The treatment of massive and stranded inductors is studied in the frame of dual magnetodynamic finite element h- and a-formulations. On both sides, nodal and edge finite elements are used and source fields are defined when needed as mathematical tools to be used directly in each formulation to lead to circuit relations for inductors. Simplified expressions of source fields are proposed
This thesis deals with the usage of nodal-based finite element methods in electromagnetism and incom...
Finite element equations for electromagnetic fields are examined, in particular nodal elements using...
peer reviewedWide range progressive refinements of the inductors in magnetic vector potential finite...
AbstractThe treatment of massive and stranded inductors is studied in the frame of dual magnetodynam...
peer reviewedBoth general families of magnetodynamic formulations, i.e. h- and b-conform formulation...
peer reviewedDual finite element formulations are developed for modeling both inductive and capaciti...
Two complete procedures, in duality, to take stranded inductors into account in magnetic vector pote...
Purpose - The paper seeks to develop dual 3D finite element (FE) formulations for modeling both indu...
peer reviewedVarious constraints can be encountered in partial differential problems. On the one han...
A method for coupling magnetostatic and magnetodynamic finite element formulations with lumped reluc...
A procedure is proposed to deal with magnetic vector potential finite element magnetodynamic formula...
In order to couple external circuits to edge-element discretized electromagnetic models, with full f...
Mixed formulations are characterized by the use, of not only one kind of unknown, but of two distinc...
A general method to compute source fields in magnetostatics or magnetodynamics is presented for indu...
This author is a Senior Research Assistant with the Belgian National Fund for Scientific Research. S...
This thesis deals with the usage of nodal-based finite element methods in electromagnetism and incom...
Finite element equations for electromagnetic fields are examined, in particular nodal elements using...
peer reviewedWide range progressive refinements of the inductors in magnetic vector potential finite...
AbstractThe treatment of massive and stranded inductors is studied in the frame of dual magnetodynam...
peer reviewedBoth general families of magnetodynamic formulations, i.e. h- and b-conform formulation...
peer reviewedDual finite element formulations are developed for modeling both inductive and capaciti...
Two complete procedures, in duality, to take stranded inductors into account in magnetic vector pote...
Purpose - The paper seeks to develop dual 3D finite element (FE) formulations for modeling both indu...
peer reviewedVarious constraints can be encountered in partial differential problems. On the one han...
A method for coupling magnetostatic and magnetodynamic finite element formulations with lumped reluc...
A procedure is proposed to deal with magnetic vector potential finite element magnetodynamic formula...
In order to couple external circuits to edge-element discretized electromagnetic models, with full f...
Mixed formulations are characterized by the use, of not only one kind of unknown, but of two distinc...
A general method to compute source fields in magnetostatics or magnetodynamics is presented for indu...
This author is a Senior Research Assistant with the Belgian National Fund for Scientific Research. S...
This thesis deals with the usage of nodal-based finite element methods in electromagnetism and incom...
Finite element equations for electromagnetic fields are examined, in particular nodal elements using...
peer reviewedWide range progressive refinements of the inductors in magnetic vector potential finite...