Automotive Mechatronics Automotive Networking Driving Stability Systems Electronics 1st edition by Konrad Reif 9783658039752 3658039752

Basics of mechatronics

Mechatronic systems and components

Development methods

Outlook

Architecture

Overview

Vehicle system architecture

Electronic control unit

Operating conditions

Design

Data processing

Digital modules in the control unit

Control unit software

Software Development

Basic principles of networking

Network topology

Network organization

OSI reference model

Control mechanisms

Automotive networking

Cross-system functions

Requirements for bus systems

Classification of bus systems

Applications in the vehicle

Coupling of networks

Examples of networked vehicles

Bus systems

CAN bus

LIN bus

Bluetooth

MOST bus

TTP/C

FlexRay

Diagnosis interfaces

Automotive 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 technologies

Sensor 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

iBolt™ force sensor

Torque sensor

Rain/light sensor

Two-step Lambda oxygen sensors

LSU4 planar wide-band Lambda oxygen sensor

Electric Actuators

Electromechanical actuators

Fluid-mechanical actuators

Electrical machines

Electrohydraulic Actuators

Application and Function

Requirements

Design and Operating Concept

Actuator Types

Simulations in Development

Electronic Transmission Control

Drivetrain Management

Market Trends

Control of Automated Shift Transmission AST

Control of Automatic Transmissions

Control of Continuously Variable Transmission

ECUs for Electronic Transmission Control

Thermo-Management

Processes and Tools Used in ECU Development

Modules for Transmission Control

Application

Module Types

Antilock Braking System (ABS)

System overview

Requirements placed on ABS

Dynamics of a braked wheel

ABS control loop

Typical control cycles

Traction Control System (TCS)

Tasks

Function description

Structure of traction control system (TCS)

Typical control situations

Traction control system (TCS) for four wheel drive vehicles

Electronic Stability Program (ESP)

Requirements

Tasks and method of operation

Maneuvers

Closed-loop control system and controlled variables

Automatic brake functions

Overview

Standard function

Additional functions

Hydraulic modulator

Development history

Design

Pressure modulation

Sensotronic brake control (SBC)

Purpose and function

Design

Method of operation

Overview of common-rail systems

Areas of application

Design

Operating concept

Common-rail system for passenger cars

Common-rail system for commercial vehicles

High-pressure components of common-rail system

Overview

Injector

High-pressure pumps

Fuel rail (high-pressure accumulator)

High-pressure sensors

Pressure-control valve

Pressure-relief valve

Electronic Diesel Control (EDC)

System overview

Common-rail system for passenger cars

Common-rail system for commercial vehicles

Data processing

Fuel-injection control

Lambda closed-loop control for passenger-car diesel engines

Torque-controlled EDC systems

Data exchange with other systems

Serial data transmission (CAN)

Active steering

Purpose

Design

Method of operation

Safety concept

Benefits of active steering for the driver

Drive and adjustment systems

Power windows

Power sunroofs

Seat and steering column adjustment

Heating, ventilation and air conditioning

Electronic heater control

Electronically controlled air conditioning system

Vehicle security systems

Acoustic signaling devices

Central locking system

Locking systems

Biometric systems

Electromagnetic 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 suppression

Fault diagnostics

Monitoring during vehicle operation (on-board diagnosis)

On-board diagnosis system for passenger cars and light-duty trucks

On-board diagnosis system for heavy-duty trucks

Index