A Novel Multilevel Inverter Topology Generating a 19-Level Output Regulated by the PD-PWM Method

A Novel Multilevel Inverter Topology Generating a 19-Level Output Regulated by the PD-PWM Method

Traditional multilevel inverter topologies, such FC, NPC, and CHB, have a few significant disadvantages. They need a great number of parts, which raises the complexity, expense, and switching losses. Furthermore, their intricate control schemes make voltage balancing and synchronization challenging....

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Bibliographic Details
Main Authors: Sofia Lemssaddak, Abdelhafid Ait Elmahjoub, Mohamed Tabaa, Adnane El-Alami, Mourad Zegrari
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Energies
Subjects:
PD-PWM: phase-disposition pulse width modulation
CHB-MLI: cascaded H-bridge multilevel inverter
THD: total harmonic distortion
hardware in the loop
Online Access:https://www.mdpi.com/1996-1073/18/13/3227
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Summary:Traditional multilevel inverter topologies, such FC, NPC, and CHB, have a few significant disadvantages. They need a great number of parts, which raises the complexity, expense, and switching losses. Furthermore, their intricate control schemes make voltage balancing and synchronization challenging. Lastly, under some circumstances, they experience severe harmonic distortion, necessitating the inclusion of expensive filters to enhance signal quality. This paper proposes a novel multilevel converter topology that uses the phase-disposition PWM (PD-PWM) technique to control a 19-level output. This new configuration maintains performance comparable to the CHB-MLI reference while using fewer switches, simplifying control, and reducing costs. Our approach is based on extensive simulations conducted in the MATLAB Simulink environment, with results compared to the CHB-MLI. A low-pass filter is added to improve the output voltage quality, reducing the THD% to 1.33%. This strategy offers several advantages, including simpler control, lower costs, increased reliability, and higher-quality output. The system was replicated using MATLAB Simulink and validated through hardware-in-the-loop (HIL) testing. The HIL method ensures real-world testing without causing damage to the hardware. The integrated system includes sensors and necessary hardware for a comprehensive energy management solution.
ISSN:1996-1073

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