Mixed-sensitivity based robust H∞ controller design for high-gain boost converter

2017 International Conference on Computer, Communications and Electronics (Comptelix) Pub Date : 2017-07-01 DOI:10.1109/COMPTELIX.2017.8004042

Priyabrata Shaw, M. Veerachary

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引用次数: 9

Abstract

In this paper, a H∞ robust controller is designed for high-gain boost converter (HGBC) using mixed-sensitivity method. This controller design is based on the model, which uses a linear time-invariant approximation of nonlinear time-variant PWM converter that describes approximately the behavior of the system. The design of voltage-mode controller for boost converter is challenging, as its duty cycle to output voltage transfer function has a right half plane zero (RHPZ), shows non-minimum phase (NMP) behavior. Considering the mixed-sensitivity analysis into account the H∞ controller is designed to stabilize and guarantee a constant output voltage regardless of perturbations in input voltage and load. The closed-loop HGBC system is simulated in PSIM simulator, which shows excellent voltage regulation in presence of load and source disturbances. This clearly indicates that the mixed-sensitivity based H∞ controller yielding better performance and do not depend on the operating point of the converter.

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高增益升压变换器的混合灵敏度鲁棒H∞控制器设计

本文采用混合灵敏度方法设计了高增益升压变换器(HGBC)的H∞鲁棒控制器。该控制器设计基于该模型，该模型使用非线性时变PWM变换器的线性时不变近似来近似描述系统的行为。升压变换器电压型控制器的设计具有挑战性，其输出电压传递函数的占空比具有右半平面零(RHPZ)，呈现非最小相位(NMP)行为。考虑混合灵敏度分析，设计H∞控制器以稳定和保证输出电压恒定，而不受输入电压和负载扰动的影响。在PSIM仿真器中对闭环HGBC系统进行了仿真，结果表明该系统在负载和源干扰下均表现出良好的稳压性能。这清楚地表明，基于混合灵敏度的H∞控制器产生更好的性能，并且不依赖于变换器的工作点。

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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2017 International Conference on Computer, Communications and Electronics (Comptelix)

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