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IEEE Transaction期刊论文(更新于2020年10月1日)
[1]X.Xiang,Y.Gu,Y.Qiao,X.Zhang,Wuhua Li,Xiangning He and T.C.Green,“Resonant Modular Multilevel DC-DC Converters for both High and Low Step-Ratio Connections in MVDC Distribution Systems,”IEEE Trans.Power Electron.(Online publication).
[2]X.Xiang,Y.Gu,X.Zhang,G.P.Chaffey and T.C.Green,“Analysis and Investigation of Internal AC Frequency to Minimize AC Current Magnitude and Reactive Power Circulation in Chain-Link Modular Multilevel Direct DC-DC Converters,”IEEE Trans.Circuit and System.vol.67,no.12,pp.5586-5599,Dec.2020.
[3]X.Xiang,Y.Gu,K.Chen,A.Astolfi and T.C.Green,“On the Dynamics of Inherent Balancing of Modular Multilevel DC–AC–DC Converters,”in IEEE Trans.Power Electron.,vol.36,no.1,pp.34-40,Jan.2021.
[4]X.Xiang,Y.Qiao,Y.Gu,X.Zhang and T.C.Green,“Analysis and Criterion for Inherent Balance Capability in Modular Multilevel DC-AC-DC Converters,”IEEE Trans.Power Electron.,vol.35,no.6,pp.5573-5580,Jun.2020.
[5]X.Xiang,X.Zhang,G.P.Chaffey and T.C.Green,“A Modular Multilevel DC-DC Converter with a Compact Sub-Module Stack Suited to Low Step-Ratios,”IEEE Trans.Power Del.,vol.34,no.1,pp.312-323,Feb.2019.
[6]X.Xiang,X.Zhang,T.Luth,M.M.C.Merlin and T.Green,“A Compact Modular Multilevel DC-DC Converter for High Step-ratio MV and HV Use,”IEEE Trans.Ind.Electron.,vol.65,no.9,pp.7060-7071,Sep.2018.
[7]X.Xiang,X.Zhang,G.P.Chaffey and T.C.Green,“An Isolated Resonant Mode Modular Converter with Flexible Modulation and Variety of Configurations for MVDC Application,”IEEE Trans.Power Del.,vol.33,no.1,pp.508-519,Feb.2018.
[8]X.Zhang,X.Xiang,T.C.Green and X.Yang,“A Push-Pull Modular Multilevel Converter Based Low Step-Up Ratio DC Transformer,”IEEE Trans.Ind.Electron.,vol.66,no.3,pp.2247-2256,Feb.2019.
[9]X.Zhang,X.Xiang,T.C.Green and X.Yang,“Operation and Performance of Resonant Modular Multilevel Converter with Flexible Step Ratio,”IEEE Trans.Ind.Electron.,vol.64,no.8,pp.6276-6286,Aug.2017.
[10]Y.Gu,X.Xiang,W.Li and X.He,“Mode-Adaptive Decentralized Control for Renewable DC Microgrid with Enhanced Reliability and Flexibility,”IEEE Trans.Power Electron.,vol.29,no.9,pp.5072-5080,Sep.2014.(ESI highly-cited paper).
[11]Y.Zhao,X.Xiang,C.Li,Y.Gu,W.Li and X.He,“Single-Phase High Step-up Converter With Improved Multiplier Cell Suitable for Half-Bridge-Based PV Inverter System,”IEEE Trans.Power Electron.,vol.29,no.6,pp.2807-2816,Jun.2014.
[12]Y.Zhao,X.Xiang,W.Li,X.He and C.Xia,“Advanced Symmetrical Voltage Quadrupler Rectifiers for High Step-Up and High Output-Voltage Converters,”IEEE Trans.Power Electron.,vol.28,no.4,pp.1622-1631,Apr.2013.
[13]W.Li,X.Xiang,C.Li,W.Li and X.He,“Interleaved High Step-Up ZVT Converter With Built-In Transformer Voltage Doubler Cell for Distributed PV Generation System,”IEEE Trans.Power Electron.,vol.28,no.1,pp.300-313,Jan.2013.
[14]Y.Qiao,X.Zhang,X.Xiang,X.Yang and T.C.Green,“Trapezoidal Current Modulation for Bidirectional High Step-ratio Modular DC-DC Converters,”IEEE Trans.Power Electron.,vol.35,no.4,pp.3402–3415,Apr.2020.
[15]X.Zhang,M.Tian,X.Xiang,J.Pereda,T.C.Green and X.Yang,“Large Step Ratio Input-Series-Output-Parallel Chain-Link DC-DC Converter,”IEEE Trans.Power Electron.,vol.34,no.5,pp.4125-4136,May 2019.
[16]Y.Gu,Y.Wang,X.Xiang,W.Li and X.He,“Improved Virtual Vector Control of Single-Phase Inverter Based on Unified Model,”IEEE Trans.Energy Convers.,vol.29,pp.611-618,Sep.2014.
[17]W.Li,W.Li,X.Xiang,Y.Hu and X.He,“High Step-Up Interleaved Converter With Built-In Transformer Voltage Multiplier Cells for Sustainable Energy Applications,”IEEE Trans.Power Electron.,vol.29,no.6,pp.2829-2836,Jun.2014.
[18]Y.Li,Y.Gu,Y.Zhu,A.Junyent-Ferre,X.Xiang and T.C.Green,“Impedance Circuit Model of Grid-Forming Inverter:Visualizing Control Algorithms as Circuit Elements,”IEEE Trans.Power Electron.(Online published).
[19]Y.Gu,Y.Li,H.Yoo,T.Nguyen,X.Xiang,H.Kim,A.Junyent-Ferre,T.C.Green,“Transfverter:Imbuing Transformer-like Properties in an Interlink Converter for Robust Control of a Hybrid AC-DC Microgrid,”IEEE Trans.Power Electron.,vol.34,no.11,pp.11332-11341,Nov.2019.
国际会议论文(更新于2020年10月1日)
[1]X.Xiang,X.Zhang,Y.Zhu,G.P.Chaffey,Y.Gu and T.C.Green,“The Resonant Modular Multilevel DC Converters for High Step-ratio and Low Step-ratio Interconnection in MVDC Distribution Network,”in Proc.IEEE IECON,2019.
[2]X.Xiang,X.Zhang,G.P.Chaffey,Y.Gu and T.C.Green,“Analysis on Circulating Current Frequency of Chain-link Modular Multilevel DC-DC Converters for Low Step-Ratio High-Power MVDC Applications,”in Proc.IEEE ECCE,2018.
[3]X.Xiang,X.Zhang,G.P.Chaffey,Y.Gu and T.C.Green,“The isolated resonant modular multilevel converters with large step-ratio for MVDC applications,”in Proc.IEEE COMPEL,2017.
[4]X.Xiang,M.M.C.Merlin and T.C.Green,“Cost analysis and comparison of HVAC,LFAC and HVDC for offshore wind power connection,”in Proc.IET ACDC,2016.
[5]X.Xiang,M.M.C.Merlin and T.C.Green,“A New Modulation Method for Resonant Modular Multilevel DC/DC Converter with Flexible Ratio Operation and Inherent Balance Capability in HVDC Application,”in Proc.CIGRE HVDC Shanghai,2016.
[6]X.Xiang,G.Liu,Y.Zhao,W.Li and X.He,“Performance Analysis of Single Phase High Step-up Converter with Coupled Inductor Multiplier,”in Proc.IEEE ECCE Asia,2012.
[7]H.Yu,X.Xiang,C.Zhao,W.Li and X.He,“Performance Analysis of a ZVS Bidirectional DC-DC Converter with Reduced Voltage Stress on High Voltage Side,”in Proc.IEEE APEC,2013.
[8]H.Yu,X.Xiang,W.Wu,X.He and F.Wang,“Performance comparison of Phase-shift(PS)and PWM plus Phase-shift(PPS)control schemes for bidirectional DC-DC converters,”in Proc.IEEE ISIE,2012.
[9]Y.He,X.Xiang,W.Li,X.He and F.Wang,“Performance analysis of series asymmetrical half-bridge converter with voltage-auto-balance,”in Proc.IEEE ECCE Asia,2012.
[10]Y.Sang,A.Junyent-Ferre,X.Xiang and T.C.Green,“Analysis and Control of a Parallel DC Collection System for Wind Turbines with Single Active Bridge Converters,”in Proc.IEEE ECCE,2018
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