Title :
Dual finite element formulations for lumped reluctances coupling
Author :
Dular, Patrick ; Gyselinck, Johan ; Henneron, Thomas ; Piriou, Francis
Author_Institution :
Liege Univ., Belgium
fDate :
5/1/2005 12:00:00 AM
Abstract :
A method for coupling magnetostatic and magnetodynamic finite element formulations with lumped reluctances is developed. Two dual h and b-conform formulations are extended to define the necessary magnetic relations between the magnetic fluxes and the magnetomotive forces. Adequate surface scalar potentials are defined and adequate boundary terms in the weak formulations are used. The magnetic relations can then be included in a reluctance network, in which the coupling of finite element regions and lumped regions aims at higher computational efficiency. The methods are developed in three dimensions, using a coupling of nodal and edge finite element approximations for the unknowns, and can easily be particularized in two dimensions.
Keywords :
electromagnetic coupling; finite element analysis; magnetic circuits; magnetic fields; magnetic flux; magnetic forces; edge finite element approximation; finite element formulation; lumped reluctances coupling; magnetic circuit; magnetic flux; magnetic relations; magnetodynamics; magnetomotive force; magnetostatics; nodal finite element approximation; reluctance network; surface scalar potential; Conductors; Coupling circuits; Finite element methods; Magnetic circuits; Magnetic domain walls; Magnetic domains; Magnetic fields; Magnetic flux; Magnetic flux density; Magnetostatics; Finite-element method; MMF; magnetic circuit; magnetic flux; magnetodynamics; magnetostatics;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.844348
