Chapter 01 Architecture of an Automotive Power System
1.1 Architecture of the automotive power system
1.2. Voltage used for electrical distribution system
1.3. Thermal challenges for electrical components
1.4. Abnormal voltages -- sources and device ratings
1.5. Requirements for the Electrical Energy System Design
1.6. Distribution of electrical energy
1.7. Representation of the electrical circuit
1.8. Conclusion
References
Chapter 02 Batteries
2.1. Functions of the Storage Battery
2.2. Construction of a lead-acid cell-type battery
2.3. Hydrometer readings
2.4. Voltage Level Test
2.5. Capacity
2.6. Battery Chargers
2.7. Electrical characteristics of lead-acid batteries
2.8. New technologies for sealed and maintenance free batteries
2.9. Other possible storage of electrical energy
2.10. Conclusion
References
Chapter 3 Starter-Alternator
3.1. Alternator's role
3.2. Construction of an alternator
3.3. Electronic Controls for alternator
3.4. Other electrical machine technologies
3.5. Starter systems
3.6. Starter Construction
3.7. Inertia starter
3.8. Pre-engaged starters
3.8. Permanent magnet starters
3.9. Typical torque characteristics
3.10. Integrated starter-alternator
3.11. Conclusion
References
Chapter 4 Body Systems
4.1. Introduction to Body Systems
4.2. Power Window (electrical windows)
4.3. Power lock doors
4.4. Soft top convertible
4.5. Hard top convertible
4.6. Power seats
4.7. Electric sun-roof
4.8. Electric mirrors
4.9. Cruise control
4.10 Climate-Control
4.11. Shape memory alloy actuators
4.12. Conclusion
References
Chapter 5 Power Converters used in Body Systems
5.1. Electrical Motors used in body systems
5.2. Integration of power electronics
5.3. Power converters
5.4. Integrated circuits for motor control
5.5. Sensors
5.6. Conclusion
References
Chapter 6 -- Chassis systems
6.1. Electrification of transportation
6.2. Brake systems
6.3. Electronic Control of Power Steering
6.4. Automotive suspension
6.5. Conclusion
References
Chapter 7 -- Lighting systems
7.1. Automotive light sources
7.2. Conventional Lighting Circuits
7.3. Gas discharge lamps and their electronic control
7.4. LED Lights and their Electronic Control
7.5. LASER lights
7.6. Conclusion
References
Chapter 8 dc/dc Converters
8.1. The Role of dc/dc Power Converters
8.2. Direct Conversion (without galvanic isolation)
8.3. Isolated dc/dc converters
8.4. Auxiliary power
8.4. Conclusion
References
Chapter 9 Feedback Control of Power Converters
9.1. Feedback Control of Dynamic Systems
9.2. Implementation within Analog-Mode Power Supply Circuits
9.3. Design of feedback control systems
9.4. Case studies: feedback control for various power supplies
9.5. Analog-mode feedback control solutions
9.6. Design process from constraints to component selection
9.7. On the use of conventional PI/D controllers.
9.8. Conversion of analog control law to digital solutions
9.9. Control system influence on power electronics hardware
9.10. Conclusion
References
Chapter 10 Automotive MOSFET transistors
10.1. Power MOSFET in Automotive Applications
10.2. The Ideal Switch
10.3. Enhancement mode and Depletion mode MOSFETs
10.4. Operation Principle
10.5. Safe Operation Area
10.6. Gate driver requirements
10.7. Using P- channel MOSFET devices
10.8. Parameters used in MOSFET selection
10.9. Synchronous Rectification
10.10. Advanced FET devices
10.11 Conclusion
References
Chapter 11 Fuses and Relay Circuits
11.1. Intelligent Switch versus Solid-State Relay
11.2. Electromagnetic relays
11.3. Solid-state relays
11.4. Introduction to Fuses
11.5 Circuit breakers
11.6. Automotive Varistor and TVS
11.7. Solenoids
11.8. Conclusion
References
Chapter 12 Small motors
12.1. Principle of electrical motors
12.2. Design of low-power DC motors
12.3. Applications: Fans, Blowers, Pumps
12.4. Design Issues related to the DC distribution bus
12.5. Motor design: Inertia matching
12.6. Motor design: Torque requirements
12.7. Ultrasonic motors (piezoelectric motors)
12.8 Conclusion
References
Chapter 13 Power Integrated Circuits
13.1. Integrated Circuit Technologies
13.2. Architecture of Analog or Mixed-Mode Power IC
13.3. IC design considerations
13.4. Digital IC Solutions
13.5. Conclusion
References
Chapter 14 Propulsion Systems
14.1. Propulsion architecture
14.2. Induction Motor Drive -- Converter system
14.3. Brushless DC Motor Drive
14.4. Switched Reluctance Motor Drive
14.5. High-Voltage Energy Storage
14.6. Conclusion
References
Automotive power systems
2020
1 online resource
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Book
Electronic Resource
English
DDC: | 629.25/024 |
SLUB | 2021
|TIBKAT | 2021
|Automotive power transmission systems
SLUB | 2018
|Automotive power transmission systems
SLUB | 2018
|Automotive power transmission systems
TIBKAT | 2018
|