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用于动态条件下同步相量测量的复带通滤波算法 被引量:11

A Complex Bandpass Filtering Algorithm for Synchronized Phasor Measurement Under Dynamic Conditions
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摘要 为使同步相量测量在动态情况下满足精度要求,设计了一种基于高斯窗解耦调制函数的复带通滤波算法。给出了对应于不同相量上传速率的测量带宽和滤波延迟,使该方法能输出不失真的幅值调制分量、抑制带外干扰并具有快速动态响应速度。获取基波相位后,利用基于权重最小二乘的频率估计方法代替传统的对相位求导测频方法,提高了频率估计的鲁棒性。仿真和实例分析结果表明:稳态时,所提出的方法符合IEEE标准C37.118-2005中的1级性能要求;动态时,该方法在幅值调制、斜线变化频率和阶跃变化情形下均具有较好的相量和频率测量精度。此外,该方法运算量较小,能满足在线应用要求。 In order to make synchronized phasor measurement meet the accuracy requirements under dynamic conditions, a complex bandpass-filtering algorithm was proposed. Its measurement bandwidth and group delay corresponding to various phasor-uploading rates were provided to make the method be able to output amplitude modulated components without distortion, restrain the out-of-band interference and have short dynamic response time. Based on acquired phase angles, the weighted least squares (WLS) was applied, instead of traditional derivation operation, to improve frequency measurement robustness. Simulation and field test results show that the proposed method complies with the level 1 of IEEE Standard C37.118-2005 under steady state, and has high accuracy under dynamic conditions. In addition, the method has small amount of computation and is fast enough for online application.
作者 刘林 林涛 徐遐龄
机构地区 武汉大学电气工程学院 华中电力调控分中心
出处 《中国电机工程学报》 EI CSCD 北大核心 2012年第10期142-149,142-149,共8页 Proceedings of the CSEE
基金 国家自然科学基金项目(50677044) 湖北省自然科学基金青年杰出人才项目(2006ABB006)~~
关键词 同步相量测量 高斯窗 复带通滤波算法 带外干扰 滤波延迟 权重最小二乘 synchronized phasor measurement Gaussianwindow complex bandpass filtering algorithm out-of-bandinterference group delay weighted least squares (WLS)
分类号 TM76 [电气工程—电力系统及自动化]
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参考文献21

  • 1Li F X,Qiao W,Sun H B,et al.Smart transmission grid:vision and framework[J].IEEE Transactions on Smart Grid,2010,1(2):168-177.
  • 2Zhang H R,Du Y M,Liu Y H.New challenges to power system planning and operation of smart grid development in China[C]//2010 International Conference on Power Systems Technology(POWERCON).Hangzhou,China:IEEE,2010:1-8.
  • 3张胜.同步相量测量标准化的有关问题讨论[J].电力系统自动化,2007,31(2):91-93. 被引量:10
  • 4Power System Relaying Committee of the IEEE Power Engineering Society,USA.IEEE Std C37.118-2005 IEEE standard for synchrophasors for power systems[S].New York:The Institute of Electrical and Electronics Engineers,Inc,2006.
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二级参考文献33

  • 1黄莹,徐政.基于同步相量测量单元的直流附加控制器研究[J].中国电机工程学报,2004,24(9):7-12. 被引量:63
  • 2李建,谢小荣,韩英铎.同步相量测量的若干关键问题[J].电力系统自动化,2005,29(1):45-48. 被引量:62
  • 3刘道伟,谢小荣,穆钢,黎平.基于同步相量测量的电力系统在线电压稳定指标[J].中国电机工程学报,2005,25(1):13-17. 被引量:110
  • 4王茂海,孙元章.基于DFT的电力系统相量及功率测量新算法[J].电力系统自动化,2005,29(2):20-24. 被引量:78
  • 5Xie Xiaorong, Xin Yaozhong, Xiao Jinyu, et al. WAMS applications in Chinese power systems[J]. IEEE Power and Energy Magazine, 2006, 4(1): 54-63.
  • 6Martin K E. Phasor measurement systems in the WECC[C]. IEEE Power Engineering Society General Meeting, Montreal, Quebec, Canada, 2006.
  • 7Novosel D, Madani V, Bhargava B, et al. Dawn of the grid synchronization[J]. IEEE Power and Energy Magazine, 2008, 6(1): 49-60.
  • 8Stenbakken G, Nelson T. NIST support of phasor measurements to increase reliability of the North American electric power grid [C]. 1EEE Power Engineering Society General Meeting, Montreal, Quebec, Canada, 2006.
  • 9Nguyen C T, Srinivasan K. A new technique for rapid tracking of frequency deviations based on level crossings[J]. IEEE Transactions on Power Apparatus and Systems, 1984, 103(8): 2230-2236.
  • 10Phadke A G, Adamiak M, Pickett B. Synchronized sampling and phasor measurements for relaying and control[J]. IEEE Transactions on PowerDelivery, 1994, 9(1): 442-452.

共引文献105

同被引文献113

引证文献11

二级引证文献91

中国电机工程学报
2012年 第10期

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