Design of a Novel State-Feedback Controller for a Linear Uncertain Switched Z-Source Impedance Network Applying LMI-Method
Publish place: 2nd International Conference on Mechanics, Electrical, Aerospace Engineering and Engineering Sciences
Publish Year: 1401
Type: Conference paper
Language: English
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Document National Code:
IEAMCONF02_034
Index date: 6 July 2022
Design of a Novel State-Feedback Controller for a Linear Uncertain Switched Z-Source Impedance Network Applying LMI-Method abstract
The Z-source converter is a recently proposed converter topology that utilizes special X shape Impedance network on its dc side for obtaining both voltage-buck and boost possibility. In the process of designing and analyzing z-source inverter, knowing transfer function of z-source network is necessary. In this paper a state space of z-source impedance network is represented. Stability analysis is accomplished and reveals that impedance network includes a right-hand-plane pole and its value changes considerably by considering uncertainty in network parameters. In order to stabilize the network, a static state-feedback controller is designed by solving Algebraic Riccati equation in the form of linear matrix inequality (LMI). Eventually, simulation results done by MATLAB are presented
Design of a Novel State-Feedback Controller for a Linear Uncertain Switched Z-Source Impedance Network Applying LMI-Method Keywords:
Design of a Novel State-Feedback Controller for a Linear Uncertain Switched Z-Source Impedance Network Applying LMI-Method authors
Masoud Jokar Kouhanjani
Shiraz Electric Distribution Company
Farshad Jafari
Shiraz Electric Distribution Company
Abas Karimi
Shiraz Electric Distribution Company
Amin Raeszadeh
Shiraz Electric Distribution Company