Control of Single-Phase Solar Photovoltaic Supply System

Abstract

This article presents the modeling, design, and control of a photovoltaic supply (PVS) for single-phase grid system. In the two stage conversion process, a step-up converter (SUC) is employed in between the photovoltaic panel and dc bus of voltage source converter (VSC). For the maximum power tracking (MPT) at PVS terminals, a fuzzy logic control (FLC) based approach is developed for the switching of an SUC. A band-pass filter (BPF) is developed using modified multilayer fifth-order generalized integrator (mMLFOGI) to estimate synchronizing signals of the grid supply for the control of VSC. The mMLFOGI based BPF ensures the proper synchronization of VSC under grid disturbances such as dc offsets, frequency variations, voltage sag, swell, and harmonics. These proposed control approaches are simulated in MATLAB 2018a and prototype of PVS for single-phase grid system is developed in the laboratory. A Texas instrument micro controller board TMS320F28379D is used for real time validations of proposed control algorithms. The performance is obtained using simulation model and validated with test results under field emulated conditions.