Optimization of Flyback Converter with PSO PID Control in Portable Solar Power Systemse Just Try to Submit This Sample Abstract Diah Septi Yanaratri (a*), Irianto (a), Alya Nabilah Hikari (a), Sutedjo (a), Renny Rakhmawati (a), Ahmad Firyal Adila (a)
(a) Industrial Electrical Engineering, Departement of Electrical Engineering, Politeknik Elektronika Negeri Surabaya
*diahsepti[at]pens.ac.id
Abstract
This research presents the design and development of a portable solar power plant for supplying mobile chargers and lighting, based on a flyback converter with a PSO-PID controller. The flyback converter is chosen for its reliability in power conversion applications, while the PID controller is optimized using the Particle Swarm Optimization (PSO) algorithm to achieve high system efficiency. The PSO-PID controller is designed to reduce overshoot, settling time, and steady-state errors while maintaining a stable output voltage. Simulations using Matlab demonstrate that this approach effectively enhances system performance, reduces output voltage fluctuations, and ensures reliable power supply. Compared to the Ziegler-Nichols and trial-and-error methods, the PSO tuning method shows superior performance, maintaining a constant voltage of 14V for battery charging with an average efficiency of 92.93%. This portable solar power plant can also be easily mobilized to remote areas and used as an emergency power source. The results indicate that this integration provides an innovative and efficient solution for portable energy needs.
Keywords: Flyback Converter, PSO, PID, Portable Solar Power Plant
