Chakir, Fatima (IESI Lab, Hassan II University Of Casablanca, ENSET Mohammedia), El Magri, Abdelmounime (IESI Laboratory, Department of Electrical Engineering, ENSET Moh), Lajouad, Rachid (Hassan II university of Casablanca (Morocco), ENSET Mohammedia (), MOHAMMED, KISSAOUI (HASSAN II University of Casablanca, Morocco), CHakir, Mostafa (CED-ST, LESSI, Faculty of Sciences Dhar el Mehraz, Sidi Mohamed ), Bouattane, Omar (Hassan II University of Casablanca)

Enhanced Standalone Photovoltaic System with Novel Multi-Level Inverter and Nonlinear Control for Improved THD and Converter Efficiency

Scheduled for presentation during the Invited Session "Advanced Control Techniques for Energy Conversion Systems-2" (ThuS3T1), Thursday, July 11, 2024, 17:30−17:50, Salle des conférences

12th IFAC Symposium on Control of Power & Energy Systems, July 10-12, 2024, Rabat, Morocco

This information is tentative and subject to change. Compiled on January 2, 2025

Abstract

This article presents a control approach for a photovoltaic system connected to an AC load, aiming to optimize the use of energy generated by solar panels to directly power the load, independent of the electricity grid. The studied system is an autonomous photovoltaic energy conversion system without storage. A new topology of multilevel inverter is utilized to take advantage of its simplicity of control and high efficiency. Additionally, to convert DC to AC with reduced harmonic distortion, the inverter employs a 7-level pulse width modulation (LS-PWM) technique, minimizing harmonic distortion and demonstrating reliability. A sliding mode control strategy is applied to the boost converter to achieve stable voltage and frequency, improve the total harmonic distortion (THD), and minimize losses in the power converter. By efficiently managing power flow and maintaining voltage stability, the control system ensures optimal performance of the photovoltaic system connected to the variable load. The proposed approach and the performance of the controlled system are validated through Matlab Simulink simulations.