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Title
Switching losses estimation for a push-pull converter based on analytical models considering parasitic elements
Other institutions
https://ror.org/03hp1m080Version
Published versionDocument type
Conference ObjectEmbargo end date
2143-01-01Language
EnglishRights
© 2023 IEEEAccess
Embargoed accessPublisher’s version
https://doi.org/10.23919/EPE23ECCEEurope58414.2023.10264274Published at
25th European Conference on Power Electronics and Applications 2023 EPE'23 ECCE Europe. Aalborg, DenmarkPublisher
IEEEKeywords
DC-DC converter
Device modelling
Hard switching
Parasitic elements ... [+]
Device modelling
Hard switching
Parasitic elements ... [+]
DC-DC converter
Device modelling
Hard switching
Parasitic elements
Power losses [-]
Device modelling
Hard switching
Parasitic elements
Power losses [-]
Subject (UNESCO Thesaurus)
Electronic technologySemiconductor
Abstract
This paper presents a comparative study of two analytical models for estimating the switching losses of a power MOSFET, considering different levels of parasitics integration. The study focuses on hig ... [+]
This paper presents a comparative study of two analytical models for estimating the switching losses of a power MOSFET, considering different levels of parasitics integration. The study focuses on high parasitic inductance scenarios, where the models exhibit notable differences. The models are applied to predict the switching losses of a power MOSFET in a push-pull converter with a high power loop inductance value. The predicted results are validated through experimental testing, and the findings are discussed in detail. This study contributes to the understanding of the impact of parasitic elements on power MOSFET switching losses, and offers insights for optimizing the power converter design. [-]
