Abstract
This paper introduces a new leg-integrated switched capacitor inverter (LISCI) structure for efficient three-phase induction motor operations powered by solar panels. Traditional inverter configurations often face challenges related to efficiency, size, and cost. The presented LISCI structure addresses these issues by integrating switched capacitor networks directly within the inverter legs, offering significant improvements in performance and compactness. Key features of the LISCI structure include reduced component count, enhanced voltage gain, and improved harmonic performance. The inverter’s innovative design enables it to achieve higher efficiency by minimizing switching losses and optimizing power distribution. Additionally, the integrated capacitors contribute to a more stable voltage output, critical for the reliable operation of three-phase induction motors.