市場調査レポート

高速光ファイバー通信および波長分散補償器:産業動向・技術・市場

High-speed Fiber Optics Communications and Chromatic Dispersion Compensation - Industry Trends, Technologies and Markets

発行 Practel, Inc. 商品コード 247678
出版日 ページ情報 英文
納期: 即日から翌営業日
価格
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高速光ファイバー通信および波長分散補償器:産業動向・技術・市場 High-speed Fiber Optics Communications and Chromatic Dispersion Compensation - Industry Trends, Technologies and Markets
出版日: 2012年07月26日 ページ情報: 英文
概要

当レポートでは、ウルトラロングホールおよびロングホールネットワークにおける高速(10Gb/s以上)光ファイバー通信システムの発展について調査し、波長分散補償器の転換における技術・マーケティング側面を分析しており、概略下記の構成でお届けいたします。

第1章 イントロダクション

第2章 波長分散補償器:特徴

  • 測定−CD
  • ファイバーおよび規格
  • CDCの要件
  • 選択および種類
  • 可変波長分散補償器

第3章 直接検出およびコヒーレント受信機

  • 現況
  • 直接検出
  • コヒーレント受信機

第4章 関連特許

第5章 産業:波長分散補償器

  • 3S Photonics (DCF) - 2011年、EURAZEOにより買収
  • Alnair (FBG)
  • Broadcom (ICs)
  • ClariPhy (Chips)
  • Draka (DCF)
  • MRV (DCM)
  • Oclaro (Etalon, TDC)
  • Proximion (FBG)
  • Redfern (FBG)
  • Telecom Engineering (FGB, DCF)
  • TeraXion (Static, TDC)

第6章 マーケティング動向

  • 概要
  • 状況

第7章 結論

目次

This report concerns the development of high-speed (10 Gb/s and up) fiber optics communications systems in Ultra Long-haul, Long-haul (and partially Metro) networks.

In particular, it addresses current trends in efficient mitigation of Chromatic Dispersion for such systems.

It studies the transformation of the Chromatic Dispersion Compensators (CDCs) market due to commercialization of coherent receivers as well as advanced methods of modulation and employing of Digital Signal Processing (DSP).

In the analyzed period of time (2012-2016), 10 Gb/s fiber optics systems will coexist with the newer 40 Gb/s and 100 Gb/s systems (as well as, possibly even with higher transmission rate systems). Traditional CDCs will mainly be used in 10 Gb/s systems, which market may be on decline starting from 2016-2017 (though, still very significant). Together with this process, the market for higher rate systems will be growing as they are becoming more cost-efficient in satisfying user demand for transmission larger volumes of traffic. Chromatic Dispersion Compensators, in the form known by now, may become unnecessary for higher rate systems: all work will be done by the coherent receivers and DSPs, which will prevail in 100 Gb/s and 40 Gb/s transmission systems (though some 40 Gb/s systems may still be using direct detection).

The report is analyzing technical and marketing aspects of such Chromatic Dispersion Compensators transformation.

It also includes:

  • The analysis of patents related to CDCs - 2010-2012. Such an analysis relates to the R&D efforts in the discussed time frame. Though not documented, we also analyzed patents for CDCs granted in 2004-2005; and found out that the number of patents is on decline:
  • The industry survey. Our estimation is that, comparing with 2002-2005, the number of CDC vendors is declining (20%-30%). Several companies went out of business, merged or changed their profile;
  • Market characteristics for the discussed fiber optics communications systems; as well as related CDC characteristics.

Table of Contents

1.0. Introduction

  • 1.1. Nature
  • 1.2. Phases
  • 1.3. Scope
  • 1.4. Research Methodology
  • 1.5. Target Audience

2.0. Chromatic Dispersion Compensators: Characteristics

  • 2.1. Measurements - CD
    • 2.1.1. Definitions
    • 2.1.2. Tolerance
      • 2.1.2.1. Examples
  • 2.2. Fibers and Standards
    • 2.2.1. Fiber Types
    • 2.2.2. Related Standards
  • 2.3. Requirements to CDC
  • 2.4. Choices and Types
    • 2.4.1. DCF
    • 2.4.2. Etalon
    • 2.4.3. EDC
    • 2.4.4. Fiber Grating
  • 2.5. Tunable Dispersion Compensators
    • 2.5.1. Issues
    • 2.5.2. Approaches
      • 2.5.2.1. Supervisory Channel
      • 2.5.2.2. General: Tunable Dispersion Compensation

3.0. Direct Detection and Coherent Receiver

  • 3.1. Current Situation
  • 3.2. Direct Detection
    • 3.2.1. Limitations
  • 3.3. Coherent Detection
    • 3.3.1. Benefits
    • 3.3.2. Issues
    • 3.3.3. Details

4.0. Related Patents

5.0. Industry - Chromatic Dispersion Compensators

  • 3S Photonics (DCF) - Acquired by EURAZEO in 2011
  • Alnair (FBG)
  • Broadcom (ICs)
  • ClariPhy (Chips)
  • Draka (DCF)
  • MRV (DCM)
  • Oclaro (Etalon, TDC)
  • Proximion (FBG)
  • Redfern (FBG)
  • Telecom Engineering (FGB, DCF)
  • TeraXion (Static, TDC)

6.0. Marketing Trends

  • 6.1. General
  • 6.2. Status

7.0. Conclusions

LIST OF FIGURES:

  • Figure 1: Dispersion Compensation for SSF
  • Figure 2: Penalty
  • Figure 3: Details
  • Figure 4: Maximum CD Accumulation
  • Figure 5: Direct Reception Illustration
  • Figure 6: Simplified Coherent Receiver Block Diagram
  • Figure 7: TAM: Global Long-haul and Ultra Long-haul Optical Transmission ($B)
  • Figure 8: TAM: Global Long-haul and Ultra Long-haul 10 Gb/s Optical Transmission ($B)
  • Figure 9: TAM: Global Long-haul and Ultra Long-haul Fiber Optics Transmission 40 Gb/s and 100 Gb/s ($B)
  • Figure 10: TAM: CDC Global Long-haul & Ultra Long-haul Fiber Optics Transmission (10 Gb/s; $B)

LIST OF TABLES:

  • Table 1: G.652D Fiber Parameters
  • Table 2: Characteristics
  • Table 3: Comparison: From 10 Gb/s to 100 Gb/s
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