Managing electric vehicle power / Sam Davis.

Format:

Book

Author/Creator:

Davis, Samuel, author.

Contributor:

Society of Automotive Engineers, publisher.

Series:

Society of Automotive Engineers. Electronic publications.

Society of Automotive Engineers. Electronic publications

Language:

English

Subjects (All):

Electric automobiles.

Automobiles--Batteries.

Automobiles.

Electric batteries.

Physical Description:

1 online resource (1 PDF (160 pages)).

Edition:

1st edition.

Place of Publication:

Warrendale, Pa. (400 Commonwealth Dr., Warrendale PA USA) : Society of Automotive Engineers, 2020.

Summary:

This book provides complete coverage for understanding how best to utilize the primary power source across all the EV's Electric Control Units. Readers will also be introduced to the qualification standards of the Automotive Electronics Council (AEC). AEC standards are a 'one-time' qualification that typically takes place at the end of the development cycle.

Contents:

Cover

Preface

CHAPTER 1 EV Power Management

1.1 DC-AC Inverter

1.2 Galvanic Isolation

1.3 Primary DC-DC Converter

1.4 Electronic Control Unit

1.4.1 Centralized vs. Decentralized ECUs [18, 19]

1.4.2 ECU Enclosure Protection

1.4.3 ECU Software

1.5 MCU

1.6 ASIL

1.7 Testing EVs [24]

1.8 System Tests

References

CHAPTER 2 EV Batteries

2.1 Typical EV Battery Pack Characteristics

2.2 Battery Management

2.3 Cell Balancing

2.4 Battery Monitor IC

2.5 Commercial BMS

2.6 Battery Safety Issues

2.7 Venting EV Battery Enclosures

2.8 Life Cycle Battery Testing

2.9 Solid-State Batteries

2.10 Battery Thermal Management

2.11 Battery Chargers

2.12 Onboard Charger Details

2.13 Smart Chargers

2.14 Thermal Management of Onboard Chargers

2.15 Wireless Battery Charging

CHAPTER 3 EV Fuel Cells

3.1 Fuel Cell Basics

3.2 Polymer Electrolyte Membrane Fuel Cell (PEMFC)

3.3 Fuel Cell Thermal Management

3.4 Fuel Cell Energy Efficiency

3.5 Toyota Mirai

3.6 Flexible Nanomaterials Fuel Cell

3.7 Fuel Cell Hydrogen

3.8 Fuel Cell Electric Vehicle Evaluation

CHAPTER 4 ECU Power Management

4.1 Linear Power Supplies

4.2 Switch-Mode Power Supplies

4.3 Synchronous Rectification

4.4 Power Supply Selection Criteria

4.5 Managing Power Supply Loads

4.6 Remote Sense

4.7 Power Supply Protection

4.8 Optional Power Supply Features

4.9 Evaluating ECU Power Supply Performance

4.10 Power Supply Output Power

4.11 Power Supply Efficiency

4.12 Power Supply Output Noise

4.13 Power Supply Reliability

4.14 Power Supply Life Tests

4.15 PCB Layout Guidelines

4.16 Testing the System

4.17 AEC Standards

4.18 Industrial Regulatory Standards

CHAPTER 5 Future AEC-Qualified Power Management Technology.

5.1 Automatic Power Supply Compensation

5.2 Hot Swap

5.3 Encapsulated Power Supplies

5.4 Multichip Modules

5.5 Nano Module

CHAPTER 6 EV Power Semiconductors

6.1 Power MOSFETs

6.2 MOSFETs and BJT Comparison

6.3 MOSFET Fabrication Technologies

6.4 MOSFET Packages

6.5 DrMOS

6.6 Power MOSFETs for Automotive Applications

6.7 Power Semiconductor Reliability

6.8 Insulated Gate Bipolar Transistor (IGBT)

6.9 Wide Bandgap Semiconductors

6.10 Silicon Carbide (SiC)

6.11 SiC Automotive Applications

6.12 Gate Drive Layout

6.13 Gallium Nitride (GaN)

6.14 GaN Drivers

CHAPTER 7 EV Lighting

7.1 LED Basics

7.2 Headlights

7.3 High-Brightness LEDs

7.4 LED Drivers

7.5 Dimming LEDs

7.6 AEC-Q102 Rev-March 15, 2017 [11]

7.7 Test Requirements and Failure Criteria for LEDs

7.8 Volkswagen Sees the Light

CHAPTER 8 EV Traction Motors

8.1 Electric Motors vs. Gasoline Engines

8.2 Traction Motors

8.3 AC Induction Motors

8.4 Permanent Magnet Synchronous Motors

8.5 Traction Motor Efficiency

8.6 DC-AC Inverter

8.7 Future Motors

8.8 In-Wheel Motors

8.9 Cooling It

8.10 Turbine-Based Hybrid

CHAPTER 9 ECU Circuit Protection

9.1 Electromagnetic Interference

9.2 CISPR

9.3 Grounding

9.4 Ground Loops

9.5 Shielding

9.6 Switch-Mode Power Supplies EMI

9.7 Spread Spectrum

9.8 Cables EMI

9.9 Transient Protection

9.10 Electrostatic Discharge

9.11 Power Malfunctions

9.12 Resettable Fuse

CHAPTER 10 EV Thermal Management

10.1 Cooling Methods

10.2 Thermal Management and Reliability

10.3 Cooling the Battery

10.4 Air-Cooled vs. Liquid-Cooled

10.5 Air-Cooled Systems

10.6 Fuel Cell Thermal Management

10.7 ECU Enclosure Thermal Management.

10.8 ECU Semiconductor Thermal Management

10.9 Thermal Interface Materials (TIMs)

10.10 Thermal Pads

CHAPTER 11 Power Management of ADAS

11.1 ADAS Basics

11.2 National Highway Traffic Safety Administration Rules

11.3 ADAS Worldwide

11.4 ADAS ECUs

11.5 Commercial ADAS ECU

11.6 Balancing ADAS Power Requirements

11.7 Testing ADAS

11.8 Mobileye

11.9 Standard Terminology

CHAPTER 12 Power Management of Autonomous EVs

12.1 SAE Autonomous Levels

12.2 Autonomous Vehicle Design Challenges

12.3 AV Power Struggle

12.4 Autonomous Processor

12.5 AV Power

12.6 Testing Autonomous Cars

12.7 Static Tests

12.8 Dynamic Tests

12.9 Evaluating AVs

12.10 Photo-Realistic Simulator

CHAPTER 13 CAN Bus

13.1 CAN Basics

13.2 CAN Message Types

13.3 FlexRay

13.4 Local Interconnect Network

CHAPTER 14 AEC Standards

14.1 AEC Standards Basics

14.2 AEC-Q100

14.3 AEC-Q101

14.4 AEC-Q200

14.5 AEC-Q102

14.6 AEC-Q104

14.7 AEC Qualification

14.8 Automotive Quality Standards

14.9 Chinese Automotive Standards

About the Author

Index.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

9781523140558

1523140550

9781468601459

1468601458

OCLC:

1202266653