The Statistical Theory of Losses (STL) provides a simple and general method for the interpretation and prediction of the energy losses in soft magnetic materials. One basic application consists, for example, in the prediction of the loss under arbitrary induction waveform, starting from data available from conventional measurements performed under sinusoidal flux. There are, however, persisting difficulties in assessing the loss when the induction waveform is affected by a DC-bias, because this would require additional experimental data, seldom available to machine designers. In this paper we overcome this problem applying, with suitable simplifications, the dynamic Preisach model. Here the parameters of the STL model are obtained exploiting preemptive conventional measurements only. By this new simplified method, analytical expressions for the loss components are obtained under general supply conditions, including DC-biased induction waveforms.
Prediction of Energy Losses in Soft Magnetic Materials Under Arbitrary Induction Waveforms and DC Bias / de la Barrière, Olivier; Ragusa, CARLO STEFANO; Appino, Carlo; Fiorillo, Fausto. - In: IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS. - ISSN 0278-0046. - STAMPA. - 64:3(2017), pp. 2522-2529. [10.1109/TIE.2016.2608886]
Prediction of Energy Losses in Soft Magnetic Materials Under Arbitrary Induction Waveforms and DC Bias
RAGUSA, CARLO STEFANO;
2017
Abstract
The Statistical Theory of Losses (STL) provides a simple and general method for the interpretation and prediction of the energy losses in soft magnetic materials. One basic application consists, for example, in the prediction of the loss under arbitrary induction waveform, starting from data available from conventional measurements performed under sinusoidal flux. There are, however, persisting difficulties in assessing the loss when the induction waveform is affected by a DC-bias, because this would require additional experimental data, seldom available to machine designers. In this paper we overcome this problem applying, with suitable simplifications, the dynamic Preisach model. Here the parameters of the STL model are obtained exploiting preemptive conventional measurements only. By this new simplified method, analytical expressions for the loss components are obtained under general supply conditions, including DC-biased induction waveforms.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2673219
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