Fuzzy Logic Control of an Automatic Changeover for the Management of a Grid-Connected Photovoltaic System

Abstract

Abstract The main objective is to design a smart switch controlled using fuzzy logic which is able to take decisions on the different sources of energy in a very brief ‘switching time’ to avoid load shedding. For that, a fuzzy controller is implemented by considering input signals from three power sources: Photovoltaic array, batteries and grid. The inputs are: irradiance being the instantaneous measurement of solar energy, voltage range for the power grid and state of charge for the battery to be able to know if the battery can supply or not. For these corresponding inputs, Takagi’s fuzzy inference system was applied, that permitted to have linear constant as outputs. As such able to control the switch with respect to the source available at a particular period of the day, either day or night. Designing the fuzzy logic controller was able to take decisions with respect to the conditions. The load feeding signal behaviour has been obtained when either of the switches are open or closed over a period of 1000s. In this system the batteries charge is either done by the PV array or the power grid according to the established rules of the system.