In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic homogenized models of high-frequency inductor windings is proposed, based on the subproblem finite-element method. Two approaches are developed, depending on the type of source terms, which are employed to compute the corrections (namely, volumic or surfacic). An analysis of the error committed by the homogenized model, on the local (current densities in the conductors) as well as the global (resistance of the winding) level, is conducted, and appropriate correction strategies are proposed. For instance, it is shown that correcting some conductors in the vicinity of the air gap of an inductor is sufficient to get an acceptable value for the re...
In this paper, the authors propose an original time-domain extension of the frequency-domain homogen...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
In this paper, an approach for the time-domain homogenization of foil windings in axisymmetric finit...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
Recently, a homogenized model in 2-D electrostatics has been proposed in order to avoid the meshing ...
peer reviewedA sub-problem finite element method is developed for refining the inductor models in ma...
A general approach for the frequency-domain homogenization of multiturn windings in two-dimensional ...
In this work, the error made by frequency domain homogenization of windings in 2-D magnetodynamics i...
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modele...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modell...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
peer reviewedIn this work, the error made by frequency domain homogenization of windings in 2-D ma...
peer reviewedThe modeling of inductors is split into a sequence of progressive finite element subpro...
Progressive refinements of inductors are done with a subproblem method, from their wire or filament ...
In this paper, the authors propose an original time-domain extension of the frequency-domain homogen...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
In this paper, an approach for the time-domain homogenization of foil windings in axisymmetric finit...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
Recently, a homogenized model in 2-D electrostatics has been proposed in order to avoid the meshing ...
peer reviewedA sub-problem finite element method is developed for refining the inductor models in ma...
A general approach for the frequency-domain homogenization of multiturn windings in two-dimensional ...
In this work, the error made by frequency domain homogenization of windings in 2-D magnetodynamics i...
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modele...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modell...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
peer reviewedIn this work, the error made by frequency domain homogenization of windings in 2-D ma...
peer reviewedThe modeling of inductors is split into a sequence of progressive finite element subpro...
Progressive refinements of inductors are done with a subproblem method, from their wire or filament ...
In this paper, the authors propose an original time-domain extension of the frequency-domain homogen...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
In this paper, an approach for the time-domain homogenization of foil windings in axisymmetric finit...