Advanced sensorless nonlinear control strategy for grid connected photovoltaic systems via the two-time scale singular perturbation technique

Q4 Engineering

International Journal of Power Electronics Pub Date : 2023-01-01 DOI:10.1504/ijpelec.2023.128864

Youssef Mchaouar, Abdelmajid Abouloifa, Aicha Elallali, Chaimaa Taghzaoui, Ibtissam Lachkar, Josep M. Guerrero

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引用次数: 3

Abstract

This paper presents a new control strategy for grid connected photovoltaic (PV) system. The system consists of a solar panel, a boost converter, and a full-bridge inverter with L-filter connected to the grid. The control objectives are threefold: 1) tracking the maximum power point of the PV panel; 2) balancing the power exchange by regulating the DC link voltage; 3) ensuring a unity power factor in the grid. To achieve these objectives, a multi-loop controller is synthesised using a high-gain output feedback controller and the singular perturbation technique. The addressed control problem involves several difficulties including the existence of a number of state variables that are inaccessible to measurement. To address this problem, two-time-scale sliding mode observers are added which allow estimating, simultaneously, the solar panel current and the grid voltage. It is formally shown that all control objectives are asymptotically accomplished. This theoretical result is confirmed by numerical simulation tests.

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基于双时间尺度奇异摄动技术的并网光伏系统无传感器非线性控制策略

提出了一种新的并网光伏系统控制策略。该系统由一个太阳能电池板、一个升压变换器和一个连接到电网的带l滤波器的全桥逆变器组成。控制目标有三个:1)跟踪光伏板的最大功率点;2)通过调节直流链路电压来平衡功率交换;3)保证电网的统一功率因数。为了实现这些目标，采用高增益输出反馈控制器和奇异摄动技术合成了多环控制器。所解决的控制问题涉及几个困难，包括存在一些无法测量的状态变量。为了解决这个问题，增加了双时间尺度滑模观测器，可以同时估计太阳能电池板电流和电网电压。正式证明了所有控制目标都是渐近完成的。数值模拟试验证实了这一理论结果。

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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来源期刊

International Journal of Power Electronics Engineering-Electrical and Electronic Engineering

CiteScore

1.30

自引率

0.00%

发文量