Understanding automotive electronics an engineering perspective
Understanding Automotive Electronics is the first port of call for control engineers, system engineers and electronic engineers in the automotive industry needing a thorough grounding in automotive electronics and control. From simple automotive electronic circuits to the latest developments in te...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Waltham, Mass. :
Elsevier
2012.
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| Edición: | 7th ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627757506719 |
Tabla de Contenidos:
- Front Cover; Dedication; Understanding Automotive Electronics: An Engineering Perspective; Copyright; Contents; Preface; Introduction; Chapter 1 - The Systems Approach to Control and Instrumentation; Overview; Concept of a System; Linear System Theory: Continuous Time; Steady-State Sinusoidal Frequency Response of a System; State Variable Formulation of Models; Control Theory; Stability of Control System; Closed-Loop Limit-Cycle Control; Instrumentation; Basic Measurement System; Filtering; Chapter 2 - Discrete Time Systems Theory; Digital Subsystem; Sinusoidal Frequency Response
- Discrete Time Control SystemClosed Loop Control; Example Discrete Time Control System; Summary; Chapter 3 - Electronics Fundamentals; Semiconductor Devices; Rectifier Circuit; Integrated Circuits; Use of Feedback in Op Amps; Summing Mode Amplifier; Digital Circuits; Binary Number System; Logic Circuits (Combinatorial); Logic Circuits with Memory (Sequential); Synchronous Counter; Integrated Circuits; The Microprocessor; Chapter 4 - Microcomputer Instrumentation and Control; Microcomputer Fundamentals; Microcomputer Tasks; Microcomputer Operations; CPU Registers; Reading Instructions
- Example Use of a MicrocomputerProgramming Languages; Microcomputer Hardware; Microcomputer Applications in Automotive Systems; Instrumentation Applications of Microcomputers; Microcomputers in Control Systems; Chapter 5 - The Basics of Electronic Engine Control; Motivation for Electronic Engine Control; Exhaust Emissions; Fuel Economy; Federal Government Test Procedures; Concept of an Electronic Engine Control System; Definition of Engine Performance Terms; Exhaust Catalytic Converters; Electronic Fuel-Control System; Analysis of Intake Manifold Pressure; Idle Speed Control
- Electronic IgnitionChapter 6 - Sensors and Actuators; Automotive Control System Applications of Sensors and Actuators; Throttle Angle Sensor; Temperature Sensors; Typical Coolant Sensor; Sensors for Feedback Control; Knock Sensors; Automotive Engine Control Actuators; Variable Valve Timing; Electric Motor Actuators; Stepper Motors; Ignition System; Chapter 7 - Digital Powertrain Control Systems; Introduction; Digital Engine Control; Digital Engine Control Features; Control Modes for Fuel Control; Discrete Time Idle Speed Control; EGR Control; Variable Valve Timing Control
- Electronic Ignition ControlIntegrated Engine Control System; Summary of Control Modes; Chapter 8 - Vehicle-Motion Controls; Representative Cruise Control System; Cruise Control Electronics; Antilock Braking System; Electronic Suspension System; Electronic Steering Control; Four-Wheel Steering; Summary; Chapter 9 - Automotive Instrumentation and Telematics; Modern Automotive Instrumentation; Input and Output Signal Conversion; Advantages of Computer-Based Instrumentation; Display Devices; LED; LCD; VFD; Fuel Quantity Measurement; Coolant Temperature Measurement; Oil Pressure Measurement
- Vehicle Speed Measurement
