Your search keyword '"Sartori, Carlos A. F."' showing total 2 results

1. Mu-Negative Metamaterials Seen as Band-Limited Non-Foster Impedances in Inductive Power Transmission Systems.

Author

de Almeida, Jorge V., Siqueira, Gláucio L., Mosso, Marbey M., and Sartori, Carlos A. F.

Subjects

INDUCTIVE power transmission, MAGNETIC coupling, METAMATERIALS, MAGNETIC circuits, IMPEDANCE matching

Abstract

In the last decade, various works have demonstrated that a class of artificial material called metamaterials (MTM) can synthesize mu-negative (MNG) media capable of evanescent-wave focusing which largely enhances the magnetic coupling between coils, which is the basic mechanism of Inductive Power Transmission (IPT) systems. In the present work, MTM-enhanced coupling in IPT systems is examined through analytical and numerical results, which are validated by experimental data. Adopting a transmission-line (TL) based approach to describe the general MTM-enhanced IPT system, it is evidenced that MNG MTMs can be interpreted as a negative impedance from a circuital point of view. [ABSTRACT FROM AUTHOR]

Published

2019

2. Overview on the Evolution of Near Magnetic Field Coupling Prediction Using Equivalent Multipole Spherical Harmonic Sources.

Author

Breard, Arnaud, Chadebec, Olivier N., Krahenbuhl, Laurent F., Sartori, Carlos A. F., Vollaire, Christian, Fabregue, Olivier, Li, Zhao, Muylaert, Rafael P. B., Tavernier, Francois, and Voyer, Damien

Subjects

NEAR-fields, CASCADE converters, ELECTROMAGNETIC fields, MAGNETIC coupling, DEGREES of freedom

Abstract

In the electromagnetic compatibility behavior of power electronic converters, parasitic magnetic couplings between components are one of the main causes of dysfunctions or poor filtering. These couplings may be either conducted or near-field interferences. To handle interaction problems, full knowledge of these magnetic couplings is essential. This paper is an overview of the work on near magnetic field interference undertaken in the last 15 years by the International Maxwell Laboratory. This paper details a predictive method that accurately and efficiently calculates near magnetic field coupling between two sources. The method uses near-field multipolar expansion in spherical harmonics of electromagnetic sources to determine close magnetic coupling between two sources from their equivalent models. This paper also shows how theoretical developments of large loop antennas have evolved from the van Veen antenna, a model with only two degrees of freedom, to a more complex model in terms of degrees, order, and types of harmonics. In parallel, it describes developments in the measurement method that provides input to the theoretical model. To illustrate how the research has evolved, we discuss coupling between two complex sources to assess the accuracy of this predictive method. [ABSTRACT FROM PUBLISHER]

Published

2017