Cover
Vol. 22 No. 1 (2026)

Published: June 15, 2026

Pages: 289-298

Original Article

Simulation and Analysis of High Performance of On-Grid Solar Panel System Based on Intelligent Controller

Ahmed K. Abbas 1 Yousif Al Mashhadany 2 Sameer Algburi 3
1 Department of Construction and Projects, University Headquarter, University of Anbar, Ramadi, Iraq
2 Department of Electrical Engineering, College of Engineering, University of Anbar, Iraq
3 Al-Kitab University, College of Engineering Technology, Iraq
History
  • Received: September 8, 2023
  • Revised: March 29, 2024
  • Accepted: July 5, 2024
  • Available Online: June 15, 2026
DOI

https://doi.org/10.37917/ijeee.22.1.27

Abstract

Engineers are searching for alternatives to conventional energy sources to address the energy crisis as a result of the sharp increase in energy usage. This work describes developing, simulating, and evaluating a three-phase, 13.25 kW solar power system. PV analysis is also performed. An inverter featuring a dual Electricity flow is connected to a solar system consisting of six consecutive strings of four solar power cells connected in series. The output of the phase lock loop (PLL) feedback in the linearization system is used to generate a signal, and the power conversion voltage is synchronized with the signal by using its output as a voltage reference. This hybrid technology, which has two phases that are optimal for the rechargeable recharging process of the batteries, is used to replenish a battery bank in capacity or float arrangement for eight sequences of 12V - 200-Ah rechargeable batteries. Ultimately, a MATLAB computational model has been created for a grid-connected photovoltaic system that uses sinusoidal modulation of pulse width and an inverter as voltage sources.

Keywords

References

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