Managing electric vehicle power

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Bibliographic Details
Main Author Davis, Samuel (Author)
Format Electronic eBook
LanguageEnglish
Published Warrendale, Pennsylvania : SAE International, [2020]
SeriesSAE Deep Dive
Subjects
Electric automobiles.
Automobiles > Batteries.
Electric batteries.
elektronické knihy
electronic books
Online AccessFull text
ISBN9781468601459
1468601458
9781468603835
1468603833
9781468601442
Physical Description1 online resource (xiv, 164 pages)

Cover

Table of 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
  • References
  • 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
  • References
  • 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
  • References
  • 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
  • References
  • 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
  • References
  • 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
  • References
  • 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

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