Fast Magnetic Field Modeling for Shielding Systems

Author

Giaccone, Luca ; Ragusa, Carlo ; Khan, Omar ; Manca, Michele

Author_Institution

Dipt. Energia, Politec. di Torino, Turin, Italy

Volume

49

Issue

7

fYear

2013

fDate

Jul-13

Firstpage

4128

Lastpage

4131

Abstract

In this paper, a new iterative algorithm for the analysis of properties of magnetic shielding systems is proposed. Since such shielding systems for low frequency applications are composed of thin-walled shells with magnetic materials of high permeability, the thin shell approximation is adopted and a numerical integral formulation of the ensuing magnetostatic problem is obtained in the form of a convolution equation. This algebraic system is eventually solved iteratively by exploiting the convolution properties of the discrete Fourier transform. The convergence properties of the procedure are analyzed and tested on two case studies where isotropic and anisotropic magnetic shields are used.

Keywords

algebra; approximation theory; convergence of numerical methods; discrete Fourier transforms; iterative methods; magnetic permeability; magnetic shielding; magnetostatics; algebraic system; anisotropic magnetic shield; convergence properties; convolution equation; convolution properties; discrete Fourier transform; fast magnetic field modeling; iterative algorithm; low frequency applications; magnetic materials; magnetic shielding system property analysis; magnetostatic problem; numerical integral formulation; permeability; thin shell approximation; thin-walled shells; Convergence; Magnetic domains; Magnetic noise; Magnetic shielding; Magnetostatics; Perpendicular magnetic anisotropy; Fast Fourier transform (FFT); magnetic shielding; numerical methods;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2012.2237391

Filename

6559007