Abstract
This study's aim is to provide an introduction toa specific methodology for optimizing the design of a boost converter. The main goal of this optimization is to determine the best inductor and capacitor parameter values in order to reduce output voltage ripple, maximize efficiency, and minimize output voltage deviation. In addition, a PID control approach is employed to regulate the boost converter's output voltage using the Direct Synthesis tuning method. The simulation's outcomes indicate that the proposed approach significantly enhances the performance of the boost converter and attains maximum efficiency. This methodology and control strategy can be applied to various boost converter applications to achieve stable and optimal performance.
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