[1]宋璇坤,韩柳,鞠黄培,等.中国智能电网技术发展实践综述[J].电力建设,2016,37(7):1-11.
SONG Xuankun, HAN Liu, JU Huangpei, et al. A review on development practice of smart grid technology in China[J]. Electric Power Construction, 2016,37(7):1-11.
[2]WANG Y,WANG X,CHEN Z,et al.Distributed optimal control of reactive power and voltage in islanded microgrids[J].IEEE Transactions on Industry Application,2017,53(1):340-349.
[3]郭雅娟,陈锦铭,何红玉,等.交直流混合微电网接入分布式新能源的关键技术研究综述[J].电力建设,2017,38(3):9-18.
GUO Yajuan, CHEN Jinming, HE Hongyu, et al. A review on AC/DC hybrid microgrid key technology containing distributed new energy[J]. Electrci Power Construction, 2017,38(3):9-18.
[4]何湘宁,石巍,李武华,等.基于大数据的大容量电力电子系统可靠性研究[J].中国电机工程学报,2017,37(1):209-221.
HE Xiangning, SHI Wei, LI Wuhua, et al. Reliability enhancement of power electronics systems by big data science[J]. Proceedings of the CSEE, 2017,37(1):209-221.
[5]Middlebrook R D D. Input filter considerations in design and application of switching regulators[C]//IEEE Industry Applications Society. IEEE, 1979:366-382.
[6]POLSTER S, RENNER H. Voltage stability monitoring methods for distribution grids using theThevenin impedance[C]//24th International Conference & Exhibition on Electricity Distribution (CIRED). CIRED , 2017:1535-1539.
[7]KHALIGH A. Realization of parasitics in stability of DC-DC converters loaded by constant power loads in advanced multi-converter automotive systems[J]. IEEE Transactions on Industrial Electronics,2008,55 (6):2295-2305.
[8]SUN J. Impedance-based stability criterion for grid-connected inverters[J]. IEEE Transactions on Power Electronics,2011,26(11):3075-3078.
[9]CHEN B, PIN G, PARISINI W M N, et al. A fast-convergent modulation integral observer for online detection of the fundamental and harmonics in grid-connected power electronics systems[J].IEEE Transactions on Power Electronics,2017, 32(4):2596-2607.
[10]JUSOH A B. The instability effect of constant power loads[C]//Power and Energy Conference,2004. Kuala Lumpur,Malaysia: IEEE, 2005:175-179.
[11]RADWAN A A A,MOHAMED Y A I. Analysis and active-impedance-based stabilization of voltage-source-rectifier loads in grid-connected and isolated micorgrid applications[J]. IEEE Transactions on Sustainable Energy,2013,4(3):563-576.
[12]WEAVER W W,KREIN P T.Optimal geometric control of power buffers[J]. IEEE Transactions on Power Electronics,2009,24 (5):1248-1258.
[13]Sopapirm T, Areerak K, Bozhko S, et al. Adaptive stabilization of uncontrolled rectifier based AC-DC power systems feeding constant power loadsin[J]. IEEE Transactions on Power Electronics,2017,48(5):1248-1258.
[14]RAHIMI A M,EMADI A. Active damping in DC/DC power electronic converters:A novel method to overcome the problems of constant power loads[J]. IEEE Transactions on Industrial Electronics,2009,56(5):1428 - 1439.
[15]GENG H,XU D,WU B,et al. Active damping for PMSG-based WECS with DC-link current estimation[J]. IEEE Transactions on Industrial Electronics,2011,58(4):1110 - 1119.
[16]TIAN Y J,CHEN Z,DENG F J, et al. Active power and DC voltage coordinative control for cascaded DC-AC converter with bidirectional power application[J]. IEEE Transactions on Power Electronics,2015,30 (10):5911-5925.
[17]PIDAPARTHY S K K, CHOI B, KIM Y. A load impedance specification of dc power systems for desired dc link dynamics and reduced conservativeness[C]//IEEE 18th Workshop on Control and Modeling for Power Electronics (COMPEL).IEEE,2017:1-6.
[18]KRISHNAMURTHY H,AYYANAR R. Stability analysis of cascaded converters for bidirectional power flow application[C]// Telecommunications Energy Conference, 2008. San Diego,USA:IEEE, 2008:1-8.
[19]ROGGIA L,SCHUCH L, BAGGIO J, et al,Integrated full-bridge-forward DC-DC converter for a residential microgrid application[J]. IEEE Transactions on Power Electronics,2013,28(4):1728-1740.
[20]KRISME F,KOLAR J W. Efficiency-optimized high-current dual active bridge converter for automotive applications[J]. IEEE Transactions on Power Electronics,2012,59(7):2745 - 2760.
[21]QIN H, KIMBALL J W. Closed-loop control of DC-DC dual-active-bridge converters driving single-phase inverters[J]. IEEE Transactions on Power Electronics, 2014,29 (2):1006 - 1017.
[22]TIAN Y J, DENG F J, CHEN Z, et al. Impedance interaction modeling and analysis for bidirectional cascaded converters[C]//Power Electronics and ECCE Asia (ICPE-ECCE Asia), 2015 9th International Conference on. Asia,Seoul,Korea: IEEE,2015:2064-2071.
[23]CHANG X Y, LI Y L, LI X,et al.An active damping method based on a supercapacitor energy storage system to overcome the destabilizing effect of instantaneous constant power loads in dc microgrids[J]. IEEE Transactions on Energy Conversion,2017,32(1):36-47.
[24]GUO L,ZHANG S H,LI X L, et al. Stability analysis and damping enhancement based on frequency-dependent virtual impedance for DC microgrids[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics,2017,5(1):338-350. |