Die size and thickness of IC substrate typically vary as a result of the various market demands while the semiconductor process and the product applications develop fast. In order to satisfy the market concerns, the improvement of wafer grinding and dicing saw technology is necessary to provide lighter, thinner and more reliable ICs. Generally, most of previous commercial ICs almost demonstrate the square profile, but some special applications such as liquid-crystal-display (LCD) driver ICs request approximate rectangle shape. Furthermore, the ratios of length / width of these drivers are near 14:1, therefore, it is easy to be broken during IC assembly process and induce some reliability defects. However, the growth rate of digital panel displays is gradually increased. This global market is more and more impressed. In this study, how to promote the die strength and investigate the wafer grinding process for the previous LCD products is the main target. Through the analysis of data collection in die sizes, the suitable wafer grinding process is recommended in assembly line and some predictable trends for future panel IC applications are also exposed.Copyright © 2008 by ASME
[1]
Tien-Yu Tom Lee,et al.
An overview of experimental methodologies and their applications for die strength measurement
,
2003
.
[2]
B. H. Yeung,et al.
Assessment of backside processes through die strength evaluation
,
2000
.
[3]
Chang-Kyu Chung,et al.
Effect of Conductive Particle Properties on the Reliability of Anisotropic Conductive Film for Chip-on-Glass Applications
,
2007,
IEEE Transactions on Electronics Packaging Manufacturing.
[4]
M. Tsai,et al.
Testing and Evaluation of Silicon Die Strength
,
2007,
IEEE Transactions on Electronics Packaging Manufacturing.