Catalogue of automotive electromechanical technology, catalogue of automotive electrical equipment

Chapter 1 Introduction.

The role and composition of automotive electrical equipment.

Features of the electrical system of the car.

The development trend of automotive electrical systems - voltage upgrades.

Review the reflection questions.

Chapter 2 Batteries.

Structure and bow of lead-acid battery.

The role of the battery.

The basic structure of a lead-acid battery.

The model of the lead-acid battery.

How lead-acid batteries work.

Discharge process. Charging process.

The operating characteristics of the battery.

The basic electrical characteristics of the battery.

Charging and discharging characteristics of lead-acid batteries.

Charging of the battery.

Charging equipment. Maintenance-free battery.

The structure of a maintenance-free lead-acid battery.

Characteristics of maintenance-free lead-acid batteries.

New technology for batteries.

BMW's new technology for automotive batteries.

Dual battery technology.

Use and maintenance of lead-acid batteries.

The use of lead-acid batteries.

Maintenance of lead-acid batteries.

Repair of lead-acid batteries.

Review the reflection questions.

Chapter 3 Alternators.

The construction and working principle of the alternator.

Classification of alternators for automobiles.

The construction of the alternator.

How an alternator works.

Characteristics of the alternator.

Improvement in alternator performance.

Contact voltage regulator.

The structure and working principle of a contact voltage regulator.

Use and maintenance of contact voltage regulators.

Transistor-type voltage regulators.

The structure and working principle of a transistor voltage regulator.

Testing and repair of transistor regulators.

Integrated circuit regulators.

The structure and working principle of the integrated circuit regulator.

Test inspection of integrated circuit regulators.

Use and maintenance of alternators.

Use of alternators.

Maintenance of the alternator.

Alternator failure analysis and repair.

Review the reflection questions.

Chapter 4 Starters.

Chapter 5 Ignition Systems.

Chapter 6 Lighting, Signaling and Instrumentation Information Systems.

Chapter 7: Automotive Air Conditioning Systems.

Chapter 8: Automotive Auxiliary Electrical Systems.

Chapter 9 Automotive Circuit Analysis.

References.

Sequence. Preface.

Chapter 1 Introduction 1

Section 1 Development of Automotive Electronics Technology 2

Section 2 Classification of Automotive Electrical and Electronic Control Systems 2

Section 3 Characteristics of Automotive Electrical Systems 7

Section 4 The Development Trend of Automotive Electric Barrier Technology and the Challenges Faced 8 Reflection Questions and Exercises 9

Chapter 2 Automobile Power Supply System 10

Section 1 Structure and working principle of the battery 10

Section 2 Operating characteristics and use and maintenance of batteries 17Section 3 New batteries 20

Section 4 Alternator Construction, Working Principle and Characteristics 23 Section 5 Regulator of Alternator 33

Section 6 Maintenance of alternators and regulating bridge scales 39 <>

Chapter 1: Automotive Electrification and Engine Electronic Control Technology Development.

Chapter 2 Overview of Gasoline Electric Control Systems.

Chapter 3: Electronically Controlled Gasoline Injection Systems.

Chapter 4 Gasoline Electrically Controlled Ignition System.

Chapter 5: Automotive Auxiliary Control Systems.

Chapter 6 Electronic Control of Automotive Diesel Engines.

Chapter 7: Automotive Automatic Transmissions.

Chapter 8: Anti-lock Braking Systems for Automobiles.

Chapter 9 Electronic Control Systems for Automotive Drive Skid Prevention.

Chapter 10: Automotive Steering Control Systems.

Chapter 11 Automotive Suspension Control Systems.

Chapter 12 Automotive CAN Bus Control.

Chapter 13 Other Controls for Automobiles.

0 Introduction to the basic principles of body control systems.

Classification of body control systems.

The development trend of body control system in China.

Chapter 1 Automotive Cruise Control.

An overview of the structure and working principle of cruise control.

Chapter 2 Automotive Air Conditioning Systems.

Functions and classification of automotive air conditioning systems.

The structure of an automotive air conditioning system.

Use and maintenance of automotive air conditioning system.

Chapter 3 Electronic Instrumentation and Integrated Information Display Systems.

Electronic display devices.

Automotive electronic instruments.

Integrated information display system.

Chapter 4 Automotive Safety Control Systems.

Overview of automotive safety systems.

Seat belts, airbags.

Automotive electronic collision avoidance system.

Other safety control systems.

Chapter 5 Electronically Controlled Comfort and Entertainment Systems.

Door lock control system.

Electric windows and doors with electric sunroofs.

Power seats. Electric mirrors.

Scrubbing unit and defogging system.

Head-up display system.

Keyless and easy pick-up system.

Sound system. Chapter 6 Other Body Electronic Control Systems.

Burglar alarm system.

Electronically controlled headlamp system.

Smart wiper system.

Reversing Sensor, Autopark and Autopark Assist.

Tire pressure monitoring system.

Chapter 7 Communication and Intelligent Control Systems.

Electronic navigation systems.

Overview of the vehicle**.

Networked vehicle systems.

Automotive in-vehicle network technology.

Tachograph.

Fault self-diagnosis system.

Smart cars and their dedicated automated highway systems.

Project 1: Basic knowledge of electricians.

Activity 1: Fabrication of lighting circuits.

Activity 2: Application of Ohm's law.

Measurement of the active three cooling fan circuits.

Detection of activity four wide indicator light circuits.

The selection and connection of the active five wires.

Detection of active six relays.

Project 2: Reading of automotive circuits.

Identification and detection of active ignition fire switches.

Activity 2: Reading and testing of light switches.

Activity 3: Reading the schematic diagram of the car.

Activity 4: Reading the Santana circuit diagram.

Project 3: The use of instrumentation.

The use of an active pointer multimeter.

Activity 2: The use of digital multimeters.

Activity 3: The use of a car-specific multimeter.

Project 4: Maintenance process of generators.

Activity 1: Replacement of generators.

Dismantling of activity two generators.

Detection of activity 3 generator (1).

Detection of activity four generators (2).

Activity 5: Detection of voltage regulators.

Activity 6: Reading the charging circuit diagram.

Activity 7: Use and maintenance of generators and regulators.

Activity 8: Fault diagnosis and troubleshooting of charging system.

Project 5: Maintenance process of the starter.

Swap of motives together for activities.

Activity 2: Decomposition of the starter.

Activity 3: The starter does not disintegrate and detect.

Activity 4: Starter disintegration detection.

Activity 5: Connection of the starting circuit of the Santana car.

Activity 6: Liberation CAL091 starting circuit connection.

Activity 7: Testing of the voltage drop of the starting cable.

Activity 8: Detection of idle stepper motors.

Project 6: Production of automotive transistor analog circuits.

Activity 1: Use and maintenance of electric soldering iron.

Activity 2: Identification and detection of resistance and capacitance.

Identification and detection of active diodes and transistors.

Activity 4: Welding technology.

Activity 5: Production of single-tube amplifiers.

Activity 6 Flasher Making.

Fabrication of movable seven-transistor voltage regulators.

Project 7: Application of digital circuits in modern automobiles.

The representation of the number of active ones and their operations.

Activity 2: Basic logic gate circuit.

Activity 3: Application of integrated circuits in automobiles.

Project 8: Safe use of electricity.

Activity 1: Basic knowledge of safe use of electricity.

Activity 2: Rescue at the scene of electric shock.