591 nm IN 1511 nm IN 1611 nm IN 1531 nm IN OMS6800+CL8D Bidirectional Common to Common OPT IN OPT EXPRESS OUT 1351 nm OUT 1271 nm OUT 1371 nm OUT 1291 nm OUT 1431 nm OUT 1311 nm OUT 1451 nm OUT 1331 nm OUT ODS6800+CL8D 48 channels Common to Express 8 bidirectional channels COMMON CH21 CH23 CH25 CH27 CH29 COMMON CH21 CH23 CH25 CH27 CH29 CH22 CH24 CH26 CH28 CH30 CH22 CH24 CH26 CH28 CH30 OP+DWDM40 OP+DWDM40 40 Bidirectional channels 40 Bidirectional channels Figure 1-8. 48-Channel Mux/Demux Bidirectional CWDM and DWDM Hybrid Connection OP+DWDM Installation and Operation Manual 9

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 1: Introduction Common to Common CH21 CH23 CH25 CH27 CH29 CH21 CH23 CH25 CH27 CH29 COMMON COMMON CH22 CH24 CH26 CH28 CH30 CH22 CH24 CH26 CH28 CH30 OP+DWDM40 OP+DWDM40 40 Bidirectional channels 40 Bidirectional channels Figure 1-9. 40-Channel Mux/Demux Bidirectional DWDM Connections 10 OP+DWDM Installation and Operation Manual

Chapter 2 Installation and Operation Installing and Removing the Modules Installation Overview OP+DWDM+8 back modules have plastic caps that protect the fragile laser connections from damage. You must remove these protective covers before you make connections to the back modules (see Figure 2-1). In addition, all fiber optic connections must be inspected and cleaned before they are assembled. Carefully follow the inspection and cleaning steps described in the next pages. Additional safety information begins on page 23. CAUTION Take care to avoid touching the fiber optic connections. Thoroughly clean the connections before installation. Remove power from the frame before installing or removing back modules. OP+DWDM Installation and Operation Manual 11

Chapter 2: Installation and Operation Remove these protective covers after you have installed the back module. Figure 2-1. Protective Covers for Laser Connectors Back Module Installation Follow these steps to install the back module into its frame: 1. Remove a blank back plate from the frame. Do not discard the blank back plates. They may be needed for future configurations. 2. Remove the back module from the front module. CAUTION Microscopic dust or other contaminants can seriously impair or disable a fiber optic network. Observe strict cleaning procedures. Do not touch the end of the fiber. 3. Follow the inspection and cleaning procedure that begins on page 15. 4. Install the new back module by inserting the bottom lip into the required frame slot, and then screwing it into place. Ensure that the EMI gaskets on the right side of the back module remain in place during the installation. The EMI gaskets fit tightly. 12 OP+DWDM Installation and Operation Manual

Chapter 2: Installation and Operation Front Module Installation 5. Apply the adhesive label to the back module if it is supplied separately. 6. Remove the plastic caps when you are ready to make connections. 7. Inspect, and if necessary, clean the connections before you install them. OP+DWDM+8 front modules are passive, and can be installed with the power supply either turned on, or turned off. Procedure Follow these steps to install the front module after you have installed the back module: 1. Pull out the finger-release screws on the right and left side of the front panel of the frame, and then open it. 2. On the laser connections of the front module, follow the fiber cleaning instructions that begin on page 15. CAUTION Microscopic dust or other contaminants can seriously impair or disable a fiber optic network. Observe strict cleaning procedures. Do not touch the end of the fiber. 3. Ensure that your front module matches with the corresponding back module of the same name, and then slide the module into the guides on the frame floor. 4. When the module edge is flush with the guide, close the extractor handle. The module is properly seated when its edge is flush with the guide edge and the extractor handle closes. 5. Close the front panel to ensure proper frame ventilation. To prevent overheating, keep the front panel closed and all back module plate slots covered during operation. OP+DWDM Installation and Operation Manual 13

Chapter 2: Installation and Operation Removing Modules NOTE The removal steps provided here are similar to those outlined in your frame Installation and Operation Manual. Refer to that manual for detailed information about installing and operating a frame and its components. Front Module Back Module Follow these steps to remove a front module from a frame: 1. Pull out the finger-release screws on the right and left side of the front panel of the frame, and then open it. 2. Grasp the extractor handle on the installed module, and then pull the module out of its slot; use the handle as a lever. 3. Close the front panel to ensure proper frame ventilation. Follow these steps to remove a back module from a frame: 1. Turn off the frame. 2. Remove the front module, as described above. 3. Unscrew the top of the corresponding back module, and then tip it towards you. 4. Pull the bottom lip of the back module from its slot. 5. Reinstall a new or blank back plate in the empty slot to ensure proper frame ventilation. Reinstall the front module, and then repower the frame. 14 OP+DWDM Installation and Operation Manual

Inspecting and Cleaning Fiber Optic Connections Chapter 2: Installation and Operation Small amounts of microscopic dust or other contaminants can seriously impair or disable a fiber optic network. To ensure that your network operates reliably, you must carefully inspect and clean each connection when installing OPTO+ products. Table 2-1 lists some typical contaminants of a fiber optic connection. The inspection and cleaning procedure begins on page 17. Table 2-1. Typical Contaminants Contaminant Dust particle, 1 micron Dust particle, 9 microns Human hair Oil Film residues Powdery coatings Comments Can block up to 1% of the light transmission, creating a loss of 0.05 db Although microscopic, the particle can completely block the fiber core Typically 50 to 75 microns in diameter Frequently caused by touching Can accumulate from vapors or smoke Can be left behind after water or other solvents evaporate Important Points Before you begin cleaning, always inspect the fiber connections. Inspect and clean both fiber ends every time you make a connection. Keep a protective cap on unplugged fiber connectors. Do not touch the end of a fiber. Store unused protective caps in a clean resealable container, located nearby for easy access. Do not reuse cleaning tissues or swabs. Do not allow alcohol or another wet cleaning agent to dry on a fiber end. OP+DWDM Installation and Operation Manual 15

Chapter 2: Installation and Operation Never touch the dispenser tip of an alcohol bottle or any clean portion of a tissue or swab. Use care when handling the fiber; do not twist or pull. Keep your cleaning fluids away from open flame or spark. Figure 2-2 describes the acceptable limits of defects in a fiber connection. Scratches and dust Zone 1 (0 to 20 micron diameter) No scratches or digs are allowed Zone 2 (20 to 50 micron diameter) Maximum of 3 scratches <1.0 micron width is acceptable; Maximum 1.0 micron light dig is acceptable Zone 3 (50 to 126 micron diameter) Maximum 25 micron dig is acceptable; Maximum scratch size of 1.0 micron is acceptable Maximum 25 micron diameter dig is acceptable Figure 2-2. Fiber Optic Cross-Section 16 OP+DWDM Installation and Operation Manual

Chapter 2: Installation and Operation Inspection and Cleaning Procedure Inspection To inspect and clean the fibers, follow these steps: 1. Ensure the fiber is not live. WARNING Eye damage may occur if an optical instrument such as a microscope, magnifying glass, or eye loupe is used to stare at an energized fiber end. 2. Inspect the fiber endface with a fiberscope. 3. If the fiber endface is clean, return to the installation instructions on page 12 for back modules, or page 13 for front modules. If the connector is dirty, proceed to the dry cleaning instructions below. Dry Cleaning If you are using cartridge or pocket-style dry cleaning tools, follow the manufacturer s directions. If you are using lint-free wipes, follow these steps: 1. Fold the lint-free wipe four to eight times into a square, taking care to avoid touching the cleaning surface of the wipe. 2. Lightly wipe the fiber tip in the central portion of the lint-free wipe. CAUTION Do not scrub the fiber. Excessive rubbing will leave scratches. 3. Repeat the wiping action on another clean section of the wipe or a new wipe. 4. Inspect the connector again with the fiberscope. 5. If the connection is clean, return to the installation steps on page 12 for back modules, or page 13 for front modules. If the connector is still dirty, proceed to the wet cleaning instructions. OP+DWDM Installation and Operation Manual 17

Chapter 2: Installation and Operation Wet Cleaning Using 99.8% isopropyl alcohol and lint-free wipes, follow these steps to wet clean the fiber: 1. Fold the wipe into a square, about 4 to 8 layers thick. 2. Moisten one section of the lint-free wipe with one drop of 99.8% alcohol, ensuring that a portion of the wipe remains dry. 3. Lightly wipe the fiber end in the alcohol-moistened portion of the lint-free wipe. 4. Immediately repeat the wiping action on the dry section of the wipe, removing any residual alcohol. 5. Inspect the fiber endface again, and if necessary, repeat the wet cleaning with another clean section of the lint-free wipe. CAUTION Do not scrub the fiber. Excessive rubbing will leave scratches. 6. Dry clean any remaining residue, and then inspect the connector again. 7. If the contamination persists, repeat the dry and wet cleaning procedure until the endface is clean. If the fiber end still remains dirty after repeated cleaning attempts, call Customer Service for further instructions. If the fiber end is clean, return to the installation instructions on page 12 for back modules, or page 13 for front modules. Parameter Settings and Operation OP+DWDM+8 and OP+DWDM+40 products are completely passive and do not require any settings either at the card edge, or by using external software and hardware controls. OP+DWDM+8 modules will not appear in CCS software applications when they are installed in a frame. 18 OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 3 Specifications Wavelengths Table 3-1. OP+DWDM8+1D and OP+DWDM8+2D Wavelengths OP+DWDM8+1D (Red) OP+DWDM8+2D (Blue) Channel Wavelength (nm) Channel Wavelength (nm) 31 1552.52 53 1535.04 32 1551.72 54 1534.25 33 1550.92 55 1533.47 34 1550.12 56 1532.68 35 1549.32 57 1531.90 36 1548.51 58 1531.12 37 1547.72 59 1530.33 38 1546.92 60 1529.55 OP+DWDM Installation and Operation Manual 19

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 3: Specifications Table 3-2. OP+DWDM40 Wavelengths Channel Wavelength (nm) Channel Wavelength (nm) Ch21 1560.61 Ch41 1544.53 Ch22 1559.79 Ch42 1543.73 Ch23 1558.98 Ch43 1542.94 Ch24 1558.17 Ch44 1542.14 Ch25 1557.36 Ch45 1541.35 Ch26 1556.55 Ch46 1540.56 Ch27 1555.75 Ch47 1539.77 Ch28 1554.94 Ch48 1538.98 Ch29 1554.13 Ch49 1538.19 Ch30 1553.33 Ch50 1537.40 Ch31 1552.52 Ch51 1536.61 Ch32 1551.72 Ch52 1535.82 Ch33 1550.92 Ch53 1535.04 Ch34 1550.12 Ch54 1534.25 Ch35 1549.32 Ch55 1533.47 Ch36 1548.51 Ch56 1532.68 Ch37 1547.72 Ch57 1531.90 Ch38 1546.92 Ch58 1531.12 Ch39 1546.12 Ch59 1530.33 Ch40 1545.32 Ch60 1529.55 20 OP+DWDM Installation and Operation Manual

Preliminary Contents are proprietary and confidential. Do not photocopy or Chapter 3: Specifications Miscellaneous Table 3-3. OP+DWDM8 Miscellaneous Specifications Item Operating Wavelength Range Channel Passband Specification Minimum Typical Maximum 1260~1620 nm >30 GHz Channel Insertion Loss 3.6 db Express Port Insertion Loss 0.8 db 1 Isolation (adjacent channel): DeMUX 28 db 2 Isolation (non-adjacent channel): 35 db 2 DeMUX Uniformity (pk-to-pk single-channel insertion loss variation) 1.0 db Directivity: MUX Return Loss 50 db 45 db Polarization Dependent Loss (PDL) Power Handling 25 dbm 3 0.2 db 1 Express port passing wavelength for the blue band module (OP+DWDM8+1D) is from 1260 nm to 1540 nm and 1560 nm to 1620 nm. Express port passing wavelength for the red band module (OP+DWDM8+2D) is from 1260 nm to 1520 nm and 1540 nm to 1620 nm. 2 Measured across the 30GHz passband 3 CW light at any wavelength from 1250nm to 1650nm OP+DWDM Installation and Operation Manual 21

Preliminary Contents are proprietary and confidential. Do not photocopy or distribute. Chapter 3: Specifications Table 3-4. OP+DWDM40 Miscellaneous Specifications Item Operating Wavelength Passband @ 0.5dB Maximum Insertion Loss Ripple in Passband Uniformity within channels (Mux or Demux) Adjacent Channel Isolation Non-Adjacent Channel Isolation Directivity Return Loss (all ports) Polarization Dependent Loss PMD Specification 1520~1564 nm 0.2 nm 4.5 db 0.5 db 2.0 db 30 db 45 db 50 db 45 db 0.3 db 0.2 ps Power Consumption OP+DWDM8 and OP+DWDM40 products are passive and do not require external power. Temperature The operating temperature for this module is 32 to 113 F (0 to 45 C). 22 OP+DWDM Installation and Operation Manual

Appendix A Laser Safety Guidelines Laser Safety WARNING Use of controls, adjustments, and procedures other than those specified in this document may result in hazardous laser radiation exposure. Optical fiber telecommunication systems use semiconductor laser transmitters that emit infrared light normally not visible to the human eye. Although a conventional laser produces a small beam of light, the power density is very high, and it can damage your eyes. If a beam of laser light enters the eye, the eye magnifies and focuses the energy on the retina. The energy that reaches the retina can be as much as 100,000 times more than at the cornea and, as a result, it can burn the retina. Laser transmission products are classified in four major groups (Class 1, 2, 3, and 4), according to their emissions and potential for causing injury. Most fiber optic transmitter modules in the OPTO+ series are designated Class 1. However, laser radiations at the MUX output of the OP+DWDM+8 and OP+DWDM+40 may exceed Laser Class 1 limits, but will not exceed Laser Class 1M limits. Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments. OP+DWDM Installation and Operation Manual 23

Appendix A: Laser Safety Guidelines Precautions for Enclosed Systems In its normal operating mode, an optical fiber communication system is totally enclosed and presents no risk of eye injury. However, if the fiber optic cables disconnect or break, you may be exposed to laser emissions. Also, technicians may be exposed to laser emissions during installation and servicing. Unlike some other laser designs, semiconductor lasers have a highly divergent beam that decreases rapidly with distance. The greater the distance, the less energy will enter the eye, and the less potential risk for eye injury. Under normal operating conditions, optical fiber telecommunication systems are completely enclosed; nonetheless, observe the following precautions: 1. Do not stare into optical connectors or broken fibers. 2. Ensure technicians have satisfactorily completed an approved training course before performing installation or maintenance. 3. Ensure there are appropriate warning labels near the optical ports of the modules. Precautions for Unenclosed Systems WARNING Eye damage may occur if an optical instrument such as a microscope, magnifying glass, or eye loupe is used to stare at the energized fiber end. During service, maintenance, or restoration, an optical fiber telecommunication system is considered unenclosed. Under these conditions, follow these practices: CAUTION Only authorized, trained personnel shall be permitted to do service, maintenance, and restoration. 1. Avoid exposing the eye to emissions from unterminated, energized optical connectors at close distances. 2. Ensure that only authorized, trained personnel use optical test equipment during installation or servicing. 24 OP+DWDM Installation and Operation Manual

Appendix A: Laser Safety Guidelines 3. Turn off all laser sources before scanning a fiber with an optical test set. 4. Keep all unauthorized personnel away from the immediate area of the optical fiber systems during installation and service. For guidance on the safe use of optical fiber communication systems in the workplace, consult ANSI Z136.2, American National Standard for Safe Use of Lasers in the United States. Outside the United States, consult IEC-60825, Part 2. Labels OP+DWDM+8 and OP+DWDM+40 products by themselves are passive, and are not sources of light. However, as these products are light transmission media, you must follow proper safety practices. Laser radiation at the MUX output of the OP+DWDM+8 and OP+DWDM+40 may exceed Laser Class 1 limits, but will not exceed Laser Class 1M limits. Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments. The label shown in Figure A-1 is applicable to the OP+DWDM+8 and OP+DWDM+40 products. INVISIBLE LASER RADIATION DO NOT VIEW DIRECTLY WITH OPTICAL INSTRUMENTS CLASS 1M LASER PRODUCT Figure A-1. Label for Class 1M Laser Products OP+DWDM Installation and Operation Manual 25

Appendix A: Laser Safety Guidelines 26 OP+DWDM Installation and Operation Manual

Appendix B Communication and Control Troubleshooting Tips Overview Find the following troubleshooting information in this appendix: Software Communication Problems on page 28 Hardware Communication Problems on page 31 OP+DWDM Installation and Operation Manual 27

Appendix B: Communication and Control Troubleshooting Tips Software Communication Problems The frame is powered up, but the module does not communicate with + Pilot Lite or CCS Pilot/Navigator. Solutions Ensure you have specified the proper module slot. See your FR6802+ Frame Installation and Operation Manual for more information about slot identification. Verify whether there is an ICE6800+ or 6800+ETH module installed in the frame. FR6802+ frames only use ICE6800+ modules to communicate with CCS software and hardware. FR6802+QXF frames use ICE6800+ or 6800+ETH modules to communicate with CCS software and hardware. Remove any legacy 6800 series product that is in the frame. + Pilot Lite and CCS software cannot communicate with legacy 6800 series products, even though these modules may operate with card-edge controls in an FR6802+ frame. Legacy 6800 products do not have the + symbol on their extractor handles. Check for bent pins on the back module by following this procedure: a. Unplug the front module. b. Unscrew and remove the back module. c. Inspect the 20- or 30-pin spring connector at the bottom of the back module (Figure B-1 on page 29), and verify that the connector does not have any slightly bent or pressed pins. d. Carefully reposition any bent pins; If this is not possible, contact Customer Support. 28 OP+DWDM Installation and Operation Manual

Appendix B: Communication and Control Troubleshooting Tips Figure B-1. Typical Back Module Spring Connector The frame is powered up, but + Pilot Lite does not communicate with the module. Solutions Ensure you have installed the correct cables between the PC and the frame: A null modem serial cable must be used between a PC and an FR6802+ frame (not a straight-through cable). At minimum, this requires that pins 2 and 3 are crossed, but pin 5 (ground) is straight-through to pin 5. A USB cable must be used between a PC and an FR6802+QXF frame. Verify whether there is an ICE6800+ or 6800+ETH module installed in the frame. + Pilot Lite control is disabled if an ICE6800+ or 6800+ETH control module is installed in the frame. Set the Frame ID DIP switch settings correctly (the Frame ID DIP switch is located at the rear of the frame.) If only one frame is connected, set the DIP switch to 00. If multiple frames are used in a daisy-chain, set the DIP switch numbers consecutively to the following: OP+DWDM Installation and Operation Manual 29

Appendix B: Communication and Control Troubleshooting Tips 00 (frame 1) 01 (frame 2) 10 (frame 3 11 (frame 4) See your FR6802+ Frame Installation and Operation Manual for more information about frame ID switch settings. Check that the correct COM port is configured in + Pilot Lite and that another application is not using that COM port. + Pilot Lite and CCS software see the frame, but do not find all of the modules Solutions Remove any legacy 6800 series products. Plug your modules in before starting the discovery. Start your discovery after the frame and all modules have fully powered up. Refresh + Pilot Lite (File > Refresh), and ensure that the installed modules are fully powered up first before discovery. + Pilot Lite and CCS Pilot/Navigator do not respond after they have been launched. Solution Close either + Pilot Lite or CCS Pilot/Navigator. Both programs cannot be running at the same time on the same PC. + Pilot Lite and CCS software show a module in the control window, but cannot control it. Solution 1. Set the module s Local/Remote jumper to Remote. 2. Ensure the module name in the Control window matches the module type in the frame. 3. Gently push the module into its slot in the frame to ensure it is seated properly and powered up. 4. Verify that the Control window indicates the device is ready. 30 OP+DWDM Installation and Operation Manual

Appendix B: Communication and Control Troubleshooting Tips Hardware Communication Problems After a power failure, the frames and PC do not communicate. Solution 1. Wait four minutes for the frames to recover from the power failure. 2. Close the + Pilot Lite or CCS software, and then restart the PC. 3. Restart the software application. The module does not seem to work. Solutions Ensure the correct frame is powered up. Verify that all appropriate rear connections are secure. Gently push the module into its slot in the frame to ensure it is seated properly. Ensure the back module does not have bent pins by following this procedure: a. Unplug the front module. b. Unscrew and remove the back module. c. Inspect the spring connector at the bottom of the back module (Figure B-1), and verify the connector does not have any slightly bent or pressed pins. d. Carefully reposition any bent pins; if this is not possible, contact Customer Support. OP+DWDM Installation and Operation Manual 31

Appendix B: Communication and Control Troubleshooting Tips 32 OP+DWDM Installation and Operation Manual

Index Keywords A Applications 6 10 B Back modules 3, 12 C Cap removal 11 12 CCS application troubleshooting 28 31 CCS software applications 18 Cleaning and inspecting fiber optics 15 18 Cross-section of optical fiber 16 D Dry cleaning 17 F Features OP+DWDM40 2 OP+DWDM8 1 I Inspecting and cleaning fiber connections 15 18 Installing and removing modules 11 14 L Laser safety guidelines 23 25 M Manual information audience v purpose v revision history v writing conventions vi Miscellaneous specifications 21 22 Modules back 3, 12 installation 11 13 O Operation of the products 18 P Parameter settings 18 Pilot Lite troubleshooting 28 31 Power consumption specifications 22 R Removing modules 14 RoHS-compliance ix OP+DWDM Installation and Operation Manual 33

Index S Safety terms and symbols xi Shipping information vii Signal flow OP+DWDM40 5 OP+DWDM8 4 Specifications 19 22 Standards RoHS compliance ix WEEE compliance x T Temperature specification 22 Troubleshooting 27 31 U Unpacking information vii W Wavelengths 19 20 WEEE compliance x Wet cleaning 18 34 OP+DWDM Installation and Operation Manual