Title :
Board level reliability of a waferlevel CSP using stacked solder spheres and a solder support structure (S3)
Author :
Simon, J. ; Reichl, H.
Author_Institution :
Tech. Univ. Berlin, Germany
Abstract :
Developing a CSP at waferlevel is a challenging task with respect to board level reliability. Board level reliability should be achieved in contrast to flip chip technology without underfilling. Of course the target of a CSP manufacturing technology at waferlevel is cost reduction. The S3-Diepack is a waferlevel CSP developed at the Technical University of Berlin within the European ESPRIT project ESCHETA. The S3-Diepack uses a redistribution layer to a achieve a standardized I/O-array and stacked solder spheres with a solder support structure (S3) to improve board level reliability. The S3-Diepack used in this investigation has a size of 10 mm×10 mm, 196 I/O´s and a pitch of 0.5 mm. Due to the stacked solder spheres a stand-off height of about 0.4 mm is achieved after assembly. 1000 cycles -40 to +100°C have been achieved on a thin FR5 board before electrical failure. Over 750 cycles -55 to +125°C were passed on thick FR4 board
Keywords :
chip scale packaging; integrated circuit reliability; soldering; -40 to 100 C; -55 to 125 C; ESCHETA; ESPRIT project; FR4 board; FR5 board; I/O array; S3-Diepack; board level reliability; manufacturing technology; redistribution layer; solder support structure; stacked solder sphere; thermal cycling; wafer-level CSP; Assembly; Bonding; Chip scale packaging; Costs; Flip chip; Manufacturing; Semiconductor device modeling; Silicon; Standardization; Stress;
Conference_Titel :
Electronic Components & Technology Conference, 2000. 2000 Proceedings. 50th
Conference_Location :
Las Vegas, NV
Print_ISBN :
0-7803-5908-9
DOI :
10.1109/ECTC.2000.853122
