A Scaled Mesh/Nodal Formulation of Magnetic Equivalent Circuits With Motion

A Scaled Mesh/Nodal Formulation of Magnetic Equivalent Circuits With Motion

In this paper, the focus is on the efficient solution of magnetic equivalent circuits that include relative motion between components. It is shown that by combining the use of mesh and nodal analysis, one can avoid the need to restructure the circuit topology, which is a step encountered in strictly...

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Veröffentlicht in:IEEE transactions on energy conversion 2019-03, Vol.34 (1), p.58-69
Hauptverfasser: Horvath, Daniel Christopher, Pekarek, Steven D., Sudhoff, Scott D.
Format: Artikel
Sprache:eng
Schlagworte:
Circuits
Condition number
Convergence
Equivalent circuits
Finite element method
Formulations
Integrated circuit modeling
Jacobian matrices
Magnetic circuits
magnetic equivalent circuit
Mathematical model
Mathematical models
mesh analysis
nodal analysis
permeance
reluctance
Stator windings
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Beschreibung
Zusammenfassung:In this paper, the focus is on the efficient solution of magnetic equivalent circuits that include relative motion between components. It is shown that by combining the use of mesh and nodal analysis, one can avoid the need to restructure the circuit topology, which is a step encountered in strictly mesh-based approaches. In addition, one can overcome the poor convergence properties observed in strictly nodal-based formulations. A scaling of variables is introduced to ensure the condition that the number of the mixed mesh/nodal matrices remains relatively low. The proposed scaled model structure is then extended to magnetic equivalent circuits that are coupled to electrical systems for the analysis of dynamic performance. It is shown that the numerical properties of the coupled scaled model remain strong.
ISSN:0885-8969
1558-0059
DOI:10.1109/TEC.2018.2855100