DocumentCode
416054
Title
Flip chip electromigration: impact of test conditions in product life predictions
Author
Balkan, Haluk
Author_Institution
FlipChip Int., Phoenix, AZ, USA
Volume
1
fYear
2004
fDate
1-4 June 2004
Firstpage
983
Abstract
In this study, fundamentals of flip chip electromigration is reviewed for thin film UBM (Al/NiV/Cu) with SnPb eutectic, SnPbCu, and SnAgCu solder joint structures. Impact of key test conditions (i.e., temperature and current density) on the product life prediction is illustrated through the construction of governing equation, using empirical data collected at different test regimes. Significance of secondary failure mechanisms is also demonstrated in terms of test conditions and substrate pad selection. Obviously, tests conducted at elevated temperatures (150°C and above) with high current densities would provide results in short time. Since it involves mix mode failures (UBM consumption and electromigration), it would also yield most conservative predictions for operating conditions. Tests conducted at comparatively lower temperatures (105°C - 125°C) validate this claim and provide accurate predictions for most field conditions.
Keywords
copper alloys; current density; electromigration; eutectic alloys; flip-chip devices; lead alloys; life testing; reflow soldering; silver alloys; solders; tin alloys; SnAgCu; SnPb; SnPbCu; accelerated test; bump temperature; current density; daisy chain flip chip; design parameter; eutectic solder; flip chip electromigration; mean time-to-failure; product life predictions; test conditions impact; thin film UBM; Current density; Differential equations; Electromigration; Failure analysis; Flip chip; Life testing; Soldering; Substrates; Temperature; Transistors;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronic Components and Technology Conference, 2004. Proceedings. 54th
Print_ISBN
0-7803-8365-6
Type
conf
DOI
10.1109/ECTC.2004.1319459
Filename
1319459
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