Fernão Pires, VitorCordeiro, ArmandoFoito, DanielRoncero-Clemente, CarlosRomero-Cadaval, EnriqueSilva, José Fernando2025-02-172025-02-172024-032079-9292PURE: 106651725PURE UUID: b2a7c6ca-ff56-4160-86fd-7e5735899bdfScopus: 85188843575http://hdl.handle.net/10362/179199Publisher Copyright: © 2024 by the authors.The Quasi-Impedance-Source Inverter (Quasi-Z inverter) is an interesting DC-AC converter topology that can be used in applications such as fuel cells and photovoltaic generators. This topology allows for both boost capability and DC-side continuous input current. Another very interesting feature is its reliability, as it limits the current when two switches on one leg are conducting simultaneously. This is due to an extra conduction state, specifically the shoot-through state. However, the shoot-through state also causes a loss of performance, increasing electromagnetic interference and harmonic distortion. To address these issues, this work proposes a modified carrier-based control method for the T-Type single-phase quasi-Z inverter. The modified carrier-based method introduces the use of two additional states to replace the standard shoot-through state. The additional states are called the upper shoot-through and the lower shoot-through. An approach to minimize the number of switches that change state during transitions will also be considered to reduce switching losses, improving the converter efficiency. The proposed modified carrier-based control strategy will be tested using computer simulations and laboratory experiments. From the obtained results, the theoretical considerations are confirmed. In fact, through the presented results, it is possible to understand important improvements that can be obtained in the THD of the output voltage and load current. In addition, it is also possible to verify that the modified carrier method also reduces the input current ripple.6379370engimpedance-source convertersmultilevel T-typequasi-impedance-source inverter (qZS inverter)shoot throughControl and Systems EngineeringSignal ProcessingHardware and ArchitectureComputer Networks and CommunicationsElectrical and Electronic EngineeringSDG 7 - Affordable and Clean Energyjournal article10.3390/electronics13061113https://www.scopus.com/pages/publications/85188843575