光アイソレータの世界市場予測・分析

◆英語タイトル:Optical Isolators : Global Market Forecast and Analysis 2015-2020

◆商品コード:ECAST60306
◆発行会社(リサーチ会社):ElectroniCast
◆発行日:2016年2月
◆ページ数:402
◆レポート形式:英語 / PDF、Excel
◆納品方法:Eメール
◆調査対象地域:グローバル
◆産業分野:電子
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【レポートの概要】

This is the ElectroniCast global forecast of consumption of free-space and in-line (fiber-to-fiber) optical isolators used in communication and specialty applications.

This market study report provides the Consumption Value (US$, million), Quantity (number/units), and Average Selling Prices (ASP $, each). The value is determined by multiplying the number of units by the average selling price. The ASPs are based on the price of the optical isolator at the initial factory level. The market data are segmented into the following geographic regions, plus a Global summary:

- America (North America, Central and South America)
- Europe (Western & Eastern Europe, plus Middle Eastern countries)
- Asia Pacific (APAC)

The ElectroniCast global optical isolator market is segmented into the following major application categories:

• Telecommunications
• Private Enterprise Networks
• Cable TV
• Military/Aerospace (Commercial and MIL-SPEC)
• Specialty (intra-enclosure, test and measurement, harsh environment industrial, laboratory, other applications, and non-specific)

Optical isolators are passive devices that allow light to be transmitted in only one direction. They are most often used to prevent any light from reflecting back down the optical fiber, as this light would enter the source and cause backscattering and feedback problems. This is especially important for high data rate transceivers and transponders, or those devices requiring long span lengths between transceiver pairs. Optical feedback degrades signal-to-noise ratio and consequently bit-error rate. Ideally an isolator would pass all light in one direction and block all light in the reverse direction.

Optical isolators transmit light in the forward direction and blocks light from passing in the reverse direction. It is regarded an essential optical components in medical, industrial, and research lasers for blocking reflection beams that cause optical damage and noise. It is also used as a fiber optic communicative light intensifier to expand the lifespan of devices and improve transmission quality.

Inline fiber optical isolators are typically designed in pigtail fashion; therefore, they come with built-in fiber optic cable and (optional) connectors so that they may be integrated directly into a fiber optic system. Free space isolators, by contrast, usually do not have an integral connection system (some free-space units are available with pigtails); typically, they are directly mounted to the object that needs isolation.
Important specifications for optical isolators include center wavelength, isolation, insertion loss, and polarization dependant loss. Center wavelength is the center of the wavelength range in which the isolator is designed to function optimally. This characteristic is usually measured in nanometer (nm). Isolation, generally measured in decibels (db), is a measure of how effectively back reflections are prevented and the degree to which the isolator can transmit. Insertion loss is the attenuation caused by the insertion of an optical component. Polarization dependant loss is the attenuation caused by polarization.

Optical isolators are used in many applications in commercial, industrial, and laboratory settings. They are reliable devices when used in conjunction with fiber optic amplifiers, fiber optic ring lasers, fiber optic communication systems, and high-speed/ DWDM and coherent fiber optic links, laboratory R&D, sensors, gyro-systems, test/instrumentation measurement quality assurance applications in automation of manufacturing processes. Single polarization fiber optic isolators are also used with laser diodes, gyroscopic systems, various optical modular interfaces; laser diode integrated optic modulator interfaces and a variety of other mechanical control applications.

The fiber optics industry is now observing an increase in the consumption of the transmitter/receiver optical communication links and other relative devices, which facilitate a strong environment for the use of optical isolators.

Domestic consumption includes imported optical isolators (not embedded in modules/devices or higher level assembly when shipped), as well as isolators produced in domestic facilities for end use by that country or used in modules/devices produced for domestic consumption or export.

【レポートの目次】

1. Executive Summary
1.1 Optical Isolator Market Forecast: Overview
1.2 Technology Overview
2. Optical Isolator Competition
2.1 Company Profiles – Optical Isolators and Selected Related Products
Accelink Technologies Co., Ltd./ Wuhan Telecommunication Devices Co., Ltd. (WTD)
AC Photonics, Inc.
AFW Technologies Pty. Ltd.
Agilecom Fiber Solution
AGILTRON Inc.
Aistana
Alliance Fiber Optic Products, Inc. (AFOP)
AOC Technologies Inc. (AOC)
Ascentta Inc
Boston Applied Technologies Incorporated (BATi)
Clearfield, Inc.
Conoptics
Crowntech Photonics
CVI Melles Griot
DiCon Fiber Optics Inc.
Edmund Optics
Electro-Optics Technology, Inc
FDK Corporation
Fiberer Global Tech Ltd.
Fiberlake Technology Co. Ltd (Shenzhen)
Finisar Corporation
Flyin Optronics Co., Ltd.
FOCI
General Photonics
Golight Technology Co., Ltd (Shenzhen)
Gould Fiber Optics
Hitachi High Technologies America
Ingellen Technology Company
Integrated Photonics Inc.
Isowave/Deltronic
Kyocera Corporation
Lightel Technologies Inc.
LightPath Technologies, Inc.
LINOS AG – Photonics
Lumentum Operations LLC (JDSU)
Microwave Photonic Systems (MPS), Inc.
Newport Corporation
OF-Link Communications Co., Ltd
O-Net Communications Limited (Shenzhen Kaifa Technology Co., Ltd)
Oplink Communications Inc. (Molex)
Opterna
OptiWorks, Inc.
Opto-Link Corporation Limited
Optosun Technology
Optowaves Inc.
OZ Optics Limited
Photop Technologies, Inc.
Primanex Corporation
Qbic Laser System Inc.
Reliable Photonics
SAE Magnetics (TDK) / OCC
Senko Advanced Components, Inc.
Shin-Etsu Chemical Company Limited
Silicon Lightwave Technology, Inc
Sumitomo Metal Mining (SMM)
SUN Telecommunication Company, Limited
Thorlabs
Wuhan Yilut Optical Communication Co., Ltd.
2.2 Competition: Market Share Estimates
3. Regional Market Forecasts
3.1 Fiber Optic Networks
3.2 Global and Regional Market Forecast Data Tables
Global
America
EMEA
APAC
4. Optical Communication Trends
4.1 Fiber Network Technology Trends
4.2 Components
4.2.1 Overview
4.2.2 Transmitters and Receivers
4.2.3 Optical Amplifiers
4.2.4 Dispersion Compensators
4.2.5 Fiber Optic Cable
4.3 Devices and Parts
4.3.1 Overview
4.3.2 Emitters and Detectors
4.3.3 VCSEL & Transceiver Technology Review
4.3.4 Optoelectronic Application-Specific Integrated Circuits (ASICs)
4.3.5 Modulators
4.3.6 Packages
4.3.7 Optoelectronic Integrated Circuits
5. Methodology
5.1 ElectroniCast Research and Analysis Methodology
5.2 Assumptions of Fiber Optic Component Global Market Forecast
6. Definitions: Acronyms, Abbreviations, and General Terms
7 ElectroniCast Market Forecast Data Base – Overview and Tutorial
7.1 Overview
7.2 Tutorial

[Addendum]

*EXCEL – Data Base Spreadsheets
Complete Market Forecast
Global and Global Tables
America and America Tables
EMEA and EMEA Tables
APAC and APAC Tables

*PowerPoint Slides – Miscellaneous Market Data Figures

List of Figures

1.1.1 Line Drawing Integrated/Hybrid Optical Isolator and WDM Optical Coupler
1.1.2 Integrated Component, Isolator-Tap-WDM
1.1.3 Integrated Component, Miniature Tap-Photodiode
1.1.4 Telecommunication Transmitter Package
1.1.5 Fiber Hut, Telecom Cabinets, and FTTH Network Configuration
1.1.6 Fiber Optic Equipment Building – Fiber Hut
1.1.7 Types of Metro Networks
1.2.1 Polarization Change in PANDA Fiber
1.2.2 Panda Fiber-Profile
1.2.3 Bow-Tie Fiber Geometry
1.2.4 Polarization Maintaining Fiber Isolator
1.2.5 Micro-Fiber Isolator
1.2.6 Drawing of Forward Direction Through an Isolator
1.2.7 Absorbing or Displacing Light Propagating in the Reverse Direction
1.2.8 All-Fiber Isolator: Faraday Rotation of Light
1.2.9 Phase Matching Result: Fiber PBL, Wavelength and Temperature
1.2.10 Fiber Optic Circulator Use in DWDM/OADM Application
1.2.11 Assembly using fiber optic isolators
2.1.1 Polarization Independent Optical Circulator
2.1.2 In-Line Optical Isolator
2.1.3 Polarization Maintaining Optical Circulator (Dimensions)
2.1.4 Fiber Optic Discrete Circulator
2.1.5 In-Line Optical Isolator L-band
2.1.6 Optical Circulator
2.1.7 1550nm Optical Isolator - Single / Dual Stage
2.1.8 4-Port Fiber Optic Circulator
2.1.9 In-Line Optical Isolator with Dimensions
2.1.10 Polarization Maintaining (PM) Fiber Optic Isolators (Single Stage and Dual Stage)
2.1.11 Fiber Optic Circulator
2.1.12 Faraday Rotators
2.1.13 Optical Isolators (Shortpak Optical Isolators)
2.1.14 Single Stage Optical Isolators
2.1.15 Polarization Insensitive Circulator
2.1.16 In-Line Fiber Optic Isolators
2.1.17 Product Coverage
2.1.18 Product Coverage
2.1.19 Fiber Optic Circulator
2.1.20 Fiber Optic Circulator
2.1.21 Locations
2.1.22 Fiber Optic Circulator
2.1.23 Surface Mounting Optical Isolator
2.1.24 Magnet Free Optical Isolator
2.1.25 Circular Cylinder Optical Isolator
2.1.26 Pigtail Optical Isolator
2.1.27 Free-Space Isolator (Device-Type)
3.1.1 FTTP PON Architecture 2-77
3.1.2 Basic Data Center Topology
3.1.3 Multi-Tier Data Center Architecture
3.1.4 HFC Distribution System
3.1.5 Fiber Map (United States of America)
3.1.6 Fiber Service Pricing Comparison
3.1.7 Africa: Subocean Fiber Cable
3.1.8 Data Centers in Japan
3.1.9 Data Centers in Asia
3.1.10 Distributed Continuous Fiber Optic Sensor System Components
4.1.1 100G CFP2 Transceiver (40km-IEEE 100GBASE-ER4 / ITU-T G.959.1 OTU4)
4.3.3.1 CWDM SFP 1G 80km Transceiver
4.3.3.2 VITA 66 Fiber Optic Backplane Connector Module
4.3.3.3 VPX Board Utilizes VITA 66.4 Optical Backplane
4.3.3.4 Typical Intra-Office Interconnections
4.3.3.5 1-Port OC-768c/STM-256c Tunable WDMPOS Interface Module
4.3.5.1 40 to 60Gbps Silicon-Based Optical Modulator
4.3.5.2 Integrated silicon optical transceiver for large-volume data transmission
5.1.1 ElectroniCast Market Research & Forecasting Methodology


List of Tables

1.1.1 Optical Isolator Global Forecast, By Region ($, Million)
1.1.2 Optical Isolator Global Forecast, By Region (Quantity, K)
1.1.3 Global Forecast of Optical Isolators, by Type ($, Million)
1.1.4 Global Forecast of Optical Isolators, by Type (Quantity, K)
1.1.5 Global Forecast of Optical Isolators, by Application ($, Million)
1.1.6 Global Forecast of Optical Isolators, by Application (Quantity, K)
2.2.1 2015 – Global Market Share (%) of Leading Optical Isolator Competitors
3.1.1 OM3- and OM4-Specified Distances for Ethernet
3.1.2 Physical Layer Specifications
3.1.3 United States Broadband Plan – Goals
3.1.4 Licensed Local Fixed Carriers in Hong Kong
3.1.5 Key specifications of the PC-1 Trans-Pacific System
3.1.6 Features: Distributed Continuous Fiber Optic Sensor System Components
3.2.1 Global Total Consumption Forecast: Optical Isolators (Value, Quantity, ASPs)
3.2.2 Global Total Consumption Forecast: Optical In-Line Isolators (Value, Quantity, ASPs)
3.2.3 Global Total Consumption Forecast: Optical Free Space Isolators (Value, Quantity, ASPs)
3.2.4 America Total Consumption Forecast: Optical Isolators (Value, Quantity, ASPs)
3.2.5 America Total Consumption Forecast: Optical In-Line Isolators (Value, Quantity, ASPs)
3.2.6 America Total Consumption Forecast: Optical Free Space Isolators (Value, Quantity, ASPs)
3.2.7 EMEA Total Consumption Forecast: Optical Isolators (Value, Quantity, ASPs)
3.2.8 EMEA Total Consumption Forecast: Optical In-Line Isolators (Value, Quantity, ASPs)
3.2.9 EMEA Total Consumption Forecast: Optical Free Space Isolators (Value, Quantity, ASPs)
3.2.10 APAC Total Consumption Forecast: Optical Isolators (Value, Quantity, ASPs)
3.2.11 APAC Total Consumption Forecast: Optical In-Line Isolators (Value, Quantity, ASPs)
3.2.12 APAC Total Consumption Forecast: Optical Free Space Isolators (Value, Quantity, ASPs)
3.2.13 List of Countries – APAC Region
7.1.1 Optical Isolator Data Base Categories, by Package Type
7.1.2 Optical Isolator Data Base Categories, by Application


【レポートのキーワード】

光アイソレータ

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