Open AccessSolid state resonant circuits and wireless electrical power propagation for mobile devices applications
Author(s) -
Sergio Orendain-Castro,
E. A. Murillo-Bracamontes,
Oscar Edel Contreras-López,
Alberto Hernández-Maldonado
Publication year - 2021
Publication title -
revista de ciencias tecnológicas
Language(s) - English
Resource type - Journals
ISSN - 2594-1925
DOI - 10.37636/recit.v44314328
Subject(s) - wireless , electrical engineering , electronic circuit , voltage , transmission (telecommunications) , energy (signal processing) , electrical network , power (physics) , common emitter , power transmission , electronic engineering , range (aeronautics) , computer science , engineering , physics , telecommunications , quantum mechanics , aerospace engineering
In this work, theoretical and experimental results of solid-state resonant circuits for the transmission and reception of wireless electrical energy, for applications in mobile devices are presented. Analytical expressions are found to calculate the voltage range as a function of the distance between the emitter and the load, as well as the current at the front end of an electromagnetic wave receiver. These expressions show the parameters to be varied to achieve a greater range in the transmission of wireless electrical energy. The transmitted voltage and current are measured by an electromagnetic wave receiver and compared with theoretical values, finding an excellent correspondence between the two.
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