Department of Electrical Engineering, University of Bologna, Bologna, Italy.
Research Article
World Journal of Advanced Research and Reviews, 2024, 23(03), 3100–3109
Received on 12 August 2024; revised on 19 September 2024; accepted on 21 September 2024
This research introduces an innovative design for a grid-connected photovoltaic (PV) system utilizing a transformer-less DC-DC converter. The converter is based on the TSTS-ZSI (Three-Switch Transformer-less Z-Source Inverter) voltage boost-buck technique, which enhances voltage regulation and energy transfer, making it ideal for micro-inverter applications. The primary goal of the study is to improve energy efficiency while ensuring seamless integration with the grid. The proposed system not only boosts voltage but also ensures efficient buck operation, leading to enhanced power injection into the grid under fluctuating conditions. By utilizing advanced control techniques, the converter minimizes power losses, reduces stress on the components, and maintains stability in a wide range of grid scenarios. Simulations performed using MATLAB/Simulink demonstrate that the converter delivers stable and efficient power with minimal energy loss. The results validate its effectiveness in small-scale grid-connected systems, achieving enhanced power management under various operating conditions. The converter's ability to operate efficiently without a transformer reduces magnetic losses and electromagnetic interference, making it a cost-effective and compact solution. The research presents a valuable contribution to the field of renewable energy integration, with its applications extending to both residential and commercial grid-connected PV systems.'
Transformer-less; DC-DC Converter; Boost-Buck Technique; Voltage Regulation
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Arash Akbari Bahareh, Majid Majidi and Farshid Babaei Darvishi. A transformer-less DC-DC converter for grid-connected PV systems using TSTS-ZSI voltage boost-buck technique. World Journal of Advanced Research and Reviews, 2024, 23(3), 3100-3109. Article DOI: https://doi.org/10.30574/wjarr.2024.23.3.2896