Air-gap flux splitting for the time-harmonic finite-element simulation of single-phase induction machines

Author

De Gersem, Herbert ; Hameyer, Kay

Author_Institution

Dept. ESAT, Katholieke Univ., Leuven, Belgium

Volume

38

Issue

2

fYear

2002

fDate

3/1/2002 12:00:00 AM

Firstpage

1221

Lastpage

1224

Abstract

A time-harmonic finite-element formulation is strongly coupled to fast Fourier transforms, discretising a particular kind of interface condition. The approach enables the splitting of the elliptical air-gap field, typical for single-phase induction machines, into two contra-rotating parts that are applied to two distinct rotor models. Motional eddy-current effects can then be incorporated by slip transformation. The simulation of a capacitor-run motor demonstrates the coupled discretization scheme and the high efficiency of this approach

Keywords

air gaps; eddy currents; finite element analysis; harmonic analysis; induction motors; machine theory; magnetic flux; rotors; air-gap flux splitting; capacitor-run motor; coupled discretization scheme; eddy currents; elliptical air-gap field splitting; fast Fourier transforms; finite-element methods; interface conditions; motional eddy-current effects; moving bodies; single-phase induction machines; slip transformation; time-harmonic finite-element simulation; Air gaps; Circuit simulation; Couplings; Fans; Fast Fourier transforms; Finite element methods; Induction machines; Iron; Magnetic flux; Rotors;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.996312

Filename

996312