We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and Fe-Co laminations. In this range of frequencies, the prediction of loss is not easy, because skin effect can be quite important. The theoretical approach generally relies on a dynamic hysteresis model in association with a diffusion equation, but it imposes heavy computational burden. We present here a computationally efficient dynamic hysteresis model based on the dynamic Preisach model (DPM), by which one can achieve fast and precise solution of the diffusion equation considering the hysteretic constitutive equation of the material. This is achieved at a greatly reduced computational cost with respect to the standard DPM. The loss results ...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
In this paper we present 2 simplified methods for the evaluation of magnetisation loops in laminated...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...
We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and...
We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and...
We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and...
International audienceWe discuss comprehensive broadband (DC – 10 kHz) investigations on magnetic lo...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
International audienceWe propose a simplified dynamic hysteresis model for the prediction of magneti...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
Power losses in soft magnetic materials can be solidly assessed by the statistical theory of losses ...
The possibility of obtaining a voltage-driven solution of the diffusion equation by using a history-...
Magnetic power losses have been experimentally investigated and theoretically predicted over a range...
© 2018 IEEE. A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB/S...
Magnetic power losses have been experimentally investigated and theoretically predicted over a range...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
In this paper we present 2 simplified methods for the evaluation of magnetisation loops in laminated...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...
We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and...
We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and...
We discuss comprehensive broadband (dc-10 kHz) investigations on magnetic losses in Fe-(3 wt%)Si and...
International audienceWe discuss comprehensive broadband (DC – 10 kHz) investigations on magnetic lo...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
International audienceWe propose a simplified dynamic hysteresis model for the prediction of magneti...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
Power losses in soft magnetic materials can be solidly assessed by the statistical theory of losses ...
The possibility of obtaining a voltage-driven solution of the diffusion equation by using a history-...
Magnetic power losses have been experimentally investigated and theoretically predicted over a range...
© 2018 IEEE. A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB/S...
Magnetic power losses have been experimentally investigated and theoretically predicted over a range...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
In this paper we present 2 simplified methods for the evaluation of magnetisation loops in laminated...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...