Thanh Anh Huynh scite author profile

This paper evaluates the electromagnetic and thermal performance of several traction motors for electric vehicles (EVs). Two different driving cycles are employed for the evaluation of the motors, one for urban and the other for highway driving. The electromagnetic performance to be assessed includes maximum motor torque output for vehicle acceleration and the flux weakening capability for wide operating range under current and voltage limits. Thermal analysis is performed to evaluate the health status of the magnets and windings for the prescribed driving cycles. Two types of traction motors are investigated: two interior permanent magnet motors and one permanent magnet-assisted synchronous reluctance motor. The analysis results demonstrate the benefits and disadvantages of these motors for EV traction and provide suggestions for traction motor design. Finally, experiments are conducted to validate the analysis.

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Comparative Study of PM-Assisted SynRM and IPMSM on Constant Power Speed Range for EV Applications

Huynh

Hsieh

2017

IEEE Trans. Magn.

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Torque Enhancement for a Novel Flux Intensifying PMa-SynRM Using Surface-Inset Permanent Magnet

2019

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An Investigation Into the Effect of PM Arrangements on PMa-SynRM Performance

Huynh

Hsieh

Shih

et al. 2018

IEEE Trans. on Ind. Applicat.

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Irreversible Demagnetization Analysis for Multilayer Magnets of Permanent Magnet-Assisted Synchronous Reluctance Machines Considering Current Phase Angle

Huynh

Hsieh

2019

IEEE Trans. Magn.

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Thanh Anh Huynh

Performance Analysis of Permanent Magnet Motors for Electric Vehicles (EV) Traction Considering Driving Cycles

Comparative Study of PM-Assisted SynRM and IPMSM on Constant Power Speed Range for EV Applications

Torque Enhancement for a Novel Flux Intensifying PMa-SynRM Using Surface-Inset Permanent Magnet

An Investigation Into the Effect of PM Arrangements on PMa-SynRM Performance

Irreversible Demagnetization Analysis for Multilayer Magnets of Permanent Magnet-Assisted Synchronous Reluctance Machines Considering Current Phase Angle

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