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.
The 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.
Our vision
We advance the discovery and application of knowledge to accelerate economic growth, regional development and social innovation. We inspire and equip our students and our graduates to make a positive impact in a tech-focused world.
We create unique value in higher education
Students
We prepare our students to contribute and thrive in a world that's increasingly driven by technology and its implications on everyday life.
Industry
We partner with industry to help solve their real-world challenges, while bringing their ideas and insights into our research and learning environment.
Community
We drive the economic and social well-being of our community with a focus on the next generation of technology and its interaction with the human environment.
Students in this course will be exposed to fundamentals of electric vehicle powertrain systems that will enable them to gather and enhance their knowledge on electric vehicles
This certificate provides an opportunity for students to learn about EVs within the context of engineering applications and expand their understanding of the technical and environmental implications of engineering in EV design.
You will gain critical training in electric vehicle technology.
Get six hours of self-paced online learning in preparation for 30 hours of intensive hands-on training with our expert industry-trained instructors at our automotive training facility on SAIT's Calgary campus.
The Electrical Vehicle Infrastructure Training Program (EVITP) – Phase 1 is the first level of training for the installation and maintenance of plug-in hybrid electric vehicle (PHEV) and electric vehicle (EV) infrastructure.
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