Switched reluctance motor drive systems dynamic performance prediction under internal and external fault conditions

Author

Arkadan, A.A. ; Kielgas, B.W.

Author_Institution

Dept. of Electr. & Comput. Eng., Marquette Univ., Milwaukee, WI, USA

Volume

9

Issue

1

fYear

1994

fDate

3/1/1994 12:00:00 AM

Firstpage

45

Lastpage

52

Abstract

In this second of a set of two companion papers on the dynamic performance of switched reluctance motor drive systems, the results of using an iterative approach to predict the dynamic performance characteristics of a motor drive system during fault conditions are presented. The method is applied to a 6/4, 0.15 hp, 5000 r/min switched reluctance motor drive system to study an external fault due to the failure of a transistor in the converter. The model is also used to study an internal fault due to a partial armature phase short. The analysis resulted in the performance characteristics of the motor drive system which are verified by comparison to experimental data. In addition, the effects of mutual coupling between motor phases on the analysis results are evaluated

Keywords

electric drives; electrical faults; fractional-horsepower motors; machine theory; reluctance motors; 0.15 hp; dynamic performance prediction; external fault conditions; internal fault conditions; iterative inductance updating; motor phases; mutual coupling; partial armature phase short; phase transistor failure; state space model; switched reluctance motor drive systems; Aerodynamics; Circuit faults; Inductance; Iterative methods; Magnetic materials; Motor drives; Performance analysis; Power electronics; Power system harmonics; Reluctance motors;

fLanguage

English

Journal_Title

Energy Conversion, IEEE Transactions on

Publisher

ieee

ISSN

0885-8969

Type

jour

DOI

10.1109/60.282475

Filename

282475