Design and Development of Compensation Topologies in WPT Using MATLAB Programming and MATLAB Simulink

Abstract

Wireless power transmission devices are growing in acceptance and usefulness. This chapter will discuss, examine, and contrast various compensation topologies for the transfer of inductive power. The classification of topology is changed. The difficulties of the five primary topological needs, standards, safety, and the physical underpinnings of compensatory labour are given considerable emphasis. The IPT is found to favour topologies with a series of main compensations over the four conventional systems for charging devices. If the output voltage is low, the series-parallel method is preferable since it allows for the smallest possible size of the secondary side coil. The resonance load and the magnetic coupling coefficient frequency do not affect the series-series solution. The comparative results are given in tables, graphs, and dependencies for ease of display and understanding utilising Matlab programming and Matlab Simulink. Each application has its own set of core topologies. A “one-stop” information source and selection guide for compensatory topologies in terms of devices and power level are two potential uses for the results of this research, which is the primary benefit of the study. The literature review and recent market trends for wireless power transmission devices point to the most promising future paths for topologies.