Techniques are learned and employed regarding the powertrain sizing problem, including battery pack configuration and its scaling for energy and power needs, selection of driveline components to meet regenerative braking and acceleration performance.
DurationThe concepts, principles, analysis and design procedures for electric and hybrid vehicles are covered. Power plant type, electric drive train configurations, power flow, torque and speed coupling options being employed are discussed and analyzed.
Energy storage systems are examined for their performance aspects in terms of specific energy and power capability, operating cycles, cost and thermal management requirements.
The resulting impact of electrification on vehicle fuel economy, net emissions, life-cycle and infrastructure implication for society are also detailed.
Techniques are learned and employed regarding the powertrain sizing problem, including battery pack configuration and its scaling for energy and power needs, selection of driveline components to meet regenerative braking and acceleration performance.
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This course introduces architectures and technologies associated with electric, hybrid electric, and plug-in hybrid electric vehicles, including their constituent components.
This course is designed to teach students how to safely work with and around high voltage hybrid and electric vehicle systems.
By the end of the program, participants will have a solid foundation in electric vehicle technology and be equipped with the knowledge to contribute to the development and advancement of future EVs.
The program prepares for the practice of the profession of electric vehicle mechanics.
The program prepares for the practice of the profession of electric vehicle mechanics.
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