Optimization of the skew angle of rotor magnetic poles in permanent magnet machines based on the inverse problem method

Author

Alhamadi, M.A. ; Demerdash, N.A.

Author_Institution

Dept. of Electr. Eng., Qatar Univ., Doha, Qatar

fYear

1997

Abstract

This paper presents optimization of the skew angle of rotor magnetic poles in permanent magnet class of machines. The skew angle optimization is achieved using the gradient based inverse problem methodology. The paper introduces the armature winding flux linkages and associated induced EMFs for the first time as the object function. In the mean time, this object function involves the use of stored energy and excitation perturbation techniques. An example 1.2 HP permanent magnet brushless DC machine is used to demonstrate the validity and usefulness of the method

Keywords

brushless DC motors; inverse problems; machine theory; magnetic flux; optimisation; permanent magnet motors; perturbation techniques; rotors; 1.2 hp; armature winding flux linkages; excitation perturbation techniques; gradient based inverse problem; induced EMF; inverse problem method; permanent magnet brushless DC machine; rotor magnetic poles; skew angle optimisation; stored energy techniques; Couplings; Design optimization; Equations; Inverse problems; Magnetic flux; Optimization methods; Permanent magnet machines; Permanent magnets; Perturbation methods; Stators;

fLanguage

English

Publisher

ieee

Conference_Titel

Electric Machines and Drives Conference Record, 1997. IEEE International

Conference_Location

Milwaukee, WI

Print_ISBN

0-7803-3946-0

Type

conf

DOI

10.1109/IEMDC.1997.604224

Filename

604224