This paper presents implementation details of coupling circuit equations and motion with two dimensional finite clement models for transient magnetic analysis. Finite elements with incomplete shape functions are used in a novel way to handle the interface between the moving and stationary parts of the mesh. The final system of equations can then be solved using adaptive time stepping. Two examples are presented, a generator, which is coupled to motion and a motor, which is coupled to external circuits
A symmetric coupling of methods of finiteand boundary elements for numerical solution of transiented...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
International audienceThe paper describes the analysis and the calculation of transient response of ...
This report presents the coupling of circuit equations with two dimensional finite element electroma...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
The time-stepping finite-element method (FEM) has become a powerful tool in solving transient electr...
The two-dimensional transient finite element method using a one-step time-stepping scheme deals with...
The time stepping finite element method based on the backward Euler's method has been widely used to...
The objective of this work is to propose effective and reliable higher order time integration scheme...
A new numerical method is proposed to analyze transient induced effects in thin wires excited by ext...
The paper presents the coupling between the finite element and the boundary element methods as an ef...
A new method is presented to solve transient electromagnetic fields in complex geometrical configura...
Transient simulation time for field-circuit coupled models of realistic electromagnetic devices beco...
The main objective of this work is to describe a unique modeling approach to the analysis of nonline...
Many electro-mechanical motional systems include parts that can move relative to the others. EMS-Mag...
A symmetric coupling of methods of finiteand boundary elements for numerical solution of transiented...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
International audienceThe paper describes the analysis and the calculation of transient response of ...
This report presents the coupling of circuit equations with two dimensional finite element electroma...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
The time-stepping finite-element method (FEM) has become a powerful tool in solving transient electr...
The two-dimensional transient finite element method using a one-step time-stepping scheme deals with...
The time stepping finite element method based on the backward Euler's method has been widely used to...
The objective of this work is to propose effective and reliable higher order time integration scheme...
A new numerical method is proposed to analyze transient induced effects in thin wires excited by ext...
The paper presents the coupling between the finite element and the boundary element methods as an ef...
A new method is presented to solve transient electromagnetic fields in complex geometrical configura...
Transient simulation time for field-circuit coupled models of realistic electromagnetic devices beco...
The main objective of this work is to describe a unique modeling approach to the analysis of nonline...
Many electro-mechanical motional systems include parts that can move relative to the others. EMS-Mag...
A symmetric coupling of methods of finiteand boundary elements for numerical solution of transiented...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
International audienceThe paper describes the analysis and the calculation of transient response of ...