International audienceThis paper presents a new calculation of the dynamic part of the Loss Surface (LS) model to consider the magnetization history. It is to be combined with a static model of hysteresis to estimate iron loss. The analysis of the behavior of various hysteresis loops highlighted the history dependency of the dynamic part of the LS model. An innovative formulation is then proposed to consider the dynamic effects inertia and to construct correctly the practical hysteresis for any applied waveform. The improved model is validated through experimental measurements
© 2018 IEEE. For accurate computation of core losses, the Jiles-Atherton ( J - A ) dynamic hysteresi...
Abstract – A new calculation method for iron loss coefficients is proposed by using the Steinmetz eq...
Loss separation experiments on non-oriented and grain-oriented 3.2 wt.% SiFe electrical steels have ...
International audienceOver the past two decades, the Loss-surface hysteresis model has been develope...
International audienceA new approach to face the problem of dynamic hysteresis and assess extra-loss...
International audienceIn this study, the LS model is reformulated to reliably extend the dynamic sur...
International audienceWe propose a simplified dynamic hysteresis model for the prediction of magneti...
Magnetic materials exhibit non-linear, hysteretic, and dynamic characteristics due to presence of cl...
International audienceIn electromagnetic applications, hysteresis phenomena in magnetic materials ar...
This paper proposes a method for including both hysteresis losses and eddy current losses in the dyn...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...
This paper relates to the measurement and the modeling of iron losses in electric machines by studyi...
There are several models for magnetic hysteresis. Their key purposes are to model magnetization curv...
This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite ...
Dynamic hysteresis modeling and its application in numerical field analysis are challenging tasks. T...
© 2018 IEEE. For accurate computation of core losses, the Jiles-Atherton ( J - A ) dynamic hysteresi...
Abstract – A new calculation method for iron loss coefficients is proposed by using the Steinmetz eq...
Loss separation experiments on non-oriented and grain-oriented 3.2 wt.% SiFe electrical steels have ...
International audienceOver the past two decades, the Loss-surface hysteresis model has been develope...
International audienceA new approach to face the problem of dynamic hysteresis and assess extra-loss...
International audienceIn this study, the LS model is reformulated to reliably extend the dynamic sur...
International audienceWe propose a simplified dynamic hysteresis model for the prediction of magneti...
Magnetic materials exhibit non-linear, hysteretic, and dynamic characteristics due to presence of cl...
International audienceIn electromagnetic applications, hysteresis phenomena in magnetic materials ar...
This paper proposes a method for including both hysteresis losses and eddy current losses in the dyn...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...
This paper relates to the measurement and the modeling of iron losses in electric machines by studyi...
There are several models for magnetic hysteresis. Their key purposes are to model magnetization curv...
This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite ...
Dynamic hysteresis modeling and its application in numerical field analysis are challenging tasks. T...
© 2018 IEEE. For accurate computation of core losses, the Jiles-Atherton ( J - A ) dynamic hysteresi...
Abstract – A new calculation method for iron loss coefficients is proposed by using the Steinmetz eq...
Loss separation experiments on non-oriented and grain-oriented 3.2 wt.% SiFe electrical steels have ...