Left invertibility of hybrid dynamical systems: a framework for flying capacitor multilevel converters

Sana Othman, L. Sbita, J. Barbot, Mohamad Alaa Eddin Alali, M. Ghanes
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Abstract

In this paper, we suggest a hybrid observer consisting of a DC-DC Flying Capacitor Multilevel Converter (FCMC) with unknown discrete state. This proposed system consists of a dc-link, 4-level converter with an RL load. The state vector of the considered class of switched linear system presents unobservable modes. An observability concept known as (Z(TN)-Observability) is used to solve such problem. Following that, a hybrid observer is designed based on a coupling between a continuous and discrete observer. Indeed, this approach assumes that the available variables such as the output measurement and the estimated continuous state allow the reconstruction of the unknown discrete state which permits to detect a delay time or a produced default in these states. Finally, to validate this method some simulation results are given in order to show the effectiveness of the proposed system.
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混合动力系统的左可逆性:飞电容多电平变换器的框架
本文提出了一种由离散状态未知的DC-DC飞电容多电平变换器(FCMC)组成的混合观测器。该系统由一个带RL负载的直流链路4电平变换器组成。所考虑的切换线性系统的状态向量呈现不可观测模式。可观测性概念(Z(TN)-可观测性)用于解决这一问题。然后,基于连续观测器和离散观测器之间的耦合设计了混合观测器。事实上,这种方法假设可用的变量,如输出测量和估计的连续状态,允许重建未知的离散状态,从而可以检测到这些状态中的延迟时间或产生的默认值。最后,为了验证该方法的有效性,给出了仿真结果。
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