基于内部模型的非最小相位降压升压变换器滑模控制

Enfoque UTE : revista cientifica Pub Date : 2019-03-29 DOI:10.29019/ENFOQUEUTE.V10N1.442

Byron Cajamarca, Óscar Camacho Quintero, D. Chávez, P. Leica, Marcelo Pozo

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引用次数: 5

摘要

本文介绍了控制非最小相位降压-升压变换器的不同方案的应用。采用了三种控制方案。第一个控制器是PI控制器，第二个是滑模控制，第三个是内模控制和滑模控制两种控制方案的组合。控制器采用右半平面零(RHPZ)降阶模型设计。利用泰勒近似将RHPZ模型转换为一阶加死区(FOPDT)模型，然后得到控制器。将SMC- imc的性能与PI控制器和SMC进行了比较。仿真结果表明，SMC-IMC提高了变换器的响应，减少了抖振，对负载变化具有更好的鲁棒性

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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Sliding Mode Control Based on Internal Model for a Non-minimum phase Buck and Boost Converter

This work presents the application of different schemes to control a non-minimum phase Buck-Boost converter. Three control schemes are used. The first controller presented is a PI controller, the second one is Sliding Mode Control and the third one is a combination of two control schemes, Internal Model Control and Sliding Mode Control. The controllers are designed from a Right-Half Plane Zero (RHPZ) reduced order model. The RHPZ model is converted, using Taylor approximation, in a First Order Plus Dead Time (FOPDT) model and after that, the controllers are obtained. The performance of the SMC-IMC is compared against to a PI controller and a SMC. The simulation results show that SMC-IMC improves the converter response, reducing the chattering and presenting better robustness for load changes

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Enfoque UTE : revista cientifica

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