Analysis of airgap flux, current, and vibration signals as a function of the combination of static and dynamic airgap eccentricity in 3-phase induction motors

Author

Dorrell, David G. ; Thomson, William T. ; Roach, Steven

Author_Institution

Dept. of Eng., Reading Univ., UK

Volume

33

Issue

1

fYear

1997

Firstpage

24

Lastpage

34

Abstract

This paper provides new information for the online diagnosis of airgap eccentricity in 3-phase induction motors. A new theoretical analysis of the interaction between harmonic field components due to static and dynamic rotor eccentricity which previous research has not considered is put forward, The resultant nonsupply-frequency current components produced in the supply current which are highlighted by the analysis are found to exist experimentally and indeed shown to be a function of the combined effect of both dynamic and static eccentricity. Further vibration analysis is put forward to identify which particular form of rotor eccentricity is dominant; hence illustrating how faults can be identified in a motor using condition monitoring techniques

Keywords

air gaps; harmonic analysis; induction motors; machine testing; magnetic fields; magnetic flux; monitoring; rotors; vibrations; 3-phase induction motors; airgap flux analysis; condition monitoring; current analysis; dynamic airgap eccentricity; harmonic field components interaction; nonsupply-frequency current components; online diagnosis; rotor eccentricity; static airgap eccentricity; supply current; theoretical analysis; vibration signals analysis; Bars; Boring; Condition monitoring; Fault diagnosis; Frequency; Induction motors; Industry Applications Society; Rotors; Signal analysis; Stators;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.567073

Filename

567073