4.4 Article

Reliable and repeatable bonding technology for high temperature automotive power modules for electrified vehicles

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IOP PUBLISHING LTD
DOI: 10.1088/0960-1317/23/1/015017

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This paper presents the feasibility of highly reliable and repeatable copper-tin transient liquid phase (Cu-Sn TLP) bonding as applied to die attachment in high temperature operational power modules. Electrified vehicles are attracting particular interest as eco-friendly vehicles, but their power modules are challenged because of increasing power densities which lead to high temperatures. Such high temperature operation addresses the importance of advanced bonding technology that is highly reliable (for high temperature operation) and repeatable (for fabrication of advanced structures). Cu-Sn TLP bonding is employed herein because of its high remelting temperature and desirable thermal and electrical conductivities. The bonding starts with a stack of Cu-Sn-Cu metal layers that eventually transforms to Cu-Sn alloys. As the alloys have melting temperatures (Cu3Sn: > 600 degrees C, Cu6Sn5: > 400 degrees C) significantly higher than the process temperature, the process can be repeated without damaging previously bonded layers. A Cu-Sn TLP bonding process was developed using thin Sn metal sheets inserted between copper layers on silicon die and direct bonded copper substrates, emulating the process used to construct automotive power modules. Bond quality is characterized using (1) proof-of-concept fabrication, (2) material identification using scanning electron microscopy and energy-dispersive x-ray spectroscopy analysis, and (3) optical analysis using optical microscopy and scanning acoustic microscope. The feasibility of multiple-sided Cu-Sn TLP bonding is demonstrated by the absence of bondline damage in multiple test samples fabricated with double-or four-sided bonding using the TLP bonding process.

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