Novel immense configurations of boost converter for renewable energy application

Pandav Kiran Maroti, Padmanaban Sanjeevikumar, Frede Blaabjerg, Dan M. Ionel, Patrick Wheeler

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

Resumé

A three-immense configurations of boost converter for renewable energy application is presented here. The voltage lift switched inductor (VLSI) structure is pledged to extra high-voltage conversion. The proposed work represents the modified high-voltage conversion boost converter (MBC) and its three configuration with VLSI module namely, modified boost converter with XL configuration (MBC VLSI -XL), modified boost converter with LY configuration (MBC VLSI -LY), and modified boost converter with XY configuration (MBC VLSI -XY). The advantages of proposed converter configurations are (i) immense voltage conversion ratio for high-voltage and low-current renewable energy applications; (ii) single switch topologies; and (iii) input inductor to avoid reverse current flow from load to source. The detail mathematical analysis of proposed configurations is carried out with and without considering the internal voltage drop across the circuit components. The comparative investigation is carried out with existed high-voltage conversion ratio topologies. The Matlab simulation results validates the working of proposed MBC configurations.
OriginalsprogEngelsk
TidsskriftThe Journal of Engineering
Vol/bind2019
Udgave nummer18
Sider (fra-til)4884 - 4889
Antal sider6
ISSN2051-3305
DOI
StatusUdgivet - jul. 2019

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Electric potential
Topology
Switches
Networks (circuits)

Citer dette

Maroti, Pandav Kiran ; Sanjeevikumar, Padmanaban ; Blaabjerg, Frede ; Ionel, Dan M. ; Wheeler, Patrick. / Novel immense configurations of boost converter for renewable energy application. I: The Journal of Engineering. 2019 ; Bind 2019, Nr. 18. s. 4884 - 4889.
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title = "Novel immense configurations of boost converter for renewable energy application",
abstract = "A three-immense configurations of boost converter for renewable energy application is presented here. The voltage lift switched inductor (VLSI) structure is pledged to extra high-voltage conversion. The proposed work represents the modified high-voltage conversion boost converter (MBC) and its three configuration with VLSI module namely, modified boost converter with XL configuration (MBC VLSI -XL), modified boost converter with LY configuration (MBC VLSI -LY), and modified boost converter with XY configuration (MBC VLSI -XY). The advantages of proposed converter configurations are (i) immense voltage conversion ratio for high-voltage and low-current renewable energy applications; (ii) single switch topologies; and (iii) input inductor to avoid reverse current flow from load to source. The detail mathematical analysis of proposed configurations is carried out with and without considering the internal voltage drop across the circuit components. The comparative investigation is carried out with existed high-voltage conversion ratio topologies. The Matlab simulation results validates the working of proposed MBC configurations.",
author = "Maroti, {Pandav Kiran} and Padmanaban Sanjeevikumar and Frede Blaabjerg and Ionel, {Dan M.} and Patrick Wheeler",
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Novel immense configurations of boost converter for renewable energy application. / Maroti, Pandav Kiran; Sanjeevikumar, Padmanaban; Blaabjerg, Frede; Ionel, Dan M. ; Wheeler, Patrick.

I: The Journal of Engineering, Bind 2019, Nr. 18, 07.2019, s. 4884 - 4889.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

TY - JOUR

T1 - Novel immense configurations of boost converter for renewable energy application

AU - Maroti, Pandav Kiran

AU - Sanjeevikumar, Padmanaban

AU - Blaabjerg, Frede

AU - Ionel, Dan M.

AU - Wheeler, Patrick

PY - 2019/7

Y1 - 2019/7

N2 - A three-immense configurations of boost converter for renewable energy application is presented here. The voltage lift switched inductor (VLSI) structure is pledged to extra high-voltage conversion. The proposed work represents the modified high-voltage conversion boost converter (MBC) and its three configuration with VLSI module namely, modified boost converter with XL configuration (MBC VLSI -XL), modified boost converter with LY configuration (MBC VLSI -LY), and modified boost converter with XY configuration (MBC VLSI -XY). The advantages of proposed converter configurations are (i) immense voltage conversion ratio for high-voltage and low-current renewable energy applications; (ii) single switch topologies; and (iii) input inductor to avoid reverse current flow from load to source. The detail mathematical analysis of proposed configurations is carried out with and without considering the internal voltage drop across the circuit components. The comparative investigation is carried out with existed high-voltage conversion ratio topologies. The Matlab simulation results validates the working of proposed MBC configurations.

AB - A three-immense configurations of boost converter for renewable energy application is presented here. The voltage lift switched inductor (VLSI) structure is pledged to extra high-voltage conversion. The proposed work represents the modified high-voltage conversion boost converter (MBC) and its three configuration with VLSI module namely, modified boost converter with XL configuration (MBC VLSI -XL), modified boost converter with LY configuration (MBC VLSI -LY), and modified boost converter with XY configuration (MBC VLSI -XY). The advantages of proposed converter configurations are (i) immense voltage conversion ratio for high-voltage and low-current renewable energy applications; (ii) single switch topologies; and (iii) input inductor to avoid reverse current flow from load to source. The detail mathematical analysis of proposed configurations is carried out with and without considering the internal voltage drop across the circuit components. The comparative investigation is carried out with existed high-voltage conversion ratio topologies. The Matlab simulation results validates the working of proposed MBC configurations.

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DO - 10.1049/joe.2018.9357

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JO - The Journal of Engineering

JF - The Journal of Engineering

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