Title :
Analytic Nonlinear Correction to the Impedance Boundary Condition
Author :
Del Vecchio, Robert M. ; Ahuja, Ravinder
Author_Institution :
SPX Transformer Solutions, Fremont, CA, USA
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;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2273891
