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Other Applied Science Fields
Transportation
Electric and Hybrid Vehicles
1. Introduction to Electric and Hybrid Vehicles
2. Vehicle Architectures and Drivetrains
3. Energy Storage Systems
4. Electric Machines and Motor Control
5. Power Electronics Systems
6. Hybrid-Specific Systems
7. Vehicle Control and Software Systems
8. Charging Technology and Infrastructure
9. Performance and Efficiency
10. Safety and Maintenance
11. Economic and Market Analysis
5.
Power Electronics Systems
5.1.
Power Electronics Role
5.1.1.
Power Conversion Functions
5.1.2.
Efficiency Optimization
5.1.3.
System Integration
5.2.
Inverter Systems
5.2.1.
DC to AC Conversion
5.2.2.
Motor Control Functions
5.2.3.
Switching Devices
5.2.3.1.
Insulated Gate Bipolar Transistors (IGBTs)
5.2.3.2.
Metal-Oxide-Semiconductor Field-Effect Transistors (MOSFETs)
5.2.3.3.
Silicon Carbide (SiC) Devices
5.2.3.4.
Gallium Nitride (GaN) Devices
5.2.4.
Thermal Management
5.2.5.
Control Algorithms
5.3.
DC-DC Converter Systems
5.3.1.
Voltage Conversion Functions
5.3.2.
Step-Up Converters
5.3.3.
Step-Down Converters
5.3.4.
Bidirectional Converters
5.3.5.
Low-Voltage System Supply
5.3.6.
Isolation Requirements
5.3.7.
Safety Features
5.4.
On-Board Charger
5.4.1.
AC to DC Conversion
5.4.2.
Rectification Process
5.4.3.
Power Factor Correction
5.4.4.
Charging Power Levels
5.4.5.
Communication Protocols
5.4.6.
Safety Features
5.4.7.
Thermal Management
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4. Electric Machines and Motor Control
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6. Hybrid-Specific Systems