Analysis and Design of Hybrid Transmission System C2006
Topics: Advanced Technologies
This course is offered in China only and presented in Mandarin Chinese.
There appears to be a significant gap between Chinese and international hybrid technologies in terms of vehicle fuel consumption, system integration, and cost control. This course has been designed to increase an engineers’ knowledge of hybrid transmission development, hybrid system design, and hybrid vehicle powertrain integration. The course focuses on energy efficiency in electric vehicles (EV) and hybrid electric vehicles (HEV) fuel economy while maintaining and improving engineering for optimal power and performance, cost control, and occupant comfort. The course introduces (HEV), their working conditions and conversion, configuration classification of hybrid system and hybrid transmissions, and the sub-systems and components of hybrid systems (engine, motor, transmission, gear, clutch, synchronizer, etc.). Through the analysis of several typical hybrid transmissions, we will discuss in-depth the issues common in the overall design of a hybrid, including: the Prius power split hybrid system; a power split hybrid system with mode switching; design and analysis of P2/P2.5 hybrid system; deeply integrated P2/P2.5 mechatronics design; and a series-parallel hybrid (including extended range) system.
Learning Objectives
Upon completion of this course, you will be able to:
- Select the appropriate hybrid system configuration for HEVs (including PHEVs)
- Design overall structure for hybrid powertrains
- Optimize the system parameters for hybrid transmissions
- Develop the functions and control strategies for hybrid transmissions
- Match engines and optimize the powertrains for hybrid vehicles
Who Should Attend
Design, powertrain, systems, and/or application engineers involved in the design, development and integration of hybrid transmissions and components, improving fuel and energy efficiency of hybrid vehicles, improving hybrid vehicle power performance, and those involved in improving cost efficiency in the design and manufacturing of the hybrid vehicle will benefit by attending.
Prerequisites
Participants should have a minimum of a Bachelor of Science in mechanical, vehicle, and/or electrical engineering with at least two years work experience in vehicle power system design, development, and/or integration. A graduate degree in vehicle powertrain is recommended.
Testimonials
You must complete all course contact hours and successfully pass the learning assessment to obtain CEUs.
Duan Zhihui
Duan Zhihui is Chief Expert of Hybrid Technology, National New Energy Vehicle Technology Innovation Center (NEVC). Prior to his current position, he held the following positions: Technical Director, Hybrid Electric Vehicles at Chery Automotive, where he successfully led a major program developing a P2 HEV powertrain which is currently in production; Technical Director of Hybrid Electric Powertrains at Changan New Energy Automobile Inc. China, where he was involved with developing: full hybrid electric vehicles and plug-in hybrid electric vehicles, new generation HEVs; power system architecture design, product development, powertrain control, and energy management. He was also involved with developing the Atkinson cycle engine to improve fuel efficiency. Mr. Duan also previously worked at Ford Motor Co., Sustainable Mobility Technologies, where he was involved in developing new generation hybrid transaxles; successfully led the effort to remedy the Escape Hybrid transaxle problems; and improve quality and reliability. As a result, he was awarded Ford’s Current Model Quality Award: Best in Ford Transmission Warranty Performance. Mr. Duan received his B.S. in Aerospace Engineering from Beihang University, a M.S. Aerospace Engineering from Beijing Institute of Technology, and his M.S. Reliability Engineering from the University of Maryland.
