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Market Research Report

FIBER OPTIC ATTENUATORS Global Market Forecast

Published by ElectroniCast
Published February, 2009 Product code 82694
Content info  
Price
US $ 7200 MS Word File, PPT and XLS File By E-mail (Single User License)


FIBER OPTIC ATTENUATORS Global Market Forecast published by ElectroniCast in February, 2009. This report price starts from US $ 7200.

Introduction

Abstract

There are two main types of optical communication component attenuators and these are variable and fixed. Variable Optical Attenuators (manually controlled and electronically controlled VOAs) represented 68 percent of the worldwide consumption (use) value of fiber optic component-type attenuators used in the selected optical communication applications in 2008; However, in 2013 VOAs are forecasted to increase to 77 percent of the relative market share.

ElectroniCast Consultants' new report provides the historic year of 2008 and a 5-year (2009-2013) forecast of the consumption of fixed (in-line and panel-mount/bulkhead) and variable (manually controlled and electronically controlled) optical attenuators (VOAs), segmented into the following geographic regions: The Americas, EMEA, and APAC), plus Global summaries. The global forecast is also segmented into the following major application categories: Telecommunications, Private Data Networks, Cable TV, Military/Aerospace, and selected Specialty applications.

The global forecast is also segmented into the following major application categories:
  • Telecommunications
    • Interexchange
    • Subocean
    • Local Exchange
      • Interoffice
      • Local Loop
  • Feeder
    • Alternate Local Carrier
    • Installation Apparatus
      • Private Data Networks
      • Cable TV
    • Trunk & Supertrunk
    • Installation Apparatus
      • Military/Aerospace
      • Specialty

Table of Contents

1. Executive Summary

  • 1.1 Overview
  • 1.2 Optical Fiber Amplifier & DWDM Component Overview
  • 1.3 Private Data Communication networks
  • 1.4 Broadband and Fiber to the Premise Overview
  • 1.5 Fiber Optics Industry: Decade-to-Decade

2. Fiber Optic Attenuator Market Forecast

  • 2.1 Fiber Optic Attenuators Market by Type
  • 2.2 Fiber Optic Attenuator Technology Review
  • 2.3 Fiber Optic Attenuators By End-User (Application)

3. Optical Communication Trends

  • 3.1 Overview
  • 3.2 Fiber Network Technology Trends
  • 3.3 Components
    • 3.3.1 Overview
    • 3.3.2 Transmitters and Receivers
    • 3.3.3 Optical Amplifiers
    • 3.3.4 Dispersion Compensators
    • 3.3.5 Fiber Cable
  • 3.4 Devices and Parts
    • 3.4.1 Overview
    • 3.4.2 Emitters and Detectors
    • 3.4.3 VCSEL & Transceiver Technology Review
    • 3.4.4 Optoelectronic Application-Specific Integrated Circuits
    • 3.4.5 Modulators
    • 3.4.6 Packages
    • 3.4.7 Optoelectronic Integrated Circuits

4. Fiber Optic Attenuator Competition

  • 4.1 List of Selected Fiber Optic Attenuator Competitors
  • 4.2 Market Share Estimates: Fiber Optic Attenuators

5. Market Research Methodology

  • 5.1 Research and Analysis Methodology
  • 5.2 Assumptions of the Fiber Optic Attenuator Global Market Forecast

6. Definitions: Acronyms, Abbreviations, and General Terms

7. Fiber Optic Attenuator Market Forecast Data Base

  • 7.1 Overview
  • 7.2 Tutorial

Market Forecast Data Base - Excel Spreadsheets:

  • Global
  • The Americas
  • EMEA
  • APAC

Bar Charts - PowerPoint Slides

List of Figures
  • 1.1.1 Optical Attenuators Global Forecast, By Type (Value Basis, $Million)
  • 1.1.2 EVOA Global Consumption Value Market Forecast ($, Million)
  • 1.1.3 Optical Fiber Amplifier Performance Trends
  • 1.1.4 Fiber Optic Attenuator Global Consumption Value, By Region ($, Million)
  • 1.1.5 Fiber Optic Attenuator Global Consumption Value, By Application ($, Million)
  • 1.2.1 OADM Filter Typical Response Characteristics
  • 1.2.2 Thin Film Interference Filter
  • 1.2.3 Light Power Output of Successive Wavelengths, Thin Film Filter
  • 1.2.4 Thin Film DWDM Filter Modified Architecture For High Wavelength Counts
  • 1.2.5 AWG DWDM Filter
  • 1.2.6 Diffraction Grating DWDM Filter
  • 1.2.7 Next Generation' s UDWDM 2500 Channel Filter Module
  • 1.3.1 Typical Gigabit Product Deployment
  • 1.3.2 TIA-942 Standard: Basic Data Center Topology
  • 1.4.1 Access Network Elements
  • 1.4.2 Fiber-to-the-Office Forecast Structure
  • 1.4.3 Cogent Communication' s Multi-National IP Network
  • 1.4.4 Broadband-to-the-Premise
  • 1.4.5 Fully Reconfigurable OADM
  • 1.4.6 FTTU-PON System
  • 1.4.7 FTTP PON Architecture
  • 1.5.1 Evolution of Research Emphasis during Technology Life Cycle
  • 1.5.2 Evolving to the All-Optical Network
  • 1.5.3 AON - Technology Demonstration Roadmap
  • 1.5.4 AON - Test-bed Network Platform
  • 2.2.1 DuPont Photonics Technologies' VOA 40-Channel Device
  • 2.2.2 Lightconnect' s FVOA Series 5000 (Neophotonics)
  • 2.2.3 Lightconnect' s Array VOA (Neophotonics)
  • 2.2.4 Manually Variable Fiber Optic In-Line Attenuator (OZ Optics)
  • 2.2.5 OZ Optics' Bluebird MEMS VOA
  • 2.2.6 Singlemode Linear Variable Attenuator-MLVA (Amphenol)
  • 2.2.7 Mechanical Optical Variable Attenuator-MOVA (JDSU)
  • 2.2.8 Miniature Fiberoptic Variable Attenuator (MFVA)-DiCon Fiberoptics
  • 2.2.9 Dicon' s MEMS Variable Attenuator
  • 2.2.10 Electronic Variable Optical Attenuator (Bookham Inc)
  • 2.2.11 Integration vs Discrete Solutions (Bookham Inc)
  • 2.2.12 Multiplexer and Variable Optical Attenuator
  • 2.2.13 8-Port Waveguide VOA Assembly/Structure (NEL)
  • 2.2.14 NeoPhotonics PLC Variable Optical Attenuator
  • 2.2.15 Attenuator Array (AVOA) Liquid Crystal VOA (Source: Lightwaves2020)
  • 2.3.1 Optical Attenuators Global Forecast, By Application (Value Basis, $Million)
  • 2.3.2 Optical Attenuators Global Forecast, By Telco Application ($Million)
  • 2.3.3 Optical Attenuators North American Forecast, By Application ($Million)
  • 2.3.4 Optical Attenuators North American Forecast, By Telco Application ($Million)
  • 2.3.5 Optical Attenuators European Forecast, By Application ($Million)
  • 2.3.6 Optical Attenuators European Forecast, By Telco Application ($Million)
  • 2.3.7 Optical Attenuators (APAC) Forecast, By Application ($Million)
  • 2.3.8 Optical Attenuators (APAC) Forecast, By Telco Application ($Million)
  • 3.2.1 Network Bandwidth Expansion Alternatives
  • 3.2.2 Xanoptix Multifiber Transmitters
  • 3.2.3 Flexible Optical Backplane
  • 3.4.3.1 Genealogy of VCSELs
  • 3.4.3.2 New Focus 10 Gbps VCSEL Optical Subassembly
  • 3.4.3.3 4 x 3.125 Gbps WWDM SFF Transceiver Concept
  • 3.4.3.4 Assembled Non-Functional 4 x 3.125 Gbps WWDM SFF Concept Module
  • 3.4.3.5 WWDM Transceiver, Transmit Side Optical Combiner
  • 3.4.3.6 WWDM Demultiplexing Subassembly
  • 3.4.3.7 CWDM VCSEL Transceiver (8-wavelength diagram)
  • 3.4.3.8 4-Channel VCSEL Transceiver
  • 3.4.3.9 Corona Optical Systems (EMCORE Corporation) OptoCube 40
  • 3.4.3.10 Array VCSEL Interconnects between Cabinets or Racks
  • 3.4.3.11 12 x 2.5 Gbps VCSEL Transceiver Package
  • 3.4.3.12 Pre-terminated Ribbon Cable Assembly
  • 3.4.3.13 Optical Backplane Implementation
  • 3.4.3.14 Typical Intra-Office Interconnections
  • 3.3.3.15 12 Fiber VSR Architecture
  • 3.4.3.16 Converter ASIC Function
  • 3.4.3.17 12-Fiber VSR Module vs. OC-192 SONET Line Card
  • 3.4.3.18 4 Fiber VSR Architecture
  • 3.4.7.1 Trend of Transceiver Packaging Density, Gigabits/Cubic Inch
  • 3.4.7.2 Xanoptix 32x32 Datacom Transceiver
  • 3.4.7.3 Bookham Integrated Transceiver Silicon Waveguides
  • 5.1.1 Market Research & Forecasting Methodology

List of Tables
  • 1.1.1 Global Fiber Optic Attenuator Consumption Forecast, by Type (Value Basis, $Million)
  • 1.2.1 WDM Filter Technologies Comparison
  • 1.3.1. Ethernet Standards Suite
  • 1.3.2 IEEE Distance Specifications for Fiber-Optic Ethernet by Fiber Type
  • 1.3.3 Migration or Upgrade Scenarios to Gigabit Ethernet
  • 1.4.1 Minimum & Ideal Speeds Necessary for Popular Applications
  • 1.4.2 Selected PON Comparison
  • 1.4.3 Latin American Demographic Trends
  • 2.1.1 Global Fiber Optic Attenuator Consumption Forecast, by Type (Value Basis, $Million)
  • 2.1.2 Global Fiber Optic Attenuator Consumption Forecast, by Type (Quantity Basis, K)
  • 2.1.3 Global Fiber Optic Attenuator Consumption Forecast, by Type (ASP per unit, $ each)
  • 2.1.4 The Americas Fiber Optic Attenuator Consumption Forecast, by Type ($Million)
  • 2.1.5 The Americas Fiber Optic Attenuator Forecast, by Type (Quantity Basis, K)
  • 2.1.6 The Americas Fiber Optic Attenuator Forecast, by Type (ASP per unit, $ each)
  • 2.1.7 EMEA Fiber Optic Attenuator Consumption Forecast, by Type ($Million)
  • 2.1.8 EMEA Fiber Optic Attenuator Forecast, by Type (Quantity Basis, K)
  • 2.1.9 EMEA Fiber Optic Attenuator Forecast, by Type (ASP per unit, $ each)
  • 2.1.10 APAC Fiber Optic Attenuator Consumption Forecast, by Type ($Million)
  • 2.1.11 APAC Fiber Optic Attenuator Forecast, by Type (Quantity Basis, K)
  • 2.1.12 APAC Fiber Optic Attenuator Forecast, by Type (ASP per unit, $ each)
  • 2.2.1 Variable Optical Attenuator Array Product Specifications
  • 4.2.1 2007 Market Share Estimate Fiber Optic Attenuators (Consumption-Based)
  • 7.1.1 Fiber Optic Attenuator Data Base (Excel Spreadsheets) Product Categories
  • 7.1.2 Fiber Optic Attenuator Data Base (Excel Spreadsheets) Application Categories
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