The goal of this paper is to investigate the accuracy of modeling the excess loss in electrical steels using a time domain model with Bertotti’s loss model parameters n0 and V0 fitted in the frequency domain. Three variants of iron loss models based on Bertotti’s theory are compared for the prediction of iron losses under sinusoidal and non-sinusoidal flux conditions. The non-sinusoidal waveforms are based on the realistic time variation of the magnetic induction in the stator core of an electrical machine, obtained from a finite element-based machine model
During field weakening operation time (FWOT), the total iron loss rises and affects the accuracy of ...
The paper presents an advanced quasi-FEA technique on the iron losses prediction using Bertotti’s ir...
Abstract – A new calculation method for iron loss coefficients is proposed by using the Steinmetz eq...
The goal of this paper is to investigate the accuracy of modeling the excess loss in electrical stee...
In electrical machines, iron losses are essential for electromagnetic and thermal designs and analys...
One important factor in the design process and optimization of electrical machines and drives are ir...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
This paper aims to compare different methods for the computation of the iron losses. First of all, a...
This paper deals with the prediction of the iron losses in electrical machines with periodic non sin...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
A model of core losses, in which the hysteresis coefficients are variable with the frequency and ind...
This paper shows how the flux waveform in the core of an electrical machine can be vary non- sinusoi...
International audienceThe aim of the research is to find out how uncertainties in the characterizati...
The new model is based on a modified Steinmetz equation and employs a hysteresis-loss multiplicative...
This paper gives an overview of nowadays used simulation models and measurement methods in order to ...
During field weakening operation time (FWOT), the total iron loss rises and affects the accuracy of ...
The paper presents an advanced quasi-FEA technique on the iron losses prediction using Bertotti’s ir...
Abstract – A new calculation method for iron loss coefficients is proposed by using the Steinmetz eq...
The goal of this paper is to investigate the accuracy of modeling the excess loss in electrical stee...
In electrical machines, iron losses are essential for electromagnetic and thermal designs and analys...
One important factor in the design process and optimization of electrical machines and drives are ir...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
This paper aims to compare different methods for the computation of the iron losses. First of all, a...
This paper deals with the prediction of the iron losses in electrical machines with periodic non sin...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
A model of core losses, in which the hysteresis coefficients are variable with the frequency and ind...
This paper shows how the flux waveform in the core of an electrical machine can be vary non- sinusoi...
International audienceThe aim of the research is to find out how uncertainties in the characterizati...
The new model is based on a modified Steinmetz equation and employs a hysteresis-loss multiplicative...
This paper gives an overview of nowadays used simulation models and measurement methods in order to ...
During field weakening operation time (FWOT), the total iron loss rises and affects the accuracy of ...
The paper presents an advanced quasi-FEA technique on the iron losses prediction using Bertotti’s ir...
Abstract – A new calculation method for iron loss coefficients is proposed by using the Steinmetz eq...