AbstractA general field–circuit coupling mechanism for electromagnetic models is presented. The topological treatment of the circuit allows for a well-defined choice of coupling unknowns and equations, both for couplings of magnetic fields to magnetic circuits and couplings of magnetic fields to electric circuits. The properties of the resulting systems of equations are studied and appropriate iterative solution techniques are proposed. Three technical examples demonstrate the modelling flexibility provided by field–circuit coupling
Covering the development of field computation in the past forty years, the book intends to be a conc...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
AbstractA general field–circuit coupling mechanism for electromagnetic models is presented. The topo...
In this paper a general method of coupling static converters with electromagnetic devices is present...
In this paper, we present a method accounting for feedback control in coupled field circuit models. ...
In this paper, we present a method to take into account the feedback control in software developed f...
Typically in electrical engineering a network modelling approach for the simulation of devices and t...
The aim of this study is to provide a combined simulation environment capable of modelling and analy...
Purpose – The aim of this paper is to develop network models of an electromagnetic field containing ...
The description of electromagnetic components and systems by electrical circuit models is indispensa...
In this paper a 3D model for coupling of magnetic and electric equations is presented. The magnetic ...
The objective of this work is to propose effective and reliable higher order time integration scheme...
The application of the Finite Element Method (FEM) to the numerical solution of electromagnetic fiel...
Today's most common circuit models increasingly tend to loose their validity in circuit simulation ...
Covering the development of field computation in the past forty years, the book intends to be a conc...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
AbstractA general field–circuit coupling mechanism for electromagnetic models is presented. The topo...
In this paper a general method of coupling static converters with electromagnetic devices is present...
In this paper, we present a method accounting for feedback control in coupled field circuit models. ...
In this paper, we present a method to take into account the feedback control in software developed f...
Typically in electrical engineering a network modelling approach for the simulation of devices and t...
The aim of this study is to provide a combined simulation environment capable of modelling and analy...
Purpose – The aim of this paper is to develop network models of an electromagnetic field containing ...
The description of electromagnetic components and systems by electrical circuit models is indispensa...
In this paper a 3D model for coupling of magnetic and electric equations is presented. The magnetic ...
The objective of this work is to propose effective and reliable higher order time integration scheme...
The application of the Finite Element Method (FEM) to the numerical solution of electromagnetic fiel...
Today's most common circuit models increasingly tend to loose their validity in circuit simulation ...
Covering the development of field computation in the past forty years, the book intends to be a conc...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...