Title :
Electromigration failures at Cu/Sn joint interface
Author_Institution :
Dept. of Chem. Eng. & Mater. Eng., Nat. Central Univ., Jhongli, Taiwan
fDate :
Feb. 27 2013-March 1 2013
Abstract :
Stressed by a high current density, several EM-induced reliability issues would likely occur at the flip-chip Cu/Sn joint interface. At the cathode interface, EM-induced Cu-pad consumption occurred at the current-entry point (maximum current-density) and voiding occurred at the other joint corner away from the current-entry point (minimum current-density). At the anode interface, EM-enhanced Kirkendall voids coalesced into a gap at the Cu3Sn/Cu interface near the current-exit corner. We believe that the above various EM-induced failure modes were resulted from different current-stressing densities at the joint interfaces. Also, a rare EM failure at the anode interface was found and would be discussed in this study.
Keywords :
copper; current density; electromigration; flip-chip devices; reliability; tin; Cu-Sn; Cu3Sn-Cu; EM-enhanced Kirkendall void; EM-induced failure mode; EM-induced reliability; anode interface; cathode interface; current density; current-entry point; current-stressing density; electromigration failure; flip-chip Cu-Sn joint interface; Abstracts; Anodes; Cathodes; Compounds; Flip-chip devices; Joints; Tin; Electromigration; Packaging;
Conference_Titel :
Advanced Packaging Materials (APM), 2013 IEEE International Symposium on
Conference_Location :
Irvine, CA
Print_ISBN :
978-1-4673-6093-7
Electronic_ISBN :
1550-5723
DOI :
10.1109/ISAPM.2013.6510381
