Improved reliability in small multichip ball grid arrays

Abstract The subject of this paper is a 14×22 mm ball grid array (BGA) integrated circuit assembly containing two or three chips. Three failure modes came to light in the reliability testing of this BGA package: delamination of solder resist from the top copper layer occurred in moisture resistance testing; cracking of the top layer solder resist and consequent cracking of the top copper layer occurred in temperature cycling; and cracking of the bottom layer solder resist which propagated into the bottom copper layer occurred in thermal shock. The failure analysis techniques used to disclose these failures are presented. Finite element analysis of thermomechanical stress within the multichip structure was carried out. The purpose was to find the root cause of one of the failure modes and to explore possible means of overcoming the stress damage. The characteristics of the original and modified substrate layout designs are detailed. The improved performance in reliability testing is compared with the original. All failure modes were eliminated in the final design, and the product was qualified to greatly improved reliability standards.

[1]  E. Egan,et al.  PBGA warpage and stress prediction for efficient creation of the thermomechanical design space for package-level reliability , 1999, 1999 Proceedings. 49th Electronic Components and Technology Conference (Cat. No.99CH36299).

[2]  B. Szabó Mesh design for the p-version of the finite element method , 1986 .

[3]  Tsorng-Dih Yuan,et al.  Integrated flow-thermomechanical and reliability analysis of a low air cooled flip chip-PBGA package , 1998, 1998 Proceedings. 48th Electronic Components and Technology Conference (Cat. No.98CH36206).

[4]  Failure analysis and stress simulation in small multichip BGAs , 2000, 2000 IEEE International Reliability Physics Symposium Proceedings. 38th Annual (Cat. No.00CH37059).

[5]  Gerard Kelly The Simulation of Thermomechanically Induced Stress in Plastic Encapsulated IC Packages , 1999 .

[6]  Young-shin Kwon,et al.  Popcorn phenomena in a ball grid array package , 1994, 1994 Proceedings. 44th Electronic Components and Technology Conference.

[7]  L. L. Mercado,et al.  Predictive design of flip-chip PBGA for high reliability and low cost , 1999, 1999 Proceedings. 49th Electronic Components and Technology Conference (Cat. No.99CH36299).

[8]  B. Szabó,et al.  Numerical analysis of stress singularities in composite materials , 1989 .

[9]  Patrick McCluskey,et al.  Popcorning in PBGA Packages During IR Reflow Soldering , 1997 .

[10]  Andrew A. O. Tay,et al.  Finite element analysis of plastic-encapsulated multi-chip packages , 1998, Proceedings of 2nd Electronics Packaging Technology Conference (Cat. No.98EX235).

[11]  A. Mertol Application of the Taguchi method on the robust design of molded 225 plastic ball grid array packages , 1995 .

[12]  A. Mertol Optimization of high pin count cavity-up enhanced plastic ball grid array (EPBGA) packages for robust design , 1997 .