Luo F,Chen J,Jin X C.A novel solid fault current limiter for DC power distribution network[C]//Proceeding of the 23rd Annual IEEE Applied Power Electronics Conference and Exposition,Austin,USA:IEEE,2008:1284-1289.
[2]
张文亮,汤涌,曾南超.多端高压直流输电技术及应用前景[J].电网技术,2010,(9):1-6.Zhang Wenliang,Tang Yong,Zeng Nanchao.Multiterminal HVDC transmission technologies and its application prospects in China[J].Power System Technology,2010,(9):1-6.
[3]
吴婧,文俊,温家良.高压直流三极输电特性分析[J].电网技术,2013,(1):71-76.Wu Jing,Wen Jun,Wen Jialiang.Characteristic analysis of tripole HVDC power transmission[J].Power System Technology,2013,(1):71-76.
[4]
曾庆禹.特高压交直流输电系统可靠性分析[J].电网技术,2013,(10):2681-2688.Zeng Qingyu.Analysis of reliability of UHVAC and UHVDC transmission systems[J].Power System Technology,2013,(10):2681-2688.
[5]
Sato Y,Tobayashi S,Tanaka Y.An investigation of SiC-SIT DC circuit breakers for higher voltage direct current distribution system[C]//Proceedings of IEEE Energy Conversion Congress and Exposition,Atlanta,USA:IEEE,2010:3290-3295.
[6]
于亚男,金阳忻,江全元.基于RT-LAB的柔性直流配电网建模与仿真分析[J].电力系统保护与控制,2015,(19):1-6.Yu Yanan,Jin Yangxin,Jiang Quanyuan.RT-LAB based modeling and simulation analysis of flexible DC distribution network[J].Power System Protection and Control,2015,(19):1-6.
[7]
方进,邓珂琳,温家良.环网式三端直流输电系统及直流断路器应用的分析与仿真[J].电网技术,2012,(6):244-249.Fang Jin,Deng Kelin,Wen Jialiang.Analysis and simulation of ring-shaped three-terminal HVDC power transmission system and application of DC circuit breakers[J].Power System Technology,2012,(6):244-249.
[8]
周逢权,黄伟.直流配电网系统关键技术探讨[J].电力系统保护与控制,2014,(22):62-67.Zhou Fengquan,Huang Wei.Study on the key technology of DC distribution power network[J].Power System Protection and Control,2014,(22):62-67.
[9]
Yehia D M,Yokomizu Y,Iioka D,et al.A novel approach to deliverable power in low-voltage DC distribution system on basis of voltage stability[J].IEEE Transactions on Electrical and Electronics Engineering,2011,6(5):395-402.
[10]
Mitsuho F,Shuichiro F,Noboru H.Feasibility study of low-voltage DC power system[J].IEEE Transactions on Applied Superconductivity,2005,15(2):1759-1762.
[11]
Yehia D M,Yokomizu Y,Iioka D.Deliverable-power dependence on distribution-line resistance and number of loads in low-voltage DC distribution system[J].IEEE Transactions on Electrical and Electronics Engineering,2012,7:23-30.
[12]
Arrillaga J,Watson N R.Computer Modelling of Electrical Power Systems[M].John Wiley and Sons,LTD:West Sussex,England,2001.
[13]
Yokomizu Y,Watanabe R,Iioka D,Matsumura T.Transient behavior of power supplied to a certain D.C.load and load-model construction[C]//IEEE Technical Meeting on Power Engineering and Power Systems Engineering,PE 07-29/PSC 07-44,2007(in Japanese).
[14]
Watanabe R,Yokomizu Y,Iioka D,Matsumura T D C.Load-model on DC power supply system in consideration of steady and transient properties[C]//TokaiSection Joint Conference on Electrical and Related Engineering,O-057,2007(in Japanese).
[15]
杜翼,江道灼,尹瑞.直流配电网拓扑结构及控制策略[J].电力自动化设备,2015,(1):139-145.Du Yi,Jiang Daozhuo,Yin Rui.Topological structure and control strategy of DC distribution network[J].Electric Power Automation Equipment,2015,(1):139-145.
[16]
IEEE Std.802.3af,IEEE Standard for Information technology,Telecommunications and Information Exchange Between Systems,Local and Metropolitan Area networks,Specific Requirements[S].
