A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count
A new triple voltage boosting switched-capacitor multilevel inverter (SCMLI) is pre-sented in this paper. It can produce 13-level output voltage waveform by utilizing 12 switches, three diodes, three capacitors, and one DC source. The capacitor voltages are self-balanced as all the three capacitors...
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sg-ntu-dr.10356-1539632022-01-17T05:44:54Z A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count Tayyab, Mohammad Sarwar, Adil Khan, Irfan Tariq, Mohd Hussan, Md Reyaz Murshid, Shadab Alhosaini, Waleed School of Electrical and Electronic Engineering Centre for system intelligence and efficiency (EXQUISITUS) Engineering::Electrical and electronic engineering Switched-Capacitor Voltage Boosting A new triple voltage boosting switched-capacitor multilevel inverter (SCMLI) is pre-sented in this paper. It can produce 13-level output voltage waveform by utilizing 12 switches, three diodes, three capacitors, and one DC source. The capacitor voltages are self-balanced as all the three capacitors present in the circuit are connected across the DC source to charge it to the desired voltage level for several instants in one fundamental cycle. A detailed comparative analysis is carried to show the advantages of the proposed topology in terms of the number of switches, number of capacitors, number of sources, total standing voltage (TSV), and boosting of the converter with the recently published 13-level topologies. The nearest level control (NLC)-based algorithm is used for generating switching signals for the IGBTs present in the circuit. The TSV of the proposed converter is 22. Experimental results are obtained for different loading conditions by using a laboratory hardware prototype to validate the simulation results. The efficiency of the proposed inverter is 97.2% for a 200 watt load. Published version The authors extend their appreciation to the Deputyship for Research Innovation, Ministry of Education in Saudi Arabia for funding this research work through the project number “375213500”. 2022-01-17T05:44:54Z 2022-01-17T05:44:54Z 2021 Journal Article Tayyab, M., Sarwar, A., Khan, I., Tariq, M., Hussan, M. R., Murshid, S. & Alhosaini, W. (2021). A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count. Electronics, 10(19), 2321-. https://dx.doi.org/10.3390/electronics10192321 2079-9292 https://hdl.handle.net/10356/153963 10.3390/electronics10192321 2-s2.0-85115410111 19 10 2321 en Electronics © 2021 The Author(s). Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Electrical and electronic engineering Switched-Capacitor Voltage Boosting Tayyab, Mohammad Sarwar, Adil Khan, Irfan Tariq, Mohd Hussan, Md Reyaz Murshid, Shadab Alhosaini, Waleed A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| description |
A new triple voltage boosting switched-capacitor multilevel inverter (SCMLI) is pre-sented in this paper. It can produce 13-level output voltage waveform by utilizing 12 switches, three diodes, three capacitors, and one DC source. The capacitor voltages are self-balanced as all the three capacitors present in the circuit are connected across the DC source to charge it to the desired voltage level for several instants in one fundamental cycle. A detailed comparative analysis is carried to show the advantages of the proposed topology in terms of the number of switches, number of capacitors, number of sources, total standing voltage (TSV), and boosting of the converter with the recently published 13-level topologies. The nearest level control (NLC)-based algorithm is used for generating switching signals for the IGBTs present in the circuit. The TSV of the proposed converter is 22. Experimental results are obtained for different loading conditions by using a laboratory hardware prototype to validate the simulation results. The efficiency of the proposed inverter is 97.2% for a 200 watt load. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Tayyab, Mohammad Sarwar, Adil Khan, Irfan Tariq, Mohd Hussan, Md Reyaz Murshid, Shadab Alhosaini, Waleed |
| format |
Article |
| author |
Tayyab, Mohammad Sarwar, Adil Khan, Irfan Tariq, Mohd Hussan, Md Reyaz Murshid, Shadab Alhosaini, Waleed |
| author_sort |
Tayyab, Mohammad |
| title |
A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| title_short |
A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| title_full |
A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| title_fullStr |
A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| title_full_unstemmed |
A single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| title_sort |
single source switched-capacitor 13-level inverter with triple voltage boosting and reduced component count |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/153963 |
| _version_ |
1722355345452433408 |