When the frequency of power converters increases, the wound components like inductors or transformers can no longer be supposed ideal. In this paper a formulation using 2D finite elements is presented for studying the high frequency coupled magnetic and electric field problem (eddy currents, proximity effects and stray capacitance). This formulation is based on a particular division of the 3D spatial domain which enables a 2D calculation
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modell...
An eddy current model for predicting the electrical impedance variation of a long rectangular surfac...
peer reviewedPurpose: This paper aims to model a three-dimensional twisted geometry of a twisted pai...
The aim of this thesis is to develop 3D finite element formulations for high frequency devices simul...
order to answer the absence of complete and realistic data on behalf of the industry, the knowledge ...
This report concerns the determination of the parameters R and L of wound materials at high frequenc...
Purpose: The paper seeks to develop dual 3D finite element (FE) formulations for modeling both induc...
The negative impact of the displacement currents on the operation of electromagnetic converters resu...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
A method for analyzing 3-D magnetic fields and currents in electrical machines excited from voltage ...
To analyze the interaction between an eddy current coil and a flaw, one generally needs to solve a t...
peer reviewedFinite element models of increasing accuracy are proposed for the study of the capaciti...
This paper proposes a set of quasi-static mathematical model of magnetic fields caused by high volta...
This paper describes a 3D finite element (FE) based method to calculate the proximity losses for mag...
Purpose: The purpose of this paper is to develop a sub-domain perturbation technique for refining ma...
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modell...
An eddy current model for predicting the electrical impedance variation of a long rectangular surfac...
peer reviewedPurpose: This paper aims to model a three-dimensional twisted geometry of a twisted pai...
The aim of this thesis is to develop 3D finite element formulations for high frequency devices simul...
order to answer the absence of complete and realistic data on behalf of the industry, the knowledge ...
This report concerns the determination of the parameters R and L of wound materials at high frequenc...
Purpose: The paper seeks to develop dual 3D finite element (FE) formulations for modeling both induc...
The negative impact of the displacement currents on the operation of electromagnetic converters resu...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
A method for analyzing 3-D magnetic fields and currents in electrical machines excited from voltage ...
To analyze the interaction between an eddy current coil and a flaw, one generally needs to solve a t...
peer reviewedFinite element models of increasing accuracy are proposed for the study of the capaciti...
This paper proposes a set of quasi-static mathematical model of magnetic fields caused by high volta...
This paper describes a 3D finite element (FE) based method to calculate the proximity losses for mag...
Purpose: The purpose of this paper is to develop a sub-domain perturbation technique for refining ma...
The eddy-current effects in windings, i.e. skin and proximity effects, can be macroscopically modell...
An eddy current model for predicting the electrical impedance variation of a long rectangular surfac...
peer reviewedPurpose: This paper aims to model a three-dimensional twisted geometry of a twisted pai...