Effect of glue on reliability of flip chip BGA packages under thermal cycling

Glue is widely used to improve the reliability of ball grid array (BGA) under mechanical shock and vibration. Although it has been demonstrated to have a positive effect on the reliability of BGA under mechanical impact, it can have adverse effects on BGA under thermal cycling. This paper investigates the effect of glue on the reliability of BGA under thermal cycling using both experimental and numerical methods. The digital image correlation (DIC) technique was used to obtain the thermal mechanical behavior of the package. The experimental results explain in detail how the glue negatively affects the reliability of the BGA. Furthermore, a finite element analysis was performed and its results were verified with experimental results. A numerical parametric study was carried out on various mechanical properties, configurations of the glue, and introduction of a stiffener using the validated FEM model. The results show that the reliability of BGA strongly depends on geometries and material properties of the glue. Based on the results, a guideline of glue selection for BGA reliability under thermal cycling is formulated.

[1]  R. Darveaux Effect of simulation methodology on solder joint crack growth correlation , 2000, 2000 Proceedings. 50th Electronic Components and Technology Conference (Cat. No.00CH37070).

[2]  B. J. Toleno,et al.  Processing and reliability of corner bonded CSPs , 2003, IEEE/CPMT/SEMI 28th International Electronics Manufacturing Technology Symposium, 2003. IEMT 2003..

[3]  Jeffery C. C. Lo,et al.  Material characterization of corner and edgebond epoxy adhesives for the improvement of board-level solder joint reliability , 2009, 2009 59th Electronic Components and Technology Conference.

[4]  J. W. Meredith,et al.  Microelectronics reliability , 1988, IEEE Region 5 Conference, 1988: 'Spanning the Peaks of Electrotechnology'.

[5]  A. McAllister,et al.  Effects of Glue on the Bend Performance of Flip Chip Packages , 2008, IEEE Transactions on Components and Packaging Technologies.

[6]  M. Modi,et al.  New insights in critical solder joint location , 2005, Proceedings Electronic Components and Technology, 2005. ECTC '05..

[7]  L. Anand Constitutive equations for hot-working of metals , 1985 .

[8]  Dong Gun Lee,et al.  Deformation and Strain Measurement of Flip-Chip Solder Bump Under In-Situ Thermal Loading , 2009 .