Mandal, S.Prabhakaran, P.2026-02-0620232023 IEEE 2nd Industrial Electronics Society Annual On-Line Conference, ONCON 2023, 2023, Vol., , p. -https://doi.org/10.1109/ONCON60463.2023.10430488https://idr.nitk.ac.in/handle/123456789/29290Energy storage devices are indispensable for ensuring voltage and frequency stability in renewable energy sources such as solar and wind. Distributed generation systems necessitate bidirectional DC-DC converters to facilitate charge and discharge operations in accordance with operational requirements. In this paper, we introduce a new bidirectional DC-DC converter tailored to achieve substantial voltage gain while minimizing switch stress and maintaining a minimal component count. The proposed converter operates in buck mode for one power flow direction and boost mode for the other, ensuring continuous input and output current and reduced charging/discharging ripple. Comprehensive details regarding the derivation, operational principles, and meticulous steady-state analysis of the proposed converter are presented in this paper. Furthermore, a dynamic model of the converter is provided, and the design of closed-loop controllers for current control modes is outlined. We present extensive analysis and simulation results to illustrate the efficacy and performance of this novel topology. In summary, this converter offers a promising solution for achieving high-efficiency energy transfer with significant voltage gain, making it suitable for a wide array of applications. © 2023 IEEE.Bidirectional DC-DC convertersnon-isolated high gain DC-DC converterrenewable energy systemsmall signal modellingA Novel Bidirectional High Gain DC-DC Converter with Active Switched Inductor and Wide Voltage Conversion Ratio