Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2

Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2

A DC-DC hybrid switched-capacitor LLC resonant converter integrating a ladder cell at the input of the LLC resonant converter using frequency modulation is proposed in this paper. This converter has six switches that are subjected to half the voltage of the input source. All switches commutate at ze...

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Bibliographic Details
Main Authors: Guilherme Martins Leandro, Ivo Barbi
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
DC-DC converter
LLC
resonant converter
switched-capacitor
zero voltage switching
Online Access:https://ieeexplore.ieee.org/document/9115031/
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spelling doaj-d90df160cfb64518a836917b07ab89f22021-03-30T02:05:45ZengIEEEIEEE Access2169-35362020-01-01811150411151310.1109/ACCESS.2020.30018349115031Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2Guilherme Martins Leandro0https://orcid.org/0000-0003-3553-4195Ivo Barbi1https://orcid.org/0000-0002-0917-2779Brazilian Power Electronics and Renewable Energy Institute (IBEPE), Florianópolis, BrazilFederal University of Santa Catarina (UFSC), Florianópolis, BrazilA DC-DC hybrid switched-capacitor LLC resonant converter integrating a ladder cell at the input of the LLC resonant converter using frequency modulation is proposed in this paper. This converter has six switches that are subjected to half the voltage of the input source. All switches commutate at zero voltage over the entire load range, and the diodes of the output rectifier bridge commutate at zero current. The proposed converter has the following characteristics: (a) symmetrical operation, (b) simple frequency modulation, (c) commutation of all switches at zero voltage, (d) all switches subjected to half the input voltage, and (e) static gain practically immune to load variations. Theoretical analysis, design, and experimental results in the laboratory for a prototype of 2 kW, 1000 VDC input, 48 VDC output, and 90 kHz switching frequency are included in this study. The maximum efficiency measured was 97.3%.https://ieeexplore.ieee.org/document/9115031/DC-DC converterLLCresonant converterswitched-capacitorzero voltage switching
collection DOAJ
language English
format Article
sources DOAJ
author Guilherme Martins Leandro
Ivo Barbi
spellingShingle Guilherme Martins Leandro
Ivo Barbi
Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2
IEEE Access
DC-DC converter
LLC
resonant converter
switched-capacitor
zero voltage switching
author_facet Guilherme Martins Leandro
Ivo Barbi
author_sort Guilherme Martins Leandro
title Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2
title_short Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2
title_full Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2
title_fullStr Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2
title_full_unstemmed Switched-Capacitor LLC Resonant DC-DC Converter With Switch Peak Voltage of Vin/2
title_sort switched-capacitor llc resonant dc-dc converter with switch peak voltage of vin/2
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description A DC-DC hybrid switched-capacitor LLC resonant converter integrating a ladder cell at the input of the LLC resonant converter using frequency modulation is proposed in this paper. This converter has six switches that are subjected to half the voltage of the input source. All switches commutate at zero voltage over the entire load range, and the diodes of the output rectifier bridge commutate at zero current. The proposed converter has the following characteristics: (a) symmetrical operation, (b) simple frequency modulation, (c) commutation of all switches at zero voltage, (d) all switches subjected to half the input voltage, and (e) static gain practically immune to load variations. Theoretical analysis, design, and experimental results in the laboratory for a prototype of 2 kW, 1000 VDC input, 48 VDC output, and 90 kHz switching frequency are included in this study. The maximum efficiency measured was 97.3%.
topic DC-DC converter
LLC
resonant converter
switched-capacitor
zero voltage switching
url https://ieeexplore.ieee.org/document/9115031/
work_keys_str_mv AT guilhermemartinsleandro switchedcapacitorllcresonantdcdcconverterwithswitchpeakvoltageofvin2
AT ivobarbi switchedcapacitorllcresonantdcdcconverterwithswitchpeakvoltageofvin2
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