Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit

Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit

In this paper, a multiphase sliding mode (MPSM) control method with a master–slave structure is proposed and analyzed in order to suppress ripples at input terminals or output terminals in DC/DC converter applications. With the proposed MPSM, the switching frequency of a multiphase DC/DC converter d...

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Bibliographic Details
Main Authors: Woonki Na, Pengyuan Chen, Jonghoon Kim
Format: Article
Language:English
Published: MDPI AG 2017-09-01
Series:Energies
Subjects:
sliding mode control
master–slave structure
multiphase converter
DSP
Online Access:https://www.mdpi.com/1996-1073/10/9/1389
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spelling doaj-4aeaa627830041cd8ce6f5e62b5807ac2020-11-24T20:49:02ZengMDPI AGEnergies1996-10732017-09-01109138910.3390/en10091389en10091389Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC CircuitWoonki Na0Pengyuan Chen1Jonghoon Kim2Electrical and Computer Engineering, California State University, Fresno 93740, CA, USAElectrical and Computer Engineering, California State University, Fresno 93740, CA, USAElectrical Engineering, Chungnam National University, Daejeon 34134, KoreaIn this paper, a multiphase sliding mode (MPSM) control method with a master–slave structure is proposed and analyzed in order to suppress ripples at input terminals or output terminals in DC/DC converter applications. With the proposed MPSM, the switching frequency of a multiphase DC/DC converter does not need to be operating such a high switching frequency as adopted in a conventional sliding mode control-based DC/DC converter. As a result, switching power losses could be reduced in this converter. Another advantage of this proposed method is that the master–slave multiphase slide control loop could figure out a proper phase shift between each switching phase of a DC/DC converter instead of precalculated phase shift. The proposed concepts are proven by the PSIM computer simulations and the feasibility of the proposed concepts is validated through the test experiments.https://www.mdpi.com/1996-1073/10/9/1389sliding mode controlmaster–slave structuremultiphase converterDSP
collection DOAJ
language English
format Article
sources DOAJ
author Woonki Na
Pengyuan Chen
Jonghoon Kim
spellingShingle Woonki Na
Pengyuan Chen
Jonghoon Kim
Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit
Energies
sliding mode control
master–slave structure
multiphase converter
DSP
author_facet Woonki Na
Pengyuan Chen
Jonghoon Kim
author_sort Woonki Na
title Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit
title_short Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit
title_full Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit
title_fullStr Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit
title_full_unstemmed Elimination of Chattering by Control Strategy Based on the Multiphase Sliding Model Control for Efficient Power Conversion in a DC-DC Circuit
title_sort elimination of chattering by control strategy based on the multiphase sliding model control for efficient power conversion in a dc-dc circuit
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2017-09-01
description In this paper, a multiphase sliding mode (MPSM) control method with a master–slave structure is proposed and analyzed in order to suppress ripples at input terminals or output terminals in DC/DC converter applications. With the proposed MPSM, the switching frequency of a multiphase DC/DC converter does not need to be operating such a high switching frequency as adopted in a conventional sliding mode control-based DC/DC converter. As a result, switching power losses could be reduced in this converter. Another advantage of this proposed method is that the master–slave multiphase slide control loop could figure out a proper phase shift between each switching phase of a DC/DC converter instead of precalculated phase shift. The proposed concepts are proven by the PSIM computer simulations and the feasibility of the proposed concepts is validated through the test experiments.
topic sliding mode control
master–slave structure
multiphase converter
DSP
url https://www.mdpi.com/1996-1073/10/9/1389
work_keys_str_mv AT woonkina eliminationofchatteringbycontrolstrategybasedonthemultiphaseslidingmodelcontrolforefficientpowerconversioninadcdccircuit
AT pengyuanchen eliminationofchatteringbycontrolstrategybasedonthemultiphaseslidingmodelcontrolforefficientpowerconversioninadcdccircuit
AT jonghoonkim eliminationofchatteringbycontrolstrategybasedonthemultiphaseslidingmodelcontrolforefficientpowerconversioninadcdccircuit
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