Title :
Taguchi design of experiment for wafer bumping by stencil printing
Author :
Lau, John H. ; Chang, Chris
Author_Institution :
Express Packaging Syst. Inc., Palo Alto, CA, USA
fDate :
7/1/2000 12:00:00 AM
Abstract :
Taguchi experiments are designed and carried out with five critical factors that influence the solder bumping of a 200 mm (8 in) wafer by the stencil printing method. These factors are: paste types, squeeze forces, snap-off heights, aperture shapes, and aspect ratios. They are varied to form a two-level L8 orthogonal array experiment. Analysis of mean (ANOM) and analysis of variance (ANOVA) are used to choose the most influential factors. After fixing the most influential factors, a two-level L4 orthogonal array experiment is followed to optimize the remaining material and process parameters. Important results are summarized in this paper which could be very useful for wafer bumping with the stencil printing method
Keywords :
data analysis; design of experiments; flip-chip devices; microassembling; printed circuit manufacture; printing; reflow soldering; surface mount technology; 200 mm; SMT; Taguchi design of experiments; analysis of mean; analysis of variance; aperture shapes; aspect ratios; paste types; snap-off heights; solder bumping; solder-bumped flip-chip technology; squeeze forces; stencil printing; two-level L4 orthogonal array experiment; two-level L8 orthogonal array experiment; wafer bumping; wafer-level packaging; Analysis of variance; Apertures; Copper; Electronics packaging; Flip chip; Heart; Manufacturing; Printing; Shape; Wafer scale integration;
Journal_Title :
Electronics Packaging Manufacturing, IEEE Transactions on
DOI :
10.1109/6104.873251
