基于基波特征量提取的DVR参考电压波形生成算法

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摘要动态电压恢复器(DVR)因其对电压扰动快速精确的补偿能力而成为重要的电能质量控制设备之一。其快速补偿的关键在于对电压扰动的快速检测并准确生成参考波形。理论分析证明周期信号采样序列经某种加权平均算法可提取得到其基波分量的幅值和相位信息, 并可基于这些信息采用内积法重构信号的基波分量。根据这一原理本文提出的DVR参考波生成算法可根据不同的补偿策略灵活生成具有不同相位的电压参考波。上述算法易于编程实现, 实验结果表明, 生成的参考波不易受系统参数变化影响且具有较好的稳态精度, 算法能快速检测电压扰动。

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	王智勇
	吴正国
	周卫平
	黄本润

关键词 ：动态电压恢复器, 电能质量控制, 基波相量, 特征相量

Abstract：Dynamic voltage restorer (DVR) is one of important power quality control equipment. It can compensate voltage sag accurately and quickly. The key point of compensation is quick detection of voltage sag and accurate generation of correct reference wave. It is proved that the magnitude and phase of the base wave component of a sample sequence of a periodical signal can be extracted through a kind of weight average, and therefore the base wave can be reconstructed through scalar product. A novel reference wave generating algorithm based on above theory is proposed in this paper. The proposed algorithm can be easily implemented in digital system. The experimental results show that the reference wave is unacted on parameters variety. And the proposed algorithm can detect voltage quickly.

Key words： Dynamic voltage restorer power quality control base wave vector character vector

收稿日期: 2007-07-23 出版日期: 2014-02-13

PACS:

TM734

作者简介: 王智勇男, 1977年生, 博士研究生, 研究方向为电能质量检测与控制。吴正国男, 1943年生, 教授, 博士生导师, 研究方向为电力电子技术、数字信号处理、电能质量检测与控制。

引用本文:

王智勇, 吴正国, 周卫平, 黄本润. 基于基波特征量提取的DVR参考电压波形生成算法[J]. 电工技术学报, 2009, 24(4): 168-174. Wang Zhiyong, Wu Zhengguo, Zhou Weiping, Huang Benrun. A Novel Reference Wave Generating Algorithm Based on Characteristic Vector Extracted for DVR. Transactions of China Electrotechnical Society, 2009, 24(4): 168-174.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2009/V24/I4/168

[1] Mahinda Vilathgamuwa D, Wijekoon H M, Choi S S. Interline dynamic voltage restorer: a novel and economical approach for multiline power quality compens ation[J]. IEEE Transactions on Industry Applications, 2004, 40(6): 1678-1685.
[2] Chris Fitzer, Mike Barnes, Peter Green. Voltage sag detection technique for a dynamic voltage restorer [J]. IEEE Transactions on Industry Applications, 2004, 40(1): 203-212.
[3] Sang Joon Lee, Hyosung Kim, Seung-Ki Sul, et al. A novel control algorithm for static series compensators by use of PQR instantaneous power theory[J]. IEEE Transactions on Power Electronics, 2004, 19(3): 814-827.
[4] Luo S G, Hou Z C. An adaptive detecting method for harmonic and reactive currents[J]. IEEE Trans. Industrial Electronic, 1995, 42(1):85-89.
[5] 刘守亮, 肖先勇. Daubechies 复小波的生成及其在短时电能质量扰动检测中的应用[J]. 电工技术学报, 2005, 20(11): 106-110.
[6] Tao Lin, Mineo Tsuji, Eiji Yamada. Wavelet approach to power quality monitoring[C]. The 27th Annual Conference of the IEEE Industrial Electronics Society, 2001: 670-675.
[7] Liu Kaipei, Zhang Junmin. Harmonic detection based on the TLS estimation algorithm[C]. The 5th International Power Electronics and Motion Control Confer, Shanghai, 2006: FPV2-327.
[8] Aampos A, Joos G, Ziogas P D, et al. Analysis and design of a series voltage unbalance compensator based on a three-phase VSI operating with unbalanced switching functions[J]. IEEE Transactions on Power Electronics, 1994, 9(3): 269-274.
[9] Chung I Y, Park S Y, Hur S I. The control and analysis of zero sequence components in DVR system[C]. IEEE-PES Winter Meeting, 2001, 3: 1021-1026.
[10] Otadui L E, Viscarret U, Bacha S, et al. Evaluation of different strategies for series voltage sag compensation[C]. IEEE-PESC, 2002, 4: 1797- 1802.
[11] Choi S S, Li B H, Vilathgamuwa D M. Dynamic voltage restorer with minimum energy injection[J]. IEEE Trans. on Power System, 2000, 15(1): 51-57.
[12] Li B H, Choi S S, Vilathgamuwa D M. A new control strategy for energy-saving dynamic voltage restoration [C]. Power Engineering Society Summer Meeting, Piscataway(NJ), 2000, 2: 1103-1108.
[13] Nielsen J G, Blaabjerq F, Mohan N. Control strategies for dynamic voltage restorer compensating voltage sags with phase jump[C]. Conference Proceedings of IEEE Applied Power Electronics Conference and Exposition-APEC, Piscataway(NJ), 2001, 2: 1267- 1273.
[14] 谢旭, 胡明亮, 梁旭, 等. 动态电压恢复器的补偿特性与控制目标[J]. 电力系统自动化, 2002, 26(8)：41-44.
[15] Chunq I Y, Won D J, Park S Y. The DC link energy control method in dynamic voltage restorer system[J]. International Journal of Electrical Power and Energy System, 2003, 25(7): 525-531.