Parameter Identification of Multiphase Induction Machines With Distributed Windings-Part 1: Sinusoidal Excitation Methods

Multiphase induction machines (IMs) are gaining increasing interest in industry due to their numerous advantages over the conventional three-phase ones. A lot of different parameter estimation methods have been developed for three-phase IMs, but the existing literature regarding specific identificat...

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Veröffentlicht in:IEEE transactions on energy conversion 2012-12, Vol.27 (4), p.1056-1066
Hauptverfasser: Yepes, A. G., Riveros, J. A., Doval-Gandoy, J., Barrero, F., Lopez, O., Bogado, B., Jones, M., Levi, E.
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Sprache:eng
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Zusammenfassung:Multiphase induction machines (IMs) are gaining increasing interest in industry due to their numerous advantages over the conventional three-phase ones. A lot of different parameter estimation methods have been developed for three-phase IMs, but the existing literature regarding specific identification techniques for multiphase IMs is almost nonexistent at this point. This paper proposes simple offline methods to estimate the stator resistance and stator leakage inductance of multiphase IMs with distributed windings, under different conditions, utilizing the machine's degrees of freedom associated with the nonflux/torque producing current components. Once these parameters are identified, the rotor ones can be easily calculated by combination with the total values obtained from locked-rotor tests. The procedure enables segregation of the stator and rotor parameters in a simple manner, something that is very difficult to achieve in three-phase IMs where, usually, equality of leakage inductances and a constant stator resistance are assumed. In this manner, the magnetizing inductance can be then also more accurately assessed from no-load tests, because the error in its estimation that would be caused by assuming both leakage inductances to be equal is avoided. The proposed methods are experimentally tested on two different five-phase IMs.
ISSN:0885-8969
1558-0059
DOI:10.1109/TEC.2012.2220967