Flourentzou N, Agelidis V G, Demetriades G D.VSC-based HVDC power transmission systems:an overview[J].IEEE Transactions on Power Electronics, 2009, 24(3):592-602.
[2]
Ramadan H S, Siguerdidjane H, Petit M, et al.Performance enhancement and robustness assessment of VSC-HVDC transmission systems controllers under uncertainties[J].International Journal of Electrical Power & Energy Systems, 2012, 35(1):34-46.
[3]
Latorre H F, Ghandhari M.Improvement of power system stability by using a VSC-HVDC[J].International Journal Electrical Power & Energy Systems 2011, 33(2):332-339.
[4]
Koldby E, Hyttinen M.Challenges on the road to an offshore HVDC grid[C]//Proceedings of the 5 th Nordic Wind Power Conference, NWPC’09.Bornholm, Denmark:IEEE, 2009:5-10.
[5]
Meaha K, Sadrul U A H M.A new simplified adaptive control scheme for multi-terminal HVDC transmission systems[J].International Journal of Electrical Power & Energy Systems, 2010, 32(4):243-253.
[6]
Lu W, Ooi B.DC overvoltage control during loss of converter in multiterminal voltage-source converter-based HVDC(M-VSC-HVDC)[J].IEEE Transactions on Power Delivery, 2003, 18(3):915-920.
[7]
Yang J, Fletcher J E, O’Reilly J.Multiterminal DC wind farm collection grid internal fault analysis and protection design[J].IEEE Transaction on Power Delivery, 2010, 25(4):2308-2318.
[8]
De Kerf K, Srivastava K, Reza M, et al.Wavelet-based protection strategy for DC faults in multi-terminal VSC HVDC systems[J].IET Generation Transmission Distribution, 2011, 5(4):496-503.
[9]
Gomis-Bellmunt O, Liang J, Ekanayake J, et al.Topologies of multiterminal HVDC-VSC transmission for large offshore wind farms[J].Electric Power Systems Research, 2011(81):271-281.
[10]
陈海荣, 徐政.适用于VSC-MTDC系统的直流电压控制策略[J].电力系统自动化, 2006, 30(19):28-33.Chen Hairong, Xu Zheng.The DC voltage control strategy of VSC-MTDC system[J].Automation of Electric Power Systems, 2006, 30(19):28-33.
[11]
陈海荣, 徐政, 张静.一种基于电压源型多端直流输电的供电系统[J].高电压技术, 2006, 32(9):1-5.Chen Hairong, Xu Zheng, Zhang Jing.A type of power supply system based on voltage source of multiterminal HVDC[J].High Voltage Technology, 2006, 32(9):1-5(in Chinese).
[12]
Hairong C, Chao W, Fan Z, et al.Control strategy research of VSC based multiterminal HVDC System[C]//Proceedings of the Power Systems Conference and Exposition.Atlanta, GA:IEEE, 2006:1986-1990.
[13]
Lu W, Ooi B T.Optimal Acquisition and aggregation of offshore wind power by multiterminal voltage-source HVDC[J].IEEE Power Engineering Review, 2002, 22(8):71-72.
[14]
Weixing L, Boon-Teck O.Premium quality power park based on multi-terminal HVDC[J].IEEE Transactions on Power Delivery, 2005, 20(2):978-983.
[15]
Weixing L, Boon Teck O.Multiterminal LVDC system for optimal acquisition of power in wind-farm using induction generators[J].IEEE Transactions on Power Electronics, 2002, 17(4):558-563.
[16]
Lianwei J, Joos G, Abbey C, et al.Multi-terminal DC(MTDC) system for wind farms powered by doubly-fed induction generators (DFIGs)[C]//IEEE 35 th Annual Proceedings of the Power Electronics Specialists Conference.Aachen, Germany:IEEE, 2004:1413-1418.
[17]
Lie X, Liangzhong Y, Bazargan M.DC grid management of a multi-terminal HVDC transmission system for large offshore wind farms[C]//2009 SUPERGEN '09 International Conference on Proceedings of the Sustainable Power Generation and Supply.Nanjing:IEEE, 2009:1-7.
[18]
Trilla L, Gomis-Bellmunt O, Sudria-Andreu A, et al.Control of SCIG wind farm using a single VSC[C]//14 th European Conference on Power Electronics and Applications.Birmingham, UK:EPE2011, 2011:1-9.
[19]
Liang Jun, Oriol G B, Janaka E, et al.A multi-terminal HVDC transmission system for offshore wind farms with induction generators[J].International Journal of Electrical Power & Energy Systems.2012, 43(1):54-62.
