Equivalent circuit modeling of dynamic hysteretic property of silicon steel under pulse width modulation excitation

Abstract

This paper describes the development of an efficient and accurate dynamic hysteresis model that combines the Cauer circuit representations with the play model. The physical meaning of the standard Cauer circuit is discussed and is used to derive a mathematical representation of hysteretic inductors. The iron-loss and hysteresis loops of silicon steel that were obtained using the proposed model agree with experimental data measured under sinusoidal and pulse width modulation excitations.