Abstract
This paper proposes a hybrid control scheme for a newly devised hybrid multilevel inverter (HMLI) topology. The circuit configuration of HMLI is comprised of a cascaded converter module (CCM), connected in series with an H-bridge converter. Initially, a finite set model predictive control (FS-MPC) is adopted as a control scheme, and theoretical analysis is carried out in MATLAB/Simulink. Later, in the real-time implementation of the HMLI topology, a hybrid control scheme which is a variant of the FS-MPC method has been proposed. The proposed control method is computationally efficient and therefore has been employed to the HMLI topology to mitigate the high-frequency switching limitation of the conventional MPC. Moreover, a comparative analysis is carried to illustrate the advantages of the proposed work that includes low switching losses, higher efficiency, and improved total harmonic distortion (THD) in output current. The inverter topology and stability of the proposed control method have been validated through simulation results in MATLAB/Simulink environment. Experimental results via low-voltage laboratory prototype have been added and compared to realize the study in practice.
Highlights
Over recent decades, multilevel converters (MLCs) have found popular in high-power applications
This paper presents the circuit configuration, control methods, simulation and experimental validation of the proposed hybrid multilevel inverter (HMLI) topology
The advantages of using the finite set model predictive control (FS-model predictive control (MPC)) method employed to HMLI are related to more output voltage levels and low current total harmonic distortion (THD)
Summary
Muhammad Ali 1, * , Ghulam Hafeez 1,2 , Ajmal Farooq 1 , Zeeshan Shafiq 3 , Faheem Ali 4 , Muhammad Usman 5 and Lucian Mihet-Popa 6, *. Faculty of Electrical Engineering, Ostfold University College, 1757 Halden, Norway
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