Design of PV fed single-switch transformer less topology powered electric vehicle

[1] Wuhua Li and Xiangning He. Review of nonisolated high-step-up dc/dc converters in photovoltaic grid-connected applications. IEEE Transactions on Industrial Electronics, 58(4):1239–1250, April 2011.
[2] T. Sreekanth, N. Lakshminarasamma, and Mahesh K. Mishra. A single-stage grid-connected high gain buck–boost inverter with maximum power point tracking. IEEE Transactions on Energy Conversion, 32(1):330–339, March 2017.
[3] Sandeep Anand, Saikrishna Kashyap Gundlapalli, and B. G. Fernandes. Transformer-less grid feeding current source inverter for solar photovoltaic system. IEEE Transactions on Industrial Electronics, 61(10):5334–5344, October 2014.
[4] Rohit Suryadevara and Leila Parsa. Full-bridge zcs-converter-based high-gain modular dc-dc converter for pv integration with medium-voltage dc grids. IEEE Transactions on Energy Conversion, 34(1):302–312, March 2019.
[5] Roger Gules, Walter Meneghette Dos Santos, Flavio Aparecido Dos Reis, Eduardo Felix Ribeiro Romaneli, and Alceu Andre Badin. A modified sepic converter with high static gain for renewable applications. IEEE Transactions on Power Electronics, 29(11):5860–5871, November 2014.
[6] Neyyala Raju, N. Murali Mohan, and Vijay Kumar. A switched-inductor switched-capacitor based ultra-gain boost converter: analysis and design. TESEA, Transactions on Energy Systems and Engineering Applications, 5(1):1–20, February 2024.
[7] Gang Wu, Xinbo Ruan, and Zhihong Ye. Nonisolated high step-up dc–dc converters adopting switched-capacitor cell. IEEE Transactions on Industrial Electronics, 62(1):383–393, January 2015.
[8] L Sri Sivani, L Nagi Reddy, BK SubbaRao, and A Pandian. A new single switch ac/dc converter with extended voltage conversion ratio for smps applications. Int. Journal of Innovative Technology and Exploring Engineering, 8(3):68–72, 2019.
[9] Farzad Mohammadzadeh Shahir, Ebrahim Babaei, and Murtaza Farsadi. Voltage-lift technique based nonisolated boost dc–dc converter: Analysis and design. IEEE Transactions on Power Electronics, 33(7):5917–5926, July 2018.
[10] Qian Li, Yigeng Huangfu, Liangcai Xu, Jiang Wei, Rui Ma, Dongdong Zhao, and Fei Gao. An improved floating interleaved boost converter with the zero-ripple input current for fuel cell applications. IEEE Transactions on Energy Conversion, 34(4):2168–2179, December 2019.
[11] M. Lakshmi and S. Hemamalini. Nonisolated high gain dc–dc converter for dc microgrids. IEEE Transactions on Industrial Electronics, 65(2):1205–1212, February 2018.
[12] B. Nagi Reddy, K. Badrinath Shetty, Radhika Jalli, K. Akhila, K. Sai Prudhviraj, and Vadthya Jagan. Reduced redundant power processing in dc-dc converters: A comprehensive review. February 2024.
[13] J.C. Rosas-Caro, J.M. Ramirez, F.Z. Peng, and A. Valderrabano. A dc–dc multilevel boost converter. IET Power Electronics, 3(1):129, January 2010.
[14] Mohammad Reza Banaei, Hossein Ardi, and Amir Farakhor. Analysis and implementation of a new single-switch buck–boost dc/dc converter. IET Power Electronics, 7(7):1906–1914, July 2014.
[15] Ping Wang, Lei Zhou, Yun Zhang, Jing Li, and Mark Sumner. Input-parallel output-series dc-dc boost converter with a wide input voltage range, for fuel cell vehicles. IEEE Transactions on Vehicular Technology, 66(9):7771–7781, September 2017.
[16] Lukas Muller and Jonathan W. Kimball. High gain dc–dc converter based on the cockcroft–walton multiplier. IEEE Transactions on Power Electronics, 31(9):6405–6415, September 2016.
[17] Nagi Reddy B, Sahithi Priya Kosika, Manish Patel Gadam, Jagadhishwar Banoth, Ashok Banoth, and Srikanth Koundinya. Analysis of positive output buck-boost topology with extended conversion ratio. Journal of Energy Systems, 6(1):62–83, March 2022.
[18] Kerui Li, Yafei Hu, and Adrian Ioinovici. Generation of the large dc gain step-up nonisolated converters in conjunction with renewable energy sources starting from a proposed geometric structure. IEEE Transactions on Power Electronics, 32(7):5323–5340, July 2017.
[19] Faqiang Wang. A novel quadratic boost converter with low current and voltage stress on power switch for fuel-cell system applications. Renewable Energy, 115:836–845, January 2018.
[20] Neng Zhang, Guidong Zhang, KhayWai See, and Bo Zhang. A single-switch quadratic buck–boost converter with continuous input port current and continuous output port current. IEEE Transactions on Power Electronics, 33(5):4157–4166, May 2018.
[21] Yun Zhang, Heyu Liu, Jing Li, Mark Sumner, and Changliang Xia. Dc–dc boost converter with a wide input range and high voltage gain for fuel cell vehicles. IEEE Transactions on Power Electronics, 34(5):4100–4111, May 2019.
[22] Yuanwei Gu, Yanfeng Chen, Bo Zhang, Dongyuan Qiu, and Fan Xie. High step-up dc-dc converter with active switched lc-network for photovoltaic systems. IEEE Transactions on Energy Conversion, 34(1):321–329, 2018.
[23] Marcos Antonio Salvador, Telles Brunelli Lazzarin, and Roberto Francisco Coelho. High step-up dc–dc converter with active switched-inductor and passive switched-capacitor networks. IEEE Transactions on Industrial Electronics, 65(7):5644–5654, July 2018.
[24] Ebrahim Babaei, Hamed Mashinchi Maheri, Mehran Sabahi, and Seyed Hossein Hosseini. Extendable nonisolated high gain dc–dc converter based on active–passive inductor cells. IEEE Transactions on Industrial Electronics, 65(12):9478–9487, December 2018.
[25] B. Nagi Reddy, G. Vinay Kumar, B. Vinay Kumar, B. Jhansi, B. Sandeep, and K. Sarada. Fuel cell based ultra-voltage gain boost converter for electric vehicle applications. TESEA, Transactions on Energy Systems and Engineering Applications, 4(1):68–90, June 2023.
[26] Mohammad Maalandish, Seyed Hossein Hosseini, Tohid Jalilzadeh, and Naser Vosoughi. High step-up dc–dc converter using one switch and lower losses for photovoltaic applications. IET Power Electronics, 11(13):2081–2092, September 2018.
[27] Farzad Mohammadzadeh Shahir, Ebrahim Babaei, and Murtaza Farsadi. Extended topology for a boost dc–dc converter. IEEE Transactions on Power Electronics, 34(3):2375–2384, March 2019.