Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers

Bibliographic Details
Main Author: Menke, Maikel F.
Publication Date: 2021
Other Authors: Alonso, J. Marcos, Tambara, Rodrigo V., Seidel, Álysson R.
Format: Article
Language: eng
Source: Eletrônica de Potência (Online)
Download full: https://journal.sobraep.org.br/index.php/rep/article/view/325
Summary: This paper presents a new hybrid dual-loop control system for the DC/DC LLC resonant converter, operating as a downstream DC/DC converter in a two independent stage offline LED driver. The outer loop employs a PI controller to maintain the average LED current regulated at the reference value and reject parametric variation. The inner loop implements an adaptive periodic disturbance rejection (APDR) subsystem, thus conceiving the hybrid PI\&APDR controller. The APDR subsystem is designed to strictly reject the bus voltage ripple and limit its transmission to the LED current. Experimental results show the proposed controller feasibility in achieving good tracking behavior, reduced output current ripple under different bus voltage ripple amplitude and frequency, robustness against parametric variations, and simple implementation and design. For the sake of completeness, the proposed PI&APDR is compared with the conventional proportional resonant controller employing experimental results and extra analysis based on simulations.
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spelling Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led DriversCurrent Ripple ReductionHybrid ControlLED DriverLLC Resonant ConverterThis paper presents a new hybrid dual-loop control system for the DC/DC LLC resonant converter, operating as a downstream DC/DC converter in a two independent stage offline LED driver. The outer loop employs a PI controller to maintain the average LED current regulated at the reference value and reject parametric variation. The inner loop implements an adaptive periodic disturbance rejection (APDR) subsystem, thus conceiving the hybrid PI\&APDR controller. The APDR subsystem is designed to strictly reject the bus voltage ripple and limit its transmission to the LED current. Experimental results show the proposed controller feasibility in achieving good tracking behavior, reduced output current ripple under different bus voltage ripple amplitude and frequency, robustness against parametric variations, and simple implementation and design. For the sake of completeness, the proposed PI&APDR is compared with the conventional proportional resonant controller employing experimental results and extra analysis based on simulations.SOBRAEP2021-09-30info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionPeer-revied Articleapplication/pdfhttps://journal.sobraep.org.br/index.php/rep/article/view/32510.18618/REP.2021.3.0010Eletrônica de Potência; Vol. 26 No. 3 (2021); 315-327Revista Eletrônica de Potência; v. 26 n. 3 (2021); 315-3271984-557X1414-8862reponame:Eletrônica de Potência (Online)instname:Associação Brasileira de Eletrônica de Potência (SOBRAEP)instacron:SOBRAEPenghttps://journal.sobraep.org.br/index.php/rep/article/view/325/292Copyright (c) 2021 Revista Eletrônica de Potênciainfo:eu-repo/semantics/openAccessMenke, Maikel F.Alonso, J. MarcosTambara, Rodrigo V.Seidel, Álysson R.2024-06-23T16:04:03Zoai:ojs2.journal.sobraep.org.br:article/325Revistahttps://journal.sobraep.org.br/index.php/rep/ONGhttps://journal.sobraep.org.br/index.php/rep/oaieditor@sobraep.org.br || presidente@sobraep.org.br || renatasousa@utfpr.edu.br1984-557X1414-8862opendoar:2024-06-23T16:04:03Eletrônica de Potência (Online) - Associação Brasileira de Eletrônica de Potência (SOBRAEP)false
dc.title.none.fl_str_mv Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
title Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
spellingShingle Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
Menke, Maikel F.
Current Ripple Reduction
Hybrid Control
LED Driver
LLC Resonant Converter
title_short Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
title_full Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
title_fullStr Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
title_full_unstemmed Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
title_sort Hybrid Dual-Loop Control for Current Regulation and Low-Frequency Ripple Rejection in Led Drivers
author Menke, Maikel F.
author_facet Menke, Maikel F.
Alonso, J. Marcos
Tambara, Rodrigo V.
Seidel, Álysson R.
author_role author
author2 Alonso, J. Marcos
Tambara, Rodrigo V.
Seidel, Álysson R.
author2_role author
author
author
dc.contributor.author.fl_str_mv Menke, Maikel F.
Alonso, J. Marcos
Tambara, Rodrigo V.
Seidel, Álysson R.
dc.subject.por.fl_str_mv Current Ripple Reduction
Hybrid Control
LED Driver
LLC Resonant Converter
topic Current Ripple Reduction
Hybrid Control
LED Driver
LLC Resonant Converter
description This paper presents a new hybrid dual-loop control system for the DC/DC LLC resonant converter, operating as a downstream DC/DC converter in a two independent stage offline LED driver. The outer loop employs a PI controller to maintain the average LED current regulated at the reference value and reject parametric variation. The inner loop implements an adaptive periodic disturbance rejection (APDR) subsystem, thus conceiving the hybrid PI\&APDR controller. The APDR subsystem is designed to strictly reject the bus voltage ripple and limit its transmission to the LED current. Experimental results show the proposed controller feasibility in achieving good tracking behavior, reduced output current ripple under different bus voltage ripple amplitude and frequency, robustness against parametric variations, and simple implementation and design. For the sake of completeness, the proposed PI&APDR is compared with the conventional proportional resonant controller employing experimental results and extra analysis based on simulations.
publishDate 2021
dc.date.none.fl_str_mv 2021-09-30
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
Peer-revied Article
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://journal.sobraep.org.br/index.php/rep/article/view/325
10.18618/REP.2021.3.0010
url https://journal.sobraep.org.br/index.php/rep/article/view/325
identifier_str_mv 10.18618/REP.2021.3.0010
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv https://journal.sobraep.org.br/index.php/rep/article/view/325/292
dc.rights.driver.fl_str_mv Copyright (c) 2021 Revista Eletrônica de Potência
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Copyright (c) 2021 Revista Eletrônica de Potência
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv SOBRAEP
publisher.none.fl_str_mv SOBRAEP
dc.source.none.fl_str_mv Eletrônica de Potência; Vol. 26 No. 3 (2021); 315-327
Revista Eletrônica de Potência; v. 26 n. 3 (2021); 315-327
1984-557X
1414-8862
reponame:Eletrônica de Potência (Online)
instname:Associação Brasileira de Eletrônica de Potência (SOBRAEP)
instacron:SOBRAEP
instname_str Associação Brasileira de Eletrônica de Potência (SOBRAEP)
instacron_str SOBRAEP
institution SOBRAEP
reponame_str Eletrônica de Potência (Online)
collection Eletrônica de Potência (Online)
repository.name.fl_str_mv Eletrônica de Potência (Online) - Associação Brasileira de Eletrônica de Potência (SOBRAEP)
repository.mail.fl_str_mv editor@sobraep.org.br || presidente@sobraep.org.br || renatasousa@utfpr.edu.br
_version_ 1833825916219817984

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