Design and Development of Standalone Solar Photovoltaic Battery System with Adaptive Sliding Mode Controller

In this paper, a solar photovoltaic-battery located standalone system has been proposed. The configuration of bidirectional buck-boost converter has been proposed for charging (buck) and discharging (boost) the battery storage system. Due to irregular nature of solar radiation and variations in electrical load demand, DC micro grids mostly depend on control methods to overcome with DC link voltage variations and power stability. Adaptive sliding mode controller with washout filter is developed due to its advantages of good strength to an unexpected change of energy resources and loads. This system includes a solar photovoltaic array basis on maximum power tracking from photovoltaic (PV), boost converter to maximize power from the PV array. A bidirectional DC-DC buck-boost converter is developed to charge battery in buck mode and discharge battery in boost mode. Incremental conductance implemented to obtain maximum power from the PV array. The SMC controller performance is verified with different irradiance level (500 and 1000W/m(2)) and compared with PI controller performance for the same developed system. For the study resistive load is taken and it is observed that SMC offer reduced overshoot and faster settling time over PI controller under a variety of loading conditions. The simulation model is developed in the MATLAB/ Simulink using Sim Power System (SPS) toolbox.