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Volume 29, Issue 4
13 July 2010
COMPEL - The international journal for computation and mathematics in electrical and electronic engineering Cover Image for Volume 29, Issue 4
Editors
Jan Sykulski
Jan Sykulski
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Research Article| July 13 2010

Non linear finite element‐circuit model of a hybrid stepping motor Available to Purchase

Eric Duckler Kenmoe Fankem;
Eric Duckler Kenmoe Fankem
INPL GREEN, Nancy Université, Vandoeurvre lès Nancy, France
Eric Duckler Kenmoe Fankem can be contacted at: fankeme@yahoo.fr
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Noureddine Takorabet;
Noureddine Takorabet
INPL GREEN, Nancy Université, Vandoeurvre lès Nancy, France
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Farid Meibody‐Tabar;
Farid Meibody‐Tabar
INPL GREEN, Nancy Université, Vandoeurvre lès Nancy, France
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François Michel Sargos
François Michel Sargos
INPL GREEN, Nancy Université, Vandoeurvre lès Nancy, France
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Author & Article Information
Eric Duckler Kenmoe Fankem can be contacted at: fankeme@yahoo.fr
Publisher: Emerald Publishing
Online ISSN: 2054-5606
Print ISSN: 0332-1649
© Emerald Group Publishing Limited
2010
COMPEL (2010) 29 (4): 957–963.
https://doi.org/10.1108/03321641011044370
Purpose

The purpose of this paper is to present a coupled finite element (FE) – reluctance network model for a hybrid step motor.

Design/methodology/approach

The equivalent permeances of the air‐gap are determined by 2D nonlinear FE computations. The results of the 2D model are used in a 3D analytical model. A spectral decomposition and a nonlinear fitting of the amplitudes of the permeance harmonics are performed to account for both saturation and high order harmonic effects. The nonlinear resolution of the circuit equations is performed with an iterative process. The performances are determined by using the principle of virtual works.

Findings

The method is validated with a 2D FE computation and then applied to a 3D hybrid step motor.

Originality/value

The proposed method enables fast and efficient computations of the performances of hybrid stepping motor.

Keywords:
Finite element analysis, Electric fields, Electric machines, Circuit theory
© Emerald Group Publishing Limited
2010
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