Review of nonisolated high-step-up DC/DC converters in photovoltaic grid-connected applications W Li, X He IEEE Transactions on Industrial Electronics 58 (4), 1239-1250, 2011 | 1842 | 2011 |
Design and analysis of a grid-connected photovoltaic power system B Yang, W Li, Y Zhao, X He IEEE Transactions on Power Electronics 25 (4), 992-1000, 2010 | 727 | 2010 |
Topology review and derivation methodology of single-phase transformerless photovoltaic inverters for leakage current suppression W Li, Y Gu, H Luo, W Cui, X He, C Xia IEEE Transactions on Industrial Electronics 62 (7), 4537-4551, 2015 | 698 | 2015 |
Improved transformerless inverter with common-mode leakage current elimination for a photovoltaic grid-connected power system B Yang, W Li, Y Gu, W Cui, X He IEEE transactions on power electronics 27 (2), 752-762, 2012 | 649 | 2012 |
Mode-adaptive decentralized control for renewable DC microgrid with enhanced reliability and flexibility Y Gu, X Xiang, W Li, X He IEEE Transactions on Power Electronics 29 (9), 5072-5080, 2014 | 496 | 2014 |
Transformerless inverter with virtual DC bus concept for cost-effective grid-connected PV power systems Y Gu, W Li, Y Zhao, B Yang, C Li, X He IEEE Transactions on Power Electronics 28 (2), 793-805, 2013 | 360 | 2013 |
Interleaved converter with voltage multiplier cell for high step-up and high-efficiency conversion W Li, Y Zhao, Y Deng, X He IEEE Transactions on Power Electronics 25 (9), 2397-2408, 2010 | 326 | 2010 |
Interleaved high step-up converter with winding-cross-coupled inductors and voltage multiplier cells W Li, Y Zhao, J Wu, X He IEEE Transactions on Power Electronics 27 (1), 133-143, 2012 | 287 | 2012 |
Frequency-coordinating virtual impedance for autonomous power management of DC microgrid Y Gu, W Li, X He IEEE Transactions on Power Electronics 30 (4), 2328-2337, 2015 | 279 | 2015 |
An Extremely High Efficient Three-Level Active Neutral-Point-Clamped Converter Comprising SiC and Si Hybrid Power Stages QX Guan, C Li, Y Zhang, S Wang, DD Xu, W Li, H Ma IEEE Transactions on Power Electronics 33 (10), 8341-8352, 2018 | 262 | 2018 |
Junction Temperature Extraction Approach With Turn-Off Delay Time for High-Voltage High-Power IGBT Modules H Luo, Y Chen, P Sun, W Li, X He IEEE Transactions on Power Electronics 31 (7), 5122-5132, 2016 | 240 | 2016 |
A review of non-isolated high step-up DC/DC converters in renewable energy applications W Li, X Lv, Y Deng, J Liu, X He Applied Power Electronics Conference and Exposition, 2009. APEC 2009. Twenty …, 2009 | 230 | 2009 |
Single-phase improved active clamp coupled-inductor-based converter with extended voltage doubler cell Y Zhao, W Li, X He IEEE Transactions on Power Electronics 27 (6), 2869-2878, 2012 | 226 | 2012 |
High-step-up and high-efficiency fuel-cell power-generation system with active-clamp flyback–forward converter W Li, L Fan, Y Zhao, X He, D Xu, B Wu IEEE Transactions on Industrial Electronics 59 (1), 599-610, 2012 | 224 | 2012 |
A Family of Interleaved DC–DC Converters DeducedFrom a Basic Cell With Winding-Cross-CoupledInductors (WCCIs) for High Step-Upor Step-Down Conversions W Li, X He IEEE Transactions on Power Electronics 23 (4), 1791-1801, 2008 | 219 | 2008 |
Interleaved high step-up ZVT converter with built-in transformer voltage doubler cell for distributed PV generation system W Li, X Xiang, C Li, W Li, X He IEEE Transactions on Power Electronics 28 (1), 300-313, 2013 | 204 | 2013 |
High step-up interleaved converter with built-in transformer voltage multiplier cells for sustainable energy applications W Li, W Li, X Xiang, Y Hu, X He IEEE Transactions on Power Electronics 29 (6), 2829-2836, 2014 | 200 | 2014 |
Single-switch high step-up converters with built-in transformer voltage multiplier cell Y Deng, Q Rong, W Li, Y Zhao, J Shi, X He IEEE Transactions on Power Electronics 27 (8), 3557-3567, 2012 | 196 | 2012 |
PWM plus phase angle shift (PPAS) control scheme for combined multiport DC/DC converters W Li, J Xiao, Y Zhao, X He IEEE Transactions on Power Electronics 27 (3), 1479-1489, 2012 | 193 | 2012 |
ZVT interleaved boost converters for high-efficiency, high step-up DC-DC conversion W Li, X He IET Electric Power Applications 1 (2), 284-290, 2007 | 190 | 2007 |