New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family

New members of XY converter family topologies are proposed in this treatise for a high-voltage/low-current renewable application. Based on the X Converter, the whole existing X-Y Converter family is categorized into four categories; L-Y, 2L-Y, 2LC-Y and 2LCm-Y converter. Four new 2LC-Y topologies (2...

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Main Authors: Bhaskar M.S., Padmanaban S., Maroti P.K., Fedak V., Blaabjerg F., Ramachandaramurthy V.K.
Other Authors: 56229894300
Format: Conference Paper
Published: KoREMA 2023
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spelling my.uniten.dspace-230392023-05-29T14:37:32Z New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family Bhaskar M.S. Padmanaban S. Maroti P.K. Fedak V. Blaabjerg F. Ramachandaramurthy V.K. 56229894300 18134802000 56267383500 56007516100 7004992352 6602912020 New members of XY converter family topologies are proposed in this treatise for a high-voltage/low-current renewable application. Based on the X Converter, the whole existing X-Y Converter family is categorized into four categories; L-Y, 2L-Y, 2LC-Y and 2LCm-Y converter. Four new 2LC-Y topologies (2LC-LVD, 2LC-2LVD, 2LC-2LCVD and 2LC-2LCmVD) converters are presented in this treatise which offer an effective solution for renewable applications requiring a very high voltage conversion ratio such as a Photovoltaic Multilevel Inverter (PV-MLI) system, hybrid electrical drives and automotive applications. The noticeable features of the proposed 2LC-Y converter topologies are: I) Only one power control switch and input source; ii) High negative output voltage with moderate duty ratio; iii) Low output current and minimal internal resistance; iv) Transformer-less converter topologies; v) High voltage conversion ratio; vi) Minimal number of power devices and components. Working and output voltage analysis of the proposed 2LC-Y converter topologies are discussed in details. The MATLAB simulation results are provided and good agreement with theoretical analysis is shown. Simulation results also validate the performance and functionality of the proposed 2LC-Y converter topologies of the XY converter family. � 2017 IEEE. Final 2023-05-29T06:37:32Z 2023-05-29T06:37:32Z 2017 Conference Paper 10.1109/EDPE.2017.8123270 2-s2.0-85040511132 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85040511132&doi=10.1109%2fEDPE.2017.8123270&partnerID=40&md5=4f14e565c9f927013d7a11f61721bfc5 https://irepository.uniten.edu.my/handle/123456789/23039 2017-October 139 146 KoREMA Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
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country Malaysia
content_provider Universiti Tenaga Nasional
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description New members of XY converter family topologies are proposed in this treatise for a high-voltage/low-current renewable application. Based on the X Converter, the whole existing X-Y Converter family is categorized into four categories; L-Y, 2L-Y, 2LC-Y and 2LCm-Y converter. Four new 2LC-Y topologies (2LC-LVD, 2LC-2LVD, 2LC-2LCVD and 2LC-2LCmVD) converters are presented in this treatise which offer an effective solution for renewable applications requiring a very high voltage conversion ratio such as a Photovoltaic Multilevel Inverter (PV-MLI) system, hybrid electrical drives and automotive applications. The noticeable features of the proposed 2LC-Y converter topologies are: I) Only one power control switch and input source; ii) High negative output voltage with moderate duty ratio; iii) Low output current and minimal internal resistance; iv) Transformer-less converter topologies; v) High voltage conversion ratio; vi) Minimal number of power devices and components. Working and output voltage analysis of the proposed 2LC-Y converter topologies are discussed in details. The MATLAB simulation results are provided and good agreement with theoretical analysis is shown. Simulation results also validate the performance and functionality of the proposed 2LC-Y converter topologies of the XY converter family. � 2017 IEEE.
author2 56229894300
author_facet 56229894300
Bhaskar M.S.
Padmanaban S.
Maroti P.K.
Fedak V.
Blaabjerg F.
Ramachandaramurthy V.K.
format Conference Paper
author Bhaskar M.S.
Padmanaban S.
Maroti P.K.
Fedak V.
Blaabjerg F.
Ramachandaramurthy V.K.
spellingShingle Bhaskar M.S.
Padmanaban S.
Maroti P.K.
Fedak V.
Blaabjerg F.
Ramachandaramurthy V.K.
New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family
author_sort Bhaskar M.S.
title New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family
title_short New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family
title_full New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family
title_fullStr New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family
title_full_unstemmed New 2LC-Y DC-DC converter topologies for high-voltage/low-current renewable applications: New members of X-Y converter family
title_sort new 2lc-y dc-dc converter topologies for high-voltage/low-current renewable applications: new members of x-y converter family
publisher KoREMA
publishDate 2023
_version_ 1806427695222882304
score 13.222552