Title :
Emerging issues in the physics and control of electromigration in SnPb and Pb-free solder bumps
Author_Institution :
Unitive Electron., Inc., Research Triangle Park, NC, USA
Abstract :
Electromigration is the movement of metal atoms in the direction of current flow. It is caused by the transfer of momentum from the passing electrons to atoms in the lattice. First discovered in thin-film aluminum conductors some thirty years ago, electromigration is a significant concern for solder bumps on chip scale packages (CSP). As the understanding of solder electromigration expands, new opportunities for risk mitigation have emerged. This paper addresses the physics of electromigration in solders with particular emphasis on the time and temperature dependant factors that affect accelerated testing. Pb-based solders are contrasted with Pb-free solders by realizing that the microstructures of these solders are substantially different and the risks from electromigration are different as well.
Keywords :
chip scale packaging; crystal microstructure; electromigration; lead alloys; life testing; solders; tin alloys; Black´s equation; CSP solder bumps; Pb-based solders; Pb-free solder bumps; SnPb; accelerated testing time/temperature dependant factors; chip scale packages; grain structure; metal atom movement; passing electron momentum transfer; solder electromigration; solder microstructure; Aluminum; Chip scale packaging; Conductive films; Electromigration; Electrons; Lattices; Life estimation; Physics; Temperature dependence; Transistors;
Conference_Titel :
Electronics Packaging Technology, 2003 5th Conference (EPTC 2003)
Print_ISBN :
0-7803-8205-6
DOI :
10.1109/EPTC.2003.1271493
