Rotational magnetizations of an Ni-Fe alloy are simulated using two different computer modeling approaches, physical and phenomenological. The first one is a model defined using a single hysteron operator based on the Stoner and Wohlfarth theory and the second one is a model based on a suitable system of neural networks. The models are identified and validated using experimental data, and, finally, an example of their application for a finite-element analysis is given.

Cardelli, E., Faba, A., Laudani, A., Antonio, S.Q., RIGANTI FULGINEI, F., Salvini, A. (2017). Computer Modeling of Nickel-Iron Alloy in Power Electronics Applications. IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 64(3), 2494-2501 [10.1109/TIE.2016.2597129].

Computer Modeling of Nickel-Iron Alloy in Power Electronics Applications

LAUDANI, ANTONINO;RIGANTI FULGINEI, Francesco;SALVINI, Alessandro
2017-01-01

Abstract

Rotational magnetizations of an Ni-Fe alloy are simulated using two different computer modeling approaches, physical and phenomenological. The first one is a model defined using a single hysteron operator based on the Stoner and Wohlfarth theory and the second one is a model based on a suitable system of neural networks. The models are identified and validated using experimental data, and, finally, an example of their application for a finite-element analysis is given.
2017
Cardelli, E., Faba, A., Laudani, A., Antonio, S.Q., RIGANTI FULGINEI, F., Salvini, A. (2017). Computer Modeling of Nickel-Iron Alloy in Power Electronics Applications. IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 64(3), 2494-2501 [10.1109/TIE.2016.2597129].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/313496
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