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Bosch Robert GmbH (Ed.) Bosch Automotive Electrics and Automotive Electronics Systems and Components, Networking and Hybrid Drive
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5th Edition. — Springer Fachmedien Wiesbaden, 1999, 2004, 2007, 2013, 2014. — 530 p. — ISBN: 978-3-658-01783-5, ISBN: 978-3-658-01784-2 (eBook).This is a complete reference guide to automotive electrics and electronics. This new edition of the definitive reference for automotive engineers, compiled by one of the world's largest automotive equipment suppliers, includes new and updated material. As in previous editions different topics are covered in a concise but descriptive way backed up by diagrams, graphs, photographs and tables enabling the reader to better comprehend the subject. This fifth edition revises the classical topics of the vehicle electrical systems such as system architecture, control, components and sensors. There is now greater detail on electronics and their application in the motor vehicle, including electrical energy management (EEM) and discusses the topic of inter system networking within the vehicle. It also includes a description of the concept of hybrid drive a topic that is particularly current due to its ability to reduce fuel consumption and therefore CO2 emissions. This book will benefit automotive engineers and design engineers, automotive technicians in training and mechanics and technicians in garages. It may also be of interest to teachers/ lecturers and students at vocational colleges, and enthusiasts.Electrical and electronic systems in the vehicleOverviewMotronic-engine management system
Electronic diesel control (EDC)
Lighting technology
Electronic stability program (ESP)
Adaptive cruise control (ACC)
Occupant-protection systemsBasic principles of networking
Network topology
Network organization
OSI reference model
Control mechanismsAutomotive networking
Cross-system functions
Requirements for bus systems
Classification of bus systems
Applications in the vehicle
Coupling of networks
Examples of networked vehiclesBus systems
CAN bus
LIN bus
MOST bus
Bluetooth
FlexRay
Diagnosis interfacesArchitecture of electronic systemsOverviewVehicle system architectureMechatronics
Mechatronic systems and components
Development methods
OutlookElectronic components in the vehicle
Basic principles of semiconductor technology
Passive components
Semiconductor components
Manufacture of semiconductor components and circuitsControl units
Operating conditions
Design
Data processing
Digital modules in the control unit
Control unit softwareAutomotive sensors
Basics and overview
Automotive applications
Details of the sensor market
Features of vehicle sensors
Sensor classification
Error types and tolerance requirements
Reliability
Main requirements, trends
Overview of the physical effects for sensors
Overview and selection of sensor technologiesSensor measuring principles
Position sensors
Speed and rpm sensors
Acceleration sensors
Pressure sensors
Force and torque sensors
Flowmeters
Gas sensors and concentration sensors
Temperature sensors
Imaging sensors (video)Sensor types
Engine-speed sensors
Hall phase sensors
Speed sensors for transmission control
Wheel-speed sensors
Micromechanical yaw-rate sensors
Piezoelectric tuning-fork yaw-rate sensor
Micromechanical pressure sensors
High-pressure sensors
Temperature sensors
Accelerator-pedal sensors
Steering-angle sensors
Position sensors for transmission control
Axle sensors
Hot-film air-mass meters
Piezoelectric knock sensors
SMM acceleration sensors
Micromechanical bulk silicon acceleration sensors
Piezoelectric acceleration sensors
Bolt force sensor
Torque sensor
Rain/light sensor
Two-step Lambda oxygen sensors
LSU4 planar wide-band lambda oxygen sensorActuators
Electromechanical actuators
Fluid-mechanical actuators
Electrical machinesHybrid drives
Drive concepts
Operating strategies for electric hybrid vehicles
Recuperative brake system
Electrical energy accumulatorsVehicle electrical systems
Electrical energy supply in the passenger car
Electrical energy management
Two-battery vehicle electrical system
Vehicle electrical systems for commercial vehicles
Wiring harnesses
Plug-in connectionsStarter batteries
Function and requirements
Design
Operating principle
Battery designs
Battery characteristics
Type designations
Practical and laboratory battery testing
Battery maintenanceAlternators
Electrical power generation in the vehicle
Operating principle of the alternator
Voltage regulation
Overvoltage protection
Characteristic curves
Power losses
Alternator circuits
Alternator designsStarting systemsOverviewStarter
Other types of starter motor
Starting systems
Design
Overview of the types of startersElectromagnetic compatibility (EMC) and interference suppression
EMC ranges
EMC between different systems in the vehicle
EMC between the vehicle and its surroundings
Guarantee of immunity and interference suppressionSymbols and circuit diagrams
Circuit symbols
Circuit diagrams
Designations for electrical devices
Terminal designationsIndex of technical terms
Technical termsBackground Information
ABS versions
History of radar
Micromechanics
Comparison of bus systems
Miniaturization
Performance of electronic control units
Piezoelectric effect
Greenhouse effect
History of the alternator
History of the batteryElectrical and electronic systems in the vehicle
Dipl.-Ing. Bernhard Mencher;
Dipl.-Ing. (BA) Ferdinand Reiter;
Dipl.-Ing. Andreas Glaser;
Dipl.-Ing. Walter Gollin;
Dipl.-Ing. (FH) Klaus Lerchenmüller;
Dipl.-Ing. Felix Landhäußer;
Dipl.-Ing. Doris Boebel,
Automotive Lighting Reutlingen GmbH;
Dr.-Ing. Michael Hamm,
Automotive Lighting Reutlingen GmbH;
Dipl.-Ing. Tilman Spingler,
Automotive Lighting Reutlingen GmbH;
Dr.-Ing. Frank Niewels;
Dipl.-Ing. Thomas Ehret;
Dr.-Ing. Gero Nenninger;
Prof. Dr.-Ing. Peter Knoll;
Dr. rer. nat. Alfred Kutten berger.Networking
Dipl.-Inform. Jörn Stuphorn,
Universität Bielefeld;
Dr. Rainer Constapel,
DaimlerChrysler AG Sindel fingen;
Dipl.-Ing. (FH) Stefan Powolny;
Dipl.-Ing. Peter Häußermann,
DaimlerChrysler AG, Sindelfingen;
Dr. rer. nat. Alexander Leonhardi,
DaimlerChrysler AG, Sindelfingen;
Dipl.-Inform. Heiko Holtkamp,
Uni versität Bielefeld;
Dipl.-Ing. (FH) Norbert Löchel.Architecture of electronic systems
Dr. phil. nat. Dieter Kraft;
Dipl.-Ing. Stefan Mischo.Mechatronics
Dipl.-Ing. Hans-Martin Heinkel;
Dr.-Ing. Klaus- Georg Bürger.Electronic components
Dr. rer. nat. Ulrich Schaefer.Control units
Dipl.-Ing. Martin Kaiser;
Dr. rer. nat. Ulrich Schaefer;
Dipl.-Ing. (FH) Gerhard Haaf.Sensors
Dr.-Ing. Erich Zabler;
Dr. rer. nat. Stefan Fink beiner;
Dr. rer. nat. Wolfgang Welsch;
Dr. rer. nat. Hartmut Kittel;
Dr. rer. nat. Christian Bauer;
Dipl.-Ing. Günter Noetzel;
Dr.-Ing. Harald Emmerich;
Dipl.-Ing. (FH) Gerald Hopf;
Dr.-Ing. Uwe Konzelmann;
Dr. rer. nat. Thomas Wahl;
Dr.-Ing. Reinhard Neul;
Dr.-Ing. Wolfgang-Michael Müller;
Dr.-Ing. Claus Bischoff;
Dr. Christian Pfahler;
Dipl.-Ing. Peter Weiberle;
Dipl.-Ing. (FH) Ulrich Papert;
Dipl.-Ing. Christian Gerhardt;
Dipl.-Ing. Klaus Miekley;
Dipl.-Ing. Roger Frehoff;
Dipl.-Ing. Martin Mast;
Dipl.-Ing. (FH) Bernhard Bauer;
Dr. Michael Harder;
Dr.-Ing. Klaus Kasten;
Dipl.-Ing. Peter Brenner,
ZF Lenksysteme GmbH, Schwäbisch Gmünd;
Dipl.-Ing. Frank Wolf;
Dr.-Ing. Johann Riegel.
Actuators
Dr.-Ing. Rudolf Heinz;
Dr.-Ing. Robert Schenk.
Hybrid drives
Dipl.-Ing. Michael Bildstein;
Dipl.-Ing. Boyke Richter;
Dr. rer. nat Richard Aumayer;
Dr.-Ing. Karsten Mann;
Dipl.-Ing. Tim Fronzek,
Toyota Deutschland GmbH;
Dipl.-Ing. Hans-Peter Wandt,
Toyota Deutschland GmbH.
Vehicle electrical systems
Dipl.-Ing. Clemens Schmucker;
Dipl.-Ing. (FH) Hartmut Wanner;
Dipl.-Ing. (FH) Wolfgang Kircher;
Dipl.-Ing. (FH) Werner Hofmeister;
Dipl.-Ing. Andreas Simmel.
Starter batteries
Dipl.-Ing. Ingo Koch,
B Autobatterie GmbH & Co. KGaA, Hannover;
Dipl.-Ing. Peter Etzold;
Dipl.-Kaufm. techn. Torben Fingerle.
Alternators
Dipl.-Ing Reinhard Meyer.
Starting systems
Dipl.-Ing. Roman Pirsch;
Dipl.-Ing. Hartmut Wanner.
Electromagnetic compatibility
Dr.-Ing. Wolfgang Pfaffand the editorial team in cooperation with the responsible technical departments at Bosch.
Unless otherwise specified, the above are all employees of Robert Bosch GmbH.
Electronic diesel control (EDC)
Lighting technology
Electronic stability program (ESP)
Adaptive cruise control (ACC)
Occupant-protection systemsBasic principles of networking
Network topology
Network organization
OSI reference model
Control mechanismsAutomotive networking
Cross-system functions
Requirements for bus systems
Classification of bus systems
Applications in the vehicle
Coupling of networks
Examples of networked vehiclesBus systems
CAN bus
LIN bus
MOST bus
Bluetooth
FlexRay
Diagnosis interfacesArchitecture of electronic systemsOverviewVehicle system architectureMechatronics
Mechatronic systems and components
Development methods
OutlookElectronic components in the vehicle
Basic principles of semiconductor technology
Passive components
Semiconductor components
Manufacture of semiconductor components and circuitsControl units
Operating conditions
Design
Data processing
Digital modules in the control unit
Control unit softwareAutomotive sensors
Basics and overview
Automotive applications
Details of the sensor market
Features of vehicle sensors
Sensor classification
Error types and tolerance requirements
Reliability
Main requirements, trends
Overview of the physical effects for sensors
Overview and selection of sensor technologiesSensor measuring principles
Position sensors
Speed and rpm sensors
Acceleration sensors
Pressure sensors
Force and torque sensors
Flowmeters
Gas sensors and concentration sensors
Temperature sensors
Imaging sensors (video)Sensor types
Engine-speed sensors
Hall phase sensors
Speed sensors for transmission control
Wheel-speed sensors
Micromechanical yaw-rate sensors
Piezoelectric tuning-fork yaw-rate sensor
Micromechanical pressure sensors
High-pressure sensors
Temperature sensors
Accelerator-pedal sensors
Steering-angle sensors
Position sensors for transmission control
Axle sensors
Hot-film air-mass meters
Piezoelectric knock sensors
SMM acceleration sensors
Micromechanical bulk silicon acceleration sensors
Piezoelectric acceleration sensors
Bolt force sensor
Torque sensor
Rain/light sensor
Two-step Lambda oxygen sensors
LSU4 planar wide-band lambda oxygen sensorActuators
Electromechanical actuators
Fluid-mechanical actuators
Electrical machinesHybrid drives
Drive concepts
Operating strategies for electric hybrid vehicles
Recuperative brake system
Electrical energy accumulatorsVehicle electrical systems
Electrical energy supply in the passenger car
Electrical energy management
Two-battery vehicle electrical system
Vehicle electrical systems for commercial vehicles
Wiring harnesses
Plug-in connectionsStarter batteries
Function and requirements
Design
Operating principle
Battery designs
Battery characteristics
Type designations
Practical and laboratory battery testing
Battery maintenanceAlternators
Electrical power generation in the vehicle
Operating principle of the alternator
Voltage regulation
Overvoltage protection
Characteristic curves
Power losses
Alternator circuits
Alternator designsStarting systemsOverviewStarter
Other types of starter motor
Starting systems
Design
Overview of the types of startersElectromagnetic compatibility (EMC) and interference suppression
EMC ranges
EMC between different systems in the vehicle
EMC between the vehicle and its surroundings
Guarantee of immunity and interference suppressionSymbols and circuit diagrams
Circuit symbols
Circuit diagrams
Designations for electrical devices
Terminal designationsIndex of technical terms
Technical termsBackground Information
ABS versions
History of radar
Micromechanics
Comparison of bus systems
Miniaturization
Performance of electronic control units
Piezoelectric effect
Greenhouse effect
History of the alternator
History of the batteryElectrical and electronic systems in the vehicle
Dipl.-Ing. Bernhard Mencher;
Dipl.-Ing. (BA) Ferdinand Reiter;
Dipl.-Ing. Andreas Glaser;
Dipl.-Ing. Walter Gollin;
Dipl.-Ing. (FH) Klaus Lerchenmüller;
Dipl.-Ing. Felix Landhäußer;
Dipl.-Ing. Doris Boebel,
Automotive Lighting Reutlingen GmbH;
Dr.-Ing. Michael Hamm,
Automotive Lighting Reutlingen GmbH;
Dipl.-Ing. Tilman Spingler,
Automotive Lighting Reutlingen GmbH;
Dr.-Ing. Frank Niewels;
Dipl.-Ing. Thomas Ehret;
Dr.-Ing. Gero Nenninger;
Prof. Dr.-Ing. Peter Knoll;
Dr. rer. nat. Alfred Kutten berger.Networking
Dipl.-Inform. Jörn Stuphorn,
Universität Bielefeld;
Dr. Rainer Constapel,
DaimlerChrysler AG Sindel fingen;
Dipl.-Ing. (FH) Stefan Powolny;
Dipl.-Ing. Peter Häußermann,
DaimlerChrysler AG, Sindelfingen;
Dr. rer. nat. Alexander Leonhardi,
DaimlerChrysler AG, Sindelfingen;
Dipl.-Inform. Heiko Holtkamp,
Uni versität Bielefeld;
Dipl.-Ing. (FH) Norbert Löchel.Architecture of electronic systems
Dr. phil. nat. Dieter Kraft;
Dipl.-Ing. Stefan Mischo.Mechatronics
Dipl.-Ing. Hans-Martin Heinkel;
Dr.-Ing. Klaus- Georg Bürger.Electronic components
Dr. rer. nat. Ulrich Schaefer.Control units
Dipl.-Ing. Martin Kaiser;
Dr. rer. nat. Ulrich Schaefer;
Dipl.-Ing. (FH) Gerhard Haaf.Sensors
Dr.-Ing. Erich Zabler;
Dr. rer. nat. Stefan Fink beiner;
Dr. rer. nat. Wolfgang Welsch;
Dr. rer. nat. Hartmut Kittel;
Dr. rer. nat. Christian Bauer;
Dipl.-Ing. Günter Noetzel;
Dr.-Ing. Harald Emmerich;
Dipl.-Ing. (FH) Gerald Hopf;
Dr.-Ing. Uwe Konzelmann;
Dr. rer. nat. Thomas Wahl;
Dr.-Ing. Reinhard Neul;
Dr.-Ing. Wolfgang-Michael Müller;
Dr.-Ing. Claus Bischoff;
Dr. Christian Pfahler;
Dipl.-Ing. Peter Weiberle;
Dipl.-Ing. (FH) Ulrich Papert;
Dipl.-Ing. Christian Gerhardt;
Dipl.-Ing. Klaus Miekley;
Dipl.-Ing. Roger Frehoff;
Dipl.-Ing. Martin Mast;
Dipl.-Ing. (FH) Bernhard Bauer;
Dr. Michael Harder;
Dr.-Ing. Klaus Kasten;
Dipl.-Ing. Peter Brenner,
ZF Lenksysteme GmbH, Schwäbisch Gmünd;
Dipl.-Ing. Frank Wolf;
Dr.-Ing. Johann Riegel.
Actuators
Dr.-Ing. Rudolf Heinz;
Dr.-Ing. Robert Schenk.
Hybrid drives
Dipl.-Ing. Michael Bildstein;
Dipl.-Ing. Boyke Richter;
Dr. rer. nat Richard Aumayer;
Dr.-Ing. Karsten Mann;
Dipl.-Ing. Tim Fronzek,
Toyota Deutschland GmbH;
Dipl.-Ing. Hans-Peter Wandt,
Toyota Deutschland GmbH.
Vehicle electrical systems
Dipl.-Ing. Clemens Schmucker;
Dipl.-Ing. (FH) Hartmut Wanner;
Dipl.-Ing. (FH) Wolfgang Kircher;
Dipl.-Ing. (FH) Werner Hofmeister;
Dipl.-Ing. Andreas Simmel.
Starter batteries
Dipl.-Ing. Ingo Koch,
B Autobatterie GmbH & Co. KGaA, Hannover;
Dipl.-Ing. Peter Etzold;
Dipl.-Kaufm. techn. Torben Fingerle.
Alternators
Dipl.-Ing Reinhard Meyer.
Starting systems
Dipl.-Ing. Roman Pirsch;
Dipl.-Ing. Hartmut Wanner.
Electromagnetic compatibility
Dr.-Ing. Wolfgang Pfaffand the editorial team in cooperation with the responsible technical departments at Bosch.
Unless otherwise specified, the above are all employees of Robert Bosch GmbH.
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