Title :
A general method for electric and magnetic coupled problem in 2D and magnetodynamic domain
Author :
Lombard, P. ; Meunier, G.
Author_Institution :
CEDRAT Recherche, Meylan, France
fDate :
3/1/1992 12:00:00 AM
Abstract :
The authors present a novel formulation which allows the inclusion of the circuit equations in the finite element analysis in two dimensions. Two types of magnetic conductors are considered: massive conductors which can develop eddy currents and `fine wire´ without eddy current. Kirchhoff´s voltage and current equations have been established for these conductors in accordance with magnetic equations. Furthermore, these conductors have been integrated into an external electric network. This formulation allows the solution of two-dimensional magnetic problems with all kinds of electric connections between conductors, which consist of impedances (R, L, and C) fed by sinusoidal sources. The modeling of an asynchronous machine with a squirrel cage (with simulation of end rings) is given to illustrate one application of the formulation
Keywords :
asynchronous machines; eddy currents; electromagnetic fields; finite element analysis; Kirchhoff´s equations; asynchronous machine; circuit equations; eddy currents; electric coupled problem; fine wire; finite element analysis; magnetic conductors; magnetic coupled problem; magnetodynamic domain; massive conductors; squirrel cage; two-dimensional magnetic problems; Conductivity; Conductors; Coupling circuits; Current density; Finite element methods; Magnetic circuits; Magnetic domains; Maxwell equations; Voltage; Wire;
Journal_Title :
Magnetics, IEEE Transactions on
