Design and analysis of a novel bounded nonlinear controller for three-phase ac/dc converters

52nd IEEE Conference on Decision and Control Pub Date : 2013-12-01 DOI:10.1109/CDC.2013.6760446

G. Konstantopoulos, A. Alexandridis

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引用次数: 2

Abstract

A bounded nonlinear dynamic controller suitable for the regulation of the duty-ratio input of a three-phase AC/DC voltage source converter (VSC) is proposed. The controller design is based on the complete nonlinear average model of the power converter and takes into account that the controlled inputs -duty-ratio signals- should be saturated in a disk area on the input phase portrait while the grid voltages constitute the uncontrolled inputs. The proposed design approach fully satisfies the input constraint while simultaneously achieves precise DC bus voltage regulation and unity power factor operation. In addition, opposite to the conventional controllers, the present development is totally independent from the system parameters. A detailed nonlinear analysis shows that the closed-loop system operating under the uncontrolled external inputs has the input to state stability (ISS) property while the analysis is further extended to prove convergence to the desired nonzero equilibrium when constant external inputs act on the system. Simulation results verify the effectiveness of the controller under sudden DC bus voltage reference and load variations.

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一种新型三相交/直流变换器有界非线性控制器的设计与分析

提出了一种适用于三相交/直流电压源变换器(VSC)占空比输入调节的有界非线性动态控制器。控制器的设计基于功率变换器的完全非线性平均模型，并考虑到受控输入-占空比信号-应在输入相位肖像上的磁盘区域饱和，而电网电压构成非受控输入。该设计方法在满足输入约束的同时，实现了直流母线电压的精确调节和功率因数的统一运行。此外，与传统的控制器不同，目前的发展完全不依赖于系统参数。详细的非线性分析表明，在不受控制的外部输入下运行的闭环系统具有输入状态稳定(ISS)的性质，并进一步扩展了分析，证明了当恒定的外部输入作用于系统时，系统收敛于期望的非零平衡点。仿真结果验证了该控制器在直流母线基准电压和负载突变情况下的有效性。

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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52nd IEEE Conference on Decision and Control

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