Powertrain Architecture, Controls, and Energy Management Systems of EV and HEV

This seminar is presented in Mandarin Chinese. The course materials are bilingual (English and Chinese).

Developing environmentally cleaner and more fuel efficient vehicles is transforming the automotive industry worldwide, particularly in China with its emphasis on new energy vehicles. There are many engineering challenges that must be addressed in designing effective new energy vehicles. The technical knowledge required to understand and make the right decisions with regard to powertrain architecture, powertrain controls, and energy management strategies is critical to success in this market.

This two day seminar will focus on providing attendees with an overview of hybrid electric vehicle propulsion systems followed by design and control approaches for series, parallel, and plug-in hybrid powertrains. Finally, high efficiency energy management strategies are addressed. To ensure a thorough understanding of the design concepts and practical applications covered in this course, a number of case problems, examples, and demonstrations are utilized.

What Will You Learn

By attending this training program you will be able to:
  • Explain the major resources and regulatory drivers of hybrid electric vehicle development
  • Identify the system architectures of hybrid electric vehicles that have been commercialized from 1997 to the present
  • Describe and identify basic hybrid components and architectures and explain HEVs' differences from conventional vehicles
  • Identify the main HEV development considerations for various vehicle systems
  • Recognize basic layouts of light, medium, and full hybrid vehicle powertrains
  • Compare advantages and disadvantages of different hybrid architectures
  • Identify and understand how HEV drive systems of the Prius and P2s work and the challenges they meet
  • Describe and evaluate HEV emerging technologies, engineering challenges, and development trends

Is This Course For You

This seminar is intended for individuals with at least 3 years of experience in powertrain development and/or research. Experience with hybrid powertrains is a plus. Powertrain development engineers, control engineers, and hybrid vehicle engineers will benefit the most from this seminar.

Materials Provided

This data is not available at this time

Course Requirements

This data is not available at this time

Topics

DAY ONE
  • Introduction to Electric and Hybrid Vehicles
    • EV and Electric Propulsion Systems
      • EV Configuration
      • DC Motor
      • Induction Motor
      • Permanent Magnetic BLDC Motor
      • Switched Reluctance Machine
    • HEV and Its Powertrain
      • HEV Configuration
      • Internal Combustion Engine
      • Series Powertrain Architecture
      • Parallel Powertrain Architecture
  • Control Methodology of Series and Parallel Hybrid Powertrain
    • Series Hybrid Powertrain
      • Control Strategy
      • Electrical Coupler
      • Motor Power Rating Design
      • Engine Power Rating Design
      • Battery Power/Energy Capacity
    • Parallel Hybrid Powertrain
      • Control Strategy
      • Mechanical Coupler
      • Motor Power Rating Design
      • Engine Power Rating Design
      • Transmission Parameter Design
      • Battery Power/Energy Capacity
    • Comparison of Series with Parallel Hybrid Powertrain
      • Configuration
      • Performance
    • Series-Parallel Powertrain Architecture
      • Control Strategy
      • Drive Train Parameter Design
DAY TWO
  • Powertrains of Plug-In Hybrid Vehicles and Mild Hybrid Vehicles
    • Plug-In-Hybrid Vehicles
      • Energy Management Strategy
      • Energy Storage Design
    • Mild Hybrid Vehicles
      • Configuration
      • Control strategy
    • Energy Management Systems
      • Batteries
        • Performance Parameters
        • Lead-Acid Battery
        • Nickel-Based Battery
        • Lithium-Based Battery
      • Ultracapacitors
        • Features
        • Performance
      • Ultra-High-Speed Flywheel Systems
        • Principles
        • Power Capacity
      • Hybrid Energy Storage Systems
        • Battery and Ultracapacitor
      • Regenerative Braking
        • Braking Energy
        • Braking Power
        • Brake System of EV and HEV
        • Control Strategy
    • Technical Overview of Toyota Prius
      • Hybrid Powertrain Components
      • Vehicle Stability Control System
      • Control Strategies for Different Driving Modes