DocumentCode
649517
Title
Investigation of Delphi compact thermal model style for modeling surface-mounted Soft Magnetic Composite inductor
Author
Monier-Vinard, Eric ; Bissuel, Valentin ; Dia, Cheikh Tidiane ; Daniel, Olivier ; Laraqi, Najib
Author_Institution
Thales Global Services, Meudon La Foret, France
fYear
2013
fDate
25-27 Sept. 2013
Firstpage
315
Lastpage
318
Abstract
Recent works on System-In-Package component pointed out that its in-package inductor is the hottest part. It occurs that thermal stresses due to joule heating and magnetic losses can be damaging. The present study focuses on low profile, surface-mounted, Soft Magnetic Composite inductors to define their thermal behaviour and then to propose a guideline to create pertinent models.Results highlight the impact of thermal conductivity of composite core on temperatures and the lack of properties data of iron-resin mixtures. Using mixture model, a calculation of effective thermal conductivity is proposed.To minimize the expensive meshing of the fine detailed simulations and the computation time, a novel Compact Thermal Model for inductor, based on DELPHI methodology, was established. The predictions of CTM model show good agreement, less than 10% of divergence. Further works must be done to really master the coupled interaction of magnetic, joule effect, thermal phenomenon as well as material properties.
Keywords
inductors; soft magnetic materials; surface mount technology; thermal conductivity; thermal management (packaging); DELPHI methodology; Delphi compact thermal model style; composite core; in-package inductor; iron-resin mixtures; joule heating; magnetic losses; mixture model; surface-mounted soft magnetic composite inductors; system-in-package component; thermal conductivity; thermal stresses;
fLanguage
English
Publisher
ieee
Conference_Titel
Thermal Investigations of ICs and Systems (THERMINIC), 2013 19th International Workshop on
Conference_Location
Berlin
Print_ISBN
978-1-4799-2271-0
Type
conf
DOI
10.1109/THERMINIC.2013.6675210
Filename
6675210
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