[1] WHEELER P W,RODRIGUEZ J,CLARE J. Matrix converters: a technology review [J]. IEEE Transactions on Industrial Electronics, 2002,49(2): 276-288.
[2] YAMAMOTO E,HARA H,UCHINO T,et al. Development of MCs and its applications in industry [J]. IEEE Industrial Electronics Magazine,2011,5(1): 4-12.
[3] RODRIGUEZ J,RIVERA M,KOLAR W,et al. A review of control and modulation methods for matrix converters [J]. IEEE Transactions on Industrial Electronics,2012,59(1): 58-70.
[4] ANDREU J,KORTABARRIA I,ORMAETXEA E,et al. A step forward toward the development of reliable matrix converters [J]. IEEE Transactions on Industrial Electronics,2012,9(1): 167-183.
[5] CHO Y S,LEE K B,SONG J K,et al. Torqueripple minimization and fast dynamic scheme for torque predictive control of permanentmagnet synchronous motors [J]. IEEE Transactions on Power Electronics, 2015, 30(4): 2181-2190.
[6] XIA C L,ZHAO J X,YAN Y,et al. A novel direct torque control of matrix converterfed PMSM dives using duty Cycle control for torque ripple reduction [J]. IEEE Transactions on Industrial Electronics,2014, 61(6): 2700-2713.
[7] XIA C L,ZHAO J X,YAN Y,et al. A novel direct torque and flux control method of matrix converterfed PMSM drive [J]. IEEE Transactions on Power Electronics,2014, 29(10): 5417-5430.
[8] 王君瑞,钟彦儒,宋卫章,等. 双级矩阵变换器励磁双馈风力发电系统比例谐振控制 [J]. 高电压技术,2013,39(5): 1210-1217.
WANG Junrui,ZHONG Yanru,SONG Weizhang, et al. Proportional resonant control for two stage matrix converter excited doublyfed wind power generation system [J]. High Voltage Engineering,2013,39(5):1210-1217.
[9] 邓文浪,崔贵平,袁婷,等. 基于双级矩阵变换器的直驱永磁同步风力发电系统有功功率平滑优化控制 [J]. 电网技术,2013,37(12): 3419-3425.
Deng Wenlang,CUI Guiping,YUAN Ting, et al. Active powe smooth optimization control of directdriven permanent magnet synchronous wind power generation system based on twostage matrix converter [J]. Power System Technology,2013,37(12): 3419-3425.
[10] WANG B S,VENKATARAMANAN G. Dynamic voltage restorer utilizing a matrix converter and flywheel energy storage [J]. IEEE Transactions on Industry Application,2009,45(1): 222-231.
[11] AREVALO S L,ZANCHETTA P,WHEELER P W,et al. Control and implementation of a matrix converterbased ac ground power supply unit for aircraft servicing [J]. IEEE Transactions on Industrial Electronics,2010,57(6): 2076-2084.
[12] ROHOUMA W M,AREVALO S L,ZANCHETTA P,et al. A fourleg matrix converter ground power unit with repetitive voltage control [J]. IEEE Transactions on Industrial Electronics,2015,62(4): 2032-2040.
[13] WHEELER P W,CLARE J,EMPRINGHAM L. Enhancement of matrix converter output waveform quality using minimized commutation times [J]. IEEE Transactions on Industrial Electronics,2004,51(1): 240-244.
[14] SHE H W,LIN H,HE B,et al. Implementation of voltagebased commutation in space vector modulated matrix converter [J]. IEEE Transactions on Industrial Electronics,2012,59(1): 154-166.
[15] SUN K,ZHOU D N,HUANG L P,et al. A novel commutation method of matrix converter fed induction motor drive using RBIGBT [J]. IEEE Transactions on Industry Applications,2007,43(3): 777-786.
[16] CAI W,HE B,ZHANG X F,et al. Improved twosteps voltagecommutation strategy under non1 input power factor in matrix converter [C]∥ 38th Annual Conference on IEEE Industrial Electronics Society. Montreal: IEEE,2012: 6088-6092.
[17] MAHLEIN J,IGNEY J,WEIGOLD J. Matrix converter commutation strategies with and without explicit input voltage sign measurement [J]. IEEE Transactions on Industrial Electronics,2002,49(2): 407-414.
[18] BURANY N. Safe control of fourquadrant switches [C]∥Industry Application Society Annual Meeting. San Diego: IEEE, 1989: 1190-1194.
[19] ZIEGLER M,HOFMAN W. New onestep commutation strategies in matrix converters [C]∥4th IEEE International Conference on Power Electronics and Drive Systems. New York:IEEE,2001: 560-564.
[20] KATO K,ITOH J I. Improvement of input current waveforms for a matrix converter using a novel hybrid commutation method [C]∥ Power Conversion Conference. Nagoya:IEEE,2007: 63768. |