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A transformer-less high-gain boost converter with input current ripple cancelation at a selectable duty cycle

A transformer-less high-gain boost converter with input current ripple cancelation at a selectable duty cycle
A transformer-less high-gain boost converter with input current ripple cancelation at a selectable duty cycle

This letter proposes a boost dc-dc converter topology with the novel capability of canceling the input current ripple at an arbitrarily preselected duty cycle. This is accomplished without increasing the count of the number of components in contrast to other solutions available in the literature. In addition, the converter features a high voltage gain without utilizing extreme values of duty cycle or boosting transformers. These features make the converter ideal to process electric power coming from low-voltage power-generating sources, such as renewables. This paper provides details on the principle of operation via topological considerations and a mathematical model. The key factor of reactive component sizing is also discussed in detail. The converter was validated in the laboratory through the construction of a hardware prototype.

Current ripple cancelation, dc/dc converters, power conversion, pulsewidth modulation
0278-0046
4492-4499
Rosas-Caro, Julio Cesar
8814ed10-b07c-438b-8cda-ed4eddb2b45e
Mancilla-David, Fernando
2b5a0c22-50d4-4d63-8e18-f3e99c578a7c
Mayo-Maldonado, Jonathan Carlos
c7321b60-3130-43f4-89f4-f12ac5b2f822
Gonzalez-Lopez, Juan Miguel
1d567414-1a6f-4764-9b6c-edee72ff1c5f
Torres-Espinosa, Hilda Lizeth
d8cb8a1d-842b-419a-98ad-7771151ec5f9
Valdez-Resendiz, Jesus Elias
b3ae7403-50bb-4b32-a7bf-d2d4646a5293
Rosas-Caro, Julio Cesar
8814ed10-b07c-438b-8cda-ed4eddb2b45e
Mancilla-David, Fernando
2b5a0c22-50d4-4d63-8e18-f3e99c578a7c
Mayo-Maldonado, Jonathan Carlos
c7321b60-3130-43f4-89f4-f12ac5b2f822
Gonzalez-Lopez, Juan Miguel
1d567414-1a6f-4764-9b6c-edee72ff1c5f
Torres-Espinosa, Hilda Lizeth
d8cb8a1d-842b-419a-98ad-7771151ec5f9
Valdez-Resendiz, Jesus Elias
b3ae7403-50bb-4b32-a7bf-d2d4646a5293

Rosas-Caro, Julio Cesar, Mancilla-David, Fernando, Mayo-Maldonado, Jonathan Carlos, Gonzalez-Lopez, Juan Miguel, Torres-Espinosa, Hilda Lizeth and Valdez-Resendiz, Jesus Elias (2013) A transformer-less high-gain boost converter with input current ripple cancelation at a selectable duty cycle. IEEE Transactions on Industrial Electronics, 60 (10), 4492-4499, [6257478]. (doi:10.1109/TIE.2012.2211314).

Record type: Article

Abstract

This letter proposes a boost dc-dc converter topology with the novel capability of canceling the input current ripple at an arbitrarily preselected duty cycle. This is accomplished without increasing the count of the number of components in contrast to other solutions available in the literature. In addition, the converter features a high voltage gain without utilizing extreme values of duty cycle or boosting transformers. These features make the converter ideal to process electric power coming from low-voltage power-generating sources, such as renewables. This paper provides details on the principle of operation via topological considerations and a mathematical model. The key factor of reactive component sizing is also discussed in detail. The converter was validated in the laboratory through the construction of a hardware prototype.

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More information

e-pub ahead of print date: 2 August 2012
Published date: October 2013
Keywords: Current ripple cancelation, dc/dc converters, power conversion, pulsewidth modulation

Identifiers

Local EPrints ID: 501219
URI: http://eprints.soton.ac.uk/id/eprint/501219
DOI: doi:10.1109/TIE.2012.2211314
ISSN: 0278-0046
PURE UUID: aeca493f-c6fb-4faf-b572-1f4822a86774
ORCID for Jonathan Carlos Mayo-Maldonado: ORCID iD orcid.org/0000-0003-2513-2395

Catalogue record

Date deposited: 27 May 2025 17:47
Last modified: 28 May 2025 02:18

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Contributors

Author: Julio Cesar Rosas-Caro
Author: Fernando Mancilla-David
Author: Jonathan Carlos Mayo-Maldonado ORCID iD
Author: Juan Miguel Gonzalez-Lopez
Author: Hilda Lizeth Torres-Espinosa
Author: Jesus Elias Valdez-Resendiz

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