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Optical Amplifiers Market, Shares, Strategies and Forecasts, Worldwide, 2013 to 2019

Published: Jan 2015 | No Of Pages: 237 | Published By: Winter Green Research

WinterGreen Research announces that it has published a new study Optical Amplifiers Market, Shares, Strategies and Forecasts, Worldwide, 2013 to 2019. The 2013 study has 375 pages, 100 tables and figures. Worldwide optical amplifier markets are poised to achieve significant growth as the data in networks expands exponentially. As cloud systems proliferate and wireless data takes hold the efficiencies brought by high speed end-to-end optical networks are needed by carriers and in the data center.

Optical Amplifiers are evolving. There are various types including the EDFA, Raman, and Semiconductor configurations. The EDFA optical amplifier units can be used in telecom and datacom (SONET/SDH/DWDM/Gigabit Ethernet) applications to change an electrical signal into an optical signal and vice versa.

According to Susan Eustis, lead author of the study, "Optical Amplifiers are used to update the communications networks to manage broadband, to update the data center networks to make them manage traffic with higher speeds, to implement the backbone network for mobile communications.

"Everything is going mobile. This evolution is driven by mobile smart phones and tablets that provide universal connectivity. With 6 billion cell phones in use and one billion smart phones, soon to be 6 billion smart phones, a lot of people have access to mobile communication. Video, cloud-based services, the internet, and machine-to-machine (M2M) provide mobile connectivity. All these devices are networked and drive significant traffic to the broadband network, stimulating the need for optical transceivers."

The optical amplifier component market is intensely competitive. There is increasing demand for optical components as communications markets grow in response to more use of smart phones and more Internet transmission of data. The market for network infrastructure equipment and for communications semiconductors offers attractive long-term growth:

Data center growth is in response in part to the growth of bid data, and in part to the incredible bandwidth being consumed by video content. New programming is moving to broadcast quality short videos that can be downloaded by users Users can download broadcast quality news or training videos as broadband networks become universally available.

Low bandwidth video does not directly drive adoption of optical components. It indirectly does by creating demand for broadband data transport. Video capability at the high end of the market is creating need for network high speed of transmission just because of the quantity of data being transmitted.

The Optical Transport Network (OTN) is a set of optical network elements connected by optical fiber links. Optical network elements provide transport, multiplexing, switching, management, supervision and survivability of communication channels. Carrier Ethernet is emerging. Optical transceiver, transmitter, receiver, and transponders support the implementation of the new network capacity.

Optical amplifier components are an innovation engine for the network supporting end to end data transport over optical systems. Optical components support and enable low-cost transport throughout the network. Optical components are needed for high speed network infrastructure build-outs. These are both for carriers and data centers. Network infrastructure build-out depends on the availability of consultants who are knowledgeable.

Optical amplifiers are evolving to be compliant with the 10Gbps Small Form Factor Pluggable (XFP) Multi-Source Agreement (MSA) specification for next generation optical transceiver devices. There is expected to be tremendous investment in wireless cell tower base stations as the quantity of network traffic grows exponentially. Carriers worldwide are responding to the challenges brought by the massive increase in wireless data traffic. The advent of big data and exponential growth of data managed by the enterprise data centers is a significant market factor.

The global optical amplifier market at $900 million in 2012 is anticipated to reach $2.8 billion by 2019. Growth is driven by the availability of high speed processors and component devices that support increased speed and traffic on the optical networks. The migration to all optical networks is ongoing.

Markets are driven by the availability of 100 Gbps devices and the vast increases in Internet traffic. Internet traffic growth comes from a variety of sources, not the least of which 1.6 billion new smart phones sold per year. Smartphone market growth is causing the need for investment in backhaul and cell tower technology.

Worldwide optical transport market revenues are forecast to grow rapidly through 2019. This is in the context of a world communications infrastructure that is changing. Technology is enabling interaction, innovation, and sharing of knowledge in new ways.

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information (GII), Market Research.com, Electroonics.ca, Markets and Markets, Research and Markets, Bloomberg, and Thompson Financial among others.

Table of Contents

Optical Amplifier Executive Summary
Optical Amplifier Market Driving Forces
Optical Amplifiers compliant with EDFA, Raman, and
Semiconductor types
Optical Amplifier Market Driving Forces
Ongoing Transition To Media For Communications
Optical Amplifier Key Themes
Optical Component Amplifier Market Shares
Optical Component Amplifier Market Forecasts

1.  Optical Amplifier Market Description and
Market Dynamics
1.1 Growth Of The Global Economy Becomes Steadily More Sluggish
1.1.1 Global Economic Conditions Impact Optical Amplifiers
1.2 Enterprise Information Accessed By Mobile Workers
1.2.1 Cloud Technology Brings Rapid Time to Value
1.3 Optical Amplifier Applicable Networks
1.3.1 Carrier Networking
1.3.2 Data Centers
1.3.3 Data Center Storage
1.4 Amplifier Definitions
1.5 Customer Plans for Optical Network Implementation
1.5.1 AT&T As An Optical Component Customer
1.5.2 AT&T Fiber Networks Provide Backbone Connectivity
To Data Center
1.5.3 AT&T Voice Over IP (VoIP)
1.5.4 AT&T Optical Network Investment
1.5.5 Financial Centers Invest in Optical Networking
1.5.6 JPMorgan Chase spends $500 Million To Build A Data Center
1.5.7 Verizon Investment in Optical Networks
1.5.8 Verizon Investment in Data Center Networks
1.5.9 NTT Com Operation Of A Route That Connects  Europe and Japan
1.5.10 Deutsche Telekom Application Delivery Network
1.5.11 Ikanos Highly Integrated VDSL Communications Processor

2. Optical Amplifier Market Shares and Forecasts
2.1 Optical Amplifier Market Driving Forces
2.1.1 Optical Amplifiers compliant with EDFA, Raman, and  Semiconductor types
2.1.2 Optical Amplifier Market Driving Forces
2.1.3 Ongoing Transition To Media For Communications
2.1.4 Optical Amplifier Key Themes
2.2 Optical Component Amplifier Market Shares
2.2.1 JDS Uniphase Optical Amplifiers
2.2.2 Finisar
2.2.3 Oclaro
2.2.4 Oclaro PureGain PG3000
2.2.5 Furukawa Electric Amplifiers
2.2.6 Furukawa Electric Desktop Amplifier
2.2.7 NEC Optical Communications
2.2.8 Source Photonics
2.2.9 Accelink EDFA-BA Series
2.2.10 API - Hybrid Silicon Detector and Transimpedance Amplifier
2.2.11 Oplink Amplifiers
2.2.12 TriQuint
2.3 Optical Component Amplifier Market Forecasts
2.3.1 Optical Amplifier Market, Erbium Doped Fiber  Amplifier (EDFA)
2.3.1 Optical Amplifier Market, Raman
2.3.2 Impact of Cloud and Virtualization on Network Performance
2.3.3 EDFA, Raman and Semiconductor Optical Amplifier Market
2.3.4 Optical Amplifier Form Factors
2.3.5 Component Needs For Next-Generation Fixed And  Mobile Access
2.3.6 Raman, Semiconductor Amplifier Shipments Evolving;  Utilities Hone In On M2M
2.3.7 Managing EDFA While Preparing For Raman and Semiconductor
2.3.8 Semiconductor Optical Amplifiers
2.3.9 Using EDFA Devices To Implement Raman and  Semiconductor Port Capacity
2.3.10 Need For More Compact Pluggables Than The CFP
2.3.11 Tunable XFP Optical Amplifiers
2.3.12 Utilities Hone In On M2M Cellular Communications Nodes / Optical Amplifier Market
2.3.13 Types of Amplifier
2.3.14 Telecom Amplifiers
2.3.15 High-Speed Optical Amplifier Market
2.3.16 CFP MSA for 40 and 100 GiGbps
2.3.17 Managing EDFA While Preparing For Raman And  Semiconductor
2.3.18 Networks Moving To Embrace An Ethernet Protocol
2.3.19 Modulation
2.3.20 Raman Coherent Channel Position Must Be Managed
2.3.21 Semiconductor Modules vs. Raman Modules
2.3.22 Carrier Networking
2.3.23 Enterprise Networking
2.3.24 Return on Investment (ROI) of Component Needs For Next- Generation Fixed And Mobile Access
2.3.25 Technological Trends and Vendor Consolidation Impact Carriers  Push for Semiconductors
2.4 Optical Component Market Forecasts
2.4.1 Measuring Cost -Per-Bit-Per-Kilometer
2.5 Optical Component Amplifier Prices
2.5.1 Multi-way 1550nm CATV optical amplifier-WE1550
2.5.2 edfa 1550nm optical amplifier
2.5.3 1550nm Erbium-doped Optical Amplifier
2.5.4 FS-T20 KEYENCE EDFA Fiber Optic Amplifier
2.5.5 Fiber Optical Amplifier Polarization Maintaining Optical Circulator
2.5.6 Fiber Optic Amplifier PLC Splitter 1*8
2.5.7 -27dBm (500mW) 1550nm EDFA Fiber Optical Amplifier
2.5.8 EDFA 1550nm Optical Amplifier
2.5.9 1550nm Erbium-doped Optical Amplifier
2.5.10 JDSU 1550nm Optical Amplifier-WE1550
2.5.11 Optical Fiber Amplifier EDFA
2.5.12 SA32xx 32Ports FTTB High power EDFA
2.5.13 18dBm 1550nm Erbium-Doped Fiber Amplifier EDFA
2.5.14 EDFA
2.5.15 DWDM EDFA system
2.5.16 EDFA Gain Flattening Filter
2.5.17 CATV Optical 1550nm edfa
2.5.18 -30dBm (1000mW) EDFA1530 1550nm High power EDFA
2.5.19 Catv EDFA
2.5.20 High Quality 20dBm CATV EDFA, 1550nm Fiber Amplifier
2.5.21 Erbium Doped Fiber Amplifier (EDFA)
2.5.22 FS-17 KEYENCE EDFA Fiber Optic Amplifier
2.5.23 EM-030 KEYENCE EDFA Fiber Optic Amplifier
2.5.24 CATV EDFA with network SNMP 22dBm 1550nm Fiber Optic Amplifier
2.5.25 Dual Power Source JDSU Pump Laser 1550nm EDFA
2.5.26 EDFA
2.5.27 1550nm CATV EDFA
2.6 Optical Amplifier Regional Market Segments
2.6.1 Finisar Net Regional Sales
2.6.2 JDSU Regional Revenue
2.6.3 Oclaro Regional Sales

3. Optical Amplifier Products Description
3.1 JDSU Optical Amplifiers
3.1.1 JDSU AON Super Transport Blade Platform
3.1.2 JDSU  EDFA, C, 15 dBm, Compact, 70x90x12 mm
3.1.3 JDSU Detectors/Receivers
3.1.4 JDSU Photodiode, APD/TIA, 1310/1550 nm, 2.5 Gbps, Pigtail Receiver
3.2 Finisar
3.2.1 Finisar Hybrid Raman-EDFA
3.2.2 Finisar Variable Gain EDFA
3.2.3 Finisar Compact 70*90 mm Variable Gain EDFA
3.2.4 Finisar UltraSpan
3.2.5 Finisar UltraSpan Raman
3.2.6 Finisar UltraSpan Power Booster
3.3 Oclaro PureGain PG3000
3.4 Furukawa Electric Amplifiers
3.4.1 Furukawa Electric Desktop Amplifier
3.4.2 Furukawa Electric EDFA module / Raman EDFA
3.5 3SP Group
3.5.1 3SP Group CW Amplifiers
3.6 Accelink
3.6.1 Accelink EDFA-BA Series
3.7 Advanced Photonix - Picometrix
3.7.1 API - Hybrid Silicon Detector and Transimpedance Amplifier
3.8 Alcatel Lucent
3.8.1 Alcatel-Lucent 1675 Lambda Unite MultiService Switch
3.9 Oplink
3.9.1 Amplifiers
3.10 Triquint
3.10.1 Triquint TGA1328-SCC
3.10.2 Triquint TGA8652-SL
3.10.3 TriQuint OC-192 Modulator Driver, SMT Package
3.10.4 Triquint TGB2010-00-SM
3.11 Photon-X Optical Amplifiers

4. Optical Amplifier Technology
4.1 Erbium Doped Fiber Optical Amplifiers
4.1.1 Praseodymium Doped Fluoride Optical Amplifiers
4.1.2 Telluride Based Erbium Doped Optical Amplifiers
4.1.3 Semiconductors Optical Amplifiers
4.1.4 Raman Optical Amplifiers
4.1.5 Planar Waveguide Optical Amplifiers
4.2 Ethernet Emerges as Only Network Standard
4.2.1 ITU-T CWDM/DWDM Optical Wavelength Grids
4.2.2 100-Gigabit Ethernet (IEEE 802.3.ba Specifications)
4.3 WDM-PON Technologies
4.3.1 PON Progress
4.3.2 GPON and WDM-PON
4.3.3 10G GPON
4.4 Phase Modulation Minimizes Size And Power Of 40Gbps Transponders
4.4.1 Europe Scalable Advance Ring-Based Passive Dense Access Network Architecture (SARDANA)
4.4.2 Fujitsu Optical Components Key Technology
4.5 FTTx Device Management
4.6 Finisar Technology
4.7 Vitesse Transimpedance Amplifiers
4.7.1 Vitesse 1 Gbps to 4.25 Gbps Transimpedance Amplifier with Photocurrent Monitor
4.7.2 Vitesse 10.6 Gbps to 12.5 Gbps TIA with Photocurrent Monitor and Input Slicing Adjust
4.7.3 Vitesse 10.7 Gbps Transimpedance Amplifier
4.7.4 Vitesse Limiting Post Amplifiers
4.7.5 Vitesse 3.125 Gbps Limiting Post Amplifiers (CML)
4.7.6 Vitesse 10 Gbps Multirate Limiting Post Amplifier
4.8 Rohm Semiconductor Amplifiers & Linear
4.8.1 Rohm BA2904YFVM-C
4.8.2 Rohm BA2903YFVM-C

5. Optical Components Company Description
5.1 3SP Group
5.1.1 3S Photonics Group becomes 3SPGroup
5.2 Accelink
5.2.1 Accelink Global Sales
5.3 ACON
5.4 Advanced Photonix
5.4.1 Advanced Photonix - Picometrix, LLC
5.4.2 Advanced Photonix Revenue
5.4.3 Advanced Photonix Development Systems and Strategic Relationship with Appleton Papers
5.5 Agilent Technologies
5.6 Alcatel-Lucent
5.6.1 Organization
5.6.2 Alcatel-Lucent Innovation & Technology
5.6.3 Alcatel-Lucent History
5.7 Analog Devices
5.7.1 Analog Devices Focus On Key Strategic Markets
5.7.2 Analog Devices Broad Line Of High-Performance ICs
5.7.3 Analog Devices Digital Signal Processing Products
5.7.4 Analog Devices Revenue
5.7.5 Analog Devices Revenue Trends by End Market
5.7.6 Analog Devices Industrial -
5.7.7 Analog Devices Automotive -
5.7.8 Analog Devices Consumer -
5.7.9 Analog Devices Communications -
5.7.10 Analog Devices Markets and Applications
5.7.11 Analog Devices Industrial and Instrumentation Segments
5.7.12 Analog Devices Defense/Aerospace Segment
5.7.13 Analog Devices Energy Management Segment
5.7.14 Analog Devices Healthcare Segment
5.7.15 Analog Devices Automotive Segment
5.7.16 Analog Devices Consumer Segment
5.7.17 Analog Devices Communications Segment
5.7.18 Analog Devices Segment Financial Information and Geographic Information
5.7.19 Analog Devices Revenue Trends by Product Type
5.7.20 Analog Devices Revenue Trends by Geographic Region
5.7.21 Analog Devices Sales by Regional Segment
5.8 Avago Technologies
5.8.1 Avago Technologies Announces Enhancements to Versatile Link Plastic Optical Fiber Product Family
5.8.2 Avago Revenue
5.9 Broadcom
5.9.1 Broadcom Digital Subscriber Line (DSL),
5.9.2 Broadcom Revenue
5.9.3 Broadcom Broadband Communications Solutions
5.9.4 Broadcom Mobile & Wireless (Solutions for the Hand)
5.9.5 Broadcom Infrastructure & Networking (Solutions for Infrastructure)
5.9.6 Broadcom Customers and Strategic Relationships
5.10 Cube Optics
5.11 Emcore
5.15.1 EMCORE Revenue Third Quarter Ended June 30, 2012
5.12 Finisar
5.12.1 Finisar Wavelength Selective
5.12.2 Finisar's Industry-Leading Optical Products
5.12.3 Finisar Net Sales
5.12.4 Finisar Optical Subsystems And Components
5.12.5 Mobile Traffic Is Increasing
5.12.6 Finisar Revenue
5.12.7 Finisar Business Strategy
5.12.8 Finisar Ten Largest Customers
5.12.9 Finisar Customers
5.12.10 Finisar / Ignis
5.12.11 Sytune (Acquired by Ignis / Finisar)
5.13 Foxconn Technology Group
5.13.1 Foxconn eCMMS Model:
5.14 Fujitsu Next Generation 100GbE Optical Transceiver
5.15 Furukawa Electric Business Segments
5.15.1 Furukawa Electric Pump Laser Modules And Signal Laser Modules
5.15.2 Furukawa Electric Co., Ltd. Revenue
5.16 Gigoptix
5.16.1 Gigoptix Segment And Geographic Information
5.16.2 GigOptix Has Incurred Negative Cash Flows
5.17 Huawei
5.17.1 Huawei Vision & Mission
5.17.2 Huawei Strategy
5.17.3 Huawei Financial Highlights
5.17.4 Huawei  Corporate Governance
5.17.5 Huawei  Research & Development
5.17.6 Huawei  Cyber Security
5.17.7 Huawei  Milestones
5.17.8 Huawei  Annual Report
5.18 Ikanos
5.18.1 Ikanos Markets
5.19 JDSU
5.19.1 JDSU Revenue
5.19.2 JDSU Communications and Commercial Optical (CCOP) Products
5.19.3 JDSU Customers
5.19.4 JDSU Advanced Optical Technologies
5.19.5 JDSU Innovation
5.19.6 JDSU Market Strategy
5.19.7 JDSU Strategy
5.19.8 JDSU Acquisition of Dyaptive Systems and QuantaSol Limited
5.19.9 JDSU Expands Global Market Presence
5.19.10 JDSU Optical Thin Film Coatings and Components
5.19.11 JDSU Optical Communications
5.19.12 JDSU Test and Measurement
5.19.13 JDSU Lasers
5.19.14 JDSU Advanced Optical Technologies
5.19.15 JDSU Customers
5.19.16 JDSU Optical Communications Equipment Customers
5.19.17 JDSU View of Long-Term Trends
5.19.18 JDSU Photonic Power and Photovoltaics:
5.20 Luxtera
5.20.1 Luxtera and STMicroelectronics to Enable High-Volume Silicon Photonics Solutions
5.21 Menara Networks
5.22 MRV
5.23 NEC
5.23.1 NEC Supplies Government Agencies
5.23.2 NEC Revenue
5.24 NeoPhotonics
5.24.1 Neophotonics Customers
5.24.2 Neophotonics Revenue
5.24.3 NeoPhotonics PIC-Based Products
5.24.4 NeoPhotoni: Huawei Technologies Key Customer
5.24.5 NeoPhotonix Global Customer Base
5.24.6 NeoPhotonics
5.24.7 NeoPhotonics Announces New FTTH Component Technology
5.25 NTT
5.26 Oclaro
5.26.1 Oclaro Vision
5.26.2 Oclaro Optical Components, Modules And Subsystems
5.26.3 Oclaro Market Focus
5.26.4 Optical Communications
5.26.5 Oclaro Product Portfolio
5.26.6 Oclaro Business Strategy
5.26.7 Oclaro Worldwide Support and Manufacturing Strength
5.26.8 Oclaro Segment Sales
5.26.9 Oclaro 2013 First Fiscal Quarter Revenues
5.26.10 Oclaro / Opnext
5.26.11 Oclaro Acquires Mintera
5.26.12 Oclaro
5.27 Oplink
5.27.1 Oplink Fourth Quarter And Fiscal Year 2012 Revenue
5.28 Photon-X
5.30 Reflex Photonics
5.31 Rohm Semiconductor
5.32 Santec-Creating Optopia
5.32.1 Santec ICC
5.32.2 Santec Satellite Organization System
5.33 Source Photonics
5.33.1 Source Photonics and China Mobile Communications
5.34 Sumitomo
5.34.1 Sumitomo Revenue
5.34.2 Sumitomo Strategy
5.34.3 Sumitomo Electric Europe
5.35 Triquint
5.35.1 Triquint Innovation
5.35.2 New Dual-Channel SMT Driver Sets High Performance Standards
5.36 Transmode
5.36.1 Transmode Revenue
5.37 Vitesse
5.38 Zhone Technologies
5.39 Other Optical Component Companies
5.39.1 JDSU Competition
5.39.2 Advanced Photonix Competition
5.39.3 Oclaro Competition
5.39.4 Finisar Competition

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