FlexRay and its Applications Real Time Multiplexed Network 2nd Edition by Dominique Paret ISBN 978-1119964063 1119964063
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ISBN 10: 1119964063
ISBN 13: 978-1119964063
Author: Dominique Paret
An authoritative yet highly accessible guide to the design and operation of the FlexRay bus, the latest protocol for automotive network communications
A translation of the French edition, originally published in January 2011, this work is the result of numerous training courses that Dominique Paret has given in companies, and it provides detailed explanations of the design and operation of the FlexRay bus. Comprised of five parts the book covers: the FlexRay concept and its communication protocol; the FlexRay physical layer; synchronization and global time and; architecture of a node, components and development aid tools for hardware and software.
Provides comprehensive treatment of the FlexRay network, including its implementation through a real automotive application
Includes the latest specifications (Version 3) concluded by the FlexRay consortium widely expected to become the industry standard
Written by an author with in-depth experience of automotive electronics, including FlexRay, and presenter of specialist training courses to the industry
Includes a review of industrial tools to help design and implement a FlexRay based distributor application
Table of contents:
Part A: Secure Real Time Applications
-
Reminders about the CAN Protocol
1.1 The Limitations of CAN
1.2 ‘Event-Triggered’ and ‘Time-Triggered’ Aspects -
The TTCAN Protocol
2.1 TTCAN – ISO 11898-4
2.2 Session Layer
2.3 Principle of Operation of TTCAN -
Emergence of ‘X-by-Wire’ Systems
3.1 High Throughput and X-by-Wire
3.2 Redundancy
3.3 High-Level Application Requirements
3.4 High-Level Functional Requirements
Part B: The FlexRay Concept and Its Communication Protocol
4. The Genesis of FlexRay
4.1 The TTP/C Protocol
4.2 FlexRay
4.3 The FlexRay Consortium
4.4 The Aim of FlexRay
5. FlexRay and Real Time
5.1 Physical Time
5.2 Local Time
5.3 Global View at Network Level – Global Time
5.4 Summarising: Time and its Hierarchies in FlexRay
6. The FlexRay Protocol
6.1 History
6.2 General – Channels, Cycles, Segments and Slots
6.3 Channels and Cycles
6.4 Segments
6.5 Communication Frames
6.6 ‘SW – Symbol Window’ Segment
6.7 ‘NIT – Network Idle Time’ Segment
7. Access to the Physical Layer
7.1 Definition of Tasks
7.2 Execution of the Communication Cycle
7.3 Frame ID (11 Bits)
7.4 Arbitration Grid Level
7.5 Conditions of Transmission and Access to the Medium during the Static Segment
7.6 Conditions of Transmission and Access to the Medium during the Dynamic Segment
7.7 Similarity of the Use of the Dynamic Segment to the Network Access of the CAN Protocol
7.8 Some Additions in the Case of FlexRay Being Used with Two Channels
Appendices of Part B
Appendix B1 Examples of Applications
Appendix B2 Scheduling Problems – Application of the FlexRay Protocol to Static and Dynamic Segments
Part C: The FlexRay Physical Layer
8. Creation and Transmission (Tx) of the FlexRay Signal
8.1 Creation of the Signal
8.2 Physical Representation of Bits
8.3 Line Driver ‘Tx’
9. Medium, Topology and Transport of the FlexRay Signal
9.1 Medium
9.2 Effects Linked to Propagation
9.3 Topologies and Consequences for Network Performance
9.4 Single-Channel, Dual-Channel and Multi-Channel Communication Topologies
9.5 The FlexRay Topologies
9.6 Examples of Topologies
10. Reception of the FlexRay Signal
10.1 Signal Reception Stage
10.2 Processing of the Received Signal by the Communication Controller
11. The Bit Error Rate (BER)
11.1 Integrity of Signal and BER
11.2 Eye Diagram
11.3 Relationship between the Integrity of the Signal, the Eye Diagram and the BER
12. Modelling and Simulating the Performance of a Network
12.1 Modelling and Simulating the Performance of a Network and its Topology
12.2 Modelling the Elements of the Network
12.3 Simulation
13. Summary on the Physical Layer of FlexRay
Part D: Synchronisation and Global Time
14. Communication Cycle, Macrotick and Microtick
14.1 The FlexRay Time Hierarchy
14.2 Synchronisation in a Network of TDMA–FlexRay Type
14.3 Proposed Solution to the Problem
14.4 Application and Implementation of Corrective Values
14.5 Summary
15. Network Wakeup, Network Startup and Error Management
15.1 Network Wakeup Phase
15.2 Network Startup Phase
15.3 Error Management
16. FlexRay v3.0
16.1 Protocol Enhancements
16.2 Physical Layer Enhancements
16.3 FlexRay and ISO
16.4 FlexRay in Other Industries
Part E: Architecture of a Node, Components and Development Aid Tools
17. Architecture of a FlexRay Node
17.1 The Major Components of a Node
17.2 Architecture of the Processor and Protocol Manager
18. Electronic Components for the FlexRay Network
18.1 The Component Range
18.1.1 FlexRay Protocol Manager
18.2 EMC and EMC Measurements
18.3 Protection from ESD
18.4 Conformity Tests
18.5 Bus Guardian
19. Tools for Development, Integration, Analysis and Testing
19.1 The V-Shaped Development Cycle
19.2 DaVinci Network Designer (Point 1 of the V Cycle)
19.3 CANoe.FlexRay
19.4 FlexRay CANalyzer (Covers Points 2, 4 and 5 of the V Cycle)
19.5 Test and Diagnostics (Point 6 of the V Cycle)
19.6 Features of the FlexRay Protocol
19.7 Communication Interface
20. Implementation of FlexRay Communication in Automotive Logic Controllers
20.1 FlexRay and AUTOSAR
20.2 The AUTOSAR Partnership
20.3 Communication in an AUTOSAR System
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