Simulation model of a solar cell controller

Simulation models of power supply autonomous systems are used when designing such systems and allow predicting their operation, taking into account degradation changes in power characteristics of solar and storage batteries. The use of typical elements when designing simulation models allows changing rapidly the topology of power supply systems. This allows taking into account the external factors that affect the system operation - illumination, temperature, sunlight incidence angle. Relevance of the research is conditioned by the need to develop a simulation model of a typical element of an autonomous system - solar controller. The main aim of the study: development of a simulation model of a solar battery controller for renewing typical elements base. The task of the research is to develop the simulation model of solar controller, logic of operation of which corresponds to the logic of functioning of real solar controller in different modes: storage battery charging with constant current of a given value; searching for a point of solar battery optimizing control; storage battery charging with dropping current when storage battery voltage achieve certain level; the model should control as well over the storage battery state and disconnect the load in the case of storage battery voltage drop to a lower level. The methods used in the study: simulation using the software package MatLAB 7.9. The results: The authors have developed the simulation model of the solar battery controller, reflecting adequately the logic in real controller operation, which allows applying it when designing and service of autonomous power supply systems. The model is protected by the certificate of state registration of the computer software № 2013612150.