Szerző dc.contributor.author | Rezaei Mohammad Amin | hu_HU |
Szerző dc.contributor.author | Nayeripour Majid | hu_HU |
Szerző dc.contributor.author | Hu Jiefeng | hu_HU |
Szerző dc.contributor.author | Band Shahab S. | hu_HU |
Szerző dc.contributor.author | Mosavi Amir | hu_HU |
Szerző dc.contributor.author | Khooban Mohammad-Hassan | hu_HU |
Elérhetőség dátuma dc.date.accessioned | 2022-04-11T10:31:18Z | |
Rendelkezésre állás dátuma dc.date.available | 2022-04-11T10:31:18Z | |
Kiadás dc.date.issued | 2022 | hu_HU |
Issn dc.identifier.issn | 2169-3536 | hu_HU |
Uri dc.identifier.uri | http://hdl.handle.net/20.500.12944/17580 | |
Kivonat dc.description.abstract | This multilevel inverter type summarizes an output voltage of medium voltage based on a series connection of power cells employing standard configurations of low-voltage components. The main problems of cascaded switched-capacitor multilevel inverters (CSCMLIs) are the harmful reverse flowing current of inductive loads, the large number of switches, and the surge current of the capacitors. As the number of switches increases, the reliability of the inverter decreases. To address these issues, a new CSCMLI is proposed using two modules containing asymmetric DC sources to generate 13 levels. The main novelty of the proposed configuration is the reduction of the number of switches while increasing the maximum output voltage. Despite the many similarities, the presented topology differs from similar topologies. Compared to similar structures, the direction of some switches is reversed, leading to a change in the direction of current flow. By incorporating the lowest number of semiconductors, it was demonstrated that the proposed inverter has the lowest cost function among similar inverters. The role of switched-capacitor inrush current in the selection of switch, diode, and DC source for inverter operation in medium and high voltage applications is presented. The inverter performance to supply the inductive loads is clarified. Comparison of the simulation and experimental results validates the effectiveness of the proposed inverter topology, showing promising potentials in photovoltaic, buildings, and domestic applications. A video demonstrating the experimental test, and all manufacturing data are attached. | hu_HU |
Nyelv dc.language | en | hu_HU |
Kiadó dc.publisher | Institute of Electrical and Electronics Engineers Inc. | hu_HU |
Kulcsszó dc.subject | Cascaded | hu_HU |
Kulcsszó dc.subject | multi-level inverter | hu_HU |
Kulcsszó dc.subject | self-charging | hu_HU |
Kulcsszó dc.subject | switched-capacitor | hu_HU |
Kulcsszó dc.subject | total standing voltage | hu_HU |
Cím dc.title | A New Hybrid Cascaded Switched-Capacitor Reduced Switch Multilevel Inverter for Renewable Sources and Domestic Loads | hu_HU |
Típus dc.type | folyóiratcikk | hu_HU |
Változat dc.description.version | published | hu_HU |
Hozzáférés dc.rights.accessRights | nyílt hozzáférésű | hu_HU |
Doi azonosító dc.identifier.doi | 10.1109/ACCESS.2022.3146256 | hu_HU |
Tudományág dc.subject.discipline | Műszaki tudományok | hu_HU |
Tudományterület dc.subject.sciencebranch | Műszaki tudományok/Informatikai tudományok | hu_HU |
Mtmt azonosító dc.identifier.mtmt | 32623746 | hu_HU |
Folyóirat dc.identifier.journalTitle | IEEE Access | hu_HU |
Évfolyam dc.identifier.journalVolume | 10 | hu_HU |
Terjedelem dc.format.page | 14157-14183 | hu_HU |
Wos azonosító dc.identifier.wos | 000753404400001 | hu_HU |
Scopus azonosító dc.identifier.scopus | 2-s2.0-85123693212 | hu_HU |
Szerző intézménye dc.contributor.department | Információs Társadalom Kutatóintézet | hu_HU |
Kar dc.contributor.faculty | Eötvös József Kutatóközpont | hu_HU |