رکورد قبلیرکورد بعدی

" EMC and functional safety of automotive electronics / "


Document Type : BL
Record Number : 856050
Main Entry : Borgeest, Kai‏ ‎, 1967-
Title & Author : EMC and functional safety of automotive electronics /\ Kai, Borgeest.
Publication Statement : Herts, United Kingdom :: Institution of Engineering and Technology,, 2018.
: , ©2018
Series Statement : IET Transportation Series ;; 12
Page. NO : 1 online resource (xxiv, 237 pages) :: illustrations
ISBN : 1523121122
: : 1785614096
: : 9781523121120
: : 9781785614095
: 9781785614088
Bibliographies/Indexes : Includes bibliographical references (pages 215-228) and index.
Contents : Intro; Contents; Preface and acknowledgements; Symbols; Abbreviations; 1. Introduction to automotive electronics; 1.1 Electronic control units with sensors and actors; 1.1.1 Power supply; 1.1.2 Clock; 1.1.3 Analogue inputs and sensors; 1.1.4 Digital inputs and sensors; 1.1.5 Power drivers and actors; 1.1.6 Transceivers; 1.1.7 Internal communication; 1.1.8 Construction techniques; 1.2 Power network; 1.2.1 Standard power network; 1.2.2 Dual battery network; 1.2.3 Commercial vehicle network; 1.2.4 Fuses; 1.2.5 Energy management; 1.3 Communication between electronic control units; 1.3.1 CAN bus
: 1.3.2 FlexRay bus1.3.3 MOST bus; 1.3.4 Ethernet; 1.3.5 LIN subbus; 1.3.6 CXPI; 1.3.7 SENT; 1.3.8 PSI5; 1.3.9 Automotive safety restraint bus; 1.4 Functional domains; 1.4.1 Power train; 1.4.2 Vehicle dynamics and active safety; 1.4.3 Passive safety; 1.4.4 Theft protection; 1.4.5 Body/comfort; 1.4.6 Lighting and vision; 1.4.7 Man-machine interface; 1.4.8 Infotainment; 1.4.9 Car2X; 1.4.10 Assistance systems; 1.4.11 Drive-by-wire; 1.4.12 Autonomous driving; 2. Electrical drives and charging infrastructure; 2.1 Components; 2.1.1 Batteries; 2.1.2 Fuel cells; 2.1.3 Power converters
: 2.1.4 Electric motors2.2 Electric power trains; 2.3 Hybrid power trains; 2.4 Charging infrastructure; 2.4.1 Conductive charging; 2.4.2 Inductive charging; 2.4.3 Charger communication; 3. Fundamentals of functional safety; 3.1 Goals and definitions; 3.2 Management; 3.2.1 Functional safety life cycle; 3.2.2 Safety goals; 3.2.3 Cooperation of OEMs and suppliers; 3.3 Analysis; 3.3.1 Dependent failure analysis; 3.3.2 Fault tree analysis; 3.3.3 Failure mode and effect analysis; 3.3.4 Design review based on failure mode; 3.3.5 Event tree analysis; 3.3.6 Markov chain; 3.3.7 Hazard and risk assessment
: 3.4 Software development3.4.1 Process models; 3.4.2 Development assessments; 3.4.3 Configuration management; 3.4.4 Modularisation; 3.5 Hardware development; 3.5.1 Reliability; 3.5.2 Reliability block diagrams and redundancy; 3.6 Functional safety and EMC; 3.7 Functional safety and quality; 3.8 Standards; 3.8.1 History; 3.8.2 ISO 26262; 3.8.3 ISO/PAS19451; 3.8.4 ISO/PAS19695; 3.8.5 ISO 25119; 3.9 Functional safety of autonomous vehicles; 4. Fundamentals of EMC, signal and power integrity; 4.1 Maxwell's equations; 4.2 Coupling paths; 4.2.1 Line coupling; 4.2.2 Electric field coupling
: 4.2.3 Magnetic field coupling4.2.4 Electromagnetic field coupling; 4.3 Field coupling into wires; 4.4 Countermeasures against coupling; 4.4.1 Filters; 4.4.2 Shields; 4.5 Sources; 4.6 Sinks; 4.7 Electrostatic discharge; 4.8 Signal and power integrity; 4.8.1 Relation between frequency and time domain; 4.8.2 Transmission lines; 4.8.3 Signal integrity; 4.8.4 Power integrity; 5. Legal framework; 5.1 European Union; 5.1.1 EMC; 5.1.2 Functional safety; 5.2 USA; 5.2.1 EMC; 5.2.2 Functional safety; 5.3 Canada; 5.3.1 EMC; 5.3.2 Functional safety; 5.4 Australia; 5.5 Japan; 5.6 Russia; 5.7 China
Abstract : Electromagnetic compatibility (EMC) deals with the unintentional propagation and reception of electromagnetic energy which may cause disturbances or even physical damage in electronic or electromechanical systems. With the increase in number and density of electronic devices and systems in modern vehicles, EMC has become a substantial concern and a key cause of malfunction of automotive electronics. This book explores electromagnetic compatibility in the context of automotive electronics, with a close relation to functional safety as required by ISO 26262. Topics covered include an introduction to automotive electronics; electrical drives and charging infrastructure; fundamentals of functional safety; fundamentals of EMC, signal and power integrity; the legal framework; EMC design at the ECU Level; EMC design at the system level and in special subsystems; modelling and simulation; and test and measurement for EMC.
Subject : Automobiles-- Electronic equipment.
Subject : Electromagnetic compatibility.
Subject : Automobiles-- Electronic equipment.
Subject : automotive electronics.
Subject : Electromagnetic compatibility.
Subject : electromagnetic compatibility.
Subject : road safety.
Subject : TECHNOLOGY ENGINEERING-- Engineering (General)
Dewey Classification : ‭629.2/72‬
LC Classification : ‭TL272.5‬‭.A982 2018eb‬
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