Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis

Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis

Electric-based vehicles become a necessity in the future to dramatically reduce the effects of pollution. There are various devices involve in the operation of electric vehicles, one of which is a battery charger. This paper discusses the design steps, circuit and ripple performance analysis associa...

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Main Authors: Priambodo Purnomo Sidi, Adriadi Yosua, Kurniawan Taufiq Alif
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20186703044
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spelling doaj-1025e45331d643949ca0cfa085aeb7c52021-04-02T12:05:46ZengEDP SciencesE3S Web of Conferences2267-12422018-01-01670304410.1051/e3sconf/20186703044e3sconf_i-trec2018_03044Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysisPriambodo Purnomo SidiAdriadi YosuaKurniawan Taufiq AlifElectric-based vehicles become a necessity in the future to dramatically reduce the effects of pollution. There are various devices involve in the operation of electric vehicles, one of which is a battery charger. This paper discusses the design steps, circuit and ripple performance analysis associated with building a battery charger system. The analysis shows the differences between RL and RC circuits in controlling the output voltage average and the ripples. It shows how RLC mixed circuit improve performance in both controlling the output voltage average and the ripple suppression.https://doi.org/10.1051/e3sconf/20186703044
collection DOAJ
language English
format Article
sources DOAJ
author Priambodo Purnomo Sidi
Adriadi Yosua
Kurniawan Taufiq Alif
spellingShingle Priambodo Purnomo Sidi
Adriadi Yosua
Kurniawan Taufiq Alif
Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis
E3S Web of Conferences
author_facet Priambodo Purnomo Sidi
Adriadi Yosua
Kurniawan Taufiq Alif
author_sort Priambodo Purnomo Sidi
title Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis
title_short Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis
title_full Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis
title_fullStr Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis
title_full_unstemmed Transformerless SoC-based current control switching battery charger for e-vehicle: design and analysis
title_sort transformerless soc-based current control switching battery charger for e-vehicle: design and analysis
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2018-01-01
description Electric-based vehicles become a necessity in the future to dramatically reduce the effects of pollution. There are various devices involve in the operation of electric vehicles, one of which is a battery charger. This paper discusses the design steps, circuit and ripple performance analysis associated with building a battery charger system. The analysis shows the differences between RL and RC circuits in controlling the output voltage average and the ripples. It shows how RLC mixed circuit improve performance in both controlling the output voltage average and the ripple suppression.
url https://doi.org/10.1051/e3sconf/20186703044
work_keys_str_mv AT priambodopurnomosidi transformerlesssocbasedcurrentcontrolswitchingbatterychargerforevehicledesignandanalysis
AT adriadiyosua transformerlesssocbasedcurrentcontrolswitchingbatterychargerforevehicledesignandanalysis
AT kurniawantaufiqalif transformerlesssocbasedcurrentcontrolswitchingbatterychargerforevehicledesignandanalysis
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