In electrical machines, iron losses are essential for electromagnetic and thermal designs and analyses. Although many models have been proposed to predict iron losses in magnetic materials, the calculation of iron losses under non-sinusoidal excitations is still an open field. Most works concern the influences of the value, the change rate or the frequency of flux density in the frequency domain. In this paper, we propose an engineering model for predicting loss characteristics with given waveforms of flux density in the time domain. The characteristics are collected from the knowledge of the iron loss in a laminated ring-shaped transformer. In the proposed model, we derive mathematical formulas for exciting currents in terms of flux densit...
A procedure is described for identifying a mathematical model of core losses in ferromagnetic steel ...
This paper illustrates the state of art of magnetic testing of electrical steels under distorted flu...
The possibility of obtaining a voltage-driven solution of the diffusion equation by using a history-...
In electrical machines, iron losses are essential for electromagnetic and thermal designs and analys...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
The goal of this paper is to investigate the accuracy of modeling the excess loss in electrical stee...
This paper shows how the flux waveform in the core of an electrical machine can be vary non- sinusoi...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
This paper deals with the prediction of the iron losses in electrical machines with periodic non sin...
The new model is based on a modified Steinmetz equation and employs a hysteresis-loss multiplicative...
Power transformer design requires to model the loss and hysteresis behavior of the laminated steel c...
For loss prediction of a transformer it is required to model the loss of its core, constructed out o...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
A procedure is described for identifying a mathematical model of core losses in ferromagnetic steel ...
This paper illustrates the state of art of magnetic testing of electrical steels under distorted flu...
The possibility of obtaining a voltage-driven solution of the diffusion equation by using a history-...
In electrical machines, iron losses are essential for electromagnetic and thermal designs and analys...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
The goal of this paper is to investigate the accuracy of modeling the excess loss in electrical stee...
This paper shows how the flux waveform in the core of an electrical machine can be vary non- sinusoi...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
This paper deals with the prediction of the iron losses in electrical machines with periodic non sin...
The new model is based on a modified Steinmetz equation and employs a hysteresis-loss multiplicative...
Power transformer design requires to model the loss and hysteresis behavior of the laminated steel c...
For loss prediction of a transformer it is required to model the loss of its core, constructed out o...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
A procedure is described for identifying a mathematical model of core losses in ferromagnetic steel ...
This paper illustrates the state of art of magnetic testing of electrical steels under distorted flu...
The possibility of obtaining a voltage-driven solution of the diffusion equation by using a history-...