Add to ORKGInternational audienceSome soft magnetic materials (like ferrites but not only) are strongly dependent of the temperature. In order to predict their behavior in electrical devices, engineers need hysteresis models able to take into account the temperature. This paper is an attempt to take into account the temperature in an existing model of hysteresis through its parameters. Variations of some parameters are issued from Weiss's works and others have to be fitted numerically. Simulation results are compared to measurements and discussed
In this paper, we present a model for temperature dependent hysteretic nonlinearities with nonlocal ...
A simple method is presented to introduce the temperature as a parameter in a hysteresis model for s...
Magnetic materials play a central role in electromagnetic energy conversion applications. The actual...
International audienceSome soft magnetic materials (like ferrites but not only) are strongly depende...
International audienceSome soft magnetic materials are strongly dependent of the temperature, becaus...
peer reviewedPurpose: To understand the behavior of the magnetization processes in ferromagnetic mat...
International audienceIn order to understand the behavior of magnetization processes in ferromagneti...
High operating temperatures modify the magnetic behavior of ferromagnetic cores which may affect the...
© 1965-2012 IEEE. This paper introduces a temperature-dependent hysteresis model based on a vectoria...
The magnetization processes in ferromagnetic materials are dependent on temperature. In order to und...
Soft ferrites are commonly used as core material in high frequency inductors and transformers in pow...
We present experimental measurement of thermal effects on magnetic hysteresis of soft ferrite cores ...
© 2016 IEEE. This paper introduces a temperature dependent hysteresis model based on a vectorial ele...
A temperature dependent model is necessary for the generation of hysteresis loops of ferromagnetic m...
Magnetic hysteresis occurs in most electrical engineering devices once soft ferromagnetic materials ...
In this paper, we present a model for temperature dependent hysteretic nonlinearities with nonlocal ...
A simple method is presented to introduce the temperature as a parameter in a hysteresis model for s...
Magnetic materials play a central role in electromagnetic energy conversion applications. The actual...
International audienceSome soft magnetic materials (like ferrites but not only) are strongly depende...
International audienceSome soft magnetic materials are strongly dependent of the temperature, becaus...
peer reviewedPurpose: To understand the behavior of the magnetization processes in ferromagnetic mat...
International audienceIn order to understand the behavior of magnetization processes in ferromagneti...
High operating temperatures modify the magnetic behavior of ferromagnetic cores which may affect the...
© 1965-2012 IEEE. This paper introduces a temperature-dependent hysteresis model based on a vectoria...
The magnetization processes in ferromagnetic materials are dependent on temperature. In order to und...
Soft ferrites are commonly used as core material in high frequency inductors and transformers in pow...
We present experimental measurement of thermal effects on magnetic hysteresis of soft ferrite cores ...
© 2016 IEEE. This paper introduces a temperature dependent hysteresis model based on a vectorial ele...
A temperature dependent model is necessary for the generation of hysteresis loops of ferromagnetic m...
Magnetic hysteresis occurs in most electrical engineering devices once soft ferromagnetic materials ...
In this paper, we present a model for temperature dependent hysteretic nonlinearities with nonlocal ...
A simple method is presented to introduce the temperature as a parameter in a hysteresis model for s...
Magnetic materials play a central role in electromagnetic energy conversion applications. The actual...