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この調査レポートは、過酷な環境下での光ファイバー構成部品と関連機器および部品市場を主要地域別に調査・予測しています。

米国の光ファイバー通信市場専門調査会社エレクトロニキャスト社は、過酷な環境での光ファイバーコンポーネントと関連デバイス/パーツに関する調査レポートをアップデートした。この調査レポートが調査対象とする特殊な環境下で使用される部品等は、特殊設計のパッケージングに使用されるようなもので、従来の、または市販の製品に比べると、非常に少量で使用されるものである。対応すべき環境はますます増えており、大きさや重さを削減したり、衝撃や振動などにも耐えられることが求められている。
米国の光ファイバー通信市場専門調査会社エレクトロニキャスト社によれば、過酷な環境での光ファイバーコンポーネント市場では、南北アメリカが2009年の世界の53％を占めて、消費金額3億2800万ドルでトップであった。2位は欧州で、3位はアジア太平洋地域である。しかし、2009-2019年には、欧州とアジア太平洋での急速な成長が見込まれる。

The environments encountered by the components included in this analysis and forecast often require custom designed packaging, with much smaller quantities required, compared to packaging of components for conventional/commercial applications. The environmental extremes that must be accommodated are greater, there often is a need for minimizing size and weight, shock and vibration environments
are more extreme.

According to ElectroniCast, the American region in 2009, led in global consumption of harsh environment fiber optic components with 53 percent relative market share ($328 million). The European region held second-place and the Asia Pacific occupied thirdplace. Over the 2009-2019 period, however, consumption of these components will expand faster in the European and the Asia Pacific regions.

Harsh Environment Defined     Harsh Environment (HE) is defined, by ElectroniCast, as environment beyond the limits normally encountered by commercial telecom, datacom and commercial intra-equipment fiber data links; extremes of

• Temperature; above or below (-40 to +75) degrees C
• Shock and vibration
• Tensile strength (e.g., for fiber-guided missiles, tethered sensors, etc.)
• High electromagnetic or radio-frequency (EMI/RFI/EMP) interference
• Corrosive and/or solvent surroundings
• Atomic and other Radiation
• External pressure extremes
• Rough handling during installation/deployment
• Others

Necessary rough handling during installation or deployment also qualifies as a "harsh environment".

The 2009-2019 market forecast database is structured in a hierarchical format, with data groups at the lowest structural level, summing to a higher-level category for each significant fiber optic component and the supporting devices and parts, and by applications, as illustrated below. This market forecast data are segmented by region: Global Summary, America, Japan / China/Pacific Rim, and Europe.

TOP

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TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

1.1 Overview
1.2 Fiber Optic Components and Devices/Parts Overview
1.2.1 Applications
1.2.2 Components
1.2.3 Devices & Parts
1.3 Customers
1.4 Optical Communication Trends
1.4.1 Overview Fiber Optic Networks
1.4.2 Components
1.4.2.1 Overview
1.4.2.2 Transmitters and Receivers
1.4.2.3 Optical Fiber Amplifiers
1.4.2.4 Dispersion Compensators
1.4.2.5 Fiber Cable
1.4.3 Devices and Parts
1.4.3.1 Overview
1.4.3.2 Emitters and Detectors
1.4.3.3 VCSEL & Transceiver Technology Review
1.4.3.4 Optoelectronic Application-Specific Integrated Circuits
1.4.3.5 Modulators
1.4.3.6 Packages
1.4.3.7 Optoelectronic Integrated Circuits

2 HARSH ENVIRONMENT FIBER OPTIC COMPONENT MARKET ANALYSIS & FORECAST

2.1 Overview
2.1.1 Plastic Optical Fiber
2.2 Active Component Market Analysis, by Function
2.2.1 Transmitter Receiver
2.2.2 Optical Fiber Amplifiers
2.2.3 Semiconductor Optical Amplifiers (SOAs)
2.2.4 Other Active Function Harsh Environment Components
2.3 Passive Components
2.3.1 Cable Assemblies
2.3.2 Optical and Hybrid Backplanes
2.3.3 Photonic Switches
2.3.4 Filter Modules
2.3.5 Other Optical Components
2.4 HEFO Component Analysis, by Region

3 DEVICES AND PARTS MARKET ANALYSIS & FORECAST

3.1 Overview
3.2 Devices and Parts Analysis and Forecast
3.2.1 Active Devices/Parts
3.2.1.1 Emitters
3.2.1.2 Detectors
3.2.1.3 Optoelectronic ASICs
3.2.1.4 Optoelectronic ICs
3.2.1.5 Other Active Devices/Parts.
3.2.2 Passive Devices/Parts
3.2.2.1 Fiber Cable
3.2.2.2 Composite Cable
3.2.2.3 Cable Connectors
3.2.2.4 Packages
3.2.2.5 Other Devices and Parts

4. APPLICATION TRENDS

4.1 Military/Aerospace
4.1.1 Military(non-commercial) Aircraft
4.1.2 Missile Systems and Rockets
4.1.3 Spacecraft and Orbital Vehicles
4.1.4 Shipboard/Submarine
4.1.5 Base Communication Facilities
4.1.6 Sensor Facilities
4.1.7 Other Military/Aerospace
4.2 Industrial/Commercial -Overview
4.2.1 Factory Applications
4.2.2 Transportation
4.2.3 Medical and Laboratory
4.2.4 Exploration/Resource Recovery
4.2.5 Other Harsh Environment Fiber Optic Applications

5. TECHNOLOGY TRENDS

5.1 Packaging
5.2 Integration
5.3 Radiation Hardening
5.4 Higher Data Rates Per Channel
5.5 Expanded Multichannel/Multifiber Links
5.6 Backplanes
5.7 Photonic Switches
5.8 Plastic Optical Fiber
5.9 Wavelength Division Multiplexing

6. CUSTOMER REVIEW

7. COMPETITIVE ANALYSIS

8. DEFINITIONS AND ACRONYMS

8.1 Acronyms, Abbreviations and General Terms

9. RESEARCH AND ANALYSIS METHODOLOGY

10. Market Forecast Data Base

10.1 Overview
10.2 Tutorial

ADDENDUM

HEFO Market Forecast Data Base (Excel spreadsheets: Value, Quantity, Price/Unit: 2009-2019)

• Global Summary, America, Europe and Asia Pacific

PowerPoint Slides (Market Forecast Charts/Figures)

LIST OF TABLES

1.1.1 HEFO Components Global Consumption Value, by Function
1.1.2 HEFO Devices and Parts Global Consumption Value, by Function
1.1.3 HEFO Components Global Consumption Value, by Region
1.1.4 HEFO Components Global Military/Aerospace Consumption Value, by Region
1.1.5 Harsh Environment Plastic Optical Fiber (POF) Components Global Value, by Region
1.2.1.1 HEFO Components Global Consumption Value, by Application
1.2.1.2 HEFO Components American Consumption Value, by Application
1.2.1.3 HEFO Components European Consumption Value, by Application
1.2.1.4 HEFO Components Asia Pacific Consumption Value, by Application
1.2.2.1 Plastic Fiber Optic Components Global Industrial/Commercial Value, by Function
1.2.2.2 Harsh Environment Key Component Consumption Global Value Trend, by Fiber Type
1.2.3.1 HEFO Devices and Parts Global Consumption Value, by Function
1.2.3.2 Emitters for Harsh Environment Transmitters Global Consumption Value, by Type
1.2.3.3 HEFO Connectors Global Consumption Value, by Type
1.2.3.4 Packages for Harsh Environment Components & Devices Global Value, by Function

2.1.1 HEFO Components Global Consumption Value, by Region
2.1.2 Harsh Environment Fiber Optic Components (HEFO) Regional Trends (Consumption Value)
2.1.1.1 Harsh Environment Key Component Consumption Value Trend, by Fiber Type
2.2.1 HEFO Components Global Consumption Value, by Function
2.2.1.1 HEFO Transmitter/Receiver Global Trends: Military/Aerospace plus Commercial/Industrial Applications
2.4.1 HEFO Global Consumption Value, by Region/Marketplace

3.1.1 Harsh Environment Fiber Optic (HEFO) Devices and Parts Global Consumption, by Function
3.2.1.1.1 Emitters for Harsh Environment Transmitters Global Consumption Value, by Type
3.2.1.2.1 Photodetectors for Harsh Environment Receivers, Global Consumption Value, by Data Rate
3.2.1.3.1 Optoelectronic ASIC Consumption in Harsh Environment Components
3.2.2.1.1 Harsh Environment Fiber Optic (HEFO) Cable Global Consumption Value, by Type
3.2.2.3.1 Harsh Environment Fiber Optic (HEFO) Connectors Global Consumption Value, by Type
3.2.2.3.2 HEFO Connectors Global Trends: Military/Aerospace plus Commercial/Industrial Applications
3.2.2.4.1 Harsh Environment Packages Value Trend, by Function`
3.2.2.5.1 Other (Miscellaneous) HEFO Devices and Parts Global Consumption Value, by Application

4.1.1 HEFO Components Global Consumption Value, by Application
4.1.1.1 HEFO Components Global Consumption Value, by Spacecraft & Military Aircraft Systems.
4.1.2.1 HEFO Components Global Consumption Value, by Missile Systems
4.1.3.1 HEFO Components Global Consumption Value, Spacecraft and Orbital Vehicles
4.1.4.1 HEFO Components Global Consumption Value, by Shipboard Systems
4.1.5.1 HEFO Components Global Consumption Value, by Base Communication Facilities
4.1.7.1 HEFO Components Global Consumption Value, by Other Military/Aerospace
4.2.1 HE - Plastic Optical Fiber (POF) Components Global Value, by Industrial/Commercial Application
4.2.2 HEFO Components Global Consumption Value, by Industrial & Commercial Applications
4.2.1.1 HEFO Components Global Consumption Value, by Factory Applications
4.2.2.1 HEFO Components Global Value, by Commercial Aircraft, Train, Ship & Other Applications
4.2.2.2 HEFO Components Global Consumption Value, by Automotive/Truck Applications
4.2.3.1 HEFO Components Global Consumption Value, by Medical/Laboratory Applications
4.2.5.1 HEFO Components Global Consumption Value, by Other/Miscellaneous Applications

10.1.1 Harsh Environment Applications, Components & Devices/Parts Category List
10.2.1 Product Categories

LIST OF FIGURES

1.1.1 Military/Aerospace Dominance of HEFO Components Global Market ($Million and %)
1.1.2 HEFO Components End Applications (Market Forecast Category List)
1.1.3 Harsh Environment Fiber Optic Components - HEFO (Market Forecast Category List)
1.1.4 HEFO Devices & Parts (Market Forecast Category List)
1.1.5 HEFO Component Global Consumption, by Region (2009-2019: $Million and %)
1.2.1 HEFO Component Available Market vs. Captive (Global Market Share Forecast, %)
1.3.1 Evolution of Research Emphasis During Technology Life Cycle
1.4.1.1 Network Bandwidth Expansion Alternatives
1.4.1.2 Multiple-fiber (Multifiber) Transmitters.
1.4.1.3 Flexible Optical Backplane
1.4.3.3.1 Genealogy of VCSELs
1.4.3.3.2 Optical Subassembly (OSA)
1.4.3.3.3 10 Gbps VCSEL Optical Subassembly
1.4.3.3.4 4 x 3.125 Gbps WWDM SFF Transceiver Concept
1.4.3.3.5 Assembled Non-Functional 4 x 3.125 Gbps WWDM SFF Concept Module
1.4.3.3.6 WWDM Transceiver, Transmit Side Optical Combiner
1.4.3.3.7 WWDM Demultiplexing Subassembly
1.4.3.3.8 CWDM VCSEL Transceiver (8-wavelength diagram)
1.4.3.3.9 4-Channel VCSEL Transceiver
1.4.3.3.10 OptoCube 40
1.4.3.3.11 Array VCSEL Interconnects between Cabinets or Racks
1.4.3.3.12 12 x 2.5 Gbps VCSEL Transceiver Package
1.4.3.3.13 Pre-terminated Ribbon Cable Assembly
1.4.3.3.14 Optical Backplane Implementation
1.4.3.3.15 Typical Intra-Office Interconnections
1.4.3.3.16 12 Fiber VSR Architecture
1.4.3.3.17 Converter ASIC Function
1.4.3.3.18 12-Fiber VSR Module vs. OC-192 SONET Line Card
1.4.3.3.19 4 Fiber VSR Architecture
1.4.3.7.1 Trend of Transceiver Packaging Density, Gigabits/Cubic Inch
1.4.3.7.2 Xanoptix 32x32 Datacom Transceiver
1.4.3.7.3 Integrated Transceiver/Silicon Waveguides

2.2.1.1 Transceiver Data Rate Trends In Harsh Environment Applications
2.2.1.2 Transmission Mode Trends of Harsh Environment Transmitter/Receivers (Global Market Share, %)
2.3.1 1 Cable Assemblies/Harnesses
2.3.1.2 Stainless Steel Ribbon Cable Assembly
2.3.2.1 Flexible MT Terminated Optical Backplane
2.3.2.2 Flexible Unterminated Optical Backplane
2.3.2.3 VITA 66 Fiber Optic Backplane Connector Module
2.3.2.4 Refractive Plate Switch
2.3.2.5 4x4 Photonic Crossconnect Switch

3.2.2.1.1 Armored fiber-optic cables for harsh-environment applications
3.2.2.1.2 Corrugated Copper Outer Sheath/Armor Cable Construction.
3.2.2.3.1 TFOCA (Tactical Fiber Optic Connector)
3.2.2.3.2 Cylindrical Connectors . ARINC 801 Standard
3.2.2.3.3 All Metallic 38999 Fiber Optic Socket

4.1 Military/Aerospace Dominance of HEFO Components Global Market ($Million and %)
4.1.1 Copper Cabling in Earlier Aircraft
4.1.2 Evolution of Weapon Systems
4.1.3 Avionics Architecture Evolution
4.1.4 Avionic Interface Capacity
4.1.5 Singlemode Backplane Concept
4.1.6 Multichannel Low Profile Fiber Optic Transceiver
4.1.7 Statos International Miniaturized High Performance Transceiver
4.1.3.1 Mission Data Network High Speed Fiber Optic LAN For Space
4.1.5.1 Fixed Base vs. Transportable Base Component Consumption Trends ($Million and Market Share, %)
4.2.2.1 HEFO Component Transportation Global Trends, by Transportation Segments ($Million and%

5.3.1 Radiation Hardened Integrated Circuits
5.6.1 Flexible Optical Backplane, Courtesy of Stratos International

10.2.1 Component Application Categories
10.2.2 Database Use Example, Components