An evaluation on industrial applications using leakage inductance and series capacitance converter

An evaluation on industrial applications using leakage inductance and series capacitance converter

The Leakage Inductance and Series Capacitance (LLSC) resonant converters are exhaustively employed in a wide assortment of industries involving consumer electronics due to their benefits of good efficiency, higher power density, immunity to electromagnetic interference, low EMI and harmonic distort...

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Main Authors: Gundala Srinivasa Rao, Tellapati Anuradha Devi, KAMBHAMPATI VENKATA GOVARDHA Rao, Thalanki Venkata Sai Kalyani, Malligunta Kiran Kumar, B. Srikanth Goud, K. S. Bhargavi, CH Naga Sai Kalyan, Srungaram Ravi Teja, M. Sai Prasad Reddy
Format: Article
Language:English
Published: Universidad Tecnologica de Bolivar 2025-02-01
Series:TESEA, Transactions on Energy Systems and Engineering Applications
Subjects:
Leakage Inductance and Series Capacitance (LLSC)
Resonant converters
Industrial electronics
Online Access:https://192.168.6.36/tesea/article/view/574
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author Gundala Srinivasa Rao
Tellapati Anuradha Devi
KAMBHAMPATI VENKATA GOVARDHA Rao
Thalanki Venkata Sai Kalyani
Malligunta Kiran Kumar
B. Srikanth Goud
K. S. Bhargavi
CH Naga Sai Kalyan
Srungaram Ravi Teja
M. Sai Prasad Reddy
author_facet Gundala Srinivasa Rao
Tellapati Anuradha Devi
KAMBHAMPATI VENKATA GOVARDHA Rao
Thalanki Venkata Sai Kalyani
Malligunta Kiran Kumar
B. Srikanth Goud
K. S. Bhargavi
CH Naga Sai Kalyan
Srungaram Ravi Teja
M. Sai Prasad Reddy
author_sort Gundala Srinivasa Rao
collection DOAJ
description The Leakage Inductance and Series Capacitance (LLSC) resonant converters are exhaustively employed in a wide assortment of industries involving consumer electronics due to their benefits of good efficiency, higher power density, immunity to electromagnetic interference, low EMI and harmonic distortion, wide production extends, voltage stress is lowered and frequency at high operating characteristic. Three of the most prominent converters with LLSC topologies are explored along with thorough analyses of their merits and disadvantages. The background of LLSC resonant converters are also discussed. A significant amount of research is also being done regarding large - scale production of LLSC resonant converters, namely in order to charge electric automobiles (EVs), solar systems, LED lighting drivers, and power supply for LCD TVs. Eventually, the growth of LLSC resonant converter is explained.
format Article
id doaj-art-802028862b7943229bb5966ee42fc6de
institution Kabale University
issn 2745-0120
language English
publishDate 2025-02-01
publisher Universidad Tecnologica de Bolivar
record_format Article
series TESEA, Transactions on Energy Systems and Engineering Applications
spelling doaj-art-802028862b7943229bb5966ee42fc6de2025-02-11T11:27:05ZengUniversidad Tecnologica de BolivarTESEA, Transactions on Energy Systems and Engineering Applications2745-01202025-02-016110.32397/tesea.vol6.n1.574An evaluation on industrial applications using leakage inductance and series capacitance converterGundala Srinivasa Rao0Tellapati Anuradha Devi1KAMBHAMPATI VENKATA GOVARDHA Rao2Thalanki Venkata Sai Kalyani3Malligunta Kiran Kumar4B. Srikanth Goud5K. S. Bhargavi6CH Naga Sai Kalyan7Srungaram Ravi Teja8M. Sai Prasad Reddy9CMR college of engineering & technologyVardhaman College of EngineeringSt. Martin's Engineering CollegeSt. Martin’s Engineering CollegeKoneru Lakshmaiah Education FoundationAnurag UniversityVignan institute of technology and scienceVasireddy Venkatadri Institute of TechnologyKoneru Lakshmaiah Education FoundationVignana Bharathi Institute of Technology The Leakage Inductance and Series Capacitance (LLSC) resonant converters are exhaustively employed in a wide assortment of industries involving consumer electronics due to their benefits of good efficiency, higher power density, immunity to electromagnetic interference, low EMI and harmonic distortion, wide production extends, voltage stress is lowered and frequency at high operating characteristic. Three of the most prominent converters with LLSC topologies are explored along with thorough analyses of their merits and disadvantages. The background of LLSC resonant converters are also discussed. A significant amount of research is also being done regarding large - scale production of LLSC resonant converters, namely in order to charge electric automobiles (EVs), solar systems, LED lighting drivers, and power supply for LCD TVs. Eventually, the growth of LLSC resonant converter is explained. https://192.168.6.36/tesea/article/view/574Leakage Inductance and Series Capacitance (LLSC)Resonant convertersIndustrial electronics
spellingShingle Gundala Srinivasa Rao
Tellapati Anuradha Devi
KAMBHAMPATI VENKATA GOVARDHA Rao
Thalanki Venkata Sai Kalyani
Malligunta Kiran Kumar
B. Srikanth Goud
K. S. Bhargavi
CH Naga Sai Kalyan
Srungaram Ravi Teja
M. Sai Prasad Reddy
An evaluation on industrial applications using leakage inductance and series capacitance converter
TESEA, Transactions on Energy Systems and Engineering Applications
Leakage Inductance and Series Capacitance (LLSC)
Resonant converters
Industrial electronics
title An evaluation on industrial applications using leakage inductance and series capacitance converter
title_full An evaluation on industrial applications using leakage inductance and series capacitance converter
title_fullStr An evaluation on industrial applications using leakage inductance and series capacitance converter
title_full_unstemmed An evaluation on industrial applications using leakage inductance and series capacitance converter
title_short An evaluation on industrial applications using leakage inductance and series capacitance converter
title_sort evaluation on industrial applications using leakage inductance and series capacitance converter
topic Leakage Inductance and Series Capacitance (LLSC)
Resonant converters
Industrial electronics
url https://192.168.6.36/tesea/article/view/574
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