International audiencePurpose-Thin conducting sheets are used in many electric and electronic devices. Solving numerically the eddy current problems in presence of these thin conductive sheets requires a very fine mesh which leads to a large system of equations, and it becomes more problematic in case of higher frequencies. The purpose of this paper is to show the numerical pertinence of equivalent models for 3D eddy current problems with a conductive thin layer of small thickness e based on the replacement of the thin layer by its mid-surface with equivalent transmission conditions that satisfy the shielding purpose, and by using an efficient discretization using the Boundary Element Method (BEM) in order to reduce the computational work. ...
We present an effective technique to solve eddy current problems in thin conductors of arbitrary top...
We introduce a novel technique to solve eddy current problems in non-manifold thin conductors by a b...
This paper presents a boundary element method (BEM) formulation coupled with high-order surface impe...
International audiencePurpose-Thin conducting sheets are used in many electric and electronic device...
Shielding sheets are commonly used in the protection of electronic devices. With their large aspect ...
International audienceA new Boundary Element Method (BEM) formulation has been developed for the com...
Modeling of integrated magnetic components in electrical engineering (such as high frequency transfo...
International audienceDuring last years, several numerical formulations have been developped by us t...
An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside ...
The boundary element method for computing 3-dimensional eddy current distributions is presented. Thi...
tIn magnetic confinement fusion devices, close-fitting passive conducting structures surrounding the...
A three-dimensional boundary integral method (3D BIM) capable of analyzing the magnetic field at ext...
International audienceThe authors present a new method to compute the current distribution (eddy cur...
A 3-D boundary integral method (3-D BIM) capable of analyzing eddy currents in thin shields is prese...
We implement a three-dimensional formulation for eddy current problems based on the reduced magnetic...
We present an effective technique to solve eddy current problems in thin conductors of arbitrary top...
We introduce a novel technique to solve eddy current problems in non-manifold thin conductors by a b...
This paper presents a boundary element method (BEM) formulation coupled with high-order surface impe...
International audiencePurpose-Thin conducting sheets are used in many electric and electronic device...
Shielding sheets are commonly used in the protection of electronic devices. With their large aspect ...
International audienceA new Boundary Element Method (BEM) formulation has been developed for the com...
Modeling of integrated magnetic components in electrical engineering (such as high frequency transfo...
International audienceDuring last years, several numerical formulations have been developped by us t...
An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside ...
The boundary element method for computing 3-dimensional eddy current distributions is presented. Thi...
tIn magnetic confinement fusion devices, close-fitting passive conducting structures surrounding the...
A three-dimensional boundary integral method (3D BIM) capable of analyzing the magnetic field at ext...
International audienceThe authors present a new method to compute the current distribution (eddy cur...
A 3-D boundary integral method (3-D BIM) capable of analyzing eddy currents in thin shields is prese...
We implement a three-dimensional formulation for eddy current problems based on the reduced magnetic...
We present an effective technique to solve eddy current problems in thin conductors of arbitrary top...
We introduce a novel technique to solve eddy current problems in non-manifold thin conductors by a b...
This paper presents a boundary element method (BEM) formulation coupled with high-order surface impe...