Optimal tracking for PV three-phase grid-connected inverter with LC filter

Franklin Open Pub Date : 2024-07-14 DOI:10.1016/j.fraope.2024.100133

Said Al-Abri , Myada Shadoul , Hassan Yousef , Rashid Al-Abri

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Abstract

The paper presents a simple yet accurate tracking control strategy for a three-phase grid-connected inverter with an LC filter. Three-phase inverters are used to integrate renewable energy sources such as photovoltaic (PVs) into the utility grid. The LC filters are integrated between the utility grid and the voltage source inverters for damping the high-frequency currents generated by renewable energy sources. Inverter control is a crucial component in guaranteeing that the quality of current injected into the grid complies with the power quality standards. Realizing the need for robust and adaptable control strategies that can handle the variability of PV systems, in this paper we employ a Linear Quadratic Regulator (LQR) tracking controller with an integral action to ensure zero tracking error. The efficiency of the proposed controller in tracking the grid power factor and active current variations is demonstrated via both simulation using MATLAB/SIMULINK and implementation using a laboratory-scale photovoltaic (PV) testbed that is established at the Hybrid Station Lab at Sultan Qaboos University.

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带 LC 滤波器的光伏三相并网逆变器的优化跟踪

本文针对带 LC 滤波器的三相并网逆变器提出了一种简单而精确的跟踪控制策略。三相逆变器用于将光伏等可再生能源并入公用电网。LC 滤波器集成在公用电网和电压源逆变器之间，用于抑制可再生能源产生的高频电流。逆变器控制是保证注入电网的电流质量符合电能质量标准的重要组成部分。我们意识到需要能应对光伏系统多变性的稳健且适应性强的控制策略，因此在本文中采用了线性二次调节器（LQR）跟踪控制器，该控制器具有积分作用，可确保跟踪误差为零。通过使用 MATLAB/SIMULINK 进行仿真，以及使用在苏丹卡布斯大学混合站实验室建立的实验室规模光伏 (PV) 试验台进行实施，证明了所提出的控制器在跟踪电网功率因数和有功电流变化方面的效率。

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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Franklin Open

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