|
|
|
市場調查報告書
全球光學零件市場:策略・市場佔有率・市場預測(2009年∼2015年)
Optical Component Worldwide Strategies, Market Shares and Forecasts, 2009 to 2015
|
全球光學零件市場:策略・市場佔有率・市場預測(2009年∼2015年) 是由出版商WinterGreen Research, Inc.在2009年09月所出版的。
這份英文市場調查報告書包含669 PAGES 231 TABLES AND FIGURES 價格從美金3400起跳。
本報告書內容包括:全球光學零件市場應用・產品・技術類型別詳細調查分析、主要區隔別市場成長預測(2009年-2015年)、影響市場成長的各種因素、技術概要、技術開發動向、主要產品詳細介紹、主要企業的市場佔有率、企業介紹等。內容綱要摘記如下:
實施概要
第1章 光學零件市場概要・市場力學
- 光學次級系統及元件
- 電腦網路的全球性普及
- 大都會・地區網路及最後一哩連線網路
- 寬頻應用
- 資料中心・高性能電腦運算應用
- GPON
- 奈米技術:同質材料不同形狀的特色運用
- 3D液晶
- 市場整合:收購・合作
- 雲端運算・線上影音串流
第2章 光學零件的市場佔有率・市場預測
- 刺激光學零件市場成長的因素
- 光學零件市場分析
- 光收發器的市場佔有率・市場預測
- 光放大器市場
- 光學零件・次級系統市場的市場領導者及思想領袖
- 光學零件市場:動向分析
- Sonet/SDH傳輸元件市場預測
- 全球收發器市場
- Ethernet收發器:市場預測
- 光纖通道收發器:市場預測
- CWDM/DWDM光收發器:市場預測
- 光互連器:市場預測
- PON・FTTx光學零件
- 收發器:類型別
- CATV收發器:市場佔有率
- 波長管理
- AOC(主動式光電纜)
- 40G系統開發基礎
- 地區別光學零件市場
第3章 光學零件產品概要
- 光收發器
- 光纖收發器
- Finisar
- Opnext Technologies的收發器
- 住友電氣工業・安立株式會社
- 富士通光學元件・古河電氣工業
- Avago
- MRV Source Photonics
- JDSU的主要插入式光收發器
- Oclaro / Avanex SFF可調節式收發器
- NeoPhotonics Corporation、等
第4章 光學零件技術
- CFP vs CXP
- IEEE802標準化團體
- OMCI(ONT Management and Control Interface)
- WDM-PON技術
- 被動式光網路
- ONT & OLT
- 相位調變:40Gbps詢答器尺寸・電力最小化
- FTTx設備管理
第5章 光學零件企業介紹
圖表
Abstract
LEXINGTON, Massachusetts (September 24, 2009) - WinterGreen Research announces
that it has a new study on optical component markets worldwide. The 2009 study
has 669 pages, 231 Tables and Figures. Markets are poised to achieve
significant growth as broadband is implemented from optical component
capabilities. Use of the Internet as a vehicle of social networks to share
pictures and videos, as a channel, as an enabler of the supply chain, and as
accessible from the iPhone and other 4 G handheld mobile devices is creating
demand for high speed optical network buildout.
At speeds of more than 1 Gbps, the ability of copper wire to transmit more
than 300 meters is limited due to the loss of signal over distance as well as
interference from external signal generating equipment. The proliferation of
electronic commerce, communications and broadband entertainment has resulted
in the digitization and accumulation of enormous amounts of data. Copper
continues to be the primary medium used for delivering signals to the home and
desktop because it is in place.
The need to quickly transmit, store and retrieve large blocks of data across
networks in a cost-effective manner has increasingly required enterprises and
service providers to use fiber optic technology to replace copper for the
transmission of data at higher speeds over greater distances and to expand the
capacity, or bandwidth, of their networks.
The data, audio, video, and VoIP applications and services using a network
became actual, achieving real arrival of the broadband society. The Internet
has brought change to retail buying and business life. The role of network has
become increasingly important. Larger capacity and more efficient network is
required.
The optical network is spreading rapidly to core networks, to an enterprise
network, to the access network, and to a telecom network. Datacom networks
include storage and server networks, and the high-performance, high-efficiency
and high-reliable optical components technology supports all these different
types of networks.
Optical components are leading-edge optical modules and optical devices that
support the broadband, ubiquitous network. They contribute to consumer
activities, social networking, and business by providing solutions for optical
network construction.
A PON is a point-to-multipoint, fiber to the premises network architecture in
which unpowered optical splitters are used to enable a single optical fiber to
serve multiple premises, typically 32-128. A PON consists of an Optical Line
Terminal, or OLT, at the service provider' s central office and a number of
Optical Network Units, or ONUs, near end users. A PON configuration reduces
the amount of fiber and central office equipment required.
The optical component markets are anticipated to expand to provide network
capability that supports broader reach of information and productivity
improvements for the enterprise.
According to Susan Eustis, lead author of the study, “innovation drives
changes in optical component technology, stimulating growth in every industry.
Innovation depends on implementation of automated business process in every
instance. Optical transceiver components and modules are used to build out
broadband networks. In short order, the network speeds have increased from one
gigahertz and below to 10 gigahertz, moving rapidly to 40 gigahertz for most
broadband, and almost simultaneously to 100 gigahertz for highly utilized
backbone transmission situations.”
This has caused enormous disruption in the optical component markets as the
technologies that work at one speed generally are not suitable for the next
step up in speed. Market consolidation of the optical component business is
proceeding apace. Acquisitions and partnerships form the base for market
consolidation. As the Finisar/Optium merger leverages market advantage, many
mergers have occurred and more mergers are likely to occur. Pressure for
consolidation is likely to continue.
The merger of Finisar (FNSR) and Optium (OPTM) puts these companies in a
strong position because it implements consolidation of the market that
increases unit volumes, decreases prices per component, and stimulates overall
market growth because components are more affordable and can be used in more
situations.
Optical components markets at $3.8 billion in 2008 are expected to reach $11.3
billion by 2015. Demand for broadband Internet connectivity drives optical
components markets. The markets are comprised of transceivers, optical
amplifiers, passive, and active optical component technology.
Research Methodology
WinterGreen Research authors use a structured, consistent, and detailed
research approach. The methodology supports an analytical approach to market
research. In depth comparisons are made of many aspects of the market. Data
relating to Industry segments is developed to permit presentation of forecasts
and market share positioned to have substantive value.
Research has been automated using automation of interactive surveys that
implement delta trend analysis and instant messaging in combination with
e-mail. Automation is made possible because of a proprietary engine that
implements multilayered cell based analysis. Modular systems support dynamic
computing that use a graphical configuration engine to reach more people in a
research modality.
Full spectrum research and information services, including market reports,
customized research, and customer interviewing are available, reports and
research are positioned to provide strategic value to industry participants,
strategic planners, and product managers.
New systems combine sales tools and independent industry analysis, seeking to
leverage the expertise of the sales force and combine it with the skepticism
of the analysts to provide accurate return on investment analysis.
Table of Contents
Optical Component Executive Summary
- Arrival Of Broadband Society
- Optical Component Markets
- Optical Component Market Shares
- Optical Component Market Forecasts
- Cost-Effective Deployment Of 40-Gbit/S
- Transmission In Metro Networks
- Nanoscale Structures for Optical Components
- Optical Component Market Trend Analysis
- Optical Components And Subsystems Challenge
- Fiber Optics Companies to Achieve Innovation
- NeoPhotonics Has Nanoscale Design, Materials,
- Fabrication And Metrology
- Optical Component Market Trends
- Optical Technology Nanotechnology,
- CMOS Silicon, and Polymer Breakthroughs
- 40Gig per second or 100 Gig per second
- Component vs. Subassembly or Module
- Move Away From Sonet / SDH to CWDM and DWDM
- CFP interim standard vs. CXP standard
- Wireless Network Upgrades and FTTx Network Upgrades
- Cloud Computing
- Multi-Technology To Support Different PON Technologies
- GPON - Gigabit Passive Optical Network and
- EPON Optical Network
- Need for Fiber
- Sonet / SDH Transmission Components Market Forecasts
1. Optical Component Market Description and Market Dynamics
- 1.1 Optical Subsystems and Components
- 1.1.1 Service Providers Adopt Fiber Optic Technology
- 1.1.2 BT Service Provider PON Investment
- 1.1.3 Qwest To Deploy Network Capable of 100Gbps
- 1.1.4 Service Provider 100-Gigabit Ethernet from Alcatel, Juniper , and
Cisco Systems in 2010
- 1.1.5 Broadband GPON for Services Providers
- 1.2 Computer Networks Span The Globe
- 1.2.1 Data Networking Equipment Network LAN
- 1.2.2 SAN High-Speed Subnetwork
- 1.2.3 Parallel Optics Technologies For High-Capacity Interconnects
- 1.3 Metro Regional Network and the Last Mile Access Network
- 1.3.1 PON Configuration Reduces The Amount Of Fiber And Central Office
Equipment Required
- 1.4 Broadband Applications
- 1.5 Data Center And High-Performance-Computing Applications
- 1.6 GPON
- 1.6.1 Benefits of GPON Bringing Fiber to the Home (FTTH):
- 1.6.2 EPON GEPON (Ethernet PON)
- 1.6.3 WDM-PON
- 1.7 Nanotechnology Leverages Characteristics of Different Shapes Of
The Same Material
- 1.7.1 Different Shapes Of The Same Material Create Different
Characteristics
- 1.7.2 Vitesse and NeoPhotonics Embrace Domains For Photonic Integrated
Circuits
- 1.7.3 Optical Properties Integrated Into Technology
- 1.7.4 Nanotechnology For High Performance Optical Components
- 1.7.5 Nanoparticle Vapor Organic Dispersions
- 1.8 Nanoscale Structures for Optical Components
- 1.9 3-D Liquid Crystals
- 1.9.1 Tiniest Laser Since Its Invention
- 1.9.2 Photonic Crystal Communications
- 1.9.3 Different Materials To Achieve Different Wavelengths
- 1.9.4 Photonic Crystals
- 1.9.5 Nanolaser Key To Optical Computers
- 1.10 Market Consolidation - Acquisitions and Partnerships
- 1.10.1 Finisar/Optium Merger
- 1.10.2 Opnext Set To Acquire StrataLight Communications
- 1.10.3 Ignis Agrees To Acquire Syntune
- 1.10.4 Fujitsu Establishes Fujitsu Optical Components
- 1.10.5 Fujitsu Optical Components
- 1.10.6 Ikanos
- 1.10.7 Hitachi Telecom (USA) and Salira Systems
- 1.10.8 Enablence / Pannaway
- 1.10.9 LG-Nortel Acquired Novera Optics
- 1.10.10 Cambridge Industries Group / TXP
- 1.10.11 Source Photonics, formerly MRV (Luminent)
- 1.10.12 Sumitomo Electric Device Innovations U.S.A., Inc
- 1.10.13 Zhone Technologies
- 1.10.14 Motorola
- 1.10.15 Fujitsu Optical Components and Furukawa Electric
- 1.10.16 Aegis Lightwave Acquires AOFR and CardinalPoint Optics
- 1.10.17 Rohm Semiconductor / Oki Electric
- 1.10.18 JDSU Acquires Network Tools Business from Finisar
- 1.10.19 Occam Networks GPON ONTs
- 1.10.20 3S Photonics Holding In The Korean Company COSET
- 1.10.21 Merger of Helix and GigOptix, Merger of Lumera and GigOptix,
Advances Made by GigOptix
- 1.11 Cloud Computing And On-Line Video Streaming
2. Optical Component Market Shares and Market Forecasts
- 2.1 Optical Component Market Driving Forces
- 2.2 Optical Component Market Analysis
- 2.2.1 Optical Component Market Shares
- 2.2.2 Optical Component Market Forecasts
- 2.3 Optical Transceiver Market Shares and Forecasts
- 2.3.1 Optical Transceiver Components Market Shares
- 2.3.2 Optical Transceiver Communications Network Market Forecasts
- 2.4 Optical Amplifier Markets
- 2.4.1 Optical Amplifier Markets Shares
- 2.4.2 Optical Amplifier Market Forecasts Worldwide
- 2.5 Optical Components And Subsystems Selected Market Leaders and
Thought Leaders
- 2.5.1 Finisar
- 2.5.2 JDSU
- 2.5.3 Oclaro: Bookham and Avanex Merge Into a New Market Leader
- 2.5.4 Power Diode Lasers Market Shares
- 2.5.5 JDSU Telecom Modulators
- 2.5.6 JDSU ROADMs
- 2.5.7 Fujitsu 40G DPSK Receiver Pricing & Availability
- 2.5.8 Fujitsu Optical Components and Furukawa Electric Jointly Develop
Integrated Receivers
- 2.5.9 Fujitsu
- 2.5.10 Avago
- 2.5.11 Sumitomo Electric Industries, Ltd. And Anritsu 100-Gigabit
Ethernet-Compatible Optical Interface
- 2.5.12 MRV / Source Photonics
- 2.5.13 MRV Communications / Source Photonics Single-Fiber 10Gb/s SFP+
Transceivers
- 2.5.14 Emcore Transceivers / Receivers
- 2.5.15 NeoPhotonics'
- 2.5.16 Triquint RF High-Performance RF Modules, Components And Foundry
- 2.5.17 Advanced Photonix
- 2.5.18 Photon-XR LLC Thin Film Technology
- 2.5.19 Aegis
- 2.5.20 Nortel
- 2.5.21 3S Photonics
- 2.5.22 Alcatel-Lucent
- 2.5.23 GigOptix Inc.
- 2.5.24 Luxtera CMOS Process Used To Create An Array Of Complex Photonic
Devices
- 2.6 Optical Component Market Trend Analysis
- 2.6.1 Optical Components And Subsystems Challenge Fiber Optics Companies
to Achieve Innovation
- 2.6.2 NeoPhotonics Has Nanoscale Design, Materials, Fabrication And
Metrology
- 2.6.3 Optical Component Market Trends
- 2.6.4 Optical Technology Nanotechnology, CMOS Silicon, and Polymer
Breakthroughs
- 2.6.5 40Gig per second or 100 Gig per second
- 2.6.6 Component vs. Subassembly or Module
- 2.6.7 Move Away From Sonet / SDH to CWDM and DWDM
- 2.6.8 CFP interim standard vs. CXP standard
- 2.6.9 Cloud Computing
- 2.6.10 Multi-Technology To Support Different PON Technologies
- 2.6.11 GPON - Gigabit Passive Optical Network and EPON Optical Network
- 2.6.12 The Need for Fiber
- 2.7 Sonet / SDH Transmission Components Market Forecasts
- 2.8 Worldwide Transceiver Segments
- 2.9 Ethernet Transceiver Segment Market Forecasts
- 2.10 Fibre Channel Transceiver Market Forecasts
- 2.11 CWDM / DWDM Optical Transceiver Segment Market Forecasts
- 2.11.1 Optoelectronics Dominated DWDM Component Value
- 2.12 Optical Interconnect Market Forecasts
- 2.13 PON and FTTx Optical Components
- 2.13.1 PON and FTTH Market Analysis
- 2.13.2 Wireless Network Upgrades and FTTx Network Upgrades
- 2.14 Transceivers By Type
- 2.14.1 SFP / SFP+ Transceiver Market Shares
- 2.14.2 XFP Transceiver Market Shares
- 2.15 CATV Transceivers Market Shares
- 2.15.1 Optical Component Nanotechnology
- 2.15.2 Active vs. Passive Optical Components
- 2.16 Wavelength Management
- 2.16.1 Wavelength Management Market Shares
- 2.17 AOC, Active Optical Cable
- 2.17.1 Broadband Market Drivers
- 2.17.2 Developments of GPON Technology
- 2.17.3 Network Traffic Growth
- 2.18 Pace of 40G System Development
- 2.18.1 Pace of 100G System Development
- 2.19 Optical Component Regional Markets
3. Optical Component Product Description
- 3.1 Optical Transceiver
- 3.1.1 Optical Transponders
- 3.2 Fiber Optic Transceivers -
- 3.2.1 Fiber Optic Transmitters
- 3.2.2 Fiber Optic Receivers -
- 3.2.3 Laser Optics, Heads and Beam Delivery Components -
- 3.2.4 Fiber Optic Linear Position Sensors -
- 3.3 Finisar
- 3.3.1 Finisar 40-Gbit/s Tunable DPSK Optical Transponder
- 3.3.2 Finisar Transmitters, Transceivers, and Transponders for Datacom
and Telecom Applications
- 3.4 Opnext Technologies Transceivers
- 3.4.1 Opnext Full Collaboration With Hitachi
- 3.4.2 Opnext 8 Gbit/s & 10 Gbit/s SFP+ Transceiver Modules
- 3.5 Sumitomo Electric Industries, Ltd. And Anritsu 100-Gigabit
Ethernet-Compatible Optical Interface
- 3.5.1 Sumitomo Electric Jointly With Anritsu, Has An Optical Interface
Compliant With The 100-Gigabit Ethernet Specifications (IEEE 802.3.ba
Specifications)
- 3.5.2 Sumitomo Electric Development Of Optical Interface Compatible With
100-Gigabit Ethernet
- 3.6 Fujitsu Optical Components / Furukawa Electric
- 3.6.1 Fujitsu Microelectronics 3G SAW-less Transceiver: Multimode,
Multiband UMTS/ GPRS/EDGE Solution
- 3.6.2 Fujitsu Optical Components and Furukawa Electric Jointly Develop
Integrated Receivers
- 3.6.3 Fujitsu Compact Integrated DPSK Receiver for 40Gbps Optical
Networks
- 3.6.4 Fujitsu Optical Components
- 3.6.5 Fujitsu Optical Components Key Technology Delay Line
Interferometer And Balanced Receiver Integration
- 3.6.6 Fujitsu XENPAK MSA 10Gbps Transceiver
- 3.6.7 Fujitsu X2 MSA 10Gbps Transceiver
- 3.6.8 Fujitsu SFP MSA Transceiver
- 3.6.9 B-PON
- 3.6.10 10Gbps LiNbO3 External Modulator
- 3.6.11 Fujitsu 40Gbps Receiver Module
- 3.6.12 40G DPSK Receiver Module (FIM24101)
- 3.6.13 Fujitsu Optical Components and Furukawa Electric Planar Lightwave
Circuit (PLC)
- 3.6.14 Fujitsu Optical Components and Furukawa Electric To Jointly
Develop Integrated Receivers For 40/100G Networks
- 3.6.15 Fujitsu Compact Integrated DPSK Receiver for 40Gbps Optical
Networks
- 3.7 Avago
- 3.8 MRV Source Photonics
- 3.9 JDSU Leading Pluggable Optical Transceivers
- 3.9.1 JDSU Tunable Transmission Modules
- 3.9.2 JDSU Transceiver, OC-192, 10 GbE, 10 GFC, XFP, 1550 nm, 40 km Reach
- 3.9.3 JDSU Ethernet/Fibre Channel Transceivers
- 3.9.4 JDSU SONET/SDH Transceivers
- 3.9.5 JDSU Components, Modules, and Subsystems for Agile Optical Networks
- 3.10 Oclaro / Avanex SFF Tunable Transponder
- 3.10.1 Oclaro /Avanex Transmission Products
- 3.10.2 Oclaro Bookham SFP Transceivers
- 3.10.3 Oclaro Bookham Transmitters and Network Lasers
- 3.10.4 Oclaro Bookham Receivers
- 3.10.5 Oclaro Bookham Receiver Products
- 3.10.6 Oclaro Tunable Transmitter
- 3.11 NeoPhotonics Corporation
- 3.11.1 NeoPhotonics Active And Passive Optical Components
- 3.11.2 NeoPhotonics Transceivers
- 3.11.3 NeoPhotonics FTTH Target Market
- 3.11.4 NeoPhotonics Optical Transceiver Transmitters
- 3.11.5 NeoPhotonics Optical Transceiver Receiver
- 3.11.6 NeoPhotonics Optical Transceiver EEPROM
- 3.11.7 Oplink Transceivers
- 3.12 Oplink PON
- 3.12.1 Oplink Transmitters & Receivers
- 3.12.2 Triquint RF
- 3.13 JDSU Detectors/Receivers
- 3.13.1 JDSU Pluggable Optical Transceivers
- 3.13.2 JDSU Vertical Integration
- 3.13.3 JDSU Datacom Accessories
- 3.14 Vitesse Semiconductor Transceiver Integrated Circuit VSC8479-01
- 3.14.1 Vitesse FTTX Ecosystem
- 3.14.2 Vitesse Semiconductor VSC8479-01 10G Transceiver EPON Developing
PON
- 3.14.3 Oki Electric Industries
- 3.14.4 Applied Optoelectronics Small Form-Factor Pluggable Transceiver
- 3.14.5 Applied Optoelectronics Small Form-Factor Pluggable Transceiver
- 3.15 OKI
- 3.15.1 Oki SemiL OL5191M transceiver
- 3.15.2 Oki 40Gbps Compound Semiconductors - EML Driver IC DIE
- 3.16 Acon
- 3.17 OptoIC Transceiver
- 3.18 Tessera DigitalOptics Lens Array Technology for Parallel Optic
- 3.19 LaserMate
- 3.20 Emcore Transceivers / Receivers
- 3.20.1 ONT Vendor Offerings
- 3.20.2 Triplexers & GPON Chips
- 3.21 OneChip Photonics
- 3.21.1 OneChip Photonics SFF and SFP Devices for OLTs and A Variety of
SFF Modules for ONUs
- 3.22 Emcore
- 3.22.1 Emcore Transceivers
- 3.23 Optical Amplifiers
- 3.23.1 Optical Amplifiers / Erbium Doped Fiber Amplifiers EDFA
- 3.23.2 JDSU Optical Amplifiers
- 3.23.3 JDSU EDFA, C, 17 dBm, GFF, Trans Control, Variable Gain
- 3.23.4 JDSU' s Agile Optical Amplifiers
- 3.23.5 JDSU Optical Amplifiers
- 3.23.6 JDSU Pump Lasers
- 3.23.7 JDSU ROADMs
- 3.23.8 JDSU Transport Layer and Amplifier
- 3.23.9 JDSU ROADM & Add/Drop Modules
- 3.23.10 JDSU ROADMs
- 3.23.11 JDSU WaveReady Service Provider Optical Component Solutions:
- 3.24 Oclaro Optical Amplifiers
- 3.24.1 Oclaro Oasis"! Adaptive Thermal Management
- 3.24.2 Ocelar Oasis Adaptive Thermal Management
- 3.24.3 Oclaro Avanex Amplification Products
- 3.24.4 Oclaro Avanex Dispersion Compensation Products
- 3.24.5 Oclaro Avanex Next Generation Chromatic Dispersion Compensation
Module
- 3.24.6 Oclaro Avanex Dispersion Compensation Products
- 3.24.7 Oclaro / Avanex Wavelength Management Products
- 3.24.8 Oclaro Bookham Optical Amplifiers
- 3.24.9 Oclaro MiNi Block Optical Amplifier
- 3.24.10 Oclaro Optical Amplifier Custom Solutions
- 3.24.11 Oclaro Bookham Pumps Oclaro Bookham' s Subsystems
- 3.24.12 Oclaro Intelligent Optical Platform
- 3.24.13 Oclaro Bookham VCSELs
- 3.25 Furukawa Electric Optical Amplifiers
- 3.26 Accelink
- 3.26.1 Accelink Triplexers, Splitters, And Arrayed Waveguides
- 3.27 Oplink Optical Amplifiers
- 3.28 TriQuint Optical Amplifiers
- 3.28 JDSU EDFA Optical Amplifiers
- 3.29 Photon x Optical Amplifers
4. Optical Component Technology
- 4.1 CFP vs. CXP
- 4.1.1 CFP Form Factor
- 4.1.2 Finisar Opnext and Sumitomo Electric Industries / Excelight
Communications CFP
- 4.1.3 CFP MSA Form Factor Standard for Pluggable 40Gb/s and 100Gb/s
Optical Modules
- 4.1.4 CXP Form Factor
- 4.1.5 CXP GigOptix Long Reach And Ultra Long Reach Drivers For
Terrestrial And Undersea Optical Cable
- 4.2 IEEE802 Standards Bodies
- 4.2.1 ITU-T CWDM/DWDM Optical Wavelength Grids
- 4.2.2 100-Gigabit Ethernet (IEEE 802.3.ba Specifications)
- 4.3 ONT Management and Control Interface (OMCI)
- 4.4 WDM-PON Technologies
- 4.4.1 PON Progress
- 4.4.2 GPON and WDM-PON
- 4.4.3 10G GPON
- 4.5 Passive Optical Networks
- 4.5.1 APON, BPON, EPON and GPON
- 4.5.2 GPON & WDM-PON Equipment
- 4.6 ONTs & OLTs
- 4.6.1 GPON OLT and ONT Equipment
- 4.6.2 EPON
- 4.6.3 Symmetrical 10G EPON
- 4.6.4 RFoG Cable-Type PON Technology
- 4.7 Phase Modulation Minimizes Size And Power Of 40Gbps Transponders
- 4.7.1 Europe Scalable Advance Ring-Based Passive Dense Access Network
Architecture (SARDANA)
- 4.7.2 Fujitsu Optical Components Key Technology
- 4.8 FTTx Device Management
5. Optical Component Company Profiles
- 5.1 3S Photonics
- 5.1.1 3S Photonics Holding In The Korean Company COSET
- 5.1.2 3S Photonics Submarine Cable Network Market Forecasts
- 5.1.3 3S Photonics Growth Strategy
- 5.1.4 3S Photonics Product Portfolio
- 5.1.5 3S Photonics Industrial Leader In GaAs and InP Optical Components
- 5.1.6 3S Photonics Datacom LANs and SANs
- 5.2 Accelink
- 5.3 ACON
- 5.3.1 Acon LED Lighting Products
- 5.4 Advanced Photonix
- 5.4.1 Advanced Photonix High-Speed Optical Receiver Products
- 5.5 Aegis Lightwave
- 5.5.1 Aegis Lightwave Acquires AOFR
- 5.5.2 Aegis Lightwave Acquires CardinalPoint Optics
- 5.5.3 Aegis Semiconductor Thin Films Combined With Optical Interference
Coatings
- 5.6 Agilent Technologies
- 5.6.1 Agilent Optical Component Solutions:
- 5.6.2 Agilent Design and Verification of Components and Systems
- 5.6.3 Agilent' s PXIT N2100B, N2101B and N2102B Test Platform
- 5.6.4 Agilent Technologies Revenue.
- 5.7 Alcatel Lucent
- 5.7.1 Alcatel Lucent Positioning for Broadband Evolution
- 5.7.2 Alcatel-Lucent Fiber-To-The-User
- 5.8 API Nanotronics
- 5.9 Avago Technologies
- 5.9.1 Avago Technologies Distributors and Customers
- 5.9.2 Avago Technologies Outsourced Manufacturing Business
- 5.9.3 Avago Technologies % Net Segment Revenue
- 5.9.4 Avago Technologies Taken Public
- 5.9.5 31
- 5.10 Broadcom
- 5.10.1 Broadcom Intellectual Property (IP)
- 5.10.2 Broadcom Revenue
- 5.11 Electrum Laboratory
- 5.11.1 Electrum Laboratory Research and Development
- 5.11.2 Electrum Laboratory Production
- 5.12 Emcore
- 5.12.1 Emcore Transceivers
- 5.12.2 Emcore Revenue
- 5.13 Finisar
- 5.13.1 Finisar Revenue
- 5.13.2 Finisar Next-Generation Form Factors for 40Gb/s and 100Gb/s
Optical Links
- 5.13.3 Finisar Presence in China High-Volume Manufacturing Facility
- 5.13.4 Finisar 50 GHz Wavelength Selection Switch (WSS) With Dynamic
Reconfigurability
- 5.13.5 Finisar 850nm Pigtailed Components for Military and Aerospace
Applications
- 5.13.6 Finisar / Optium
- 5.13.7 Finisar Fourth Quarter and Fiscal 2009 Revenue
- 5.13.8 Finisar Revenue
- 5.13.9 Finisar First Quarter Revenues 2010
- 5.13.10 Finisar / Optimum
- 5.13.11 Finisar, Optium Optical Component Product Overlap
- 5.13.12 Foxconn Technology Group / Ambit Microsystems
- 5.14 Fujitsu
- 5.15 Fujitsu Optical Component Products
- 5.15.1 Fujitsu Optical Components
- 5.15.2 Fujitsu Optical Modules
- 5.15.3 Fujitsu Sales, Manufacturing And Development Of Optical Components
- 5.15.4 Fujitsu Optical Components Wholly Owned Optical Module Subsidiary
- 5.16 Furukawa Electric
- 5.17 GigOptix
- 5.17.1 GigOptix Revenue Second Quarter of 2009
- 5.17.2 GigOptix Revenue By Geographic Region:
- 5.17.3 GigOptix Product Updates
- 5.17.4 Merger of Helix and GigOptix, Merger of Lumera and GigOptix,
Advances Made by GigOptix
- 5.17.5 GigOptix Third Quarter Outlook
- 5.18 Huawei
- 5.18.1 Huawei Key Network Technologies
- 5.18.2 Huawei Introducing R&D Management Models
- 5.18.3 Huawei Promotes Standardized, Component-Based And
Platform-Specific Management
- 5.19 Ignis
- 5.19.1 Ignis Group Revenue
- 5.19.2 Ignis Acquired Syntune AB
- 5.20 Ikanos Communications
- 5.21 JDSU
- 5.21.1 JDSU Revenue
- 5.21.2 JDSU Acquires Network Tools Business from Finisar
- 5.21.3 JDSU Strategic Benefits:
- 5.21.4 JDSU Network Tools Business
- 5.22 Luxtera
- 5.22.1 Luxtera Funded By Leading Venture Capitalists
- 5.22.2 Luxtera Active Optical Cable (AOC), Blazar
- 5.22.3 Luxtera CMOS Process Used To Create An Array Of Complex Photonic
Devices
- 5.22.4 Luxtera Project with Sun Microsystems and DARPA
- 5.23 MRV Communications
- 5.23.1 MRV Communications / Source Photonics
- 5.23.2 MRV Communications / Source Photonics Brand for Luminent and
Fiberxon
- 5.23.3 MRV Communications / Source Photonics PON Transceiver Market
Position
- 5.23.4 MRV Communications / Source Photonics Tunable Transponder
- 5.23.5 MRV Communications / Source Photonics Second Quarter 2009 Revenue
- 5.23.6 MRV Communications / Source Photonics
- 5.23.7 MRV Communications / Source Photonics / Luminent, Inc., Passive
Optical Components Division
- 5.24 NeoPhotonics
- 5.24.1 NeoPhotonics Has Nanoscale Design, Materials, Fabrication And
Metrology
- 5.24.2 NeoPhotonics Strong Performance
- 5.24.3 NeoPhotonics Products and Market
- 5.24.4 NeoPhotonics Products
- 5.24.5 NeoPhotonics Technology
- 5.24.6 NeoPhotonics Is Top Optical Component Supplier To Huawei For The
First Half Of 2008
- 5.24.7 Neophotonics Vertically Integrated Manufacturer
- 5.25 Newport Corporation & Spectra-Physics
- 5.25.1 Newport Corporation Revenue
- 5.25.2 Newport Corporation Photonics Instruments, Fibers, and Components
- Fiber Optic Components
- 5.26 Occam
- 5.26.1 Occam Networks Second-Quarter 2009 Results
- 5.26.2 Occam Highlights For The Second Quarter of 2009:
- 5.26.3 Occam GigE and GPON FTTP Delivers IPTV
- 5.26.4 Occam Target Markets
- 5.27 Oclaro
- 5.27.1 Oclaro: Bookham and Avanex Merge Into a New Market Leader
- 5.27.2 Oclaro: Bookham / Avanex Strengthen Position In Consolidating
Sector
- 5.27.3 Oclaro / Avanex
- 5.27.4 Oclaro Revenue
- 5.27.5 Oclaro New Focus Business Transferred to Newport Corporation
- 5.28 Oplink
- 5.28.1 Oplink Regional Revenues:
- 5.29 Opnext
- 5.29.1 Opnext Revenue
- 5.29.2 Opnext Formed Out of Hitachi
- 5.29.3 Opnext / StrataLight
- 5.30 Photon-X, LLC.
- 5.31 Princeton Optronics
- 5.32 Rohm Semiconductor / Oki
- 5.33 Rusnano
- 5.33.1 Rusnano Russian Corporation of Nanotechnologies
- 5.34 Santec
- 5.35 Sigma Blu-Ray & HDTV Opportunities
- 5.36 Sumitomo
- 5.36.1 Sumitomo Optical Devices for FTTH Applications
- 5.36.2 Sumitomo Electric Industries CATV For Integration Of Broadcasting
And Telecommunications
- 5.36.3 SEI
- 5.36.4 Sumitomo Electric Industries / SEI
- 5.36.5 Sumitomo Electric Oversea Sales Subsidiaries of Optical and
Electronic Devices
- 5.36.6 Sumitomo Electric Device Innovations / Excelight Communications,
/ Eudyna Devices
- 5.36.7 Sumitomo Electric Europe Ltd / Succeeds The Business From Eudyna
Devices
- 5.36.8 Sumitomo Electric Asia integrates with Eudyna Devices
- 5.36.9 Sumitomo Electric Device Innovations U.S.A., Inc
- 5.37 Syntune
- 5.38 Tessera
- 5.38.1 Tessera DigitalOptics Solutions
- 5.39 Triquint
- 5.39.1 Triquint Second Quarter 2009 Results
- 5.39.2 TriQuint Positioning
- 5.39.3 Triquint, Zte $50m Agreement
- 5.39.4 TriQuint Lead Researcher In A Multi-Year DARPA Program
- 5.40 Tyco Electronics
- 5.41 Vitesse
- 5.41.1 Vitesse Semiconductor Net Revenues by Geographic Area
- 5.41.2 Vitesse Debt
- 5.41.3 Vitesse Carrier Networking
- 5.41.4 Vitesse Enterprise Networking
- 5.41.5 Vitesse Non-Core
- 5.41.6 Vitesse Distribution
- 5.41.7 Vitesse Revenue
- 5.42 Yoshikawa Kogyo
- 5.43 Zhone Technologies
- 5.44 ZTE
List of Tables and Figures
- Figure ES-1
- FTTH and Enterprise Access Network and Core Network Use of Optical
Components
- Figure ES-2
- Worldwide Optical Component Market Shares, Dollars, 2008, First Half 2009
- Figure ES-3
- Optical Transceivers, Optical Amplifiers, and Other Optical Components,
Forecasts, Worldwide, Dollars, 2009-2015
- Table 1-1
- Factors Affecting Carrier Capital Spending Patterns
- Figure 1-2
- FTTH and Enterprise Access Network and Core Network Use of Optical
Components
- Figure 1-3
- Figure 1-4
- Home Entertainment Evolution
- Figure 1-5
- BT Capex Savings: Conventional FTTH vs. long reach PONd
- Figure 1-6
- Enabling Broadband Infrastructure
- Figure 1-7
- Optical Component Business Drivers -- Bandwidth and Storage
- Table 1-8
- 100G Market Segments: 100GE and 100G DP-QPSK (Long Haul)
- Table 1-9
- OIF major 100G initiatives
- Figure 1-10
- 100 GbE Optical Device Evaluations
- Figure 1-11
- WDM-PON Integrated Network Configuration
- Figure 1-12
- Nanophase Technologies Organic Dispersions In Polar And Non-Polar
Organic Fluids
- Figure 1-13
- Figure 1-13
- Finisar Liquid Crystal on Silicon LCOS ROADM
- Table 1-14
- Liquid Crystal on Silicon (LCOS) Technology Advantages
- Figure 1-16
- Finisar Optimum Merger Product Portfolio Extension
- Figure 2-1
- Optical Component Market Growth Factors
- Figure 2-2
- Growth in Traffic Crossing the AT&T Network
- Table 2-3
- Optical Component Market Driving Forces
- Table 2-4
- Server Virtualization Business Drivers Impact on Optical Components
- Figure 2-5
- Optical Component Market Shares, Dollars, Worldwide, First Three
Quarters 2009
- Table 2-6
- Optical Component Market Shares, Dollars, Worldwide, 2008, First Half
2009
- Figure 2-7
- Optical Transceivers, Optical Amplifiers, and Other Optical Components,
Forecasts, Worldwide, Dollars, 2009-2015
- Table 2-8
- Optical Transceivers, Optical Amplifiers, and Other Optical Components,
Forecasts, Worldwide, Dollars, 2009-2015
- Figure 2-9
- Optical Component Transceiver / Transponder Market Shares, Worldwide,
Dollars, 2008
- Table 2-10
- Optical Component Transceiver / Transponder Market Shares, Worldwide,
Dollars, 2008, First Three Quarters 2009
- Figure 2-11
- Optical Component Transceiver Communications Segment Market Forecasts,
Worldwide, Dollars, 2009-2015
- Table 2-12
- Optical Transceiver Shipments Market Forecasts, Worldwide,
Dollars,2009-2015
- Figure 2-13
- Optical Amplifier Market Shares, Worldwide, Dollars 2009-2015
- Table 2-14
- Optical Amplifier Market Shares Worldwide, Dollars, 2008
- Figure 2-15
- Optical Amplifier Market Forecasts, Worldwide, Dollars, 2009-2015
- Figure 2-16
- Finisar Business Model Overview
- Figure 2-17
- Oclaro Competitive Positioning
- Figure 2-18
- Sonet / SDH Transceiver Segment Market Forecasts Worldwide 2009-2015
- Table 2-19
- Worldwide Transceiver Segments Market Forecasts 2009-2015
- Figure 2-20
- Ethernet Transceiver Segment Market Forecasts, Worldwide, Dollars,
2009-2015
- Figure 2-21
- Fibre Channel Transceiver Segment Market Forecasts, Worldwide, Dollars,
2009-2015
- Figure 2-22
- CWDM / DWDM Transceiver Segment Market Forecasts, Worldwide, Dollars,
2009-2015
- Figure 2-23
- Optical Interconnects Transceiver Segment Market Forecasts, Worldwide,
2009-2015
- Figure 2-24
- Fiber to the Home, Building or Premise FTTx Transceivers Market Shares,
Worldwide, Dollars, 2008
- Figure 2-25
- Fiber to the Home, Building, Premise (FTTx) Transceiver Segment Market
Forecasts, Worldwide, Dollars, 2009-2015
- Figure 2-26
- Emerging Broadband Home Control
- Figure 2-27
- Emerging Broadband Home Control
- Figure 2-28
- SFP / SFP+ Transceiver Market Shares Market Shares, Dollars, Worldwide,
2008
- Figure 2-29
- XFP Transceiver Market Shares, Worldwide, Dollars, 2008
- Figure 2-30
- CATV Transceivers Market Shares Worldwide, Dollars, 2008
- Table 2-31
- Transceiver Type Market Forecasts, Worldwide, Dollars, 2009-2015
- Table 2-32
- Optical Component Module and Subsystem Categories
- Table 2-33
- Market Device Types of Optical Components
- Table 2-34
- Table 2-35
- Network Traffic Growth Factors
- Table 2-36
- Selected 40G System Developments
- Table 2-36 (Continued)
- Selected 40G System Developments
- Figure 2-37
- Optical Component Regional Market Segments, Dollars, First Three
Quarters 2009
- Table 2-38
- Optical Component Regional Market Segments, First Three Quarters 2009
- Figure 3-1
- Transceiver Transponder Modulator Applications
- Table 3-2
- Optical Components Major Markets and Component Solutions
- Figure 3-3
- Finisar LAN< SAN< and Metro Optical transceivers
- Figure 3-4
- Finisar Product Positioning
- Figure 3-5
- Finisar Tunable Transceivers and Transponders
- Figure 3-6
- Finisar Tunable Transceivers and Transponders
- Table 3-7
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-7 (Continued)
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-7 (Continued)
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-7 (Continued)
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-7 (Continued)
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-7 (Continued)
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-7 (Continued)
- Selected Finisar 300 PIN Transponders and Transceivers
- Table 3-8
- Opnext Technologies 40G VSR Transceivers
- Table 3-9
- Opnext Technologies 40G PSBT Transceivers
- Table 3-10
- Opnext Technologies 40G DPSK Transceivers
- Table 3-11
- Opnext Technologies 40G DQPSK Transceivers
- Table 3-12
- Opnext 8 Gbit/s & 10 Gbit/s SFP+ Transceiver Modules
- Table 3-13
- Opnext Technologies XFP 10 Gbit/s Serial Transceiver Modules
- Table 3-14
- Opnext Technologies Small Form Factor Pluggable Transceiver Modules (SFP
Transceivers)
- Table 3-14 (Continued)
- Opnext Technologies Small Form Factor Pluggable Transceiver Modules (SFP
Transceivers)
- Table 3-15
- Opnext Technologies DWDM Small Form Factor luggable Transceiver Modules
(SFP)
- Table 3-15 (Continued)
- Opnext Technologies DWDM Small Form Factor Pluggable Transceiver Modules
(SFP)
- Figure 3-16
- Fujitsu XENPAK MSA 10Gbps Transceiver
- Table 3-17
- Fujitsu XENPAK MSA 10Gbps Transceiver Description
- Table 3-18
- Fujitsu XENPAK MSA 10Gbps Features
- Figure 3-19
- Fujitsu X2 MSA 10Gbps Transceiver
- Table 3-20
- Fujitsu X2 MSA 10Gbps Transceiver Features
- Figure 3-21
- Fujitsu SFP MSA Transceiver
- Figure 3-22
- Fujitsu Optical Transceiver for PON
- Figure 3-23
- Fujitsu 300pin MSA 10Gbps Transponder
- Figure 3-24
- Fujitsu 40Gbps Receiver Module
- Table 3-25
- Fujitsu 40Gbps Receiver Module Description
- Table 3-26
- Fujitsu 40Gbps Receiver Module Applications:
- Table 3-27
- Fujitsu Optical Components and Furukawa Electric Planar Lightwave
Circuit (PLC) Technology
- Table 3-27 (Continued)
- Fujitsu Optical Components and Furukawa Electric Planar Lightwave
Circuit (PLC) Technology
- Figure 3-28
- Fujitsu Compact Integrated DPSK Receiver for 40Gbps Optical Networks
- Table 3-29
- Fujitsu 40G DPSK Receiver Pricing & Availability
- Table 3-30
- Avago HFCT-5710L/LP Small Form Factor Pluggable LC Fiber Optic
Transceivers Features
- Table 3-28
- Avago HFCT-5710L/LP Small Form Factor Pluggable LC optical transceiver
Applications
- Figure 3-29
- Avago Small Form Factor Pluggable LC Optical Transceivers
- Figure 3-30
- Source Photonics Optical Communication Positioning for Metro Networks
- Figure 3-31
- Source Photonics Optical Transceivers, Ethernet, Gigabit Ethernet
- Table 3-32
- Source Photonics Optical Transceivers, Ethernet, Gigabit Ethernet
- Table 3-33
- Source Photonics Optical Transceivers, Ethernet, Gigabit Ethernet
Product Description
- Table 3-34
- JDSU Transceiver Optical Transceiver Key Benefits
- Table 3-35
- JDSU Transceiver Applications
- Table 3-36
- JDSU Transceiver Standards Compliance
- Table 3-37
- Oclaro Transmission Products
- Table 3-37 (Continued)
- Oclaro Transmission Products
- Table 3-38
- Figure 3-39
- Oclaro Next Generation Networks
- Figure 3-40
- Oclaro Transmission Positioning
- Table 3-41
- Oclaro Transmission Positioning
- Figure 3-42
- Figure 3- 43
- Table 3-44
- NeoPhotonics GPON Triplexer ONU
- Table 3-45
- NeoPhotonics Active And Passive Optical Components Network Market
Segments
- Table 3-46
- NeoPhotonics Transceiver Positioning
- Table 3-47
- NeoPhotonics Transceiver Applications
- Table 3-48
- NeoPhotonics Applications
- Table 3-49
- Table 3-50
- NeoPhotonics SFP Products
- Table 3-51
- NeoPhotonics Product Applications
- Table 3-51 (Continued)
- NeoPhotonics Product Applications
- Table 3-52
- NeoPhotonics Optical SFP Transceiver Performance Specifications
- Figure 3-53
- NeoPhotonics SFP Transceiver
- Table 3-54
- NeoPhotonics GbE 1000Base-LX 10 km SFP Transceiver
- Table 3-55
- Oplink Transceiver Applications Support
- Table 3-56
- Oplink Transmitters & Receivers
- Table 3-56 (Continued)
- Oplink Transmitters & Receivers
- Table 3-56 (Continued)
- Oplink Transmitters & Receivers
- Table 3-56 (Continued)
- Oplink Transmitters & Receivers
- Table 3-56 (Continued)
- Oplink Transmitters & Receivers
- Table 3-57
- TriQuint Product Positioning
- Table 3-58
- TriQuint Product Segments
- Table 3-59
- Table 3-59 (Continued)
- Table 3-60
- Vitesse Semiconductor 10G Transceiver Integrated Circuit EPON chipset
- Figure 3-61
- Figure 3-62
- Table 3-63
- OptoIC' s BIDI Transceivers Key Features
- Table 3-63 (Continued)
- OptoIC' s BIDI Transceivers Key Features
- Figure 3-64
- Table 3-65
- Figure 3-66
- OptoIC' s multi-rate fiber optics transceiver
- Figure 3-67
- Lasermate Group High Performance Fiber Optical Transmission Components
- Table 3-68
- Vendors of GPON Triplexers
- Table 3-68 (Continued)
- Vendors of GPON Triplexers
- Table 3-69
- GPON Chips and Vendor Products
- Figure 3-70
- OneChip Photonics EPON FTTH OLT and ONU Transceivers
- Figure 3-71
- Table 3-72
- JDSU Erbium Doped Fiber Amplifiers Key Features
- Table 3-73
- JDSU Erbium Doped Fiber Amplifiers Applications
- Table 3-74
- JDSU AON Super Transport Blade Platform
- Figure 3-75
- Table 3-76
- JDSU ROADM Based Network Changes -
- Table 3-76 (Continued)
- JDSU ROADM Based Network Changes -
- Figure 3-77
- JDSO Evolution of Optical Network Repeater to OADM to Roadm
- Figure 3-78
- JDSU Tunable Transponder ROADAM High Bandwidth and Optical Amplifier
- Figure 3-79
- JDSU' s PLC Fabrication Facility
- Table 3-80
- Selected JDSU Optical Amplifier ADM and ROADM Product Lines
- Table 3-81
- JDSU Shelf & Common Equipment
- Table 3-81 (Continued)
- JDSU Shelf & Common Equipment
- Table 3-81 (Continued)
- JDSU Shelf & Common Equipment
- Figure 3-82
- Oclaro Optical Amplification Vertical Integration Positioning
- Figure 3-83
- Oclaro Optical Component Heat Control Platform
- Table 3-84
- Oasis ATM Latest Generation of EDFAs from Oclaro Avanex
- Table 3-85
- Oclaro Avanex Dispersion Compensation Small Form Factor
- Figure 3-86
- Oclaro ROADM Wavelength Management
- Figure 3-87
- Oclaro Bookham MiNi Block Optical Amplifier
- Table 3-88
- Oclaro MiNi Block Optical Amplifier Features
- Table 3-89
- Oclaro MiNi Block Optical Amplifier Applications
- Table 3-90
- Oclaro Optical Amplifier Custom Solutions Features
- Table 3-91
- Oclaro Bookham VCSEL Portfolio Key Characteristics
- Table 3-92
- Furukawa Electric Optical Amplifiers
- Table 3-92 (Continued)
- Furukawa Electric Optical Amplifiers
- Table 3-92 (Continued)
- Furukawa Electric Optical Amplifiers
- Figure 3-93
- Furukawa Electric 36000 Series Optical Amplifier
- Table 3-94
- Furukawa Electric 36000 Series Descriptions Optical Amplifiers
- Table 3-95
- Furukawa Electric 36000 Series Optical Amplifier Features
- Table 3-96
- Accelink Passive Optical Network (PON) Build Out Products
- Table 3-97
- Accelink Optical Network Products
- Table 3-98
- Accelink Passive Optical Network (PON) Build Out Products
- Table 3-99
- Accelink Optical Network Products
- Table 3-100
- TriQuint Semiconductor Modulator Drivers
- Table 3-101
- TriQuint Semiconductor Amplifiers
- Table 3-102
- TriQuint Semiconductor Control Products
- Table 3-103
- TriQuint Semiconductor Transimpedance Amplifiers
- Table 3-104
- Figure 3-105
- Photon x Optical Amplifiers
- Figure 3-106
- Photon x C Band EDFA Optical Amplifiers Optical Properties
- Figure 3-107
- Photon x L Band EDFA Optical
- Amplifiers Optical Properties
- Figure 3-108
- Photon x C Double Clad EYDFA Optical Amplifier Properties
- Figure 3-109
- Optical Communication Value Chain - Photon X Areas of Innovation
- Figure 4-1
- Table 4-1
- 10G GPON Intermediate GPON Technology Development Equipment Vendor
Support
- Table 4-3
- Table 4-3 (Continued)
- Table 4-3 (Continued)
- Table 4-3 (Continued)
- Table 4-3 (Continued)
- Table 4-4
- Motorola GPON Optical Network Terminal (ONT) Features
- Table 4-5
- ONT Product-Portfolio Development Functions
- Figure 5-1
- Figure 5-2
- 3S Photonics Clean Room Manufacturing
- Table 5-3
- Table 5-4
- Alcatel-Lucent Businesses
- Table 5-5
- Alcatel Lucent Positioning To Address The Utility-Telco Next Generation
Broadband Technology
- Table 5-6
- Avago Technologies Target Markets
- Table 5-7
- Electrum Laboratory Functions
- Table 5-8
- Emcore Market Drivers of CATV Business
- Figure 5-9
- Figure 5-10
- Emcore Telecom / Datacom Products
- Figure 5-11
- Emcore Broadband Products
- Table 5-12
- Emcore Video, Audio, Data Transport
- Table 5-13
- Emcore ECX-7700 Series Key Features
- Figure 5-14
- Figure 5-15
- Table 5-16
- Finisar Data Center Positioning to Support Improvement in Server
Utilization
- Figure 5-17
- Finisar World Class Manufacturing Capabilities
- Figure 5-18
- Figure 5-19
- Figure 5-20
- Finisar 10-40 Gbps Quarterly Revenue Trend
- Figure 5-21
- Figure 5-22
- Finisar Financial Statements
- Figure 5-23
- Finisar Vertical Business Model
- Figure 5-24
- Finisar, Optium Optical Component Product Customers and Overlap
- Figure 5-25
- Fujitsu Optical Component
- Table 5-26
- Fujitsu Optical Fujitsu Optical Components
- Table 5-27
- Fujitsu Optical Component Applications
- Figure 5-28
- Figure 5-29
- Fujitsu Sales & Support World Wide
- Table 5-30
- Fujitsu Optical Components Business Support Centers
- Table 5-31
- Fujitsu Optical Components Sales Office
- Table 5-32
- Fujitsu Products & Services
- Figure 5-33
- Fujitsu Optical Component Applications
- Figure 5-34
- Figure 5-35
- Table 5-36
- GigOptix Product Updates
- Table 5-37
- Huawei Contract Sales Increase 46% in 2008
- Figure 5-38
- Huawei Five-Year Summary (next page)
- Table 5-39
- JDSU Testing For Development And Field Deployment Of Storage Networks
- Figure 5-40
- MRV Source Photonics Locatioons Worldwide
- Table 5-41
- NeoPhotonics Technology Domain Expertise
- Table 5-42
- NeoPhotonics Broad Spectrum Of Active And Passive Optical Components
- Figure 5-43
- Newport Corporation Product Set
- Figure 5-43 (Continued)
- Newport Corporation Product Set
- Table 5-44
- Figure 5-45
- Oclaro Advanced Photonics Positioning
- Table 5-46
- Oclaro Advanced Photonics Positioning
- Table 5-46 (Continued)
- Oclaro Advanced Photonics Positioning
- Table 5-47
- Figure 5-48
- Oclaro / Bookham Revenue March 2009
- Figure 5- 49
- Oclaro Competitive Platform
- Table 5-50
- Photon-XR LLC Expertise For Athermal Arrayed Waveguide Gratings,
Splitters, Couplers, Static Filters, And Tunable Filters
- Table 5-51
- Figure 5-52
- Sigma Quarterly Revenue Growth
- Figure 5-53
- Sigma IP TV Customer Deployments
- Figure 5-54
- Sigma Revenues by End Market
- Figure 5-55
- Syntune Full C-Band Tunable Laser Module
- Table 5-56
- TriQuint Semiconductor Partners
|
 |
