组合多变量滤波器-对偶二阶广义积分器锁相环技术的实验验证

2018 IEEE International Multidisciplinary Conference on Engineering Technology (IMCET) Pub Date : 2018-11-01 DOI:10.1109/IMCET.2018.8603048

Elie Habboub, J. Sawma, Nizar Daou, F. Khatounian

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引用次数: 1

摘要

如今，可再生能源正在被广泛使用。它们通过电源转换器连接到电网，需要了解电网电压大小和相位才能正确运行。电网相位和电压的计算通常采用锁相环(PLL)技术。然而，由于非线性负载和城市扩张，电网电压可能会失真，因此需要对电压畸变具有鲁棒性的锁相环。传统的锁相环技术在这些畸变面前不能给出准确的结果，因此需要一种能够处理不同电网故障的技术。本文介绍了一种PLL方法(MVF- dsogipll)，该方法结合了两个主要滤波器:多变量滤波器(MVF)和基于双sogi的正交信号发生器(DSOGI-QSG)以及传统的同步参考帧PLL (SRF-PLL)。该锁相环在FPGA上实现，以验证分析结果。仿真和实验结果验证了该方法的有效性。

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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Experimental Validation of a Combined Multi-Variable Filter – Dual Second Order Generalized Integrator Phase-Locked Loop Technique

Nowadays, renewable energy sources are being extensively used. They are connected to the grid via power converters that require the knowledge of the grid voltage magnitude and phase in order to operate correctly. The values of the grid phase and voltage are usually calculated using Phase Locked Loop (PLL) techniques. However, the grid voltage may be distorted due to non-linear loads and urban expansion thus the need of a PLL robust toward voltage distortions. The conventional PLL technique does not present accurate results in front of these distortions thus the necessity of a technique able to cope with different grid faults. This paper presents the design and the dynamic behavior of a PLL method (MVF-DSOGIPLL) combining two main filters: the Multi Variable Filter (MVF) and the Dual SOGI-based quadrature signal generator (DSOGI-QSG) along with the conventional Synchronous Reference Frame PLL (SRF-PLL). This PLL is implemented on FPGA to verify the analytical results. Simulation and experimental results validate the efficiency of the proposed technique.

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2018 IEEE International Multidisciplinary Conference on Engineering Technology (IMCET)

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