Journal of Emerging Trends in Electrical Engineering

Integrating low voltage DC sources is made possible in large part by DC-DC converters with strong step-up DC-voltage gain. This converter has enhanced efficiency when operating at high output voltage and power, Vo/2 switch stress, and low switch loss at 500 W load. Here The non-isolated DC-DC converter under consideration will be better suited to satisfy the load requirements for solar PV as well as it also includes high efficiency, high voltage gain, and higher reliability. This paper explains both open loop and closed loop testing of a non-isolated high-gain Boost converter using MATLAB.

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Zaid M, Khan S, Siddique MD, et al, “A transformerless high gain dc–dc boost converter with reduced voltage stress,”International Transactions on Electrical Energy Systems, Vol. 31, no 05, pp 1 – 17, Mar. 2021.

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Arunkumari T, Indragandhi V, Arunkumar G, Sanjeevikumar P, Holm‐Nielsen JB, “Implementation of high‐gain nonisolated DC‐DC converter for PV‐fed applications,”International Transactions on Electrical Energy Systems, vol. 30, no.1, pp. 1 – 18, Aug. 2019.

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Pardhi P.K and Sharma S.K, “High Gain Non Isolated DC Converter Employed in Single-Phase Grid-Tied Solar Photovoltaic Supply System,” IEEE Transactions on Industry Applications,Volume 57, Issue 05, pp. 5170– 5182, Sept. – Oct. 2021.