Dermatology Research: SkinInsights
Wireless Power Transmission Across Different Mediums Using Silicon Steel Core and Copper Conductors
Abstract
B. Somashekar, Ganapathy D Moger and Yogesh G S
In an initial exploration, an effort was undertaken to execute WPT by utilizing circuits resonating at the standard utility frequency of 50 Hz. The primary goal the purpose of this study is to devise a technique for conveying electrical power through various mediums. By conducting an equivalent circuit analysis, a formula for the theoretical transmission efficiency was formulated, taking into consideration both copper and core losses. Notably, there’s a substantial alignment between the values obtained from experimentation and those calculated theoretically. It was observed that the efficiency of transmission is significantly influenced by the configuration of the magnet pole pieces. This work sheds insight on the complex interaction between magnet pole component design and overall power transmission efficiency. An investigation is being carried out Power was transferred over a distance using various media for a rectangular flared shape, with air serving as the medium. This transmission efficiency was 56% at a distance of 0 cms. As the distance rose and for misaligned conduction, the efficiency decreased.