Transient simulation time for field-circuit coupled models of realistic electromagnetic devices becomes unacceptably high. A magnetodynamic formulation is coupled to an electric circuit analysis, yielding a sparse, symmetric and indefinite matrix. The unknown circuit currents correspond to negative eigenvalues in the matrix spectrum. The Quasi-Minimal Residual method performs better than the Minimal Residual approach that is restricted to positive definite preconditioners. The positive definite variant is solved by the Conjugate Gradient method without explicitly building the dense coupled matrix. As an example, both approaches are applied to an induction motor.status: publishe
A combined field and circuit approach in time domain is presented in this paper for the realistic st...
Typically in electrical engineering a network modelling approach for the simulation of devices and t...
Long electromagnetic transients occur in electrical systems because of switching and impulse actions...
The time stepping finite element method based on the backward Euler's method has been widely used to...
The time-stepping finite-element method (FEM) has become a powerful tool in solving transient electr...
Quasi-stationary magnetic field formulations are often coupled with lumped parameter models for the ...
AbstractQuasi-stationary magnetic field formulations are often coupled with lumped parameter models ...
The objective of this work is to propose effective and reliable higher order time integration scheme...
This paper presents implementation details of coupling circuit equations and motion with two dimensi...
The paper describes a Simultaneous Implicit (SI) approach for transient stability simulations based ...
Our world today is becoming increasingly complex, and technical devices are getting ever smaller and...
The application of the Finite Element Method (FEM) to the numerical solution of electromagnetic fiel...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...
Modeling of electrical machines for power system’s electromagnetic transient programs (EMTP) has bee...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
A combined field and circuit approach in time domain is presented in this paper for the realistic st...
Typically in electrical engineering a network modelling approach for the simulation of devices and t...
Long electromagnetic transients occur in electrical systems because of switching and impulse actions...
The time stepping finite element method based on the backward Euler's method has been widely used to...
The time-stepping finite-element method (FEM) has become a powerful tool in solving transient electr...
Quasi-stationary magnetic field formulations are often coupled with lumped parameter models for the ...
AbstractQuasi-stationary magnetic field formulations are often coupled with lumped parameter models ...
The objective of this work is to propose effective and reliable higher order time integration scheme...
This paper presents implementation details of coupling circuit equations and motion with two dimensi...
The paper describes a Simultaneous Implicit (SI) approach for transient stability simulations based ...
Our world today is becoming increasingly complex, and technical devices are getting ever smaller and...
The application of the Finite Element Method (FEM) to the numerical solution of electromagnetic fiel...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...
Modeling of electrical machines for power system’s electromagnetic transient programs (EMTP) has bee...
A more general formulation of two-dimensional (2-D) transient finite element method (FEM) for the co...
A combined field and circuit approach in time domain is presented in this paper for the realistic st...
Typically in electrical engineering a network modelling approach for the simulation of devices and t...
Long electromagnetic transients occur in electrical systems because of switching and impulse actions...