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Limits and rules of use of a dynamic flux tube model

Marie‐Ange Raulet (Université de Lyon, France, Université Lyon, France CNRS UMR5005 AMPERE, Villeurbanne, France)
Fabien Sixdenier (Université de Lyon, France, Université Lyon, France CNRS UMR5005 AMPERE, Villeurbanne, France)
Benjamin Guinand (Université de Lyon, France, Université Lyon, France CNRS UMR5005 AMPERE, Villeurbanne, France)
Laurent Morel (Université de Lyon, France, Université Lyon, France CNRS UMR5005 AMPERE, Villeurbanne, France)
René Goyet (Université de Lyon, France, Université Lyon, France CNRS UMR5005 AMPERE, Villeurbanne, France)
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Abstract

Purpose

The purpose of this paper is to analyze the main assumption of a dynamic flux tube model and to define its rules of use.

Design/methodology/approach

The studied dynamic model lumps together all dynamic effects in the circuit by considering a single dynamic parameter. A physical meaning of this parameter as well as rules of use of the model are elaborated from analyses performed on several samples. A systematic comparison between experimental and calculated results allows to argue the conclusions.

Findings

The model gives accurate results when a weak heterogeneity of magnetic data exists, nevertheless, the saturation phenomenon enlarges the validity domain. By considering the losses separation assumption, the model allows to obtain separately an estimation of losses due to classical eddy currents and due to the wall motion effects.

Research limitations/implications

The estimation of the model's parameter value is still empiric, a work is in progress on this subject.

Practical implications

The model's implementation in a flux tubes network allows to simulate the dynamic behaviour of industrial actuators having massive cores.

Originality/value

A physical interpretation of the parameter associated to the dynamic flux tube model is given. Rules of use of the model are also defined.

Keywords

Citation

Raulet, M., Sixdenier, F., Guinand, B., Morel, L. and Goyet, R. (2008), "Limits and rules of use of a dynamic flux tube model", COMPEL - The international journal for computation and mathematics in electrical and electronic engineering, Vol. 27 No. 1, pp. 256-265. https://doi.org/10.1108/03321640810836816

Publisher

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Emerald Group Publishing Limited

Copyright © 2008, Emerald Group Publishing Limited

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