POWER AND PROPULSION
• 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 Who Should Attend This seminar is designed for individuals working in engineering, marketing, and manufacturing of powertrain systems along with other electrical and mechanical aspects of HEVs, including PHEVs and REEVs. Information presented in this seminar may also be of value to those working with renewable energy and transpor- tation systems. Prerequisites An undergraduate degree in engineering or a strong technical background is highly recommended. Attendees should have taken an undergraduate or graduate course in basic mechanics and basic electronics.
Part 5. Motor and Drive
−− Converter and inverter −− DC motor and drive −− Induction motor −− Permanent magnet motor and drive −− Switch reluctant motor −− Applications of motor/drive Part 6. Market Prospects of EV and PHEV −− Technical factors
−− Customers and vehicle purchase −− NEV powertrain choice of OEMs −− Political factors −− Future opportunities
Instructor: Fee: $575
Yuxiang Jiang, Ph.D.
1.3 CEUs
URL:
sae.org/learn/content/c1630/
Fundamentals of Hybrid Electric Vehicles and Related Technologies 2 Days | Classroom (Available in China Only) I.D.# C1234 Driven by high fuel prices, environmental regulations, and consumer demand, the market for hybrid electric vehicles has experienced rapid growth. Every major automotive company produces a HEV with approximately fifty different HEV models on the market and over five million HEVs having already been sold. To meet current and future demands in the HEV and PHEV markets, success will depend on engineering and support personnel having and maintaining a thorough understanding of HEV related technologies. This two-day seminar will cover the fundamentals of HEV in an easy-to-understand format. This seminar will explain how HEVs save fuel, how they are classified in terms of powertrain system architecture and an in-depth look at the hybrid powertrain architectures of Power-split and P2 HEV. Also explained will be the design, modeling, and control of HEVs and component selection. Existing HEV models, such as the Toyota Prius, Honda Civic, GM Volt, AUDI Q5, and VW Touareg will be used as case studies throughout the seminar. Please note this seminar will be presented in Mandarin Chinese. The hand-out materials will also be in Manadarin Chinese. Learning Objectives 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
Topical Outline DAY ONE Introduction to HEV/PHEV/BEV −− The foundations of HEV/PHEV/BEV −− Why are HEVs needed? −− How do HEVs save fuel? • HEV/EV/PHEV Classification -Mixed Degree −− Hybrid overview −− Micro HEV
−− Mild HEV −− Full HEV −− PHEV/REEV −− BEV • Classification of HEV/PHEV Powertrain −− Series HEV Powertrain −− Powersplit HEV Powertrain −− Parallel HEV Powertrain −− Two mode HEV Powertrain • HEV: Technological Trends −− Overview −− Powersplit, the leading HEV technology −− The rise of P2 machines −− The major automotive corporation’s hybrid technology −− The applications of hybrids
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3 ways to get a no-obligation price quote to deliver a course to your company: Call SAE Corporate Learning at +1.724.772.8529 | Fill out the online quote request at sae.org/corplearning | Email us at corplearn@sae.org
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