Multiplexed networks for embedded systems : CAN, LIN, Flexray, Safe-by-Wire ... /

Multiplexed networks are essential for the unified, efficient and cost-effective exchange of electronic information within embedded component systems. This is especially important in automotive manufacturing as vehicles become increasingly reliant on robust electronic networks and systems for improv...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Paret, Dominique
Formato: Electrónico eBook
Idioma:Inglés
Francés
Publicado: Chichester, England ; Hoboken, NJ : Wiley, ©2007.
Temas:
Microcomputers > Buses.
Controller Area Network (Computer network)
Micro-ordinateurs > Bus.
CAN (Réseau d'ordinateurs)
COMPUTERS > Hardware > Network Hardware.
COMPUTERS > Hardware > Peripherals.
Microcomputers > Buses
Computernetwerken.
Embedded systems.
Systèmes enfouis (informatique)
Réseaux locaux (informatique)
Microordinateurs > Bus.
CAN (réseau d'ordinateurs)
Multiplexage.
Acceso en línea:Texto completo (Requiere registro previo con correo institucional)
Tabla de Contenidos:
  • Cover
  • Contents
  • Preface
  • Acknowledgements
  • Part A CAN: from concept to reality
  • 1 The CAN bus: general
  • 1.1 Concepts of bus access and arbitration
  • 1.2 Error processing and management
  • 1.3 Increase your word power
  • 1.4 From concept to reality
  • 1.5 Historical context of CAN
  • 1.6 Patents, licences and certification
  • 2 CAN: its protocol, its properties, its novel features
  • 2.1 Definitions of the CAN protocol: 'ISO 11898-1'
  • 2.2 Errors: their intrinsic properties, detection and processing
  • 2.3 The rest of the frame
  • 2.4 CAN 2.0B
  • 3 The CAN physical layer
  • 3.1 Introduction
  • 3.2 The 'CAN bit'
  • 3.3 Nominal bit time
  • 3.4 CAN and signal propagation
  • 3.5 Bit synchronization
  • 3.6 Network speed
  • 4 Medium, implementation and physical layers in CAN
  • 4.1 The range of media and the types of coupling to the network
  • 4.2 High-Speed CAN, from 125 kbit s-1 to 1Mbit s-1: ISO 11898-2
  • 4.3 Low speed CAN, from 10 to 125 kbit s-1
  • 4.4 Optical media
  • 4.5 Electromagnetic media
  • 4.6 Pollution and EMC conformity
  • 5 Components, applications and tools for CAN
  • 5.1 CAN components
  • 5.2 Applications
  • 5.3 Application layers and development tools for CAN
  • 6 Time-triggered protocols
  • FlexRay
  • 6.1 Some general remarks
  • 6.2 Event-triggered and Time-triggered Aspects
  • 6.3 TTCAN
  • Time-triggered communication on CAN
  • 6.4 Towards high-speed, X-by-Wire and redundant systems
  • 6.5 FlexRay
  • Part B New multiplexed bus concepts: LIN, FlexRay, Fail-safe SBC, Safe-by-Wire
  • 7 LIN
  • Local Interconnect Network
  • 7.1 Introduction
  • 7.2 Basic Concept of the LIN 2.0 Protocol
  • 7.3 Cost and market
  • 7.4 Conformity of LIN
  • 7.5 Examples of components for LIN 2.0
  • 8 Think 'Bus', think 'Fail-safe SBC', 'Gateways' . .
  • 8.1 Fail-safe SBCs: their multiple aspects and reasons for using them
  • 8.2 The strategy and principles of re-use
  • 8.3 Demo board
  • 8.4 Gateways
  • 8.5 Managing the application layers
  • 9 Safe-by-Wire
  • 9.1 A little history
  • 9.2 Safe-by-Wire Plus
  • 9.3 Some words of technology
  • 10 Audio-video buses
  • 10.1 I2C Bus
  • 10.2 The D2B (Domestic digital) bus
  • 10.3 The MOST (Media oriented systems transport) bus
  • 10.4 The IEEE 1394 bus or 'FireWire'
  • 11 RF communication and wireless mini-networks
  • 11.1 Radio-frequency communication: internal
  • 11.2 Radio-frequency communication: external
  • 11.3 Wireless networks
  • Conclusion
  • Part C Appendices
  • Appendix A. CiA (CAN in Automation)
  • Appendix B. Essential references
  • Appendix C. Further reading
  • Appendix D. Useful addresses
  • Index
  • Last Page.

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