1. Field-oriented control strategy for double-stator single-rotor and double-rotor single-stator permanent magnet machine: Design and operation.
- Author
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Flah, Aymen, Khan, Irfan Ahmad, Agarwal, Anshul, Sbita, Lassaad, and Simoes, Marcelo Godoy
- Subjects
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PERMANENT magnets , *STATORS , *MACHINE design , *ELECTRONIC equipment , *ALTERNATING current electric motors , *VECTOR topology , *BRUSHLESS direct current electric motors , *ELECTRIC machinery - Abstract
• This paper exposes two special AC machines adaptable for electric vehicle application. • Their mathematical models are described and defined. • Their corresponding field oriented vector control topology was designed and verified through simulation steps. There has been a rapid adoption of electric vehicles (EVs), and the industry has been looking for the most enhanced traction system to improve performance and reliability. Such specifications are mostly dependent on the magnetic materials for brushless DC or AC machines, and typically EVs are manufactured with those machines. In the past two decades, there have also been improved performance ratings of power electronic devices. On one hand, making possible AC motors more suitable for EVs. On the other hand, it allows further advanced topology circuits to fit machines with two rotors or two stators. This paper shows two configurations of electrical machine control for EVs, discuss the pros and cons, and corresponding mathematical models have been developed in order to enhance a Field Oriented Control (FOC) strategy, which has been analyzed and studied through MATLAB based simulations, allowing novel design based on the analytical models developed by the authors. [Display omitted] [ABSTRACT FROM AUTHOR]
- Published
- 2021
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