一种基于Chirp-Z变换的闪变测量方法

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摘要对IEC推荐的闪变测量方法进行分析后发现, 如果波动分量的频率和幅值已知, 则瞬时闪变视感度S可以直接由其得出, 本文在此基础上提出了一种新的闪变测量方法。首先使用平方检波法提取出产生闪变的波动信号, 对其进行线性调频Z变换(Chirp-Z Transform, CZT)得出波动分量的幅值和频率, 然后根据波动分量的幅值和频率求出瞬时闪变视感度。使用CZT进行波动分量的提取, 可以在不延长采样时间的前提下获得比快速傅里叶变换(FFT)更高的频率分辨率, 有效降低了频谱泄漏造成的误差。通过仿真和试验对IEC方法和本文提出的方法进行了比较, 结果证明了本文所提方法的正确性和有效性。

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	李和明
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	颜湘武
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关键词 ：电压波动, 闪变, Chirp-Z变换, 电能质量

Abstract：Studying of the IEC flicker meter shows that the instantaneous flicker sensation level S can be calculated directly if the spectrums of fluctuating component of voltage are known. In this paper a novel flicker Measurement method is proposed. First, the square demodulation is used to obtain the fluctuating component of voltage, and then the Chirp-Z transform(CZT) is used to obtain the amplitude and the frequency of wave component, and final the instantaneous flicker sensation level S. To process the wave component by CZT can acquire precise spectrums without prolonging the sampling time and decrease the error produced by spectrum leakage. The IEC flicker meter and new method is compared in simulation and test. The result verified the correctness and efficiency of the theoretical prediction.

Key words： Voltage fluctuation flicker Chirp-Z transform power quality

收稿日期: 2008-05-07 出版日期: 2014-02-12

PACS:

TM715

作者简介: 李和明男, 1956年生, 教授, 博士生导师, 主要研究方向为电力电子与电力传动、大型发电机在线检测与故障诊断技术的研究。康伟男, 1977年生, 博士研究生, 主要研究方向为电能质量监测。

引用本文:

李和明, 康伟, 颜湘武, 张丽霞. 一种基于Chirp-Z变换的闪变测量方法[J]. 电工技术学报, 2009, 24(3): 209-215. Li Heming, Kang Wei, Yan Xiangwu, Zhang Lixia. Voltage Flicker Measurement Based on Chirp-Z Transform. Transactions of China Electrotechnical Society, 2009, 24(3): 209-215.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2009/V24/I3/209

[1] IEEE Standard 519-1992. IEEE recommended practices and requirements for harmonic control in electrical power system[S]. 1993.
[2] IEC 61000-3-5. Electromagnetic compatibility (EMC), Part 3: Limits-section 3: Limitation of voltage fluctuations and flicker in low-voltage power supply systems for equipment with rated current ≤16 A[S]. 1994.
[3] IEC 61000-3-5. Electromagnetic compatibility (EMC). Part 3: Limits-section 5: Limitation of voltage fluctuations and flicker in low-voltage power supply systems for equipment with rated current greater than l6A[S]. 1994.
[4] IEC 61000-3-7. Electromagnetic compatibility (EMC). Part 3: Limits-section 7: Limits assessment of emission limits for fluctuations loads in MV and HV power system[S]. 1994.
[5] IEC publications prepared by technical committee.77 868(1986) flickermeter, functional and design specifications[S], 1986.
[6] Emanuel A E, Peretto L. A simple lamp-eye-brain model for flicker observations[J]. IEEE Transactions on Power Delivery, 2004, 19(3): 1308-1313.
[7] Peretto L, Rovati L, Salvatori G, et al. A measurement system for the analysis of the response of the human eye to the light flicker[J]. IEEE Transactions on Instrumentation and Measurement, 2007, 56(4): 1384-1390.
[8] Huang Jier Shyh, Hsieh Cheng Tao. Application of continuous wavelet transform for study of voltage flicker-generated signals[J]. IEEE Transactions on Aerospace and Electronic Systems, 2000, 36(3): 925-932.
[9] Huang Shyh Jier, Lu ChenWen. Enhancement of digital equivalent voltage flicker measurement via continuous wavelet transform[J]. IEEE Transactions on Power Delivery, 2004, 19(2): 663-670.
[10] Hernandez A, Mayordomo J G, Asensi R, et al. A new frequency domain approach for flicker evaluation of arc furnaces[J]. IEEE Transactions on Power Delivery, 2003, 18(2): 631-638.
[11] Wu Chi Jui, Chen Yu Jen. A novel algorithm for precise voltage flicker calculation by using instantaneous voltage vector[J]. IEEE Transactions on Power Delivery, 2006, 21(3):1541-1548.
[12] Wu C J, Fu T H. Effective voltage flicker calculation algorithm using indirect demodulation method generation[J]. IEE Proceedings Transmission and Distribution, 2003, 150(4): 493-500.
[13] S Nuccio. A digital instrument for measurement of voltage flicker[C]. IEEE Instrumentation and Measure- ment Technology Conference, 1997: 281- 284.
[14] Chen M T, Generation. Digital algorithms for measurement of voltage flicker[J]. IEE Proceedings Transmission and Distribution, 1997, 144(2):175-180.
[15] IEC 61000-4-15. Testing and measurement techniques: flickermeter-functional and design specifications[S].
[16] 贾秀芳, 赵成勇, 胥国毅, 等. IEC闪变仪误差分析及改进设计[J]. 电工技术学报, 2006, 21(11)：121-126.
[17] He Bing, Cabestaing F Postaire, et al. Narrow-band frequency analysis for laser-based glass thickness measurement[J]. Instrumentation, 2005, 54(1): 222-227.
[18] Rabiner L R, Schafer R W. The Chirp Z transform algorithm[J]. IEEE Transactions on Audio and Electroacoustics, 1969, 17(2):86-92.
[19] 陈奎孚, 焦群英, 高小榕．提高FFT谱质量的一种新方法[J]．振动、测试与诊断, 1998, 18(3)：216-232.
作者简介
李和明男, 1956年生, 教授, 博士生导师, 主要研究方向为电力电子与电力传动、大型发电机在线检测与故障诊断技术的研究。
康伟男, 1977年生, 博士研究生, 主要研究方向为电能质量监测。
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[18] 庞浩, 李东霞, 俎云霄, 等. 应用FFT进行电力系统谐波分析的改进算法[J]. 中国电机工程学报, 2003, 23(6): 50-54.
[19] 胡海兵, 祁才君, 吕征宇. 一种基于非同步采样的FFT算法(英文)[J]. 中国电机工程学报, 2004, 24(12): 13-17.
[20] 柴旭峥, 文习山, 关根志, 等. 一种高精度的电力系统谐波分析算法[J]. 中国电机工程学报, 2003, 23(9): 67-70.
[21] 张介秋, 梁昌洪, 韩峰岩, 等. 介质损耗因数的卷积窗加权算法[J]. 电工技术学报, 2005, 20(3): 100-104.
[22] Nuttall A H．Some windows with very good sidelobe behavior[J]. IEEE Transactions on, Acoustics, Speech, and Signal Processing, 1981, 29(1): 84-91.