Title :
Fluxless bump reflow using carboxylic acid
Author :
Matsuki, Hinohisa ; Matsui, HIroyuki ; Watanabe, Eiji
Author_Institution :
LSI Packaging Dev. Div., Fujitsu Ltd., Tado, Japan
Abstract :
We have established a new fluxless reflow technology and realized an organic solvent free wafer bump forming process. Some carboxylic acids have been used in order to reduce oxidized films on solder bumps of both eutectic and high lead tin types. We found that formic acid was most suitable for stripping of the oxidized films. To obtain good bump shape with this method, it is important to optimize the timing of supply of the acid to the vehicle, the maximum temperature, and the method used to reduce the formic acid on the vehicle. Bump shape, voids, shear strength, and the surface condition of the bumps have been researched with the vehicles obtained. The bumps which were formed by our new technology compare favourably to those formed by conventional reflow processing. The advantages of this technology are: (1) reduced material cost, e.g. flux and organic solvent; (2) environmentally friendly reflow process
Keywords :
assembling; flip-chip devices; integrated circuit packaging; microassembling; organic compounds; oxidation; reduction (chemical); reflow soldering; shear strength; voids (solid); SnPb; acid supply timing; bump shape; bump surface condition; carboxylic acid; environmentally friendly reflow process; eutectic solder bumps; flux; fluxless bump reflow; fluxless reflow technology; formic acid; formic acid reduction; high lead tin solder bumps; material cost; maximum temperature; organic solvent; organic solvent free wafer bump forming process; oxidized film reduction; oxidized film stripping; reflow processing; shear strength; solder bumps; test vehicles; voids; Costs; Lead; Optimization methods; Organic materials; Shape; Solvents; Temperature; Timing; Tin; Vehicles;
Conference_Titel :
Advanced Packaging Materials: Processes, Properties and Interfaces, 2001. Proceedings. International Symposium on
Conference_Location :
Braselton, GA
Print_ISBN :
0-930815-64-5
DOI :
10.1109/ISAOM.2001.916563
