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Abstract The DC-DC Converters are one of the important elements of solar energy systems, as their efficiency and performance directly affect the efficiency and performance of the system as a whole. In this regard, the thesis studies the DC-DC ZETA Converter to improve its efficiency and performance, reflecting the efficiency and performance of the whole system. The PV was designed in MATLAB, keeping in mind the photon current and reverse saturation current design equations. The design of the electronic transducer is very important. To ensure reliability, safety, and maximum efficiency for the PV system, the selection, and design of power electronic converters must be correct and optimal. A power converter is connected between the PV panel and the load. The reference voltage is fixed based on the available open-circuit voltage at the output of the converter. This paper presents the results of the Zeta converter application in Photovoltaic (PV) systems. The Zeta converter is designed based on a specified voltage and current ripples. To track the maximum power available to the PV array, the incremental conductance algorithm is applied |