文章摘要
丁明,姚宇亮,李林,等.基于自适应序列全相位DFT同期并网参数测量[J].电力系统自动化. DOI: 10.7500/AEPS20171106002.
yaoyuliang,, et al.synchronized grid-connected parameter measurement method based on All-phase discrete Fourier transform with adaptive sampling sequence length[J].Automation of Electric Power Systems. DOI: 10.7500/AEPS20171106002.
基于自适应序列全相位DFT同期并网参数测量
synchronized grid-connected parameter measurement method based on All-phase discrete Fourier transform with adaptive sampling sequence length
DOI:10.7500/AEPS20171106002
关键词: 同期并网  自适应序列  汉宁窗  双谱线法  全相位DFT
KeyWords: synchronized grid-connected  adaptive sampling sequence  Hanning window  two-line spectroscopy method  all-phase DFT
上网日期:2018-02-11
基金项目:其它
作者单位E-mail
丁明 安徽省新能源利用与节能实验室(合肥工业大学) mingding56@126.com 
姚宇亮 安徽省新能源利用与节能实验室(合肥工业大学) yaoyuliang012@126.com 
李林 科大智能(合肥)科技有限公司 lilin@csg.com.cn 
史盛亮 安徽省新能源利用与节能实验室(合肥工业大学) 949948385@qq.com 
毕锐 安徽省新能源利用与节能实验室(合肥工业大学) 79818702@qq.com 
曹军 科大智能(合肥)科技有限公司 569796490@qq.com 
摘要:
      光储微网是一种典型的微网结构,没有旋转调节系统,并网要求高,传统的准同期并网策略不足以满足其并网要求。文中考虑分布式电源的随机性和负荷波动性的特点,提出了自适应序列采样长度的全相位DFT算法测量分布式电源和微网PCC处电压信号的频率、幅值和相位作为同期并网参数。并且根据全相位DFT双谱线校正原理推导出基于汉宁窗的双窗全相位DFT的基波信号频率、幅值和相位的计算公式。通过仿真验证了算法在谐波含量丰富、基波频率随机波动以及噪声干扰的环境下能够快速测量出PCC处两侧的电压参数,并依然具有较高的精度,适用于光储微网的同期并网的电压参数测量。
Abstract:
      Photovoltaic/battery micro-grid is a typical micro-grid structure without rotating regulation system. It requires rigorous standard of synchronized grid-connected. Traditional synchronized grid-connected strategy has been unable to meet its requirements of grid-connected. Considering the randomness of distributed power and the fluctuation of load, All-phase discrete Fourier transform (DFT) algorithm with adaptive sampling sequence length is proposed in this paper to measure the frequency, amplitude and phase angle of the voltage at the point of common coupling(PCC) of photo-voltaic/battery micro-grid. And according to the principle of double-line correcting spectrum method, the calculation formula of frequency, amplitude and phase angle of fundamental signal is deduced based on Hanning double-window all-phase DFT. Simulation verify the proposed algorithm can measure the voltage parameter quickly at both sides of PCC under the environment with abundant harmonics, random fluctuation of fundamental frequency, noise and it has higher accuracy which is suitable for the voltage parameter measurement of photovoltaic/battery micro-grid of syn-chronized grid-connected.
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