Bipolar DC-DC Converter Based on LCCT-Trans-Z-Source Topology
Author:
Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s42835-024-01793-z.pdf
Reference35 articles.
1. Ortega M, Ortega MV, Jurado F, Carpio J, Vera D (2019) Bidirectional DC–DC converter with high gain based on impedance source. IET Power Electronics 12(8):2069–2078
2. Fang X, Ji X (2008) Bi-directional power flow Z-source dc-dc converter. In: Proceedings of IEEE Vehicle and Power Propulsion Conference (VPPC’08), pp 1–5
3. Santra SB, Chatterjee D, Liang T-J (2021) High gain and high-efficiency bidirectional DC–DC converter with current sharing characteristics using coupled inductor. IEEE Trans Power Electron 36(11):12819–12833
4. Khodabakhshian M, Adib E, Farzanehfard H (2016) Forward-type resonant bidirectional DC–DC converter. IET Power Electronics 9(8):1753–1760
5. Battula S, Garg MM, Panda AK, Korukonda MP, Behera L (2020) Analysis and dual-loop PI control of bidirectional quasi Z-source DC-DC converter. In: Proceedings of IECON 2020 the 46th annual conference of the IEEE Industrial Electronics Society, (Singapore), 18–21 October 2020
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