This paper proposes a model for the computation of iron losses in steel laminations accounting simultaneously for magnetic hysteresis and eddy currents. The proposed model is well suited for finite element implementation and relies on a consistent thermodynamic background. The focus of this paper is particularly set on a systematic and accurate identification of material parameters from standard dc measurements (Epstein frame, single-sheet tester). Once identified, those material parameters can be used to obtain quantitative predictions of iron losses at higher frequencies and in the presence of higher harmonics. The model and the identification process are validated against measurements for a M235-35 A electrical steel over a wide range of...
In this article, we propose an analytical method to compute the eddy-current loss in nonlinear thick...
One potential problem associated with the high electrical frequency in high-speed electrical machine...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
In electrical machines, iron losses are essential for electromagnetic and thermal designs and analys...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
A procedure is described for identifying a mathematical model of core losses in ferromagnetic steel ...
Iron losses in laser-cut toroidal samples of 12 mm thick steel laminations used in large synchronous...
The new model is based on a modified Steinmetz equation and employs a hysteresis-loss multiplicative...
© 2018 IEEE. A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB/S...
Two new models for specific power losses in cold-rolled motor lamination steel are described togethe...
Publisher Copyright: CCBYIron losses in laser-cut toroidal samples of 12 mm thick steel laminations ...
In this study, the temperature influence on iron loss of non-oriented steel laminations is investiga...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...
Purpose - For efficient magnetic field calculations in electrical machines, the hysteresis and losse...
In this article, we propose an analytical method to compute the eddy-current loss in nonlinear thick...
One potential problem associated with the high electrical frequency in high-speed electrical machine...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
In electrical machines, iron losses are essential for electromagnetic and thermal designs and analys...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
A procedure is described for identifying a mathematical model of core losses in ferromagnetic steel ...
Iron losses in laser-cut toroidal samples of 12 mm thick steel laminations used in large synchronous...
The new model is based on a modified Steinmetz equation and employs a hysteresis-loss multiplicative...
© 2018 IEEE. A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB/S...
Two new models for specific power losses in cold-rolled motor lamination steel are described togethe...
Publisher Copyright: CCBYIron losses in laser-cut toroidal samples of 12 mm thick steel laminations ...
In this study, the temperature influence on iron loss of non-oriented steel laminations is investiga...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...
Purpose - For efficient magnetic field calculations in electrical machines, the hysteresis and losse...
In this article, we propose an analytical method to compute the eddy-current loss in nonlinear thick...
One potential problem associated with the high electrical frequency in high-speed electrical machine...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...