AbstractA time-domain homogenization technique is developed to take the eddy currents in lamination stacks into account with dual 3-D magnetodynamic b- and h-conform finite element formulations. The lamination stack is considered as a source region carrying predefined current density and magnetic flux density distributions describing the eddy currents and skin effect in each lamination. These distributions are related and are approximated with sub-basis functions. The stacked laminations are then converted into continuums with which terms are associated for considering the eddy current loops produced by parallel fluxes, through the homogenization of the sub-basis function contributions
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
Develops a method to take the eddy currents in stacked thin regions, in particular lamination stacks...
peer reviewedaudience: researcherAn effective numerical modeling of devices with lamination stacks c...
A time-domain homogenization technique is developed to take the eddy currents in lamination stacks i...
AbstractA time-domain homogenization technique is developed to take the eddy currents in lamination ...
Purpose - To develop a homogenization technique to directly and efficiently take the eddy current ef...
The authors present a novel time-domain homogenization technique for laminated iron cores in three-d...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
A finite element homogenization method is proposed for the magetodynamic h-conform finite element fo...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
Purpose – The purpose of this paper is to develop a subproblem finite element method for progressive...
This paper deals with a time-domain finite-element homogenization technique for laminated iron cores...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
Develops a method to take the eddy currents in stacked thin regions, in particular lamination stacks...
peer reviewedaudience: researcherAn effective numerical modeling of devices with lamination stacks c...
A time-domain homogenization technique is developed to take the eddy currents in lamination stacks i...
AbstractA time-domain homogenization technique is developed to take the eddy currents in lamination ...
Purpose - To develop a homogenization technique to directly and efficiently take the eddy current ef...
The authors present a novel time-domain homogenization technique for laminated iron cores in three-d...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
A finite element homogenization method is proposed for the magetodynamic h-conform finite element fo...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
Purpose – The purpose of this paper is to develop a subproblem finite element method for progressive...
This paper deals with a time-domain finite-element homogenization technique for laminated iron cores...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
Develops a method to take the eddy currents in stacked thin regions, in particular lamination stacks...
peer reviewedaudience: researcherAn effective numerical modeling of devices with lamination stacks c...