Recent Developments in the Design of Charging Systems for Electric Vehicles
IEEE Industrial Electornics Society- Toronto Section
Dr. Mohamed Z. Youssef Ph.D, Associate Professor University of Ontario, UOIT, will present and discuss application of bidirectional power distribution and charging system for electric type vehicles.
Date and Time
Location
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Registration
- Date: 18 Dec 2020
- Time: 06:30 PM to 07:30 PM
- All times are (GMT-05:00) US/Eastern
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- Contact Event Host
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mohamed.youssef@uoit.ca
- Co-sponsored by IES
- Starts 04 December 2020 10:51 AM
- Ends 18 December 2020 10:51 PM
- All times are (GMT-05:00) US/Eastern
- No Admission Charge
Speakers
Mohamed Z. Youssef of University of Ontario Institute of Technology
Rail Technology Forum: Electric Vehicle Infra Structure
Technology Synopsis: Electric vehicles are a rapidly growing segment of transportation industry owning much of this progress to the improved technologies, public inclination towards minimizing carbon footprint, and government policy initiatives. Currently this industry is undergoing a technological transformation by investing heavily in charging stations infrastructure to improve the vehicle travel range. The charging station market is segmented on the basis of type, end user, and geography. This presentation discusses an integrated fast charging system that connects electric vehicles (VE), power grid, off-grid energy storage and renewable energy sources into one distributed system through a smart management of power and available energy, to enable clean, sustainable operation at high levels of performance. The experimental results of a lab prototype for electric vehicles (buses) are presented. A design case of electric bus deployed for the city of Mississauga is developed and demonstrated with excellent trial run results.
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Address:2000 simcoe street North, , Oshawa, L1H7K4
Agenda
Technology Synopsis: Electric vehicles are a rapidly growing segment of transportation industry owning much of this progress to the improved technologies, public inclination towards minimizing carbon footprint, and government policy initiatives. Currently this industry is undergoing a technological transformation by investing heavily in charging stations infrastructure to improve the vehicle travel range. The charging station market is segmented on the basis of type, end user, and geography. This presentation discusses an integrated fast charging system that connects electric vehicles (VE), power grid, off-grid energy storage and renewable energy sources into one distributed system through a smart management of power and available energy, to enable clean, sustainable operation at high levels of performance. The experimental results of a lab prototype for electric vehicles (buses) are presented. A design case of electric bus deployed for the city of Mississauga is developed and demonstrated with excellent trial run results.
IEEE Industrial Electronics Society- Toronto Section