%0 Journal Article
%T Mitigation of cogging torque for brushless interior permanent-magnet motors
%J Scientia Iranica
%I Sharif University of Technology
%Z 1026-3098
%A Wu, Y.-C.
%A Chen, Y.-T.
%D 2015
%\ 12/01/2015
%V 22
%N 6
%P 2163-2169
%! Mitigation of cogging torque for brushless interior permanent-magnet motors
%K cogging torque
%K Brushless Interior Permanent-Magnet (IPM) motor
%K Exterior-rotor type
%K Finite-element analys
%R
%X In brushless Interior Permanent-Magnet (IPM) motors there exists an oscillatory torque that is induced by the mutual interaction of permanent magnets mounted on the rotor and a slotted structure formed on the stator, generally called the cogging torque. This undesirable torque mainly causes vibration, position inaccuracy and acoustic noise from brushless IPM motors. This paper investigates the in uence of geometric parameters on the cogging torque of brushless IPM motors. An exterior-rotor brushless IPM motor, with embedded magnet poles in a V-shape, is introduced. With the aid of commercial nite-element analysis software, cogging torque waveforms of brushless IPM motors are accurately calculated. The eects of geometric parameters on the cogging torque, including magnet span angle of the rotor, shoe depth and shoe ramp of the stator, dummy slots notched on the stator, depth of the dummy slot and dummy slots notched on both the stator and rotor, are discussed. Ten design cases, with dierent values of design parameter, are presented to eectively mitigate the cogging torque. Design case X of the brushless IPM motor, with dummy slots on the stator, performs better than the original brushless IPM motor, with a 79.1% decrease in the peak value of the cogging torque.
%U http://scientiairanica.sharif.edu/article_3765_073a94d12b46cc5f1d619dee9046b1b8.pdf