Suzhou Electric Appliance Research Institute
期刊號: CN32-1800/TM| ISSN1007-3175

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直流輸電MMC變流器容錯研究進展

來源:電工電氣發(fā)布時間:2017-12-20 13:20 瀏覽次數(shù):3
直流輸電MMC變流器容錯研究進展
 
胡雪松,唐圣學,李志剛
(河北工業(yè)大學 電磁場與電器可靠性省部共建重點實驗室,天津 300130)
 
    摘 要:對模塊化多電平變流器(MMC)進行容錯控制可提高MMC-HVDC系統(tǒng)的可靠性。介紹了MMC容錯原理,從故障類型、子模塊特性、容錯策略、故障檢測等方面闡述了現(xiàn)有的MMC容錯研究成果和進展,指出了現(xiàn)有成果的優(yōu)缺點,分析了存在的問題。指出MMC大范圍應用已成為一種趨勢,確保MMC的安全運行,縮短其子模塊故障檢測時間、提高容錯運行可靠性以及降低容錯運行控制策略的復雜性將成為今后研究重點。
    關鍵詞:模塊化多電平變流器;故障檢測;容錯;可靠性
    中圖分類號:TM46;TM721.1     文獻標識碼:A     文章編號:1007-3175(2017)12-0001-08
 
Reviews on Fault Tolerance of Modular Multilevel Converter
 
HU Xue-song, TANG Sheng-xue, LI Zhi-gang
(Province-Ministry Joint Key Laboratory of Electromagnetic Field and Electrical Apparatus Reliability,
Hebei University of Technology, Tianjin 300130, China)
 
    Abstract: That the modular multilevel converter (MMC) is carried out the fault tolerance control could improve the reliability of the MMCHVDC (high voltage direct current transmission) system. Introduction was made to the principle of MMC fault tolerance. This paper expounded the existing MMC fault tolerance research result and progress from fault type, submodule characters, tolerance strategy, fault detection etc aspects, pointing out the advantages and disadvantages of the current achievements and analyzing the existing problems. The wide-range MMC has become a trend to ensure the MMC safe operation, shortening the submodule fault detection time and improving the reliability of fault detection to lower the complexity of fault tolerance operation control strategy, which will be the research emphasis in future.
    Key words: modularization multilevel converter; fault detection; fault tolerance; reliability
 
參考文獻
[1] LESNICAR A, MARQUARDT R.An innovative modular multilevel converter topology suitable for a wide power range[C]//IEEE Bologna Power Tech Conference Proceedings,2003,3:272-277.
[2] YU O S, PARK N J, HYUN D S.A Novel Fault Detection Scheme for Voltage Fed PWM Inverter[C]//IECON2006-32nd Annual Conference on IEEE Industrial Electronics,2006:2654-2659.
[3] KONSTANTINOU G, CIOBOTARU M, AGELIDIS V. Selective harmonic elimination pulse-width modulation of modular multilevel converters[J]. IET Power Electronics,2013,6(1):96-107.
[4] PEREZ M A, BERNET S, RODRIGUEZ J, et al. Circuit Topologies, Modeling, Control Schemes, and Applications of Modular Multilevel Converters[J]. IEEE Transactions on Power Electronics,2014,30(1):4-17.
[5] DEBNATH S, QIN J, BAHRANI B, et al.Operation, Control, and Applications of the Modular Multilevel Converter: A Review[J]. IEEE Transactions on Power Electronics,2014,30(1):37-53.
[6] ANTONOPOULOS A, ANGQUIST L, NEE H P.On Dynamics and Voltage Control of the Modular Multilevel Converter[C]//EPE'09 13t h European Conference on Power Electronics and Applications,2009:1-10.
[7] SAEEDIFARD M, IRAVANI R.Dynamic Performance of a Modular Multilevel Back-to-Back HVDC System[J].IEEE Transactions on Power Delivery,2010,25(4):2903-2912.
[8] ILVES K, ANTONOPOULOS A, NORRGA S, et al. Steady-State Analysis of Interaction Between Harmonic Components of Arm and Line Quantities of Modular Multilevel Converters[J]. IEEE Transactions on Power Electronics,2011,27(1):57-68.
[9] HARNEFORS L, ANTONOPOULOS A, NORRGA S, et al. Dynamic Analysis of Modular Multilevel Converters[J]. IEEE Transactions on Industrial Electronics,2013,60(7):2526-2537.
[10] ANGQUIST L, ANTONOPOULOS A, SIEMASZKO D, et al. Open-Loop Control of Modular Multilevel Converters Using Estimation of Stored Energy[J]. IEEE Transactions on Industry Applications,2011,47(6):2516-2524.
[11] 郭捷,江道灼,周月賓,等. 交直流側電流分別可控的模塊化多電平換流器控制方法[J]. 電力系統(tǒng)自動化,2011,35(7):42-47.
[12] 管敏淵,徐政,屠卿瑞,等. 模塊化多電平換流器型直流輸電的調制策略[J]. 電力系統(tǒng)自動化,2010,34(2):48-52.
[13] 胡鵬飛,江道灼,郭捷,等. 基于晶閘管換向的混合型多電平換流器[J]. 電力系統(tǒng)自動化,2012,36(21):102-107.
[14] 楊曉峰,林智欽,鄭瓊林,等. 模塊組合多電平變換器的研究綜述[J]. 中國電機工程學報,2013,33(6):1-14.
[15] 楊曉峰,鄭瓊林,薛堯,等. 模塊化多電平換流器的拓撲和工業(yè)應用綜述[J]. 電網(wǎng)技術,2016,40(1):1-10.
[16] RICHARDEAU F, PHAM T T L. Reliability Calculation of Multilevel Converters: Theory and Applications[J]. IEEE Transactions on Industrial Electronics,2013,60(10):4225-4233.
[17] LIU H, LOH P C, BLAABJERG F.Review of fault diagnosis and fault-tolerant control for modular multilevel converter of HVDC[C]//Proceedings of the 39th Annual Conference of the IEEE Industrial Electronics Society,2014:1242-1247.
[18] 武文,吳學智,荊龍,等. 模塊化多電平變流器子模塊故障容錯控制策略[J]. 電網(wǎng)技術,2016,40(1):11-18.
[19] 申科,王建賾,班明飛,等. 基于零序電壓注入的模塊化多電平變流器故障容錯控制[J]. 電力系統(tǒng)自動化,2014,38(5):96-102.
[20] 殷實,譚國俊. 一種基于擴展卡爾曼濾波算法的MMC系統(tǒng)故障診斷策略[J]. 電工技術學報,2016,31(19):74-84.
[21] DENG F, CHEN Z, KHAN M R, et al. Fault Detection and Localization Method for Modular Multilevel Converters[J]. IEEE Transactions on Power Electronics,2015,30(5):2721-2732.
[22] LI B, SHI S, WANG B, et al.Fault diagnosis and tolerant control of single IGBT opencircuit failure in modular multilevel converters[J]. IEEE Transactions on Power Electronics,2015,31(4):3165-3176.
[23] SHAO S, WHEELER P W, CLARE J C, et al.Fault Detection for Modular Multilevel Converters Based on Sliding Mode Observer[J]. IEEE Transactions on Power Electronics,2013,28(11):4867-4872.
[24] SONG W, HUANG A Q.Fault-Tolerant Design and Control Strategy for Cascaded H-Bridge Multilevel Converter-Based STATCOM[J]. IEEE Transactions on Industrial Electronics,2010,57(8):2700-2708.
[25] HUANG F, FLETT F. IGBT Fault Protection Based on di /dt Feedback Control[C]//Proceedings of the 2007 IEEE Power Electronics Specialists Conference,2007:1478-1484.
[26] 李探,趙成勇,李路遙,等. MMC-HVDC子模塊故障診斷與就地保護策略[J]. 中國電機工程學報,2014,34(10):1641-1649.
[27] 蘇雪婷, 劉振興. 模塊化多電平換流器子模塊故障仿真與診斷[J]. 武漢科技大學學報,2016,39(4):302-308.
[28] HAGHNAZARI S, SHAHBAZI M, ZOLGHADRI M R.A new fault detection method for modular multilevel converter semiconductor power switches[C]//Proceedings of the 41st Annual Conference of the IEEE Industrial Electronics Society,2015:000050-000055.
[29] LEZANA P, AGUILERA R, RODRIGUEZ J.Fault Detection on Multicell Converter Based on Output Voltage Frequency Analysis[J]. IEEE Transactions on Industrial Electronics,2009,56(6):2275-2283.
[30] KHOMFOI S, TOLBERT L M.Fault Diagnosis and Reconfiguration for Multilevel Inverter Drive Using AI-Based Techniques[J]. IEEE Transactions on Industrial Electronics,2007,54(6):2954-2968.
[31] 趙國亮,趙鵬豪,趙成勇,等. 模塊化多電平換流器子模塊拓撲結構對比分析[J]. 華北電力大學學報( 自然科學版),2015,42(3):15-21.
[32] 李歡,田新成,張建坡. 模塊化多電平換流器改進型子模塊拓撲仿真研究[J]. 電力系統(tǒng)保護與控制,2016,44(2):95-101.
[33] 胡鵬飛,江道灼,周月賓,等. 模塊化多電平換流器子模塊故障冗余容錯制策略[J]. 電力系統(tǒng)自動化,2013,37(15):66-70.
[34] BDELSALAM M, TENNAKOON S, GRIFFITHS A L, et al.Investigation of sub-module fault types of modular multi-level converters in HVDC networks[C]//Proceedings of the Power Engineering Conference,2015:1-6.
[35] SONG Y, WANG B. Survey on Reliability ofPower Electronic Systems[J]. IEEE Transactions on Power Electronics,2013,28(1):591-604.
[36] ZHANG W, XU D, LI X, et al. Seamless Transfer Control Strategy for Fuel Cell Uninterruptible Power Supply System[J]. IEEE Transactions on Power Electronics,2012,28(2):717-729.
[37] WELCHKO B A, LIPO T A, JAHNS T M, et al. Fault tolerant three-phase AC motor drive topologies: a comparison of features, cost, and limitations[J]. IEEE Transactions on Power Electronics,2004,19(4):1108-1116.
[38] TAO H, DUARTE J L, HENDRIX M A M.Line-Interactive UPS Using a Fuel Cell as the Primary Source[J]. IEEE Transactions on Industrial Electronics,2008,55(8):3012-3021.
[39] SEDGHI S, DASTFAN A, AHMADYFARD A.Fault Detection of a Seven Level Modular Multilevel Inverter via Voltage Histogram and Neural Network[C]//IEEE 8th International Conference on Power Electronics and ECCE Asia,2011:1005-1012.
[40] 管敏淵, 徐政. 模塊化多電平換流器子模塊故障特性和冗余保護[J]. 電力系統(tǒng)自動化,2011,35(16):94-98.
[41] 馬文忠,江麗麗,李林歡,等. 模塊化多電平變換器容錯運行環(huán)流抑制策略[J]. 高電壓技術,2014,40(11):3513-3518.
[42] 江麗麗,馬文忠,李林歡,等. 模塊化多電平換流器的容錯控制策略[J]. 電網(wǎng)技術,2014,38(9):2497-2503.
[43] 李探,趙成勇. MMC子模塊故障下橋臂不對稱運行特性分析與故障容錯控制[J]. 中國電機工程學報,2015,35(15):3921-3928.
[44] 吳學智,武文,荊龍,等. MMC子模塊故障運行特性分析與容錯控制策略研究[J]. 高電壓技術,2016,42(10):3083-3091.
[45] 趙慶明. 全橋模塊化多電平換流器故障容錯控制[J]. 南方電網(wǎng)技術,2015,9(9):38-43.