Backplane Transceiver Market Opportunities, Strategies, and Forecasts, 2007 to 2013
Wintergreen Research, Inc, April 2007, Pages: 459
Demand for Internet services, the implementation of broadband and InfiniBand are major backplane transceiver market driving forces. The copper based transceivers are extending their technology life by implementing equalization flexibility to meet conditions needed to extend copper based backplane technology because is less expensive.
The backplane transceiver technology market includes copper based technologies, QSFP (Quad Small Form-Factor Pluggable) transceiver modules for InfiniBand, physical serial products, Xaui, and VCSEL based backplane transceiver products used for the support of network bandwidth growth. The demand for broadband is impacting wireless transport, creating demand for different types of backhaul.
For the moment the copper based products are superior in the market to the VCSEL technology. The nanosecond latency and 125 MHz programming rate make transceivers suitable for system designs with tight timing budgets. Integrated programmable equalization (EQ) is designed to tame tough signal integrity challenges in backplanes and short-reach copper cabling. Vitesse integrated signal equalization in cross point switches are used by key technology patents. A portfolio offers dozens of products.
Backplane transceiver markets impact the entire network architecture for communications. These markets address the issue of how to move packets across the backplane. The circuit switch architecture depended on one clock in Denver to create simultaneity for all the logic in all the proprietary circuit switch hardware.
With the Internet cloud architecture, the one clock is gone and all the switches that move packets have different clocks. The shift in architecture puts more stress on the components that create switching capability in the network. These units have to operate at higher speeds and with more flexibility to handle the traffic that is being generated by the Internet.
Combined voice, video, and data traffic is moving across the same switches at the same time, creating demand for new types of switch IC. The transfer of information from the line card or motherboard to the backplane is moving from a parallel to serial architecture. This in turn gives rise to demand for new types of IC.
Blade servers are replacing to old circuit switches and the proprietary PBX hardware. Mainframe systems are entering the picture with five nines of reliability in server environments. They are used to implement applications. Clustered blade servers with carrier grade Linux operating systems create computer industry hardware that can be used with proprietary software.
Market growth is expected to be spurred by demand for storage and video capable networks. Higher speeds complement existing infrastructure. Gigabit Ethernet IC markets will drive demand for high-speed communications. Asynchronous IC communications capability provided by crosspoint switches permits design flexibility. Different protocols are supported.
Different solutions address the same issue, how to move packets across the backplane. Backplane transceivers are a significant aspect of the issue. Significant market shifts are occurring. These units have to operate at higher speeds and with more flexibility to handle the traffic that is being generated by the Internet. Combined voice, video, and data traffic is moving across the same switches at the same time, creating demand for new types of switch IC.
In addition, the transfer of information from the line card or motherboard to the backplane is moving from a parallel to serial architecture. This in turn gives rise to demand for new types of IC.
Backplane transceiver markets in dollars at $95.3 million in 2006 are expected to reach $929.5 million by 2013. This growth is in part a result of the fact that the quantity of information is doubling every 7 months. Voice over IP (VoIP), video over IP, mobile telephone backhaul, and storage market growth bring the need for faster backplanes using the newer technologies.
Key Topics
- Backplane Transceiver Market Shares, Forecasts, and Driving Forces
- Global Communications Industry
- Increasingly Sophisticated Systems
- Communications IC Opportunity
- Gigabit Ethernet (GbE) Transition Changing Backplanes
- VCSEL (Vertical Cavity Surface Emitting Laser)
- RapidIOTM Architecture
- Backplane Transceiver Devices
- Advanced Telecom Computing Architecture
- Star Topology
- Mesh Backplane
- Multi-Point Backplane
- Fast Backplanes
Report Methodology
This is the 299th report in a series of market research reports that provide forecasts in communications, telecommunications, the internet, computer, software, and telephone equipment. The project leaders take direct responsibility for writing and preparing each report. They have significant experience preparing industry studies. Forecasts are based on primary research and proprietary data bases. Forecasts reflect analysis of the market trends in the segment and related segments. Unit and dollar shipments are analyzed through consideration of dollar volume of each market participation in the segment. Market share analysis includes conversations with key customers of products, industry segment leaders, marketing directors, distributors, leading market participants, and companies seeking to develop measurable market share. Over 200 in-depth interviews are conducted for each report with a broad range of key participants and opinion leaders in the market segment.
BACKPLANE TRANSCEIVER EXECUTIVE SUMMARY
Backplane Transceiver Market Driving Forces
Increasing Demand For Bandwidth-Intensive, Multimedia -Rich Web Applications
Impact of Broadband
Backplane Transceiver Market Shares
Backplane Transceiver Market Forecasts
1. BACKPLANE TRANSCEIVER MARKET DYNAMICS AND MARKET DESCRIPTION
1.1 Global Communications Industry
1.2 Standards-Based Switching:
1.3 QSFP Product Functions
1.4 Backplane Transceivers for Communications
1.5 Increasing Demand For Bandwidth-Intensive, Multimedia-Rich Web Applications
1.5.1 Impact of Broadband
1.5.2 Circuit Switching
1.6 Increasingly Sophisticated Systems
1.6.1 Traffic Management and Switching Layer
1.6.2 Communications
1.6.3 Automated Test Equipment
1.6.4 High-Speed Computing
1.6.5 Storage and Serial Backplane Products
1.7 Communications Industry
1.7.1 Existing Communications Network Infrastructure Architecture Inadequate
1.7.2 DWDM W avelengths
1.7.3 Communications Edge to Core Network Segments
1.8 Communications IC Opportunity
1.8.1 Transition from ASICs to ASSPs
1.9 Application Specific Standard Products Market Driving Forces
1.9.1 Overcapacity Used As Redundant Link Market Driving Force
1.10 Gigabit Ethernet (GbE) Transition
1.10.1 SONET and SDH
1.10.2 DWDM
1.10.3 ATM
1.10.4 IP
1.10.5 Storage Topologies
1.11 Multi-Service Switching Fabrics and Network Processing Devices
1.12 Changing Backplanes
1.12.1 Crosspoint Switches
2. BACKPLANE TRANSCEIVER MARKET FORECASTS
2.1 Backplane Transceiver Market Driving Forces
2.1.1 Increasing Demand For Bandwidth-Intensive, Multimedia -Rich Web Applications
2.1.2 Impact of Broadband
2.2 Backplane Transceiver Market Shares
2.2.1 Vitesse
2.2.2 Vitesse VSC9180 Arapahoe - 2.5G SONET/SDH Backplane Transceiver
2.2.3 Vitesse Dual Time Constant Equalization
2.2.4 Vitesse VSC3312 Pricing & Availability
2.2.5 Mindspeed
2.2.6 Zarlink
2.2.7 Zarlink Semiconductor Timing and Synchronization
2.2.8 Picolight
2.2.9 Picolight RoHS Compliant 10Gbps 850nm XFP Transceiver Module
2.2.10 Tyco Electronics
2.2.11 Avago
2.2.12 Semiconductor Backplane Silicon
2.3 Backplane Transceiver Market Segments
2.4 Backplane Transceiver Market Forecasts
2.4.1 Copper Based Backplane T ransceiver Market Forecasts
2.4.2 Cisco InfiniBand Host Channel Adapter
2.4.3 QSFP (Quad Small Form-factor Pluggable) MSA (Multi-Source Agreement) Highly
Integrated 4-Channel Optical Transceiver
2.5 Backplane Transceivers for Communications
2.5.1 Microprocessors, Digital Signal Processors, And Application Specific Integrated Circuits
(ASICs)
2.6 E1/T1 Transceivers (LIU/Framer)
2.7 XAUI
2.8 Next Generation Networks (NGNs) Soft-switches And Media Gateways
2.8.1 Voice-over-Packet (VoP) Market
2.8.2 VCSEL Technology Backplane Transceiver Market Analysis
2.8.3 Interconnect And Serial-Switching Products Sub-Segments Market Trends
2.8.4 ASI and PCIe Switching with Non-transparent Bridging 2
2.8.5 ASI and InfiniBand
2.8.6 ASI and RapidFabric™
2.8.7 Backplane Transceiver Market Aspects
2.8.8 Usage Models
2.8.9 Wireline Communications Usage Model
2.8.10 Wireless RNC Usage Model
2.8.11 Wireless Base Station Usage Model
2.8.12 Storage System Usage Model
2.8.13 Perspectives on Market Direction
2.8.14 Wireless Communications
2.8.15 Server
2.8.16 Storage
2.9 Gigabit Backplane
2.10 Backplane Transceiver Regional Market Analysis
3. BACKPLANE TRANSCEIVER PRODUCT DESCRIPTION
3.1 Copper Based Backplane Transceivers Supporting 5 Gigabit To 10 Gigabit Transmission
Speeds
3.2 Vitesse
3.2.1 Vitesse Semiconductor Capacity And Performance Benchmarks
3.2.2 Vitesse Performance and Price Positioning
3.2.3 Vitesse Backplane Transceiver Circuit Switching
3.2.4 Vitesse Backplane Transceiver Supports Circuit Switching
3.2.5 Vitesse VSC9180 2.5 G SONET/SDH/OTN Backplane Transceiver
3.2.6 Vitesse VSC9180 Parallel to Serial Transmit 4 Receivers
3.2.7 Vitesse VSC9180 Arapahoe - 2.5G SONET/SDH Backplane Transceiver
3.2.8 Vitesse Parallel to Serial Transmit
3.2.9 Vitesse Serial to Parallel Receive
3.2.10 Vitesse VSC9180 Arapahoe - 2.5G SONET/SDH Backplane Transceiver
3.3 Mindspeed
3.3.1 Mindspeed 4x4 Port Backplane Transceivers
3.3.2 34x34
3.3.3 Mindspeed Technologies Semiconductor Networking Solutions
3.3.4 Mindspeed CDR
3.3.5 PMC-Sierra National Semi Backplane Design
3.4 VCSEL Based Backplane Transceivers Supporting 5 Gigabit To 10 Gigabit Transmission
Speeds
3.5 Zarlink QSFP (Quad Small Form-Factor Pluggable) Transceiver Module for InfiniBand
3.5.1 Zarlink QSFP Product Family
3.5.2 Zarlink QSFP MSA (Multi Sourcing Agreement) Support
3.5.3 Zarlink Backplane
3.5.4 Zarlink ZL50030 Digital Switch Backplane Description
3.6 Avago Fiber Optic Transceiver
3.6.1 Avago
3.7 Pico Light
3.7.1 Picolight 850nm VCSELs
3.7.2 Picolight 1310nm VCSELs
3.7.3 Picolight Vertically Integrated, Optimally Outsourced
3.7.4 Picolight RoHS Compliant 10Gbps 850nm XFP Transceiver Module
3.7.5 Picolight Pluggable Module MSA
3.7.6 Picolight 10GbE XAUI 850nm X2 Transceiver Module
3.8 Bi Ra Systems / MCor
3.9 Tyco Electronics
3.10 Texas Instruments Quad Serial Backplane Transceiver
3.10.1 FPSCs from Lattice: ORSO82G5/42G5
3.11 Crosspoint Switches
3.11.1 Mindspeed Technologies Crosspoint Switches
3.11.2 Intersil - Crosspoint Switch Provides Black-Level Accuracy In Composite Video
3.12 Serializer/Deserializer
3.12.1 Mindspeed SerDes Transceivers
3.12.2 Mindspeed M27207 SerDes Transceiver
3.13 Accelerant Networks Serializer/Deserializer Transceiver 10-Gbit Backplane Performance
3.13.1 Accelerant 6.25 Gb/s Technology
3.13.2 Agilent EEsof EDA Applications: Signal Integrity
3.13.3 Lattice Semiconductor
3.13.4 Lattice Engineer Field Programmable System Chip
3.13.5 Agilent Frequency Domain Effects Dispersion
3.13.6 Agilent Products
3.13.7 Agilent Design Guides
3.13.8 Lattice Semiconductor ORSO42G5 Programmable Features-
3.14 90-nm SerDes FPGA Product Lines
3.15 Xilinx
3.16 Altera
3.17 Lattice Semiconductor
3.17.1 Lattice Semiconductor SerDes ORCA Positioning
3.17.2 Lattice Semiconductor SerDes FPGA product
3.17.3 LatticeECP2 family
3.18 National Semiconductor High Speed Backplane Solutions
3.19 SerDes Device Performs Input And Output Functions
3.19.1 Optical Transceiver Module
3.19.2 Traffic Management and Switching Layer
3.19.3 Communications
3.19.4 Automated Test Equipment
3.19.5 High-Speed Computing
3.19.6 Storage and Serial Backplane Products
4. BACKPLANE TRANSCEIVER TECHNOLOGY
4.1 Circuit Switching: The Transition Of Telecom Infrastructure From Circuit- To Packet-Based
Switching
4.1.1 Internet Datagram Packet Switching Networks
4.1.2 ATCA Step In The Transition Of Telecom Infrastructure From Circuit - To Packet-Based
4.1.3 Advanced Telecom Computing Architecture (ATCA)
4.1.4 Shared Bus, Dual-Star and Full Mesh Architectures
4.2 VCSEL (Vertical-Cavity Surface-Emitting Laser)
4.3 Zarlink Semiconductor Standard for Pluggable 4-Channel Parallel Fiber Optic Transceiver
Modules
4.4 RapidIO™ Architecture
4.4.1 PCI Express Core Technology / Cellular Base Stations / VPN/Gateways
4.4.2 PLX Technology Advanced Switching Layer
4.4.3 StarGen Switch Fabric Applications
4.5 SandCraft
4.6 Backplane Transceiver Devices Support Wide Frequency Range
4.6.1 SATA
4.6.2 Parallel ATA
4.6.3 Serial ATA
4.6.4 Advanced Switching Interconnect Specifications
4.6.5 XAUI
4.7 AdvancedTCA == Advanced Telecom Computing Architecture
4.8 Intel PCI Exp ress Architecture
4.8.1 PCI Express Architecture
4.8.2 Intel PCI Express Architecture For Use In Communications And Embedded Applications
4.8.3 PCI Express Architecture
4.8.4 Point-To-Point Switched Backplane
4.8.5 Out-Of-Band And In-Band Switch Control
4.9 Communications ICs
4.9.1 Manufacturing of Communications ICs
4.9.2 Framing and Mapping
4.10 Star Topology
4.10.1 Out-Of-Band And In -Band Switch Control
4.11 Mesh Backplane
4.11.1 Point-To-Point
4.12 Multi-Point Backplane
4.12.1 Switching From Multi-Point Architecture
4.13 Fast Backplanes
4.13.1 Backplane Interconnect Building Blocks
4.13.2 Backplane Signaling
4.14 Backplane Transceivers / CDMA
4.14.1 Point-To-Point Switched Backplane
4.15 Glossary
5. BACKPLANE TRANSCEIVER COMPANY PROFILES
5.1 Backplane Transceiver Companies
5.2 Accelerant Networks
5.2.1 Accelerant / Synopsis
5.2.2 Synopsys Revenue
5.2.3 Accelerant 6.25 Gb/s Technology
5.2.4 Accelerant 6.25 Gb/s SerDes Transceiver Boosting Bandwidth In Existing Backplanes
5.3 Agere Systems
5.3.1 Agere Systems and Accelerant Networks
5.3.2 Agere Application Specific ICs (ASICs)
5.4 Analog Devices
5.4.1 Analog Devices Revenue
5.5 Aeluros
5.6 AMCC
5.6.1 AMCC Revenue
5.7 Analog Devices
5.7.1 Analog Devices Revenue for Third Quarter of Fiscal Year 2006
5.7.2 Analog Devices Revenue Analysis by Product
5.7.3 Analog Devices Adds Full-Featured Hot-Swap Controller For Increased Accuracy In High-Current Backplane Applications
5.7.4 ADM307xE family of low-power Transceivers
5.8 Avago
5.8.1 Avago Multi-Channel Sales And Fulfillment System
5.8.2 Avago Large Scale And Global Operations
5.8.3 Avago Leading Supplier In Multiple Product Categories
5.8.4 Avago Design expertise
5.8.5 Avago Highly Diversified Business Model
5.8.6 Avago Technology Leadership
5.8.7 Avago Close Customer Relationships
5.8.8 Avago Strategic Objectives
5.8.9 Avago Revenue
5.8.10 Avago Wired Infrastructure
5.9 BiRa
5.10 Broadcom
5.11 Conexant Systems
5.11.1 Conexant VDSL2 Chipset
5.12 Dallas Semiconductor / Maxim Integrated Products
5.12.1 Dallas Semiconductor Customers
5.12.2 Dallas Semiconductor Revenue
5.12.3 Maxim Integrated Products / Dallas Semiconductor
5.12.4 Maxim/Dallas Revenue
5.13 Dune Networks
5.14 EXAR
5.14.1 Exar Product Description
5.15 Fairchild
5.16 Hitachi / Maxwell
5.16.1 Maxwell Revenue for the First Half ended September 30, 2006
5.16.2 Hitachi Information Storage Media
5.16.3 Hitachi Battery
5.17 Infineon
5.18 IDT
5.18.1 IDT Competitive Positioning
5.18.2 IDT Target Markets
5.18.3 IDT Product Offerings
5.18.4 IDT Switching Solutions
5.18.5 IDT Flow-Control Management (FCM) Devices:
5.18.6 IDT First-in/first-out (FIFOs) Memories:
5.18.7 IDT Multi-Ports Memory Products:
5.18.8 IDT Timing Solutions
5.18.9 IDT PC Clocks
5.18.10 IDT Memory Interface Products
5.18.11 IDT MicroClock Devices
5.18.12 IDT NetCom Clocks
5.18.13 IDT Audio
5.18.14 IDT Video
5.18.15 IDT Telecommunications Products
5.18.16 IDT Digital Logic Products
5.18.17 IDT SRAM Products
5.18.18 IDT Integrated Communications Processors
5.18.19 IDT Military/Aerospace
5.18.20 IDT Customers
5.19 Intel
5.20 Lattice Semiconductor
5.20.1 Lattice Semiconductor Third Quarter 2006 Revenue
5.20.2 Lattice Semiconductor Third Quarter Business Highlights:
5.21 Marvell
5.22 Marvell Technology Group
5.22.1 Marvell Technology Group Revenue
5.23 Maxim Integrated Technologies
5.24 Mindspeed
5.24.1 Mindspeed® 2006 Restructuring Actions
5.24.2 Mindspeed Technologies Key Product Families
5.24.3 Mindspeed® 2006 Fourth Quarter Revenue
5.24.4 Mindspeed Technologies Revenues By Region
5.24.5 Mindspeed Technologies Revenues By Product Line
5.24.6 Mindspeed Technologies Revenue Third Quarter Of Fiscal 2006
5.25 National Semiconductor
5.26 On Semiconductor
5.27 PMC-Sierra
5.27.1 PMC-Sierra and DASAN Networks
5.28 Siemens / Dasan Networks
5.29 Teradyne
5.30 Triquint
5.31 Vitesse
5.31.1 Vitesse Crosspoint Switch Product
5.31.2 Vitesse VSC3312 Feature Set
5.31.3 Vitesse Dual Time Constant Equalization
5.32 Zarlink
5.32.1 Zarlink Semiconductor Products
5.32.2 Zarlink Semiconductor Customers
5.32.3 Zarlink Semiconductor Timing and Synchronization
5.32.4 Zarlink Semiconductor Optical Communications
5.32.5 Zarlink Semiconductor Medical ASICs
5.32.6 Zarlink Semiconductor Medical Wireless
5.32.7 Zarlink Semiconductor Competition
List of Tables and Figures
BACKPLANE TRANSCEIVER EXECUTIVE SUMMARY
Table ES-1 Backplane Transceiver Market Driving Forces
Figure ES-2 Backplane Transceiver Market Shares, 2006
Table ES-3 Worldwide Total Backplane Transceiver Market Forecasts, Dollars, 2007-2013
BACKPLANE TRANSCEIVER MARKET DYNAMICS AND MARKET DESCRIPTION
Table 1-1 QSFP Product Functions
Figure 1-2 Quad Small Form-Factor Pluggable Back Plane Transceiver
Table 1-3 Backplane Transceiver Target Markets
Table 1-4 Backplane Transceiver Business Strategy
Table 1-5 Backplane Transceiver Key Elements Of Business Strategy
Table 1-6 Communications Signal Transport Changes
Table 1-7 Communications Edge to Core Network Segments
Table 1-8 Network Access
Table 1-9 Benefits Of ASSPs
BACKPLANE TRANSCEIVER TRANSCEIVER MARKET FORECASTS
Table 2-1 Backplane Transceiver Market Driving Forces
Figure 2-2 Backplane Transceiver Market Shares, 2006
Table 2-3 Backplane Transceiver Market Shares, 2006
Table 2-4 Worldwide Backplane Transceiver Market Segments, Dollars, 2006
Table 2-5 Worldwide Backplane Transceiver Market Segments, Dollars, 2013
Table 2-6 Worldwide Total Backplane Transceiver Market Forecasts, Dollars, 2007-2013
Table 2-7 Worldwide Total Backplane Transceiver Market Forecasts, Dollars, 2007-2013
Table 2-8 Copper Based Backplane Transceiver Market Forecasts, Dollars, 2007-2013
Table 2-9 Copper Based Backplane Transceiver Market Forecasts, Units, 2007-2013
Table 2-10 VCSEL Backplane Transceiver Market Forecasts, Dollars, 2007-2013
Table 2-11 VCSEL Backplane Transceiver Market Forecasts, Units, 2007-2013
Table 2-12 Benefits of QSFP
Table 2-13 Maxim / Dallas Semi Couductor 4-Port Cell/Packet Over T1/E1/J1 Transceiver Key Applications
Table 2-14 Next Generation Network (NGN) Functions
Table 2-15 Next Generation Network (NGN) Metrics
Table 2-16 Next Generation Network NGN Market Driving Forces
Table 2-17 Market Trends For Interconnect And Serial-Switching Products
Table 2-18 XAUI Key Applications
Table 2-19 Mindspeed Backplane Transceivers Typical Applications
Table 2-20 Selected Backplane Transceiver Applications
Table 2-21 Backplane Transceiver Market Aspects
Table 2-22 Backplane Transceiver Market Factors
Table 2-23 Backplane Transceiver Market Possibilities For High Speed I/O
Table 2-24 Gigabit Backplane Issues
Table 2-25 Gigabit Backplane Functions
Figure 2-26 Enterprise Application Integration EAI Regional Market Shares, 2006
Table 2-27 Backplane Transceiver Regional Market Shares, 2006
BACKPLANE TRANSCEIVER PRODUCT DESCRIPTION
Table 3-1 Vitesse Semiconductor VSC9180 Backplane Transceiver Functions
Table 3-2 Vitesse Backplane Transceiver Benefits
Table 3-3 Vitesse Circuit Switching Products
Table 3-4 Vitesse Parallel to Serial Transmit
Table 3-5 Vitesse Serial to Parallel Receive
Table 3-6 Vitesse VSC9180 Arapahoe - 2.5G SONET/SDH Backplane Transceiver
Table 3-7 Vitesse Ethernet Product Set
Table 3-8 Vitesse Transport Physical Layer Product Set
Table 3-9 Vitesse VSC7281 Backplane Transceivers
Table 3-10 Vitesse VSC7281 Backplane Transceiver Modules
Table 3-11 Vitesse VSC7281 Backplane Transceiver Features
Table 3-12 Vitesse VSC7281 Backplane Transceiver Benefits
Table 3-13 Vitesse Mux/Demux Transceiver With Integrated Clock Multiplier Unit Features :
Table 3-14 Vitesse XAUI Transceivers
Table 3-15 Vitessse XAUI Applications :
Table 3-16 Vitessse XAUI Specifications :
Table 3-17 Vitesse Transceivers and SerDes
Table 3-18 Mindspeed Backplane Transceiver Features
Table 3-19 Mindspeed Backplane Transceivers Typical Applications
Table 3-20 Mindspeed Technologies Key Product Family Semiconductor Networking Solutions
Table 3-21 Mindspeed Technologies Networking Solutions Target Markets
Table 3-22 Mindspeed CDR Features
Table 3-23 PMC-Sierra National Semi Backplane Design Benefits
Figure 3-24 Zarlink QSFP (Quad Small Form-Factor Pluggable) Transceiver Module for InfiniBand
Table 3-25 Zarlink QSFP Product Family Functions
Table 3-26 Zarlink QSFP Product Family Function Development
Table 3-27 Zarlink ZL50030 Digital Switch Switching Features
Table 3-28 Zarlink ZL50030 Digital Switch Backplane Transceiver Applications
Table 3-29 Avago Fiber Optic Transceiver
Figure 3-30 Avago Gigabit Ethernet (1.25GBd) Physical Layer Solution
Figure 3-31 Backplane/Daughtercard Simulations To Scope Measurements
Figure 3-32 Avago Backplane Transceivers
Table 3-33 Avago Serial Optical Data Communications Applications Module Features
Figure 3-34 Avago Backplane Transceiver
Table 3-35 Pico Light VCSEL Advantages
Figure 3-36 Picolight Transceiver
Table 3-37 Picolight 850nm Transceiver Key Benefits
Table 3-38 Picolight 850nm Transceiver Key Applications
Table 3-39 Picolight 850nm Transceiver Key Functions
Table 3-40 Picolight 850nm Transceiver Key Features
Table 3-41 Picolight X2 Transceiver In Accelar Family Of Products Customized For Short Reach LAN, SAN And Intra-POP Applications
Figure 3-42 Tyco Electronics Lightray MPX Optical Backplane
Figure 3-43 Tyco Electronics Optical Backplanes & Fiber Management Solutions
Table 3-44 Tyco Electronics LIGHTRAY MPX Interconnection System Benefits
Figure 3-45 Tyco Backplane Solution
Table 3-46 Texas Instruments TLK3104SC Specifications
Table 3-47 Texas Instruments TLK3104SC Features
Table 3-48 Texas Instruments Four-Channel Serial Backplane Transceiver TLK3104SCGNT Primary Applications
Table 3-49 Texas Instruments Four-Channel Serial Backplane Transceiver Transmission Media Aspects
Table 3-50 Lattice Semiconductor ORSO82G5 and ORSO42G5 Backplane Transceiver Features
Table 3-51 Lattice Semiconductor ORSO82G5 and ORSO42G5 Backplane Transceiver Functions
Table 3-52 Lattice Semiconductor ORSO82G5 and ORSO42G5 Backplane Transceiver Benefits
Table 3-53 Mindspeed Technologies Crosspoint Switch Configurations
Table 3-54 Mindspeed Crosspoint Switching Functions
Table 3-55 Mindspeed Typical Crosspoint Switch Applications
Figure 3-56 Intersil Backplane And Line Card Applications
Table 3-57 Mindspeed M27207 SerDes Transceiver Features
Table 3-58 ORSO82G5 / ORSO42G5 Products Device ORSO82G5 ORSO42G5
Table 3-59 Lattice Semiconductor ORSO42G5 Programmable Features
Table 3-60 Lattice ORSO82G5 FPSC (Field Programmable System Chip) device applications
Table 3-61 Lattice Semiconductor SERDES
Table 3-62 Lattice Semiconductor ORCA® ORSPI4 Next -Generation FPSC Features
Table 3-63 Lattice Semiconductor ORCA® ORSPI4 Next -Generation FPSC Embedded Core Features
Table 3-64 Lattice Semiconductor ORCA® ORSPI4 Components
Table 3-65 National Semiconductor Products
Figure 3-66 National Semiconductor Signal Conditioner DS40MB200 Products
Table 3-67 National Semiconductor Signal Conditioner Features
Figure 3-68 National Semiconductor SCAN50C400 - 1.25/2.5/5.0 Gbps Quad Multi-rate Backplane Transceiver
Figure 3-69 National Semiconductor SCAN50C400 - 1.25/2.5/5.0 Gbps Quad Multi-rate Backplane Transceiver Features
Figure 3-70 National Semiconductor. SCAN50C400A is a four-channel high-speed backplane transceiver (SERDES)
BACKPLANE TRANSCEIVER TECHNOLOGY
Figure 4-1 Circuit Switch Direct Connectivity
Figure 4-2 Circuit Switch Direct Connectivity
Figure 4-3 Shared Bus, Dual Star, and Full Mesh Architecture
Table 4-4 Common Data Protocols.
Table 4-5 Intel PCI Express Benefits
Table 4-6 Requirements For A Third Generation Local I/O Bus
Table 4-7 Intel PCI Express Benefits
Table 4-8 Requirements For A Third Generation Local I/O Bus
Table 4-9 Star Topology
Table 4-10 Mesh Topology
Table 4-11 Multipoint Topology
Table 4-12 Fast Backplanes Cost / Performance Solutions
BACKPLANE TRANSCEIVER COMPANY PROFILES
Table 5-1 Selected Backplane Transceiver Companies
Table 5-2 Aeluros Serializer/Deserializer Solutions
Table 5-3 Aeluros Serializer/Deserializer Benefits
Table 5-4 Aeluros Serializer/Deserializer for XAUI Modules
Table 5-5 Aeluros Serializer/Deserializer Puma AEL1003
Table 5-6 Aeluros Serializer/Deserializer Puma AEL1004 Features
Table 5-7 Aeluros Serializer/Deserializer Puma AEL1006 Features
Table 5-8 Aeluros Puma AEL1001 device is a single channel CMOS Features
Table 5-9 Aeluros Puma AEL1001 device 10GbE/10GFC LAN PHY/SerDes
Table 5-10 Aeluros Puma AEL1001 device 10GbE/10GFC LAN PHY/SerDes In the transponder modules
Table 5-11 Aeluros Puma Applications
Table 5-12 Aeluros Puma Benefits
Table 5-13 Analog Devices Backplane Transceivers
Table 5-14 Avago Key Competitive Strengths
Table 5-15 Product Categories In Which Avago Ranks Among The Top Three Suppliers By Revenue Share
Table 5-16 Key Elements Of Avago Strategy
Table 5-17 Avago Wired Infrastructure Products
Table 5-18 Avago Wired Infrastructure Markets
Table 5-19 Avago Wired Infrastructure Customers
Table 5-20 Dallas Semiconductor Customers
Table 5-21 Dallas Semiconductor Products
Table 5-22 Dallas Semiconductor Markets Served
Table 5-23 Maxim Net Revenue, Dollars, 2002-2006
Table 5-24 Dune Device Positioning
Table 5-25 Exar Target an Environment
Table 5-26 Exar Features
Table 5-27 Exar Applications
Table 5-28 IDT Customers
Table 5-29 Vitesse VSC3312 crosspoint switching functions
Table 5-30 Vitesse's PixEQ™ equalization capability features
- Vitesse
- Mindspeed
- Accelerant Networks
- Agere Systems
- Analog Devices
- Aeluros
- AMCC
- Avago
- BiRa
- Broadcom
- Conexant Systems
- Dallas Semiconductor
- Dune Networks
- EXAR
- Fairchild
- Hitachi/Maxwell
- Infineon
- IDT
- Intel
- Lattice Semiconductor
- Marvell
- Maxim Integrated Products
- National Semiconductor
- On Semiconductor
- PMC-Sierra
- Siemens/Dasan Networks
- Teradyne
- Triquint
- Zarlink
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