Mechanical design and analysis of direct plated copper film on AlN substrates for thermal reliability in high power module applications

C. H. Lin, P. S. Huang, M. Y. Tsai*, C. T. Wu, S. C. Hu

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

3 Scopus citations

Abstract

For the high-power module applications, direct-plated-copper (DPC) aluminum nitride (AlN) substrate with a high thermal conductivity provide a good alternative to conventional aluminum oxide (Al2O3) substrate for better heat dissipation. However, the DPC AlN substrate suffers the delamination failures between Cu film and AlN substrate during thermal cycling, due to the higher thermal expansion coefficient mismatch with copper material. This study is to resolve the delamination problem of DPC AlN substrate during thermal cycling and further to provide important parameters for mechanical design for ensuring good thermal reliability. Prior to the analysis, the out-of-plane deformation measurement of a Cu-AlN bi-material plate subject to the solder reflow heating and cooling is conducted for evaluating the material property of the plated Cu film and residual stresses induced from the manufacturing and solder reflow process. The results show the hysteresis and Bauschinger-like behaviors for the Cu-AlN plate during the solder reflow heating and cooling. It is also found from finite element simulation that the Cu-film wedge angle and thickness significantly affect the maximum principal stress of AlN during thermal cyclic loading, and the predicted failure mode based on the maximum principal stress is consistent with experimental observation. The other factors, such as single-side and double-side Cu-film (sandwich-structure-alike) substrates and length difference of Cu film, will be presented and discussed as well.

Original languageEnglish
Title of host publicationICEP-IAAC 2015 - 2015 International Conference on Electronic Packaging and iMAPS All Asia Conference
PublisherInstitute of Electrical and Electronics Engineers Inc.
Pages185-188
Number of pages4
ISBN (Electronic)9784904090138
DOIs
StatePublished - 20 05 2015
Event2015 International Conference on Electronic Packaging and iMAPS All Asia Conference, ICEP-IAAC 2015 - Kyoto, Japan
Duration: 14 04 201517 04 2015

Publication series

NameICEP-IAAC 2015 - 2015 International Conference on Electronic Packaging and iMAPS All Asia Conference

Conference

Conference2015 International Conference on Electronic Packaging and iMAPS All Asia Conference, ICEP-IAAC 2015
Country/TerritoryJapan
CityKyoto
Period14/04/1517/04/15

Bibliographical note

Publisher Copyright:
© 2015 The Japan Institute of Electronics Packaging.

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