Magnetic bearing control using fuzzy logic

Author

Hung, John Y.

Author_Institution

Dept. of Electr. Eng., Auburn Univ., AL, USA

Volume

31

Issue

6

fYear

1995

Firstpage

1492

Lastpage

1497

Abstract

Presented in this paper is a fuzzy logic approach to improve the performance of a magnetic bearing control system. Classical, linear design techniques are most often used to control the natural instability of these bearings, but magnetic nonlinearities limit control effectiveness and the region of stable performance. Therefore, the idea here is to adjust the linear controller signal in such a way that nonlinear effects are better compensated. The relationships of attractive force to the electromagnet currents and air gap are described and compensated using fuzzy principles, rather than a precise model-based control approach. Computer simulations are used to confirm that a fuzzy description of nonlinear compensation does indeed improve system performance, without requiring an exact model of the bearing nonlinearities

Keywords

air gaps; compensation; control system analysis computing; control system synthesis; electromagnetic devices; electromagnets; fuzzy control; magnetic devices; mechanical variables control; nonlinear control systems; stability; attractive force; classical linear design; computer simulation; control design; control effectiveness; electromagnet currents; fuzzy logic; magnetic bearing control system; magnetic nonlinearities; nonlinear compensation; performance; Computer simulation; Control nonlinearities; Control systems; Electromagnetic modeling; Electromagnets; Force control; Fuzzy control; Fuzzy logic; Fuzzy systems; Magnetic levitation;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.475746

Filename

475746