Analysis of Hysteresis in Resonance-Based Position Estimation of Switched Reluctance Drives

Author

Geldhof, Kristof ; Sergean, Peter ; Van den Bossche, Alex ; Melkebeek, Jan

Author_Institution

Dept. Electr. Energy, Syst. & Autom., Ghent Univ., Ghent, Belgium

Volume

47

Issue

5

fYear

2011

fDate

5/1/2011 12:00:00 AM

Firstpage

1022

Lastpage

1025

Abstract

In switched reluctance motors, rotor position information can be extracted from the measurement of position-dependent phase voltage resonances. Due to hysteresis in the magnetic core of the machine, subsequently triggered resonances can exhibit different resonance waveforms, even when the rotor is held at a constant angular position. In order to analyze the influence of hysteresis, a finite-difference model of a magnetic lamination is coupled with a scalar Preisach model and with an electric circuit comprising an air gap and an equivalent capacitance associated with the converter, power cable and phase winding. A good correspondence is obtained between simulated and measured time-domain resonance waveforms. The model is used to predict the impact of hysteresis on the initial position estimation at start-up of the drive.

Keywords

finite difference methods; hysteresis; reluctance motor drives; rotors; air gap; angular position; converter; electric circuit; finite-difference model; hysteresis analysis; magnetic core; magnetic lamination; phase winding; position-dependent phase voltage resonances; power cable; resonance-based position estimation; rotor position information; scalar Preisach model; switched reluctance drives; time-domain resonance waveforms; Atmospheric modeling; Integrated circuit modeling; Lamination; Magnetic hysteresis; Magnetic resonance; Reluctance motors; Rotors; Hysteresis; switched reluctance motor;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2010.2091716

Filename

5754786