Title :
Reliability improvements in solder bump processing for flip chips
Author :
Warrior, Mohandas
Author_Institution :
Motorola Inc., Mesa, AZ, USA
Abstract :
A plated solder-bump process used for the manufacture of high-reliability flip chips is described. Characterization work done to improve the process manufacturability and the resulting product reliability gains are reviewed. Two detailed studies of the thin-film deposition conditions and the Cu pedestal plating parameters are described. Recommendations implemented as a result of these studies have reduced the bump-interconnect-failure level from a defect rate of ~500 p.p.m. to <10 p.p.m. Excellent temperature cycling performance of assembled hybrids was obtained. The process has been used in high-volume production to manufacture ICs used in automobiles (under-hood application). In process capability has improved from a Cp<1 to Cp>1.5. This work highlights the need and the benefits of detailed characterization, which results in more robust manufacturing processes and eventually in more reliable product performance
Keywords :
automotive electronics; flip-chip devices; integrated circuit manufacture; reliability; soldering; Cu pedestal plating parameters; ICs used in automobiles; assembled hybrids; bump-interconnect-failure level; characterization; flip chips; high-reliability flip chips; high-volume production; in-process capability; plated solder-bump process; process manufacturability; product reliability gains; reliability improvements; reliable product performance; robust manufacturing processes; solder bump processing; temperature cycling performance; thin-film deposition conditions; under-hood application; Assembly; Copper; Flip chip; Integrated circuit interconnections; Integrated circuit reliability; Lead; Manufacturing processes; Resists; Sputtering; Tin;
Conference_Titel :
Electronic Components and Technology Conference, 1990. ., 40th
Conference_Location :
Las Vegas, NV
DOI :
10.1109/ECTC.1990.122229
