Title :
Electromigration studies on Sn(Cu) alloy lines
Author :
Lu, C.C. ; Wang, S.J. ; Liu, C.Y.
Author_Institution :
Dept. of Chem. Eng. & Mater. Eng., Nat. Central Univ., Chung-li, Taiwan
Abstract :
Cu alloying effect in Sn(Cu) solder line has been studied. We found that the SnO.7Cu solder line has the most serious EM damage than pure Sn and Sn3.0Cu solder lines. The dominant factor for the fast EM rate in SnO.7Cu could be attributed to the relatively small grain size and the low critical stress, i.e., the yielding stress of SnO.7Cu solder line. Also, we found that the shortest SnO.7Cu solder line, 250 μm, has most serious EM damage among three solder lines of different lengths. The back-stress induced by EM might not play a significant role on the EM test of long solder lines. A new failure mode of EM test, i.e., EM under an external tensile, was observed. The external stress would be superimposed on the stress profile induced by EM. As a result, the hillock formation at the anode side was retarded and void formation at the cathode was enhanced.
Keywords :
cathodes; copper alloys; electromigration; failure analysis; solders; stress analysis; tin alloys; voids (solid); Cu alloying effect; EM rate; SnCu; alloy lines; cathode; electromigration; external stress; failure mode; hillock formation; solder line; stress profile; void formation; Alloying; Chemical engineering; Copper alloys; Current density; Electromigration; Grain size; Microelectronics; Tensile stress; Testing; Tin;
Conference_Titel :
Advanced Packaging Materials: Processes, Properties and Interfaces, 2005. Proceedings. International Symposium on
Print_ISBN :
0-7803-9085-7
Electronic_ISBN :
1550-5723
DOI :
10.1109/ISAPM.2005.1432045
