Quantitative Comparisons of Outer-Rotor Permanent Magnet Machines of Different Structures/Phases for In-Wheel Electrical Vehicle Application
Article dans une revue avec comité de lecture
As one of the key components, low-speed direct-drive in-wheel machines with high compact volume and high torque density are important for the traction system of electric vehicles (EVs). This paper introduces four different types of outer-rotor permanent magnet motors for EVs, including one five-phase SPM machine, one three-phase IPM machine with V-shaped PMs, one seven-phase axial flux machine (AFM) of sandwich structure and finally one hybrid flux (radial and axial) machine with a third rotor with V-shaped PMs added to the AFM. Firstly, the design criteria and basic operation principle are compared and discussed. Then, the key properties are analyzed using the Finite Element Method (FEM). The electromagnetic properties of the four fractional slot tooth concentrated winding in-wheel motors with similar dimensions are quantitatively compared, including air-gap flux density, electromotive force, field weakening capability, torque density, losses, and fault tolerant capability. The results show that the multi-phase motors have high torque density and high fault tolerance and are suitable for direct drive applications in EVs.
Files in this item
- Article Principal
Showing items related by title, author, creator and subject.
Conférence invitéeZHANG, Hao; ZHAO, Benteng; GONG, Jinlin; XU, Yanliang; VU, Duc Tan; NGUYEN, Ngac Ky; SEMAIL, Eric; DOS SANTOS MORAES, Tiago José (IEEE, 2019)Compared to sinusoidal machines, a bi-harmonic machine (with only two harmonics of similar value in the electromotive force spectrum) can develop torque of comparable values under three kinds of supply: with only first or ...
Communication avec acteZHAO, Benteng; GONG, Jinlin; VU, DUC TAN; NGUYEN, Ngac Ky; SEMAIL, Eric (IEEE, 2018)This paper presents a novel 7-phase hybrid excitation permanent magnet (HEPM) machine with three rotors around one stator. Two rotors with PMs axially magnetized and the third rotor with PMs radially magnetized. Thanks to ...
Communication avec acteYANAGIHARA, Keitaro; VU, Duc Tan; NGUYEN, Ngac Ky; GONG, Jinlin; SEMAIL, Eric; DOS SANTOS MORAES, Tiago José (IEEE, 2019)This paper presents new fault-tolerant control strategies for field-oriented control of 7-phase non-sinusoidal permanent magnet (PM) machines supplied by voltage source inverters (VSI). Single phase open-circuit fault is ...
Sensorless Control of a Seven-phase Non-sinusoidal Permanent Magnet Synchronous Machine Using High Frequency Signal Injection Method Communication avec acteHUANG, Y.; GONG, J.; ZHU, Y.; TAN, F.; TIAN, W.; SEMAIL, Eric; NGUYEN, N.K. (IEEE, 2021-12)This paper presents a sensorless control strategy for seven-phase non-sinusoidal permanent magnet synchronous machine (NSPMSM) with high frequency signal injection (HFSI) method in 5th harmonic subspace. Seven-phase ...
Article dans une revue avec comité de lectureZHAO, B.; GONG, J.; TONG, T.; XU, Y.; SEMAIL, Eric; NGUYEN, N. -K.; GILLON, Frédéric (Institute of Electrical and Electronics Engineers (IEEE), 2021)In this article, a novel five-phase fractional-slot concentrated winding (FSCW) with 20-slot/22-pole is presented. It benefits not only the advantages of conventional FSCW but also weak space harmonics of magnetomotive ...