Abstract. It is demonstrated through the comparison of analytical, numerical, and experimental results that the existence of excess eddy current losses can be explained by the peculiar nature of the nonlinear diffusion of electromagnetic fields in magnetically nonlinear laminations. The essence of this peculiar nature is that nonlinear diffusion occurs as inward progress of almost rectangular profiles of magnetic flux density of variable height. Approximating actual profiles of magnetic flux density by rectangular ones, the problem of nonlinear diffusion can be treated analytically by using a simple model. The accuracy and the limit of applicability of the rectangular profile model are discussed by comparing its predictions with finite elem...
Abstract—The simulation of eddy currents in laminated iron cores by the finite element method is of ...
The paper presents an equivalent circuit model of small magnetic laminated objects. The responses in...
Starting from the well known analytical formula for the eddy current losses in electrical steel lami...
Abstract. It is demonstrated through the comparison of analytical, numerical, and experimental resul...
Laminated media are intended to conduct the magnetic flux in the plane (high permeability and high e...
This paper reapproaches the very classic problem of the analytic study of nonlinear diffusion of ele...
In this paper, we propose an analytical method to compute the eddy-current loss in nonlinear thick s...
The total power loss may be divided into three mayor types: the static hysteresis loss, the classica...
The paper presents a completely analytical solution for the magnetic field, the induced eddy current...
A new approach, based on the magnetic vector potential, is developed for the solution of flux penetr...
This paper presents two approaches for nonlinear dynamic modeling of voltage-driven magnetic circuit...
In this article, the diffusion of electromagnetic fields into a ferromagnetic lamination is numerica...
This thesis deals with the modeling of eddy currents in uninsulated laminations. A numerical model f...
Abstract: The simulation of eddy current losses in laminated iron cores by the finite element method...
Results of numerical analysis of loss components in a conducting magnetic hysteresis medium are give...
Abstract—The simulation of eddy currents in laminated iron cores by the finite element method is of ...
The paper presents an equivalent circuit model of small magnetic laminated objects. The responses in...
Starting from the well known analytical formula for the eddy current losses in electrical steel lami...
Abstract. It is demonstrated through the comparison of analytical, numerical, and experimental resul...
Laminated media are intended to conduct the magnetic flux in the plane (high permeability and high e...
This paper reapproaches the very classic problem of the analytic study of nonlinear diffusion of ele...
In this paper, we propose an analytical method to compute the eddy-current loss in nonlinear thick s...
The total power loss may be divided into three mayor types: the static hysteresis loss, the classica...
The paper presents a completely analytical solution for the magnetic field, the induced eddy current...
A new approach, based on the magnetic vector potential, is developed for the solution of flux penetr...
This paper presents two approaches for nonlinear dynamic modeling of voltage-driven magnetic circuit...
In this article, the diffusion of electromagnetic fields into a ferromagnetic lamination is numerica...
This thesis deals with the modeling of eddy currents in uninsulated laminations. A numerical model f...
Abstract: The simulation of eddy current losses in laminated iron cores by the finite element method...
Results of numerical analysis of loss components in a conducting magnetic hysteresis medium are give...
Abstract—The simulation of eddy currents in laminated iron cores by the finite element method is of ...
The paper presents an equivalent circuit model of small magnetic laminated objects. The responses in...
Starting from the well known analytical formula for the eddy current losses in electrical steel lami...