Effect of optimal torque control on rotor loss of fault-tolerant permanent-magnet brushless machines

Author

Ede, Jason D. ; Atallah, Kais ; Wang, Jiabin ; Howe, David

Author_Institution

Dept. of Electron. & Electr. Eng., Univ. of Sheffield, UK

Volume

38

Issue

5

fYear

2002

fDate

9/1/2002 12:00:00 AM

Firstpage

3291

Lastpage

3293

Abstract

A faulted phase in a fault-tolerant permanent-magnet brushless machine can result in significant torque ripple. However, this can be minimized by using an appropriate optimal torque control strategy. Inevitably, however, this results in significant time harmonics in the phase current waveforms, which when combined with inherently large space harmonics, can result in a significant eddy-current loss in the permanent magnets on the rotor. This paper describes the optimal torque control strategy which has been adopted, and discusses its effect on the eddy-current loss in the permanent magnets of four-, five-, and six-phase fault-tolerant machines.

Keywords

AC motors; brushless machines; eddy current losses; machine control; optimal control; permanent magnet motors; rotors; torque control; eddy-current loss; fault-tolerant permanent-magnet brushless machines; faulted phase; five-phase fault-tolerant machines; four-phase fault-tolerant machines; optimal torque control; phase current waveforms; rotor loss; rotor permanent magnets; six-phase fault-tolerant machines; space harmonics; time harmonics; torque ripple; Aerospace control; Aerospace industry; Brushless machines; Copper; Eddy currents; Fault tolerance; Machine windings; Permanent magnets; Stators; Torque control;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2002.802294

Filename

1042528