High-Efficiency Prony-Based Algorithm for Time-Varying Power Signal Estimation

碩士 === 國立彰化師範大學 === 機電工程學系 === 99 === ABSTRACT With the widespread use of nonlinear loads in the power system, harmonic distortion causes a serious pollution of power quality. Besides, the power unbalance between the generation and the load demand would make the fundamental frequency varying with t...

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Bibliographic Details
Main Authors: Chiu YiI- Chun, 邱意淳
Other Authors: Wu Meng-Jiun
Format: Others
Language:zh-TW
Published: 2011
Online Access:http://ndltd.ncl.edu.tw/handle/52473577196075665060
Description
Summary:碩士 === 國立彰化師範大學 === 機電工程學系 === 99 === ABSTRACT With the widespread use of nonlinear loads in the power system, harmonic distortion causes a serious pollution of power quality. Besides, the power unbalance between the generation and the load demand would make the fundamental frequency varying with time. These disturbances may introduce operational problems of power system equipments. Therefore, improving the power quality has become a great concern for both utilities and customers. The frequency-domain methods have been widely used for the signal processing because of its computational efficiency. In addition, most power meters adopt FFT-based algorithm to analyze the harmonics and to show the frequency spectra. However, the FFT-based algorithm is less accurate if the system frequency varies and the frequency resolution decreases. The analysis results will show errors caused by the leakage and picket-fence effects. Therefore, how to achieve both the high resolution and efficiency is worth investigating. According to aforementioned facts, this thesis proposes a Prony-based improved algorithm for harmonics and interharmonics measurement. Not only the calculation time is reduced, but also the result is with a better accuracy, even if the power signals contain frequency variations and non-integer harmonic components. Finally, the thesis applies LabVIEW and the dedicated hardware to design a simple setup for measuring power quality signals. The performance of improved algorithm is validated by testing the synthesized and actual signals. Key Words: Harmonics, System Frequency Variation, Fast Fourier Transform, Prony's Method, LabVIEW