DWDM产品介绍

数据手册OptoStar II 1550 nm DWDM正向直接调制光发射模块综述OptoStar II 光平台是一个先进的传输系统，专为优化网络结构而设计，从而提高网络的可靠性、可扩容性和性价比。

1550 nm直接调制光发射模块放置于OptoStar II 机框内。

在同一机框内能同时放置其它的OptoStar II 应用模块，提高了平台的使用灵活性。

在一个标准的3 RU OptoStar II 机框中可放置14个光发射模块，既可用于 FTTX 网络架构，也可为 IP QAM 输出的本地业务射频信号提供插播用光信号。

图1. OptoStar II 1550 nm 直接调制光发射模块特点● 1 GHz 带宽，为新业务提供更大的带宽容量●先进的失真矫正电路，支持模拟频道信号传输●支持DWDM应用，ITU 20 ~ 59 波长可选●独立的广播和窄播输入端口●前面板有 -20 dB测试口，方便本地调试●前面板上有LED 用来指示模块的各种工作状态●具有自动增益控制（AGC）和手动增益控制（MGC）功能●智能通信接口模块 (ICIM)，提供多种设置和控制方式- 通过 ICIM 的 LCD 屏幕直接进行本地监控- 通过 ICIM 的小型 USB 接口，连接 PC 端的配套软件 (Console) 进行本地监控- 通过 ICIM 的 RJ-45 接口，进行远程状态监测 (SNMP)●可以对固件 (Firmware) 进行升级●支持热插拔功能产品规格表1.光性能指标表2.电性能指标表3.环境和机械性能指标表4.链路载噪比性能指标1,2表5.链路失真性能指标1,2表6.256 QAM BER性能指标1,2,6注：1. 输入信号为未调制的连续波 (CW) 和 256 QAM2. 光纤链路损耗由20 km 或10 km 光纤和光衰减器组成，光接收功率为 0 dBm3. 输入30 个NTSC载波，其射频电平为 15 dBmV/CH，和124个256 QAM 载波，其电平比模拟信号低 6dB，MGC模式，0 dB衰减4. 输入30 个PAL D/K载波，其射频电平为 16 dBmV/CH，和85个256 QAM 载波，其电平比模拟信号低6 dB，MGC模式，0 dB衰减5. 输入153 个256 QAM 载波，其射频电平为 13 dBmV/CH，MGC模式，0 dB衰减6. BER 值是按ITU-T J.83 附录B 规定条件，15 分钟测试时间的平均值除非另行通知，上述指标是参照OptoStar II 机框进风口处的环境温度时的标称性能。

specification guideSinglemode devicesTable of contentsOverview. (3)NG4 Central Office (DWDM MUX) (4)NG4 Central Office (DWDM MUX) ordering information (5)NG4 Central Office (DWDM MUX) optical specifications (7)NG4 chassis solutions (8)LGX Central Office and OSP DWDM modules (9)LGX Central Office (DWDM MUX) ordering information (10)LGX Central Office (DWDM MUX) optical specifications (11)LGX OSP (DWDM DEMUX) ordering information (12)LGX OSP (DWDM DEMUX) optical specifications (13)LGX rack mounting solutions (14)FOSC A and D trays OSP (DWDM DEMUX) (15)FOSC A and D tray OSP (DWDM DEMUX) ordering information (16)FOSC A and D tray OSP (DWDM DEMUX) optical specifications (17)Flat Pack OSP (DWDM DEMUX) (18)Flat Pack OSP (DWDM DEMUX) ordering information (19)Flat Pack OSP (DWDM DEMUX) optical specification (20)FIST-FDASA2 Trays OSP (DWDM DEMUX) (21)FIST-FDASA2 Tray OSP (DWDM DEMUX) ordering information (22)FIST-FDASA2 Tray OSP (DWDM DEMUX) optical specifications (22)OverviewInstalling new fiber is a costly and time-consuming way to support today’s bandwidth-intense applications. Network operators are seeking ways to adapt their existing fiber infrastructure to support new service, increase network capacity, and guarantee consistent performance. CommScope’s WDM integrated solutions allow network operators to increase capacity on existing networks without adding fiber, reduce costs, improve performance, deploy faster, and accelerate return on investment.Applications·Commercial Ethernet services ·Wireless backhaul services·Distributed access architectures (e.g., R-PHY) ·40/100/400 GbE ready optics·Single and dual fiber network architectures ·Existing fiber infrastructure expansionFeatures·4-, 8-, 10-, 20-, and 40-channel configurations ·Low pair loss when linking CO and OSP products ·100 GHz DWDM ITU channel spacing (ITU-T G694.1) ·Options include express, upgrade, and test portsWavelength division multiplexing (WDM) is a technique that allows network operators to multiplex several optical carrier signals onto a single optical fiber by using different optical wavelengths (i.e., colors) of laser light. Each wavelength carries an individual signal that does not interfere with the other wavelengths. WDM enables bidirectional communications over one strand of fiber, as well as multiplication of capacity. No power or additional fiber is required—making WDM solutions quick and easy to install and maintain. WDM has become the preferred option in telecommunications because it enables the network to increase the bit rate and effective bandwidth without having to add fiber.CommScope’s WDM portfolio includes a variety of form factors, optimal for a wide range of ISP and OSP applications. For example, CommScope’s LGX and NG4 ISP MUX modules can be paired with FOSC, flat pack, FIST -FDASA2, or LGX OSP demux modules.NG4 Central Office (DWDM MUX)CommScope’s single-height DWDM NG4 modules comply to GR-1209 and GR-1221 testing requirements. CommScope’s triple-height DWDM NG4 modules comply to GR-63 testing requirements.CommScope’s NG4 DWDM modules are designed to multiplex 8, 16, 20, and 40 DWDM wavelengths with 100 GHz frequency spacing on the DWDM ITU grid (ITU-T G.694.1). DWDM module options include express port (for wavelengths outside the C-band), upgrade port (for additional DWDM wavelengths), and TX and RX test ports.CommScope’s central office DWDM modules are designed to be used with NG4access universal chassis’, rack mount 1RU, and FACT element options and typically mated with compatible OSP DWDM products. The 40 channel NG4 module is designed to install into the NG4access universal chassis’ only.Single-Height NG4 VAM(8-, 16-, and 20-channel configurations)Triple-Height NG4 VAM (40-channel configuration)NG4 Central Office (DWDM MUX) ordering information• Module orientation required for NG4access universal chassis’ only. (As viewed from rear of chassis)• LEFT orientation standard for FACT NG4 Chassis.• 40 channel NG4 module installs into NG4access universal chassis’ only.• Please contact your local sales or customer service representative if required configuration is not listed above.NG4 Central Office (DWDM MUX) ordering information (continued)• Module orientation required for NG4access universal chassis’ only. (As viewed from rear of chassis)• LEFT orientation standard for FACT NG4 Chassis.• 40 channel NG4 module installs into NG4access universal chassis’ only.• Please contact your local sales or customer service representative if required configuration is not listed above.NG4 Central Office (DWDM MUX) optical specificationsOptical specifications include connector loss.NG4 chassis solutionsNG4 access universal chassisFeatures:·Single 4RU and 2RU chassis for all applications·One single-high VAM per access tray loaded from rear side of chassis/frame·Up to 24 single-high VAMs per 4RU universal chassis. Up to 12 single-high VAMs per 2RU universal chassis ·Can be deployed as a standalone 19”/23” chassis in standard racks ·4RU: 19.1 x 19.73 x 6.93 inch (Width x Depth x Height) ·2RU: 19.1 x 19.73 x 3.48 inch (Width x Depth x Height)NG4 1RU Chassis - All Front AccessFeatures:· 3 trays per chassis·Chassis accepts single high standard NG4 modules (front connectors only) · 6 modules per 1RU chassis ·19-in. or 23-in. rack mount options·19.1 x 13.5 x 1.75 inch (Width x Depth x Height)FACT NG4 ChassisFeatures:·The FACT NG4 element includes two trays·Each element can accommodate two single-height NG4 VAM modules ·524 x 283 x 30.95 mm (Width x Depth x Height)LGX Central Office and OSP DWDM modulesDouble-width LGX module (40-channel configuration)Single-width LGX module (4-, 8-, 10- and 20-channelconfigurations)CommScope’s DWDM LGX modules comply to relevant IEC 61753-1, GR-1209 and GR-1221 testing requirements.CommScope’s 3-inch-deep DWDM modules are designed to multiplex and demultiplex 4, 8, 10, 20 and 40 DWDM wavelengths with 100 GHz frequency spacing on the DWDM ITU grid (ITU-T G.694.1). DWDM module options include express port (for wavelengths outside the C-band), upgrade port (for additional DWDM wavelengths), and TX and RX test ports. OTDR service available on 40 and 20-channel modules. OSP DWDM modules include an auxiliary port that combines both the upgrade and express port to pass wavelengths outside of the C-band and additional DWDM wavelengths.CommScope’s central office DWDM modules are designed to be used with LGX chassis options and typically mated with compatible OSPDWDM products.LGX Central Office (DWDM MUX) ordering information ISP - LGX MUXPlease contact your local sales or customer service representative if required configuration is not listed above.LGX Central Office (DWDM MUX) optical specificationsOptical specifications include connector loss.LGX OSP (DWDM DEMUX) ordering information OSP - LGX DMUXPlease contact your local sales or customer service representative if required configuration is not listed above.LGX OSP (DWDM DEMUX) optical specificationsOptical specifications include connector loss.LGX rack mounting solutionsFeatures:·The LGX 4RU back-to-back chassis holds 14 single-width LGX modules per side or seven dual-width LGX modules per side ·Maximum density of 28 single-width LGX modules or 14 dual-width LGX modules ·19-in. or 23-in. rack mount· 2.5-in., 5-in., or 8-in. recess mounting options ·Dimensions (H x W x D): 6.9 x 17 x 15 inches·LGX pass-through module: Pass-through modules (qty. 2 required) can be mounted anywhere in chassis to allow cables from rear modules to pass to front of chassis.Features:·Maximum density of 14 single-width LGX modules or 7 dual-width LGX modules ·19-in. rack mount·Dimensions (H x W x D): 132.5 x 482 x 235 mm Features:·Holds three single-width LGX modules ·19-inch rack mount·Dimensions (H x W x D): 1.7 x 18.9 x 8.9 inches / 44 x 481 x 225 mm4RU back-to-back chassis3RU chassis1RU chassisFOSC A and D trays OSP (DWDM DEMUX)CommScope’s DWDM FOSC trays comply to GR-1209 and GR-1221 testing requirements.CommScope’s DWDM FOSC trays are designed to demultiplex 4, 8, 10, 20 and 40 DWDM wavelengths with 100 GHz frequency spacing on the DWDM ITU grid (ITU-T G.694.1). DWDM FOSC trays include an auxiliary port for wavelengths outside the C-band and for additional DWDM wavelengths, 250 µm fiber, and no connectors. All channel configurations are designed into FOSC A tray. 40-channel configuration is designed into both FOSC A tray (two-tray design) and FOSC D tray.CommScope’s OSP DWDM FOSC trays are designed to be field-installable into FOSC closures and BUDI wall boxes (FOSC A tray only). OSP FOSC trays are typically mated with compatible central office DWDM modules. Contact CommScope sales representative for further FOSC closure and BUDI wall box product information.FOSC A tray(4, 8, 10, 20 and 40 channel configurations)FOSC D tray (40 channel configuration)FOSC tray adapter (Part Number 760242191)FOSC A and D tray OSP (DWDM DEMUX) ordering informationPlease contact your local sales or customer service representative if required configuration is not listed above.FOSC tray adapterThe FOSC tray adapter allows for the use of FOSC A Tray into a FOSC C or D size splice closure.FOSC A and D tray OSP (DWDM DEMUX) optical specificationsFlat Pack OSP (DWDM DEMUX)CommScope’s DWDM flat packs comply to GR-1209 and GR-1221 testing requirements.CommScope’s DWDM flat packs are designed to demultiplex 4, 8, 10, and 20 DWDM wavelengths with 100 GHz frequency spacing on the DWDM ITU Grid (ITU-T G.694.1). DWDM flat packs include an auxiliary port for wavelengths outside the C-band and for additional DWDM wavelengths, 250µm fiber, and no connectors. CommScope’s DWDM flat pack ships with a holder to install onto FOSC trays (NOVUX tray holder coming in 2023).CommScope’s OSP DWDM flat packs ship with a holder to field install into various closures and wall box solutions. OSP flat packs are typically mated with compatible Central Office DWDM modules.Example of S CASE(10 channel configurations)Example of S CASE installed onto FOSC D TrayFlat Pack OSP (DWDM DEMUX) ordering information OSP-cassette demux 250 µmPlease contact your local sales or customer service representative if required configuration is not listed above.Flat Pack OSP (DWDM DEMUX) optical specificationFIST-FDASA2 Trays OSP (DWDM DEMUX)CommScope’s FIST-FDASA2 DWDM trays comply to relevant IEC 61753-1 testing requirements.CommScope’s FIST-FDASA2 DWDM trays are designed to demultiplex 8 DWDM wavelengths with 100 GHz frequency spacing on the DWDM ITU grid (ITU-T G.694.1). DWDM trays include an upgrade path to add, drop, or pass-through C-band DWDM channels not already in use, i.e., only channels that reside in the band 1530-1565 nm.CommScope’s FIST FDASA2 DWDM trays are designed to be used with FIST-GSS shelves, BUDI wall mount closures, and FIST closures (FIST-GCO2, FIST-GCOG2, FIST-MSC, FIST-EDSA). DWDM trays are typically mated with compatible central office DWDM products.8mm Height FDASA2 Tray(8 channel configurations)FIST-FDASA2 Tray OSP (DWDM DEMUX) ordering information OSP – FIST-FDASA2 DEMUXFIST-FDASA2 Tray OSP (DWDM DEMUX) optical specificationsCommScope pushes the boundaries of communicationstechnology with game-changing ideas and ground-breakingdiscoveries that spark profound human achievement.We collaborate with our customers and partners to design,create and build the world’s most advanced networks. It is ourpassion and commitment to identify the next opportunity andrealize a better tomorrow. Discover more at Visit our website or contact your local CommScope representative for more information.© 2023 CommScope, Inc. All rights reserved. All trademarks identified by ™ or ® are trademarks or registered trademarks in the US and may be registered in other countries. All product names, trademarks and registered trademarks are property of their respective owners. This document is for planning purposes only and is not intended to modify or supplement any specifications or warranties relating to CommScope products or services.。

DWDM产品常见基础知识解答产品名称使用对象产品版本编写部门资料版本DWDM产品常见基础知识解答日期：日期：日期：日期：华为技术有限公司版权所有侵权必究修订记录日期修订版本作者描述2001 V1.0 初稿20050310 V2.0 刘建堂与FAQ的内容合并名目1 公共知识62 光功率单位dBm和mW之间如何换算？63 光功率单位dBm和dB之间的关系？ 64 光纤头SC/PC中“SC”和“PC”的含义？65 何谓ESCON？76 何谓FICON? 77 RZ、NRZ、CRZ编码的原理与区不 88 CRZ如何实现超长距离传输：89 带内FEC、带外FEC两者区不是什么？910 G.957和G.709标准FEC协议的区不？911 光纤传输的非线性效应对系统有什么阻碍？1012 单纤双向和双纤双向有什么不同？1013 G.655光纤有什么优点？1114 测试光纤一样要测试什么指标？1115 第二代传输光纤对比介绍（LEAF、ALL-W A VE 、RS-W A VE）？1116 1310nm的固定光衰能用在波分设备中吗？1217 如何样进行色散补偿？ 1218 开放式、半开放式、集成式系统的区不？1219 前向纠错（FEC）功能提升了系统的信噪比吗？1320 A LS（自动激光器关断）和APSD（自动光功率减少）的区不？1321 不同的外表测量OSNR的值在MPI-S点什么缘故会不一样，而在MPI-R点则差不多？1422 M S9710C外表如何进行校准？1423 使用回波损耗仪的注意事项1424 极化有关损耗的测试方法1425 P MD色散原理和测量方法？1526 S F/SD产生条件1527 R AMAN放大板的噪声系数什么缘故会是负数？1628 E DFA采纳1480nm和980nm泵浦性能上有什么区不,与RAMAN泵浦的区不？1629 拉曼放大器的性能讲明 1630 M R2板插损的含义，如何样进行测试？1731 M R2采纳的滤波器和MB2的滤波器的原理与作用？1832 不同CnLWM的区不？1933 不同CnLWX的区不？1934 E1LWC/E2LWC/71LWC各有什么不同？能否对接？2035 L DG的错包率检测是如何实现的？ 2036 波长转换板上的波长拨码开关的作用？2037 O LP光线路爱护倒换的设置？2038 采纳OLP板组网时，光路调测要注意什么？2139 主控板上的数据库结构 2240 T MUX技术原理与应用（OCU、LDG、LQS、LGS）？2241 71OCU/72OCU/E1OCU的区不。

FN SERIESFN1200Long-haul DWDM/OTN PLATFORMProduct OverviewFN1200 is a multi-service intelligent WDMproduct based on OTN technology. FN1200 adopts combined dispatching technology in optical and electrical layers and has the aggregation, cross-connection and transmission functions. After loading intelligent control plane based on GMPLS, FN1200 has SDH-Like flexibility of management and WDM-like large capacity and long haul transmission advantages.The platform adopts many advanced technologies such as ROADM, 40G, 100G, ASON/GMPLS etc and also has flexiblestructure, so it is more suitable for broadband service transmission.FN1200 supports application in multi-service, huge capacity and completely transparent transport network and can be used in backbone and metropolitan. FN1200 can construct WDM network, also can construct mixed network with PTN/ASON/MSTP to realize total transportsolution.Key Features Huge Transmission Capacity Implement access of 48/96 wavelength in C-Band,configured into system of 40/48 wavelengths x 10/40Gbps, 80/96 wavelengths x 10/40Gbps and support smoothly upgrade from 40Gbps to 100Gbps * Under Development Abundant Service Interfaces Adopting G.709 Digital wrapping to carryall kinds of protocol (IP/Ethernet, ATM, SDH, ESCON, FICON, Fibre Channel and Digital Video etc) or bit-rate (100Mbps to 2.5Gbps,5Gbps, 10Gbps, 40Gbps, etc). It has TMUX function so as to improve bandwidth utilization ratio.Flexible Service dispatchingAdopting combined dispatchingtechnology in electrical layer and opticallayer to realize flexible cross-connection dispatching.Intelligent Optical Network Support Control plane loading based on GMPLS, smooth upgrade to ASON transport network based on OTN.ROADM Optical Transmit Unit Optical Transmit Unit OTN Port OTN PortXCUClient Port Client Port Optical Layer Electrical Layer Control Plane Control Plane Management Plane Management Plane GE, FC, DVB, Any, STM-16/OTU1, STM-64/10GE/OTU2, STM-256/OTU3/40GESTM-64/OTU2/10GE STM-256/OTU3/40GETechnical SummaryBefore installing, connection or using this product, be sure to carefully read and observe the cautionary andprohibited matters provided in the instruction manual.Safety Precautions y The company names and product names given in this catalog are trademarks or registered trademarks of the respective companies.y The configuration or specifications are subject to change without prior notice due to continual improvements.!For inquiries, contact :Published by:NEC CorporationGlobal Network Division Issue 1.0 June 2011Operating temprature: -5 ~ 45°CRelative humidity:5%~95%Environment520.5mmx496mmx248.3mm (HxWxD)Optical Channel subrack dimension 1600mmx600mmx300mm (HxWxD)2000mmx600mmx300mm (HxWxD)2200mmx600mmx300mm (HxWxD)2600mmx600mmx300mm (HxWxD)Cabinet dimension 947mmx496mmx248.3mm (HxWxD)OTH subrack dimension OSC or ESCSupervisory channel STM-1/4/16/64/256, OC3/12/48/192/768 OTU1, OTU2, OTU3GE, 10GE LAN, 10GE WAN, 40GEESCON, FICON, FC100/200/400/800/1200DVB, HDTV, Any-rate (100Mbit/s~2.7Gbit/s)Access service types FOADM/ROADM supports add/drop up to all wavelengths andROADM can support up to 8 dimensionsOADM ODU1, ODU2, ODU3 granules dispatching in electrical layer Cross-connection capacity up to 1.44Gbps Cross-connect dispatching1500WMaximum power consumption Optical channel 1+1 wavelength/route protectionOptical multiplex section 1+1 protectionOptical line protectionOch 1+!, OCh m:n, OCh RingODUk 1+1, ODUk m:n, ODUk RingNetwork level protection 2.5Gbit/s (NRZ) 10Gbit/s (NRZ) 40Gbit/s (sDPSK, RZ-DQPSK)Line interface bit-rate-48V +/-20% (DC)Power Smooth upgrade capability of 48/96 wavelength; Maximum system capacity up to 3.84Tbits/s System Capacity-48V power, EMU, XCU, ASCU, PWR, Intelligent Fan unit support1+1 redundancy backupEquipment level protection FN1200。

1 波分复用光传输技术1.1 波分复用的基本概念光通信系统可以按照不同的方式进行分类。

如果按照信号的复用方式来进行分类，可分为频分复用系统（FDM-Frequency Division Multiplexing ）、时分复用系统（TDM-Time Division Multiplexing）、波分复用系统（ WDM-Wavelength Division Multiplexing）和空分复用系统（ SDM-Space Division Multiplexing）。

所谓频分、时分、波分和空分复用，是指按频率、时间、波长和空间来进行分割的光通信系统。

应当说，频率和波长是紧密相关的，频分也即波分，但在光通信系统中，由于波分复用系统分离波长是采用光学分光元件，它不同于一般电通信中采用的滤波器，所以我们仍将两者分成两个不同的系统。

波分复用是光纤通信中的一种传输技术，它利用了一根光纤可以同时传输多个不同波长的光载波的特点，把光纤可能应用的波长范围划分成若干个波段，每个波段作一个独立的通道传输一种预定波长的光信号。

光波分复用的实质是在光纤上进行光频分复用（ OFDM），只是因为光波通常采用波长而不用频率来描述、监测与控制。

随着电 -光技术的向前发展，在同一光纤中波长的密度会变得很高。

因而，使用术语密集波分复用（DWDM-Dense Wavelength Division Multiplexing），与此对照，还有波长密度较低的 WDM系统，较低密度的就称为稀疏波分复用（CWDM-Coarse Wave Division Multiplexing）。

这里可以将一根光纤看作是一个“多车道”的公用道路，传统的 TDM系统只不过利用了这条道路的一条车道，提高比特率相当于在该车道上加快行驶速度来增加单位时间内的运输量。

而使用 DWDM技术，类似利用公用道路上尚未使用的车道，以获取光纤中未开发的巨大传输能力。

1.2 WDM技术的发展背景随着科学技术的迅猛发展，通信领域的信息传送量正以一种加速度的形式膨胀。

无源波分设备产品介绍01 02 03无源波分产品原理无源波分使用场景无源波分安装及维护指导3波分复用器波分复用器彩光模块4l WDM （wavelength Division Multiplexing ）是将一系列载有信息、但波长不同的光信号合成一束，沿着单根光纤传输；在接收端再用同样的技术，将各个不同波长的光信号分开的通信技术。

这种技术可以同时在一根光纤上传输多路信号，每一路信号都由某种特定波长的光来传送，一个波长称之为一个信道。

l 不同光纤类型不同波长有不同的衰减目前国内大量使用的是G.652D 光纤，因为此光纤比其他类型的G.652光纤类型在1383+/-3nm 水峰处的衰减系数最低，同时PMD 也更小。

G.652D 光纤正常的衰减系数：0.35dB/km （1310nm ），0.25dB/km （1550nm）l1l2l3l4l5l6l1l2l3l4l5l6MUX DEMUX5l CWDM （Coarse Wavelength Division Multiplexing）：信道间隔20nm ，工作波长范围为1271nm~1611nm 。

因此CWDM 对激光器、复用/解复用器的要求大大降低，极大地减少了扩容成本。

主要用于中短距离的光城域网中,并且无法通过光再次放大增加传输距离，因为CWDM 整个光谱太宽340nm ，光放增益无法达到；l DWDM （Dense Wavelength Division Multiplexing ）:最小信道间隔0.2nm ，C+band 最多可以传输192波（10G ）。

利用单模光纤的带宽以及低损耗的特性，采用多个波长作为载波，允许各载波信道在光纤内同时传输。

适合大容量、传输距离比较远的网络，同时可以实现EDFA 光纤光放器对信号放大，实现超长跨距；DWDM6filter中心波长带宽•λcenter = λc -6.5 ~ λc +6.5±6.5nm CWDM Gridwavelength λcenterUnit: nm 1分8波分复用器1分16波分复用器方案说明：•每个波长都是按照上图所示带宽为+/-6.5nm 的带通滤波器，激光器的光谱大于这个滤波窗口就会对传输的信号损伤；•波分复用器的端口数是通过滤波器的级联而实现，每个端口都是一个特定的波长，端口数越多也就是级联级数越多，级联越多插损越大；主要波分复用规格7Ø由于RRU 是室外工作设备，R 与其对接的波分复用器需要具备以下几个特性：•工作温度：-40度~85度•防水防尘：IP67•安装方式：19英寸、抱杆或者挂壁•集成度：支持3个插片（1U ）、支持16个槽位（3U ）•支持混传：支持多种速率业务的混传•业务能力：支持CPRI 等业务的透明传输1U 托盘MD16无源机框1U 盒子OM12/OD123U盒子挂壁或者抱杆防水盒8p 光模块主要由光电子器件、功能电路和光接口等组成，包括发射和接收两部分。

波分复用系列WDM设备是珠海飞宇光电科技有限公司推出的高速率、大容量波分复用传输系统，业务通道数量可达48波，单波道最高速率为10Gbit/s，总容量达480Gbit，可以最大程度地满足电信运营商超大容量和超长距离传输的需求，为运营商的多业务运行及未来网络升级扩容提供了稳定的平台，是目前应对光缆资源紧张的最佳解决方案。

产品介绍DWDM密集波分复用系统（2U＋1U）2U机架式DWDM 设备采用可灵活扩展的架构，支持模块化在线升级，易于扩容和维护,同时支持带内、带外网管，可灵活管理,设备业务接口丰富，配置灵活，组网经济，运行可靠，有效满足新时期城域大颗粒业务的传送、汇聚需求。

2U机架式DWDM2U+1U设备外形图功能特点◆设备容量大： DWDM单通道速率可达10G，总容量可达480G，C+L段可扩容至1600G◆设备组网灵活:可以组成点到点、点对多点、链状、环状、等网络拓扑结构。

◆多种业务灵活透明接入:支持以太网、PDH、SDH、CATV及专网等业务；◆传输速率：支持125Mbps~10Gbps各种速率。

◆传输距离：10~120km等多种距离；支持中继，实现长距离的传输。

◆良好的可扩展性: DWDM最大可扩展到48波。

◆1＋1光复用段保护：光路倒换时间≤30ms，保证线路的安全可靠。

◆开放式系统结构：支持不同厂家的设备互连、互通,支持客户端设备为单模、多模、电口可选◆强大的网管功能：支持基于SNMP的网管，同时支持CLI、WEB、TELNET等网管方式◆1＋1电源热冗余备份：有源波分设备提供双电源1+1热备份功能，电源支持热插拔，交、直流可选。

技术参数系统参数技术指标单系统最大容量16波、32波、40波、48波业务接入类型PDH 、ATM、SDH（STM-1~STM-64）O -192/~OC-3 FE、GE、10GE、FICON/ESCON/FIBER Channel/CATV光接口传输方式采用3R传输方式，单通道速率支持125Mbps~10Gbps可选物理网络拓扑结构点到点，点到多点，链路，环路，单纤双向光纤类型G.652 G.653 G.655网管方式CLI 、TELNET、SNMP、WEB产品尺寸2U OTU卡 25（W）× 88（H）× 116（D） (mm) 1U无源机箱 440（W）× 44（H）× 230（D）（mm）2U机箱 428（W）× 88（H）× 322（D） (mm)环境要求工作温度-10℃ ~ 60℃存储温度-40℃ ~ 80℃相对湿度5% ~ 95% 无凝结电源要求（标值）220 V/AC， 50Hz；-48 V/DC（可选配）安全与EMC 符合FCC、UL、CE、TUV、CSA标准功耗10G满配≤60W典型应用如图所示核心网DWDM典型解决方案。

VIAVI SolutionsData SheetVIAVIDWDM OTDR Module (4100-Series)For T-BERD®/MTS-2000, -4000 V2, -5800, CellAdvisor 5G and OneAdvisor 800 PlatformsAs xWDM technology adoption continues to grow in access networks for broadband services, technicians require comprehensive and lightweight xWDM test tools.Consisting of a single module, the VIAVI C-band DWDM OTDR solution enables cable, wireless, and telco operators to perform complete end-to-end link characterization and troubleshooting of DWDM and hybrid CWDM/DWDM networks.Key Benefitsy Characterize fiber links with exact DWDM wavelengthsy Troubleshoot live networks with in-service testing capability via MUX and Common (test) port y Verify end-to-end continuity through MUX/DEMUX and ROADMs using the continuous wave source functiony Automatically identify and test DWDM port channel/link with patented Wavescan y Avoid accidental transceiver damage with SFP ProtectKey Featuresy C-Band (1528 nm to 1568 nm) tunablefilter DWDM OTDR module at ITU-T G.694.1 wavelengths (CH12 to CH62) y Integrated CW light source with modulation capabilityy Instantaneous traffic detectiony Automatically identify Mux and Demux components with SmartLink Mapper y Tunable filter HW optionalApplicationsy Metro and access rings, business to business, advanced C-RAN fronthauls and next gen FTTH networksy Qualification of fronthaul access networksy Testing new DWDM wavelength routes without disrupting traffic on active channelsy Pinpointing faults and their exact locations while in serviceThe DWDM OTDR module’s optical performance, combined with the complete suite of platform enabled testing features, ensures that comprehensive testing is done right the first time.Standard testing features include:y Auto-setting of the acquisition parametersy Summary results table with pass/fail analysis per the international standards y Comprehensive event diagnosis yFastReport onboard report generation2020 Broadband Technology Review ‒4.5 Diamond Award WinnerSpecifications (typical at 25°C)1. Laser at 25°C and measured at 10 µs.2. The one-way difference between the extrapolated backscattering level at the startof the fiber and the RMS noise level, after 3 minutes averaging and using the largestpulsewidth.3. Measured at ±1.5 dB down from the peak of an unsaturated reflective event usingthe shortest pulsewidth.4. Measured at ±0.5 dB from the linear regression using a FC/PC reflectance and usingthe shortest pulsewidth.5. Subtract 3 dB when used in modulation mode (270/330/1/2 kHz).Ordering Information Array DWDM OTDR Module E41DWDMC-PC/-APCE41FDWDMC-PC/-APCTunable Filter DWDMOTDR ModuleEWAVESCANWavescan® SW option forDWDM OTDR ModuleESFPPROTECTSFP Protect SW option forDWDM OTDR ModuleOptical AdaptersSwitchable Adapters EUSCADS, EUSCADS-APC, EUFCADS,EULCADS,EULCADS-APC2 VIAVI T-BERD/MTS 4100 Series DWDM OTDR Module。

WDM产品现状及主流厂商产品分析翁颖本刊记者丁晓芦关键词:WDM, DWDM, CWDM, 中国电信、中国联通、中国移动、中国网通、中国铁通摘要: DWDM系统由于传输容量大、传输距离长、价格高等特点,在国家干线﹑省级干线﹑城域核心层的传输系统中使用比较经济。

而CWDM技术与DWDM技术一样都具有传输容量大的特点，同时与DWDM技术相比较而言，具有成本低、功耗低、体积小、传输距离较短等诸多特点，适合在城域网接入层使用。

一﹑WDM产品市场状况1997年我国开始在省际干线(西安－武汉)应用第一条WDM系统,从2000至今，WDM系统因为可以充分利用光纤的巨大带宽资源，在大容量长途传输时可以节约大量光纤、再生中继器和光放大器，从而大大降低传输成本，所以作为我国电信网络的国家干线(一级干线)﹑省级干线(二级干线)光纤扩容最有效和最经济的手段得到了大规模应用。

中国电信、中国联通、中国移动、中国网通、中国铁通等各大运营商以及各种专网的建设成为促进我国WDM产品市场快速发展的原动力。

2000年,原中国电信集团公司斥巨资采用密集波分复用技术，对我国“八横八纵”光缆网进行适当改造、扩容。

2001年底中国移动先后开始建设东北环传输系统及东部环传输系统两个省际光传送网项目，采用WDM系统覆盖了山东、江苏、上海、北京、天津等17个省市。

2002年电信、网通的分拆使他们工程的建设计划处于搁置状态,但是中国联通的本地网及干线设备选型,中国移动的干线扩容还是为设备厂商提供了机会,2002年传输市场规模在150亿元左右,如果按照SDH 75%、WDM 25%的比例,WDM的市场规模应该在40亿元左右, 2003年分拆完毕的中国电信和中国网通分别在北方和南方进行的补网工程为传输设备厂商提供了机会，预计2003年的传输市场规模将基本与2002年持平，越来越丰富的多媒体应用及数据业务将促进有线无线接入的宽带化，这必然会促进传输网络的建设,并必将对WDM产品产生持续稳定的需求。