There is a growing interest in electric and hybrid electric vehicles (EV and HEV) due to their high efficiency and low emission. In EV and HEV, the characteristic of the traction motor is essential for the performance and efficiency of the EV and HEV. In this paper, the advantages of the extended constant power range characteristic of the traction motor for both propulsion and regenerative braking are analyzed. Simulation results are presented to verify the conclusions. Due to its several inherent advantages, especially its capability of having an extended constant power range, Switched Reluctance Motor (SRM) is proposed as the candidate of the traction motor in EV and HEV. The design methodology of SRM for achieving an extended constant power range and the control strategy of SRM for regenerative braking in EV and HEV are presented.
Design Issues of the Switched Reluctance Motor Drive for Propulsion and Regenerative Braking in EV and HEV
Sae Technical Papers
Future Transportation Technology Conference & Exposition ; 2001
2001-08-20
Aufsatz (Konferenz)
Englisch
British Library Conference Proceedings | 2001
|Switched Reluctance Motor Drives for Propulsion and Regenerative Braking in EV and HEV
Springer Verlag | 2021
|A switched reluctance drive for marine propulsion
IET Digital Library Archive | 1994
|A Study of Regenerative Braking Control of the Switched Reluctance Motor for Electric Racing Karts
SAE Technical Papers | 2007
|