The Jiles-Atherton magnetic hysteresis model coupled with time-stepping finite-element analysis is reported to suffer from numerical convergence problems, for example, when simulating electrical machines. In this paper, we describe a source of the numerical difficulties, and present a more stable time integration scheme for the coupled problem. In addition, we introduce the quasi-Newton method to accelerate the solution of the nonlinear field equation. Induction motor simulations verify the robustness of the proposed method.Peer reviewe
This paper describes how a comprehensive time-stepping coupled finite element phase flux linkage-bas...
The time stepping finite element method based on the backward Euler's method has been widely used to...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
The Jiles-Atherton model was widely used in the description of the system with hysteresis, and the s...
The time-stepping finite-element method (FEM) has become a powerful tool in solving transient electr...
A stable iteration algorithm for solving nonlinear magnetic field problems using the finite-element ...
This paper deals with the use of a Jiles-Atherton vector hysteresis model included in 2D finite elem...
In this paper, we present a model of a hysteresis motor based on Maxwell's equations coupled with th...
This paper focuses on ferromagnetic hysteresis phenomena, a crucial point in the evaluation of iron ...
This paper deals with the use of a Jiles‐Atherton vector hysteresis model included in 2D finite elem...
This thesis deals with the magnetic field analysis of electric machines by means of the finite eleme...
Time-stepping finite-element methods have been widely used to compute the magnetic field of electric...
Author name used in this publication: S. L. HoAuthor name used in this publication: W. N. FuAuthor n...
his paper deals with the incorporation of a vector hysteresis model in 2D finite-element (FE) magnet...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
This paper describes how a comprehensive time-stepping coupled finite element phase flux linkage-bas...
The time stepping finite element method based on the backward Euler's method has been widely used to...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
The Jiles-Atherton model was widely used in the description of the system with hysteresis, and the s...
The time-stepping finite-element method (FEM) has become a powerful tool in solving transient electr...
A stable iteration algorithm for solving nonlinear magnetic field problems using the finite-element ...
This paper deals with the use of a Jiles-Atherton vector hysteresis model included in 2D finite elem...
In this paper, we present a model of a hysteresis motor based on Maxwell's equations coupled with th...
This paper focuses on ferromagnetic hysteresis phenomena, a crucial point in the evaluation of iron ...
This paper deals with the use of a Jiles‐Atherton vector hysteresis model included in 2D finite elem...
This thesis deals with the magnetic field analysis of electric machines by means of the finite eleme...
Time-stepping finite-element methods have been widely used to compute the magnetic field of electric...
Author name used in this publication: S. L. HoAuthor name used in this publication: W. N. FuAuthor n...
his paper deals with the incorporation of a vector hysteresis model in 2D finite-element (FE) magnet...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...
This paper describes how a comprehensive time-stepping coupled finite element phase flux linkage-bas...
The time stepping finite element method based on the backward Euler's method has been widely used to...
A time-stepping coupled finite element-state-space model for induction motor drives is developed. Th...