Title :
Comparison of electromigration behaviors of SnAg and SnCu solders
Author :
Lu, Minhua ; Shih, Da-Yuan ; Goldsmith, Charles ; Wassick, Thomas
Author_Institution :
IBM T. J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
Two commonly used Pb-free solders, SnAg and SnCu, are studied for electromigration (EM) reliability. Two major EM failure mechanisms are identified in Sn-based Pb-free solders, which is mainly due to the differences in microstructures and Sn-grain orientation. In general, the EM damage in SnCu solder is driven by the fast interstitial diffusion of Ni and Cu away from solder/UBM interface and leads to early fails; while the damage in SnAg solders is mostly dominated by Sn-self diffusion resulting in longer lifetime. The effective activation energy is 0.95 eV for SnAg solder and 0.54 eV for SnCu solder. The current density power law exponent is 2 for SnAg and 1.2 for SnCu, respectively. Blech effect is observed in the solders with Sn-self diffusion dominated failures. The roles of Ag and Cu on EM performance will be discussed.
Keywords :
electromigration; flip-chip devices; reliability; solders; tin compounds; Pb-free solders; SnAg; SnAu; current density power law exponent; electromigration reliability; electron volt energy 0.54 eV; electron volt energy 0.95 eV; fast interstitial diffusion; flip chip packaging structures; microstructures; under-bump-metallurgy interface; Anisotropic magnetoresistance; Current density; Electromigration; Failure analysis; Flip chip; Lead; Microelectronics; Microstructure; Optical microscopy; Tin; Black´s law; Blech limit; Pb-free solder; activation energy; component; diffusion; electromigration;
Conference_Titel :
Reliability Physics Symposium, 2009 IEEE International
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4244-2888-5
Electronic_ISBN :
1541-7026
DOI :
10.1109/IRPS.2009.5173241
