DC-DC升压变换器的I-LQG控制

2014 11th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE) Pub Date : 2014-12-08 DOI:10.1109/ICEEE.2014.6978327

Leobardo Camacho-Solorio, Aarón Sariñana-Toledo

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引用次数: 5

摘要

我们提出了一种具有积分作用(I-LQG)的线性二次高斯控制系统用于开关模式DC-DC升压转换器的详细设计。首先，使用MATLAB和Simulink中的黑盒仿真模型进行识别测试，以获得转换器的适当线性模型。然后，分三步进行了LQG和I-LQG控制系统的设计。首先，我们设计了线性二次型调节器(LQR)。在此基础上，构造了卡尔曼型线性二次估计器(LQE)，并利用分离原理完成了LQG控制系统。最后，在系统中加入积分作用，推导出新的LQR和LQE，构建I-LQG控制系统。我们在黑盒模型中测试了LQG和I-LQG控制系统。这些测试表明了控制器在调节变换器输出、抑制恒定扰动和衰减测量噪声方面的有效性。

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I-LQG control of DC-DC boost converters

We present a detailed design of a linear quadratic Gaussian control system with integral action (I-LQG) for a switched-mode DC-DC boost converter. Initially, identification tests were carried out to obtain an adequate linear model of the converter - using a black-box simulation model in MATLAB and Simulink. Then, we proceeded with the design of LQG and I-LQG control systems in three steps. First, we designed a linear quadratic regulator (LQR). After that, we constructed a linear quadratic estimator (LQE) of Kalman type and completed a LQG control system using the separation principle. Finally, we added integral action to the system and derived new LQR and LQE to construct the I-LQG control system. We tested the LQG and I-LQG control systems in the black-box model. These tests showed the effectiveness of the controllers for the regulation of the converter's output, for the rejection of constant perturbations, and for the attenuation of noise in measurements.

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2014 11th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)

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