DocumentCode
3414932
Title
Cogging torque reduction techniques for axial-flux surface-mounted permanent-magnet segmented-armature-torus machines
Author
Fei, W. ; Luk, P.C.K.
Author_Institution
Defence Coll. of Manage. & Technol., Cranfield Univ., Shrivenham
fYear
2008
fDate
June 30 2008-July 2 2008
Firstpage
485
Lastpage
490
Abstract
Cogging torque is a parasitic element that causes mechanical vibration, noise and undesirable starting effects in permanent magnet (PM) machines. Significant design efforts, therefore, are made to minimize cogging torque in high performance PM machines. In this paper, several cost effective displacement techniques are proposed for the design of axial-flux surface-mounted permanent-magnet (AFSMPM) segmented-armature-torus (SAT) machines. Quasi-Three-dimensional (quasi-3-D) analytical and three-dimensional finite-element (3-D FE) methods are employed in order to study the effects of the techniques on the reduction of cogging torque in two 5-kW AFSMPM SAT machines. The validity of the proposed quasi-3D analytical model, and the effectiveness of cogging reduction techniques, are demonstrated by comprehensive FE-simulation results.
Keywords
finite element analysis; machine control; permanent magnet machines; torque control; vibrations; axial-flux surface-mounted permanent-magnet machines; cogging torque reduction techniques; mechanical vibration; permanent-magnet segmented-armature-torus machines; quasi-three-dimensional analytical methods; three-dimensional finite-element methods; Costs; Forging; Iron; Magnetic analysis; Magnetic flux; Saturation magnetization; Soft magnetic materials; Stators; Torque; Traction motors;
fLanguage
English
Publisher
ieee
Conference_Titel
Industrial Electronics, 2008. ISIE 2008. IEEE International Symposium on
Conference_Location
Cambridge
Print_ISBN
978-1-4244-1665-3
Electronic_ISBN
978-1-4244-1666-0
Type
conf
DOI
10.1109/ISIE.2008.4677295
Filename
4677295
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