A unified approach to the analysis of single-phase induction motors

Author

Williamson, Stephen ; Smith, A.C.

Author_Institution

Brook Hansen, Huddersfield, UK

Volume

35

Issue

4

fYear

1999

Firstpage

837

Lastpage

843

Abstract

Single-phase motors are manufactured with a wide variety of capacitor/winding arrangements and interconnections. The bewildering array of motor variants is commonly analyzed using a two-axes model for each and every winding configuration. MMF harmonics are often ignored to limit the complexity. This paper describes a unified model based upon the more familiar rotating-field approach that includes MMF harmonics. Winding interconnections are modeled using simple connection matrices that do not interfere with the core motor model. The method is powerful and flexible and can be interfaced easily to a variety of techniques for determining the equivalent-circuit parameters, such as finite elements, for example. The paper illustrates the unified approach using a two-speed single-phase capacitor motor

Keywords

capacitor motors; equivalent circuits; induction motors; machine theory; machine windings; MMF harmonics; capacitor/winding arrangements; connection matrices; equivalent-circuit parameters; finite elements; rotating-field modelling approach; single-phase induction motors; two-speed single-phase capacitor motor; unified analysis approach; winding interconnections; Capacitors; Coupling circuits; Frequency; Impedance; Induction motors; Industry Applications Society; Integrated circuit interconnections; Manufacturing; Saturation magnetization; Voltage;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.777192

Filename

777192