Title :
Underfilling fine pitch BGAs
Author :
Peng, Haiwei ; Johnson, R. Wayne ; Flowers, George T. ; Ricketts, Abbey-Gayle ; Yeager, Erin K. ; Konarski, Mark M. ; Torres-Filho, Afranio ; Crane, Lawrence
Author_Institution :
Lab. for Electron. Assembly & Packaging, Auburn Univ., AL, USA
fDate :
10/1/2001 12:00:00 AM
Abstract :
Fine pitch BGAs and chip scale packages have been developed as an alternative to direct flip chip attachment for high-density electronics. The larger solder sphere diameter and higher standoff of CSPs and fine pitch BGAs improve thermal cycle reliability while the larger pitch relaxes wiring congestion on the printed wiring board. Fine pitch BGAs and CSPs also allow rework to replace defective devices. Thermal cycle reliability has been shown to meet many consumer application requirements. However, fine pitch BGAs and CSPs have difficulty passing mechanical shock and substrate flexing tests for portable electronics applications. The fine pitch BGA used in the study was a 10 mm package with the die wire bonded. The package substrate was bismaleimide-triazine (BT) and the solder sphere diameter was 0.56 mm. Two types of underfill were examined. The first was a fast flow, snap cure underfill. This material rapidly flows under the package and can be cured in five minutes at 165°C using an in-line convection oven. The second underfill was a thermally reworkable underfill for those applications requiring device removal and replacement. The paper discusses the assembly and rework process. In addition, liquid-to-liquid thermal shock data is presented along with mechanical shock and flexing test results
Keywords :
ball grid arrays; bending; chip scale packaging; circuit reliability; encapsulation; fine-pitch technology; heat treatment; integrated circuit interconnections; lead bonding; maintenance engineering; mechanical testing; plastic packaging; printed circuit testing; soldering; thermal shock; thermal stresses; 0.56 mm; 10 mm; 165 C; 5 min; CSPs; assembly; bismaleimide-triazine package substrate; chip scale packages; consumer application requirements; defective devices; device removal; device replacement; direct flip chip attachment; fast flow snap cure underfill; fine pitch BGA underfilling; fine pitch BGAs; flexing test; high-density electronics; in-line convection oven; liquid-to-liquid thermal shock; mechanical shock; mechanical shock tests; package pitch; portable electronics applications; printed wiring board; rework; rework process; solder sphere diameter; standoff height; substrate flexing tests; thermal cycle reliability; thermally reworkable underfill; underfill curing; underfill flow; wire bonded die; wiring congestion; Bonding; Chip scale packaging; Electric shock; Electronic equipment testing; Electronic packaging thermal management; Flip chip; Ovens; Rapid thermal processing; Wire; Wiring;
Journal_Title :
Electronics Packaging Manufacturing, IEEE Transactions on
DOI :
10.1109/6104.980038
