ELECTRIC VEHICLE PROPULSION SUBSYSTEM CHOICE WITH EMPHASIS ON MACHINES OF SPECIAL CONSTRUCTION
DOI:
https://doi.org/10.24867/22BE01PanticKeywords:
Electric vehicle, Electric vehicle subsystem, Bruschless DC machine, Hall sensor, Six-Step commutation, Characteristic drive cycleAbstract
In the modern age, innovative solutions offer different energy sources that can drive vehicles. Back in the 19th century, scientists realized the importance of electric vehicles, but in an attempt to distribute them to the market, they failed. Today, with the advancement of technology, the global use of electric vehicles is possible. In this paper, electric vehicles are analyzed with an emphasis on their electric drive subsystem. As a conceptual solution, an electric drive machine of a special construction, a Brushless DC machine that could be used in a vehicle with an electric drive.
References
[1] “IEA Global EV stock by region, 2010 - 2020”. URL: https://www.iea.org/reports/global-ev-outlook-2021?mode=overview
[2] “Modern Electric Hybrid Electric and Fuel Cell Vehicle” – Mehrdad Ehsani
[3] MATLAB model “Six-step commutation of BLDC motor using sensor feedback”. URL: https://www.mathworks.com/help/mcb/gs/six-step-commutation-bldc-motor-using-position-sensor.html
[4] “EPA Dynamometer Drive Schedules”. URL: https://www.epa.gov/vehicle-and-fuel-emissions-testing/dynamometer-drive-schedules
[2] “Modern Electric Hybrid Electric and Fuel Cell Vehicle” – Mehrdad Ehsani
[3] MATLAB model “Six-step commutation of BLDC motor using sensor feedback”. URL: https://www.mathworks.com/help/mcb/gs/six-step-commutation-bldc-motor-using-position-sensor.html
[4] “EPA Dynamometer Drive Schedules”. URL: https://www.epa.gov/vehicle-and-fuel-emissions-testing/dynamometer-drive-schedules
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Published
2023-03-04
Issue
Section
Electrotechnical and Computer Engineering
