In this paper, the authors propose an original time-domain extension of the frequency-domain homogenization of multiturn windings in finite element (FE) models. For the winding type in hand (e.g., round conductor with hexagonal packing), an elementary FE model is used for determining dimensionless frequency and time-domain coefficients regarding skin and proximity effect. These coefficients are readily utilized for homogenizing the winding in the FE model of the complete device. The method is successfully applied to an axisymmetric 103-turn inductor. The results agree very well with those obtained by an accurate but very expensive FE model in which all turns are finely discretized. © 2007 IEEE.status: publishe
This paper deals with the synthesis of an RL Cauer ladder network to homogenize multiturn windings i...
peer reviewedIn this work, the error made by frequency domain homogenization of windings in 2-D ma...
AC copper losses are very prominent in high speed electrical machines. Finite element method (FEM) c...
In this paper, the authors propose an original time-domain extension of the frequency-domain homogen...
This paper deals with the time-domain homogenization of multiturn windings in 3-D finite element (FE...
In this paper, an approach for the time-domain homogenization of foil windings in axisymmetric finit...
This paper deals with the time-domain homogeniza- tion of multiturn windings in 3-D finite element (...
A general approach for the frequency-domain homogenization of multiturn windings in two-dimensional ...
In this paper, we propose an alternative time-domain approach for the homogenization of multiturn wi...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
peer reviewedThis paper deals with time-domain homogenisation of multi-turn windings and laminated c...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
This paper deals with a time-domain homogenization technique for Litz-wire bundles embedded in a fin...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
In this work, the error made by frequency domain homogenization of windings in 2-D magnetodynamics i...
This paper deals with the synthesis of an RL Cauer ladder network to homogenize multiturn windings i...
peer reviewedIn this work, the error made by frequency domain homogenization of windings in 2-D ma...
AC copper losses are very prominent in high speed electrical machines. Finite element method (FEM) c...
In this paper, the authors propose an original time-domain extension of the frequency-domain homogen...
This paper deals with the time-domain homogenization of multiturn windings in 3-D finite element (FE...
In this paper, an approach for the time-domain homogenization of foil windings in axisymmetric finit...
This paper deals with the time-domain homogeniza- tion of multiturn windings in 3-D finite element (...
A general approach for the frequency-domain homogenization of multiturn windings in two-dimensional ...
In this paper, we propose an alternative time-domain approach for the homogenization of multiturn wi...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
peer reviewedThis paper deals with time-domain homogenisation of multi-turn windings and laminated c...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
This paper deals with a time-domain homogenization technique for Litz-wire bundles embedded in a fin...
In this paper, the authors deal with the finite-element (FE) modeling of eddy-current effects in for...
In this work, the error made by frequency domain homogenization of windings in 2-D magnetodynamics i...
This paper deals with the synthesis of an RL Cauer ladder network to homogenize multiturn windings i...
peer reviewedIn this work, the error made by frequency domain homogenization of windings in 2-D ma...
AC copper losses are very prominent in high speed electrical machines. Finite element method (FEM) c...