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带谐波补偿功能的动态电压补偿器 被引量:18

A Dynamic Voltage Restorer with Harmonic Compensation Function
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摘要 根据传统静止坐标和d-q坐标关系推导出相应的静止坐标下的谐振控制器来检测出指定次数的谐波,应用这种静止坐标下的谐振控制器对指定次数的谐波电压进行闭环控制,简单地加到动态电压补偿器(dynamic voltage restorer, DVR)控制系统中以达到补偿谐波电压的目的,而对DVR的基本电压暂降补偿性能的影响很小,提高了DVR的效率。分析了该谐振控制器的幅频和相频特性,指出在将其加入DVR控制系统中进行谐波补偿时不会引起有功功率的流动,对直流侧能量的影响也较小。仿真验证了该控制器不会引起DVR直流侧的功率流向,并可消除绝大部分指定次数的谐波。 According to the relation between traditional stationary coordinate and d-q coordinate, corresponding resonance controller under stationary coordinate is deduced to detect the harmonics of specified orders, using this resonance controller under stationary coordinate the close-loop control can be applied to harmonics of specified orders. Simply integrating this resonance controller with dynamic voltage restorer (DVR) system the compensation of harmonic voltage is realized, and the influence of resonance controller on DVR's basic compensation performance for voltage sag is slight, so the efficiency of DVR can be improved. The amplitudefrequency characteristic and phase-frequency characteristic of resonance controller are analyzed, it is pointed out that the flowing of active power will not occur while the resonance controller is added into the control system of DVR to compensate harmonics, and its influence on energy in DC side is slight too. Simulation results prove that the resonance controller will not cause the flowing of power in DC side, and can eliminate most harmonics of specified orders.
作者 石游 杨洪耕
机构地区 四川大学电气信息学院
出处 《电网技术》 EI CSCD 北大核心 2006年第14期36-40,共5页 Power System Technology
关键词 谐波补偿 动态电压恢复器 谐振控制器 电能质量 harmonic compensation dynamic voltage restorer resonance controller power quality
分类号 TM731 [电气工程—电力系统及自动化] TN715 [电子电信—电路与系统]
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  • 1李庚银,陈志业,丁巧林,王昕伟.dq0坐标系下广义瞬时无功功率定义及其补偿[J].中国电机工程学报,1996,16(3):176-179. 被引量:144
  • 2姚琼荟 黄继起 吴汉松.变结构控制系统[M].重庆:重庆大学出版社,1998..
  • 3周林 秦梅 易强 等(Zhou Lin Qin Mei Yi Qiang et al):.三相四线制并联有源电力滤波器(Three-phase four-wire shunt activepower filter)[J].重庆大学学报(Journal of Chongqing University ),2000,(11):95-99.
  • 4[1]Woodley N H, Morgan L. Sundaram A. Experience with an inverter-based dynamic voltage restorer[J]. IEEE Trans. on Power Delivery, 1999,14(3):1181-1186.
  • 5[2]Conrad L E, Bollen M H J. Voltage sag coordination for reliable plant operation[J]. IEEE Trans. on Industrial Application, 1997,33(6): 1459-1464.
  • 6[3]Masashi Oeno, Naoki Fukuzu, Nobuyuki Fujiwara, et al. Development and field Test of series Voltage compensator for power distribution system. [J].Proceedings of Japan Society of Electrical Engineering, part B, 2002,(8):90-95.
  • 7[7]Neil H. Woodley, Ashok Sundaram,Trevor Holden T.C. Einarson. Field experience with the new platform-mounted DVRTM [A]. Proceedings of POWERCON[C]. Australia, 2000: 1324-1328.
  • 8Cheng P T, Bhattacharya S, Divan D. Line harmonics reduction in high power systems using square-wave inverters[C]. Proc. IEEE PESC'96,Baveno, Italy. 1996.
  • 9Cheng P T, Bhattacharya S. Control of square-wave inverters in high power hybrid active filter systems[J]. IEEE Trans. on Ind. Applicat.,1998, 34(1): 458-472.
  • 10Cheng P T, Bhattacharya S. Experimental verification of dominant harmonic active filter (D H A F) for high power applications[C]. Conf.Rec. IEEE-IAS Annu. Meeting, 1998.

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电网技术
2006年 第14期

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