Zhang Q,Callanan R,Das M K,et al.SiC power devices for microgrids[J].IEEE Transactions on Power Electronics,2010,25(12):2889-2896.
[2]
钱照明,张军明,盛况.电力电子器件及其应用的现状和发展[J].中国电机工程学报,2014,34(29):5149-5161.Qian Zhaoming,Zhang Junming,Sheng Kuang.Status and development of power semiconductor devices and its applications[J].Proceedings of the CSEE,2014,34(29):5149-5161(in Chinese).
[3]
Tamaki T,Walden G G,Yang Sui,et al.Optimization of on-State and Switching Performances for 15-20 kV 4H-SiC IGBTs[J].IEEE Transactions on Electron Devices,2008,55(8):1920-1927.
[4]
Peftitsis D,Tolstoy G,Antonopoulos A,et al.High-power modular multilevel converters with SiC JFETs[J].IEEE Transactions on Power Electronics,2012,27(1):28-36.
[5]
Palmour J W,Zhang J Q,Das M K,et al.SiC power devices for Smart Grid systems[C]//Proceedings of IPEC.Sapporo,Japan,2010.
[6]
Wang G,Huang X,Wang J,et al.Comparisons of 6.5kV 25A Si IGBT and 10 kV SiC MOSFET in Solid-State Transformer application[C]//Proceedings of.ECCE 2010.Atlanta,GA,USA,2010.
[7]
Krismer F,Kolar J W.Closed Form Solution for Minimum Conduction Loss Modulation of DAB Converters[J].IEEE Transactions on Power Electronics,2012,27(1):174-188.
[8]
Shen Z,Burgos R,Boroyevich D,et al.Soft-switching capability analysis of a dual active bridge dc-dc converter [C]//Prodeedings of IEEE ESTS 2009.Baltimore,MD,USA,2009.
[9]
Oggier G G,Garcia G O,Oliva A R.Switching control strategy to minimize dual active bridge converter losses[J].IEEE Transactions on Power Electronics,2009,24(7):1826-1838.
[10]
Jung J H,Kim H S,Ryu M H,et al.Design methodology of bidirectional CLLC resonant converter for high- frequency isolation of DC distribution systems[J].IEEE Transactions on Power Electronics,2013,28(4):1742-1755.
[11]
Jiang Tianyang,Zhang Junming,Wu Xinke,et al.A bidirectional LLC resonant converter with automatic forward and backward mode transition[J].IEEE Transactions on Power Electronics,2015,30(2):757-770.
[12]
Li Xiaodong,Bhat A K S.Analysis and design of high-frequency isolated dual-bridge series resonant DC/DC converter[J].IEEE Transactions on Power Electronics,2010,25(4):850-862.
[13]
Huber Jonas,Ortiz Gabriel,Krismer Florian,et al.η-ρ Pareto optimization of bidirectional half-cycle discontinuous-conduction-mode series-resonant DC/DC converter with fixed voltage transfer ratio[C]//Proceedings of IEEE APEC.Long Beach,CA,2013.
[14]
Ortiz G,Leibl M,Kolar J W,et al.Medium frequency transformers for solid-state-transformer applications — Design and experimental verification[C]//Power Electronics and Drive Systems (PEDS).Kitakyushu,Japan,2013.
[15]
Prabhakaran S,Stephens C,Johnson F,et al.High frequency power transformers for future military propulsion & energy systems[C]//Proceedings of Electronic Machines Technology Symposium.Philadelphia,PA,USA,2008.
[16]
Steiner M,Reinold H.Medium frequency topology in railway applications[C]//Power Electronics and Applications (EPE).Aalborg,Denmark,2007.
[17]
Zhao C,Dujic D,Mester A,et al.Power electronic traction transformer:medium voltage prototype[J].IEEE Transactions on Industrial Electronics,2014,61(7):3257-3268.
[18]
Baek.Design considerations of high voltage and high frequency transformer for solid state transformer application[D].Raleigh,USA,North Carolina State University,2008.
[19]
Heinemann L.An actively cooled high power,high frequency transformer with high insulation capability[C]// Proceedings of IEEE APEC,Dallas,TX,USA,2002.
[20]
Kjellqvist T,Ostlund S,Norrga Staffan,et al.Thermal evaluation of a medium frequency transformer in a line side conversion system[C]//Power Electronics and Applications (EPE),Barcelona,Spain,2009.
[21]
Pavlovsky M,de Haan S W H,Ferreira J A.Design for better thermal management in high-power high-frequency transformers[C]//Conference Record of Industry Applications Conference,Hong Kong,2005.
[22]
Ortiz G,Fassler L,Kolar J W,et al.Flux balancing of isolation transformers and application of “the magnetic ear” for closed-loop volt:second compensation[J].IEEE Transactions on Power Electronics,2014,29(8):4078-4090.
[23]
Thottuvelil V J,Verghese G C.Stability analysis of paralleled DC/DC converters with active current sharing [C]//Proceedings of IEEE PESC.Baveno,Italy,1996.
[24]
Lee C Q,Siri K,Wu T F.Dynamic current distribution controls of a parallel connected converter system[C]// Proceedings of IEEE PESC.Cambridge,MA,USA,1991.
[25]
张兴,余畅舟,刘芳,等.光伏并网多逆变器并联建模及谐振分析[J].中国电机工程学报,2014,34(3):336-345.Zhang Xing,Yu Changzhou,Liu Fang,et al.Modeling and resonance analysis of multi-paralleled grid-tied inverters in PV systems[J].Proceedings of the CSEE,2014,34(3):336-345(in Chinese).
[26]
刘增,刘进军.带变流器负载的三相交流电源系统稳定性判据的研究[J].中国电机工程学报,2012,32(25):143-148.Liu Zeng,Liu Jinjun.Stability criterion for three-phase AC power systems with converter load[J].Proceedings of the CSEE,2012,32(25):143-148(in Chinese).
[27]
Gu Yunjie,Li Wuhua,He Xiangning.Passivity-based control of DC microgrid for self-disciplined stabilization [J].IEEE Transactions on Power Systems,2015,30(5):2623-2632.
[28]
Cespedes M,Xing L,Sun J.Constant-power load system stabilization by passive damping[J].IEEE Transactions on Power Electronics,2011,26(7):1832-1836.
[29]
Marx D,Magne,P,Nahid-Mobarakeh B,et al.Large signal stability analysis tools in DC power systems with constant power loads and variable power loads:a review[J].IEEE Transactions on Power Electronics,2012.27(4):1773-1787.
[30]
Dolan M J,Davidson E M,Kockar I,et al.Reducing distributed generator curtailment through active power flow management[J].IEEE Transactions on Smart Grid,2014.5(1):149-157.
[31]
常立智.10kV变压器配电模式探讨[J].电网技术,2001,25(12):52-54.Chang Lizhi.Study on distribution modes of 10kV transformers[J].Power System Technology,2001,25(12):52-54(in Chinese).
[32]
Zhao T,Wang G,Bhattacharya S,et al.Voltage and power balance control for a cascaded H-bridge converter-based solid-state transformer[J].IEEE Transactions on Power Electronics,2013,28(4):1523-1532.
[33]
Huber J E,Kolar J W.Common-mode currents in multi-cell solid-state transformers[C]//Proceedings of Power Electronics Conference (ECCE Asia).Hiroshima,Japan,May 2014.
[34]
Bifaretti S,Zanchetta P,Watson A,et al.Advanced power electronic conversion and control system for universal and flexible power management[J].IEEE Trans.Smart Grid,2011,2(2):231-243.
[35]
Watson A J,Dang H Q S,Mondal G,et al.Experimental implementation of a multilevel converter for power system integration[C]//Proceedings of IEEE ECCE 2009.San Jose,CA,USA,2009.
[36]
Lai Jih-Sheng,Maitra A,Mansoor A,et al.Multilevel intelligent universal transformer for medium voltage applications[C]//Conference Record of Industry Applications Conference.Hong Kong,2005.
[37]
Arindam Maitra,Ashok Sundaram,Mahesh Gandhi,et al.Intelligent universal transformer design and applications[C]//Electricity Distribution-Part 1 of CIRED 2009.Prague,Czech,2009.
[38]
Temple V.“Super” GTO's push the limits of thyristor physics[C]//Power Electronics Specialists Conference.Aachen,Germany,2004.
[39]
Grider D,Das M,Agarwal A,et al.10 kV/120 A SiC DMOSFET half H-bridge power modules for 1 MVA solid state power substation[C]//Proceedings of IEEE Electric Ship Technologies Symposium (ESTS).Alexandria,VA,USA,2011.
[40]
Takuno T,Koyama M,Hikihara T.In-home power distribution systems by circuit switching and power packet dispatching[C]//Proceedings of First IEEE International Conference on Smart Grid Community.Gaithersburg,MD,USA,2010.
[41]
Li W,Xiao J,Zhao Y,et al.PWM plus phase angle shift (PPAS) control scheme for combined multiport DC/DC converters[J].IEEE Transactions on Power Electronics,2012,24(3):1479-1489.
[42]
Wu H,Zhang J,Xing Y.A family of multiport buck-boost converters based on DC-link-inductors (DLIs)[J].IEEE Transactions on Power Electronics,2015,30(2):735-746.
[43]
周孝信,鲁宗相,刘应梅,等.中国未来电网的发展模式和关键技术[J].中国电机工程学报,2014,34(29):4999-5009.Zhou Xiaoxin,Lu Zongxiang,Liu Yingmei,et al.Development models and key technologies of future grid in China[J].Proceedings of the CSEE,2014,34(29):4999-5009 (in Chinese).
[44]
鲁刚,魏玢,马莉.智能电网建设与电力市场发展[J].电力系统自动化,2010,34(9):1-22.Lu Gang,Wei Bin,Ma Li.Smart grid and electricity market [J].Automation of Electric Power Systems,2010,34(9):1-22(in Chinese).
[45]
曹军威,孟坤,王继业,等.能源互联网与能源路由器[J].中国科学:信息科学,2014,44(6):714-727.Cao Junwei,Meng Kun,Wang Jiye,et al.An energy internet and energy routers[J].Science China Information Sciences,2014,44(6):714-727(in Chinese).
[46]
邓雪梅.日本数字电网计划[J].世界科学,2013,7:9-19.Deng Xunmei.Digital electrical grid plan of Japan [J].World Science,2013,7:9-19(in Chinese).
[47]
Huang A Q,Crow M L,Heydt G T,et al.The future renewable electric energy delivery and management (FREEDM) system:the energy internet[J].Proceedings of the IEEE,2011,99(1):138-144.
[48]
查亚兵,张涛,黄卓,等.能源互联网关键技术分析[J].中国科学:信息科学,2014,44(6):702-713.Zha Yabing,Zhang Tao,Huang Zhuo,et al.Analysis of energy internet key technologies[J].Science China Information Sciences,2014,44(6):702-713(in Chinese).
[49]
魏亮.路由器原理与应用[M].北京:人民邮电出版社,2005:7-13.Wei Liang.The principle and application of router [M].Beijing:Posts & Telecom Press,2005:7-13(in Chinese).
[50]
董朝阳,赵俊华,文福拴,薛禹胜.从智能电网到能源互联网:基本概念与研究框架[J].电力系统自动化,2014,38(15):1-11.Dong Zhaoyang,Zhao Junhua,Wen Fushuan,et al.From smart grid to energy internet:basic concept and research framework[J].Automation of Electric Power Systems,2014,38(15):1-11(in Chinese).
[51]
曹军威,杨明博,张德华,明阳阳,孟坤,陈震,林闯.能源互联网——信息与能源的基础设施一体化[J].南方电网技术,2014,8(4):1-10.Cao Junwei,Yang Mingbo,Zhang Dehua,et al.Energy internet:an infrastructure for cyber-energy integration [J].Southern Power System Techonology,2014,8(4):1-10(in Chinese).
[52]
李婷婷.10kV配电网节能降损研究[D].广州:华南理工大学,2011.Li Tingting.Research on energy saving and loss- decreasing of 10kV distribution network[D].Guangzhou:South China University of Technology,2011(in Chinese).
[53]
刘东,陈云辉,黄玉辉,等.主动配电网的分层能量管理与协调控制.中国电机工程学报,2014,34(31):5500-5506.Liu Dong,Chen Yunhui,Huang Yuhui,et al.Hierarchical energy management and coordination control of active distribution network[J].Proceedings of the CSEE,2014,34(31):5500-5506(in Chinese).
[54]
王成山,武震,李鹏.微电网关键技术研究[J].电工技术学报,2014(2):1-12.Wang Chengshan Wu Zhen Li Peng.Research on key technologies of microgrid[J].Transactions of China Electrotechnical Society,2014(2):1-12(in Chinese).
[55]
薛美东,赵波,张雪松,等.基于分布式控制的独立型光储水柴微网调度策略[J].电力系统自动化,2014(04):1-7.Xue Meidong,Zhao Bo,Zhang Xuesong,et al.Economic dispatch of stand-alone photovoltaic- battery- hydro -diesel hybrid microgrid based on distributed control [J].Automation of Electrical Power Systems,2014(04):1-7(in Chinese).
[56]
刘小平,丁明,张颖媛,等.微网系统的动态经济调度[J].中国电机工程学报,2011,31(31):77-84.Liu Xiaoping,Ding Ming,Zhang Yingyuan,et al.Dynamic economic dispatch for microgrids [J].Proceedings of the CSEE,2011,31(31):77-84(in Chinese).
[57]
王健,谢桦,孙健.基于机会约束规划的主动配电网能量优化调度研究[J].电力系统保护与控制,2014(13):45-52.Wang Jian,Xie Hua,Sun Jian.Study on energy dispatch strategy of active distribution network using chance-constrained programming[J].Power System Protection and Control,2014(13):45-52(in Chinese).
[58]
Jiang,Q,Wang H.Two-time-scale coordination control for a battery energy storage system to mitigate wind power fluctuations[J].IEEE Transactions on Energy Conversion,2013,28(1): 52-61.
[59]
丁明,吴建锋,朱承治,等.具备荷电状态调节功能的储能系统实时平滑控制策略[J].中国电机工程学报,2013,33(1):22-29.Ding Ming,Wu Jianfeng,Zhu Chengzhi,et al.A real-time smoothing control strategy with SOC adjustment function of storage systems[J].Proceedings of the CSEE,2013,33(1):22-29(in Chinese).
[60]
Xu Yi,Zhang Jianhua,Wang Wenye,et al.Energy router:architectures and functionalities toward energy internet[C]//IEEE International Conference on Smart Grid Communications,Brussels,Belgium,2011.
[61]
杨帆,孙姗,郭抒然.电力调度SCADA数据转发配网SCADA系统的方案分析[J].电子世界,2013(19):51-52.Yang Fan,Sun Shan,Guo Shuran.Analysis of SCADA data dispatch for distribution grid[J].Electronics World,2013(19):51-52(in Chinese).
[62]
Gungor V C,Sahin D,Kocak T,et al.Smart grid technologies:communication technologies and standards [J].IEEE Transactions on Industrial Informatics,2011,7:529-539.
[63]
Parikh P P,Kanabar M G,Sidhu T S.Opportunities and challenges of wireless communication technologies for smart grid applications[C]//IEEE Power and Energy Society General Meeting.Minneapolis MN,USA,2010.
[64]
Wu J,Du J,Lin Z,et al.Power conversion and signal transmission integration method based on dual modulation of DC-DC converters[J].IEEE Transactions on Industrial Electronics,2015,62(2):1291-1300.
[65]
吴建德,杜进,王睿驰,等.基于开关纹波调制的电源线通信技术[J].中国电机工程学报,2014,29(4):166-172.Wu Jiande,Du Jin,Wang Ruichi,et al.Power Line communication technique based on switching ripple modulation[J].Proceedings of the CSEE,2014,29(4):166-172(in Chinese).
