Add to ORKGFirst IFAC Workshop on Fractional Differentiation and Its Application - 19-21 July 2004, Enseirb, Bordeaux, France - FDA'04This paper reports investigation on the modeling of the short circuit impedance of power transformers, using fractional order calculus, analyzing the influence of the diffusion phenomena in the windings. This aims to better characterize the medium frequency range behavior of leakage inductances of power transformer models, which include terms to represent the magnetic field diffusion in the windings. Calculated and measured values are shown and compared
In this study we apply the concept of fractional calculus to electromagnetism and we develop a new f...
In this study we apply the concept of fractional calculus to electromagnetism and we develop a new f...
The derivation of impedance spectra and impedance parameters from time-domain data has been an inter...
This paper reports investigation on the use of fractional order calculus to analytically estimate th...
This paper reports investigation on the estimation of the short circuit impedance of power transfor...
This paper reports investigation on the use of fractional order calculus to analytically estimate th...
The Fractional Calculus (FC) is a mathematical tool applied in scientific areas such as electricity...
The Maxwell equations play a fundamental role in the well established formulation of the electromagn...
The Maxwell equations constitute a formalism for the development of models describing electromagneti...
The performance of electrical devices, depending on the processes of the electrolytes, have been ful...
International audienceIn this paper, identification of the diffusion impedance parameters of an elec...
In recent years, significant research in the field of electrochemistry was developed. The performanc...
The fractional calculus (FC) constitutes a mathematical tool that presently is being applied in many...
The idea of fractional calculus is not new. Fractional derivatives are almost as old as integer-orde...
The accuracy of a model is required to represent the integrated device in any electrical system for ...
In this study we apply the concept of fractional calculus to electromagnetism and we develop a new f...
In this study we apply the concept of fractional calculus to electromagnetism and we develop a new f...
The derivation of impedance spectra and impedance parameters from time-domain data has been an inter...
This paper reports investigation on the use of fractional order calculus to analytically estimate th...
This paper reports investigation on the estimation of the short circuit impedance of power transfor...
This paper reports investigation on the use of fractional order calculus to analytically estimate th...
The Fractional Calculus (FC) is a mathematical tool applied in scientific areas such as electricity...
The Maxwell equations play a fundamental role in the well established formulation of the electromagn...
The Maxwell equations constitute a formalism for the development of models describing electromagneti...
The performance of electrical devices, depending on the processes of the electrolytes, have been ful...
International audienceIn this paper, identification of the diffusion impedance parameters of an elec...
In recent years, significant research in the field of electrochemistry was developed. The performanc...
The fractional calculus (FC) constitutes a mathematical tool that presently is being applied in many...
The idea of fractional calculus is not new. Fractional derivatives are almost as old as integer-orde...
The accuracy of a model is required to represent the integrated device in any electrical system for ...
In this study we apply the concept of fractional calculus to electromagnetism and we develop a new f...
In this study we apply the concept of fractional calculus to electromagnetism and we develop a new f...
The derivation of impedance spectra and impedance parameters from time-domain data has been an inter...