Wireless Power Transfer (WPT) has emerged as a game-changing technique for transferring energy without the use of physical connectors. However, heat dissipation continues to be a significant barrier in terms of efficiency. This study investigates inductive circuit compensation techniques to optimise WPT efficiency, focusing on minimising heat losses and enhancing power transfer stability. A comparative analysis of compensation circuits with varying capacitance values of 47 μF for a few numbers of capacitors is conducted using MATLAB/Simulink simulation. The results show that effective compensation increases efficiency significantly at 98.2, lowering losses while maintaining a stable output DC voltage of 12 V at 2.1 A. This effort adds to the advancement of low-power WPT applications by improving compensation strategies for practical feasibility. © 2025 IEEE.