A thermal, mechanical, and electrical study of voiding in the solder die-attach of power MOSFETs

Author

Katsis, D.C. ; vanWyk, J.D.

Author_Institution

U.S. Army Res. Lab., Adelphi, MD, USA

Volume

29

Issue

1

fYear

2006

fDate

3/1/2006 12:00:00 AM

Firstpage

127

Lastpage

136

Abstract

Large area die-attach defects have been shown to increase the thermal impedance of power semiconductor devices. The changes in thermal performance are simulated and measured in the silicon die using one-, two-, and three-dimensional methods. Experimental measurements for devices with various levels of die-attach void growth are presented. This data is then correlated with finite element thermal modeling to improve the estimate of peak die temperature for voided semiconductor devices. The results present a complete understanding of the heat flow within the voided semiconductor package with an estimate of its impact on performance over its lifetime.

Keywords

finite element analysis; power MOSFET; semiconductor device models; semiconductor device packaging; silicon; solders; thermal management (packaging); voids (solid); Si; die-attach void growth; finite element thermal modeling; heat flow; large area die-attach defects; peak die temperature; power MOSFET; power semiconductor devices; semiconductor device voids; solder die-attach voids; thermal impedance; thermal performance; Finite element methods; Impedance; Life estimation; Lifetime estimation; MOSFETs; Power semiconductor devices; Semiconductor device packaging; Semiconductor devices; Silicon; Temperature; Die-Attach; hot-spots; power electronics; thermal degradation;

fLanguage

English

Journal_Title

Components and Packaging Technologies, IEEE Transactions on

Publisher

ieee

ISSN

1521-3331

Type

jour

DOI

10.1109/TCAPT.2005.853301

Filename

1599502