An Improved Grid Synchronization Method of Grid-Interactive Power Converter System During Distorted Grid Conditions

2020 IEEE 9th Power India International Conference (PIICON) Pub Date : 2020-02-01 DOI:10.1109/PIICON49524.2020.9112941

S. K., B. Babu

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引用次数: 2

Abstract

In recent years, integration of renewable energy systems (RES) into the electrical grid has acquired the attention of researchers across the globe. Grid parameters such as frequency, voltage and phase angle must be continuously monitored to overcome the problem of synchronization, as gridside converters usually interact with the electrical grid. In this paper, an enhanced sliding Goertzel discrete Fourier transform (SGDFT) based phase locked loop (PLL) for grid synchronization of grid-interactive power converter system was proposed. With the proposed enhanced SGDFT PLL based frequency estimation, a robust frequency tracking capability with a very fast transient response under distorted grid conditions are achieved. The complete analytical model of Proposed PLL is analyzed and compared with existing PLLs such as Enhanced Prefilter Moving Average Filter Type 2 PLL (EPMAF Type 2 PLL), Harmonics Interharmonics DC Offset PLL (HIHDO PLL), SGDFT PLL. The proposed work has been analyzed in MATLAB/Simulink® environment and the obtained results are suitable for harmonic mitigation and DC offset rejection. Finally, the Hardware in Loop (HIL) simulation of different PLLs are investigated by dSPACE 1104 environment to verify the effectiveness of the proposed study.

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畸变电网条件下一种改进的电网-交互变换器系统同步方法

近年来，可再生能源系统(RES)并网问题引起了全球研究人员的广泛关注。由于电网侧变流器通常与电网相互作用，因此必须对频率、电压和相角等电网参数进行连续监测，以克服同步问题。提出了一种基于增强滑动戈泽尔离散傅立叶变换(SGDFT)的电网同步锁相环(PLL)。利用所提出的基于增强型SGDFT锁相环的频率估计，实现了在扭曲网格条件下具有快速瞬态响应的鲁棒频率跟踪能力。分析了所提锁相环的完整分析模型，并与现有锁相环如增强型预滤波移动平均滤波器2型锁相环(EPMAF Type 2 PLL)、谐波间谐波直流偏置锁相环(HIHDO PLL)、SGDFT锁相环进行了比较。在MATLAB/Simulink®环境下对所提出的工作进行了分析，所得结果适用于谐波抑制和直流偏置抑制。最后，在dSPACE 1104环境下对不同锁相环进行了硬件在环(HIL)仿真，验证了所提研究的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE 9th Power India International Conference (PIICON)

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