Chris_Mi_handout
.pdfHybrid Electric Vehicles: Control,
Design, and Applications
Prof. Chris Mi
Department of Electrical and Computer Engineering
University of Michigan - Dearborn
4901 Evergreen Road, Dearborn, MI 48128 USA
email: chrismi@umich.edu
Tel: (313) 583-6434
Fax: (313)583-6336
Overview
•Introduce HEV fundamentals, design, control, modeling, and special topics.
•Cover vehicle dynamics, energy sources, electric propulsion systems, regenerative braking, parallel and series HEV design, and practical design considerations.
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Outline
–Part 1: Introduction to Hybrid Electric Vehicles
–Part 2: HEV Fundamentals
–Part 3: HEV Modeling and Simulation
–Part 4: Energy Storage for HEV Applications
–Part 5: Series HEV Design and Modeling
–Part 6: Parallel HEV Design and Modeling
–Part 7: A Look into the Current Hybrids
–Part 8: Look at some novel topologies
Part 1:
Introduction to Hybrid Electric Vehicles
2
Photo Gallery of EV/HEV
Chrysler Epic Minivan
3
Electric bus
Ford Electric Ranger
4
Nissan Altra EV
TH!NK Neighbor
• ZEV certified
Meets new U.S./Canadian federal standards for low speed vehicles
• Seats 2 or 4
• 4 wheel independent suspension
• Top Speed: 25 mph/Range: 30 miles
• Charges 110 AC in 6-hours
TH!NK City
• ZEV certified
(zero emission vehicle)
•Front-wheel Drive
•2-Passenger
•Top Speed: 56 mph
•Range: 53 miles
5
Toyota E-Com
Toyota RAV4
6
Toyota RAV4 EV
GM ATV
7
Honda EV PLUS
Solectria Corporation
8
Toyota Prius (1997)
Toyota Prius’ 03
9
Toyota Prius’ 05
Toyota Highlander
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