Optic Connectors Challenging Copper in I/O Applications
Bishop & Associates
July 1, 2008 5 Pages - SKU: BCBQ1831852
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Bishop & Associates has just released a new 14 chapter research report exploring the technology of both electrical and optic communication links, and compares the relative advantages and disadvantages of each in I/O applications. Connector sales data is provided for the years 2006, 2007, 2012 forecast, and five-year CAGRs.
Copper cables have historically been the primary media that allowed electronic systems to communicate. Copper cabling systems have evolved over the years to enable increasing bandwidth as system speeds increased. Cable constructions including coaxial, and shielded twisted pair along with advanced signaling devices have pushed the performance capabilities of copper Input / output cables to multigigabit speeds. Prediction of copper bandwidth limitations has consistently proven inaccurate as designers find ways to enable copper links to satisfy their performance requirements. Copper cable assemblies are an established technology that permits easy repair in the field using common tools. A variety of industry standards define copper interfaces that enable equipment connectivity, an essential feature of many of today’s electronic products.
The elements of optic communication technology have been developing over a long period of time, but the ability to fabricate optic links became practical in the 1960’s. Copper cables have been in a continuous process of evolving to higher speed performance, while fiber was born with bandwidth capability far beyond the limitations of copper. Glass fiber was quickly adopted as the media of choice for long distance communication links that spanned the earth. Low cost, high bandwidth optic cables have enabled global telecom and Internet communications that have reshaped the world. In addition to exceptional bandwidth, fiber links offers excellent signal integrity, electrical isolation, noise immunity and the ability to transmit over long distances without the need for amplifiers or repeaters.
A primary impediment to the implementation of fiber is the fact that signals produced by electronic equipment must be converted to optic pulses before they can be transmitted over fiber cables. This has been an expensive process that could only be justified in long distance applications. Improvements in the performance of optic cables together with the introduction of lower cost electro-optic conversion devices have allowed fiber to become competitive in shorter reach applications.
Market demand for higher speed links is putting pressure on copper cables that must incorporate more exotic features to keep pace. Increasing data rates can limit the effective length of copper cable assemblies opening the door to optic alternatives. System designers now have the option of choosing optic or copper media in many I/O applications of less than 10 meters.
The report is organized into 14 chapters plus a glossary of terms and definitions.
Please Note: Global Site License includes Hard Copy and CD-Rom
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- Chapter 1 - Report Scope and Methodology
- Methodology and Approach
- Report Objectives Study Methodology
- Data Collection Forms
- Chapter 2 - Introduction
- Introduction / History
- Copper Interconnect Technology
- Optic Interconnect Technology
- Basic Principals of Optical Transmission
- Optical Fiber Types
- Fiber Optic Connector Less Characteristics
- Optical Connector Types
- Copper Connector Termination Process
- Optic Connector Termination Process
- Advantages / Disadvantages of Copper Connectors
- Advantages of Copper Connectors
- Disadvantages of Copper Connectors
- Advantages of Fiber Optic Interconnects
- Disadvantages of Fiber Optic Interconnects
- Chapter 3 - Overview of High-Speed Copper Cable Assemblies|
- USB 2.0 / 3.0
- MicroGiGaCN, CX4
- IPass
- HSSDC-2
- High-Speed Backplane Cable Connectors
- DensiShield
- Display Port, HDMI
- Enhanced RJ-45
- Active cables
- Chapter 4 - Overview of Common Fiber Optic Connectors
- Single Fiber Connectors
- ST Connectors
- FC-PC Connectors
- SC Connectors
- LC Connectors
- MU Connectors
- VF-45 Connectors
- Multi-Fiber Connectors
- FDDI Connectors
- ESCON Connectors
- MT Connectors
- MR-RJ Connectors
- MTP Connectors
- Lightray MPX
- Fiber Optic Adapters / Special Purpose Intefaces
- Circular MT Connectors
- HD-OPTY Fiber Optic Backplane Interconnect
- Chapter 5 - The Small Form Factor Pluggable Option
- Gigabit Interface Adapter
- Small Form Factor Pluggable (SFP)
- XFP
- QSFP
- SFP+
- Chapter 6 - Active Optical Cables
- Tyco Electronics
- Emcore
- Zarlink
- Fujitsu
- Luxtera
- Finisar
- Chapter 7 - The Interface Selection Process
- Chapter 8 - Fiber Optic and Copper Connector and Cable Assembly Suppliers
- Optic Interface Manufacturers
- Molex, USConec, Timbercon, Stratos Lightwave, Sabritec
- Yazaki, Sumitomo Electric, Corning, Sanmina SCI, NTT
- Copper Interface Manufacturer
- Amphenol, Molex, FCI Electronics, Tyco Electronics, Samtec, Gore
- Meritic, Sanmana, SCI
- Chapter 9 - Optic Interconnect Industry Standards
- FOCIS Standards.
- TIA / EIA Standards
- SONET
- Chapter 10 - High-Speed Copper and Fiber Cable Applications
- History.
- Networking.
- PCI Express
- Infiniband
- Ethernet
- Chapter 11 - The Copper or Fiber Decision
- Traditional Copper and Fiber Applications
- Advances in Fiber to Address Shorter Reach
- Selection Criteria
- Data Rate/Distance/Density Trends
- Copper / Fiber 10 Gb/s Performance Comparisons
- Chapter 12 - Advances in Copper and Fiber Interconnects
- Technology Drivers
- 40 / 100 Gb Ethernet
- Fiber to the Home
- Optical Connector Roadmap
- Optical Backplanes
- Silicon Nanophotonics
- Chapter 13 - Copper and Fiber Market Estimates and Forecast
- Introduction
- World Fiber Optic Cable Terminated Connector Market, 2006-2007
- World High-Speed Copper Cable Terminated Connector Market, 2006-2007
- World fiber Optic Cable Terminated Connector Market, Telecom / Datacom Applications, 2006 2007
- World High-Speed Copper Cable Terminated Connector Market, Telecom / Datacom Applications, 2006-2007
- World Fiber Optic Cable Terminated Connector Market, Computing Applications, 2006-2007
- World High-Speed Copper Cable Terminated Connector Market, Computing Applications, 2006-2007
- World fiber Optic Cable Assembly Market, Telecom / Datacom Applications, 2006-2007
- World High-Speed Copper Cable Assembly Market, Telecom / Datacom Applications, 2006-2007
- World Fiber Optic Cable Assembly Market, Computing Applications, 2006-2007
- World High-Speed Copper Cable Assembly Market, Computing Applications, 2006-2007
- Fiber Optic Connector Forecast, Telecom / Datacom Applications, 2007-2012
- High-Speed Copper Connector Forecast, Telecom / Datacom, Applications 2007-2012
- Fiber Optic Connector Forecast, Computing Applications,2007-2012
- High-Speed Copper Connector Forecast, Computing Applications, 2007-2012
- Fiber Optic Cable Assembly Forecast, Telecom / Datacom, Applications, 2007-2012
- High-speed Copper Cable Assembly Forecast, Telecom / Datacom Applications, 2007-2012
- Fiber Optic Cable Assembly Forecast, Computing Applications, 2007-2012
- High-Speed Copper Cable Assembly Forecast, Computing Applications, 2007-2012
- Chapter 14 - Major Findings and Conclusions
- Appendix A - Terms and Definitions
- Appendix B - List of Contributors
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