Analytic Nonlinear Correction to the Impedance Boundary Condition

Author

Del Vecchio, Robert M. ; Ahuja, Ravinder

Author_Institution

SPX Transformer Solutions, Fremont, CA, USA

Volume

49

Issue

12

fYear

2013

fDate

Dec. 2013

Firstpage

5687

Lastpage

5691

Abstract

The linear impedance boundary condition is based on the solution of Maxwell´s equations for a slab of conducting material with a constant permeability and a given tangential surface magnetic field. The permeability is assumed high enough that the eddy currents are confined to a narrow thickness near the surface. By solving these equations for a similar geometry but with a nonlinear B-H curve, the losses obtained were compared with the linear losses and a correction factor obtained. This correction factor is a function of the surface magnetic field and can be implemented in finite element programs. Using this approach, the stray losses obtained with a finite element program were in good agreement with the tested losses for a variety of transformers.

Keywords

Maxwell equations; conducting materials; eddy current losses; finite element analysis; magnetic permeability; surface impedance; surface magnetism; Maxwell equations; analytic nonlinear correction; conducting material; correction factor; eddy currents; finite element programs; linear impedance boundary condition; nonlinear B-H curve; permeability; tangential surface magnetic field; Eddy currents; Finite element analysis; Impedance; Loss measurement; Permeability; Surface impedance; Windings; Eddy currents; finite element methods; nonlinear magnetics; surface impedance;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2013.2273891

Filename

6563098