Abstract
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.
Highlights
Resumen. - En el presente trabajo se presentan resultados teóricos y experimentales de circuitos resonantes de estado sólido para la transmisión y recepción de energía eléctrica inalámbrica, para aplicaciones en dispositivos móviles
According to Gauss's theorem, for the lower and upper surface, we find that, it is shown that the electric field on the upper and lower surface is zero
Theoretical and experimental results were obtained for the energy transmission and reception of energy
Summary
The transmission of electrical of Technology have worked in wireless power energy is carried out through the use of electrical transfer because power cables reduce and limit wiring, recent technological advances the mobility of electronic devices. These in the area of communications have motivated investigations are based on magnetic induction people to look for different ways of transmitting techniques using new ring-shaped solenoid energy [1]. A related work demonstrated that the energy of coupled coils, at the transmitting side, an range of a wireless transmitter can be increased, alternating current flow through the coil, by using a system of rings located at a distance of generating a magnetic field, a second coil is used.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
