利用基于系数图法的 PID 控制器，为光伏系统两电平升压转换器设计电压控制方案并进行实验实施

Electrical Engineering & Electromechanics Pub Date : 2024-01-01 DOI:10.20998/2074-272x.2024.1.01

K. Latreche, R. Taleb, A. Bentaallah, Alla Eddine Toubal Maamar, M. Helaimi, F. Chabni

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引用次数: 0

摘要

简介目前，在太阳能系统和各种电气应用中，功率转换器是必不可少的部分。类似系统面临的主要挑战是控制器的设计。在文献中，PID 控制器已在许多工业应用中证明了其有效性，但确定其参数仍是控制理论领域的挑战之一。这项工作的新颖之处在于设计并通过实验实现了一个由 PID 控制器控制的两电平升压直流-直流转换器，用于光伏（PV）最大功率提取。目的分析和控制具有可再生能源的两级升压拓扑结构，并使用简单而精确的方法设计 PID 控制器参数。方法。在 MATLAB 环境中使用系数图法 (CDM) 优化 PID 系数。结果。建立并分析了带有 PID 控制器和光伏能源的两级升压转换器的数学模型。通过该模型可以设计拟议系统的控制器参数。实用价值。使用 Arduino 嵌入式电路板测试了由拟议 CDM-PID 控制器控制的原型。仿真结果与实验结果进行了比较。得出的结果表明，实验结果与仿真结果非常吻合，而且所提出的 CDM-PID 控制器能提供快速、精确的结果。

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Design and experimental implementation of voltage control scheme using the coefficient diagram method based PID controller for two-level boost converter with photovoltaic system

Introduction. Currently, in the solar energy systems and a variety of electrical applications, the power converters are essential part. The main challenge for similar systems is controller design. In the literature, the PID controller has proved its effectiveness in many industrial applications, but determining its parameters remains one of the challenges in control theory field. The novelty of the work resides in the design and experimental implementation of a two-level boost DC-DC converter controlled by a PID controller for photovoltaic (PV) maximum power extraction. Purpose. Analysis and control of the two-level boost topology with renewable energy source and design of the PID controller parameters using simple and accurate method. Methods. PID coefficients are optimized using Coefficient Diagram Method (CDM) in the MATLAB environment. Results. A mathematical model of a two-level boost converter with PID controller and PV energy source was developed and analyzed. The model allows to design the controller parameters of the proposed system. Practical value. A prototype steered by the proposed CDM-PID controller was tested using an Arduino embedded board. A comparison between the simulation results and the experimental one is presented. The obtained results illustrate that the experimental results match the simulation closely, and the proposed CDM-PID controller provides a fast and precise results.

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Electrical Engineering & Electromechanics

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