In this paper, the backward compatibility solder joints were chosen in simulation of perimeter PBGA272 assembly. A double-symmetric plane FE model of a PBGA272 was established using the software ANSYS. Based on the maximum von Mises stress and von Mises strain, the position of the most danger solder joints were obtained under thermal cycle with the temperature condition from -40℃ to 125℃ (JESD22-A104-B Condition G) , Viz. the inner (1#) solder joint and the outside (6#) solder joint are the two key solder joints which are the easiest to failure. On the basis of above analysis, the geometry parameters of the chosen assembly are optimized by design of experiment (DOE). The factors included PCB size, PCB thickness, chip size, chip thickness, substrate size, substrate thickness, solder height and solder radius. The simulating results have shown that substrate thickness (factor F), solder radius (factor H) and solder height (factor G) performed the main factors. The optimal scheme is F 3 H 2 G 1 C 2 D 1 E 2 B 3 A 2 (substrate thickness 0.7mm, solder radius 0.38mm, solder height 0.4mm, chip size 2.54mm, chip thickness 0.4mm, substrate size 13.5mm, PCB thickness 1.8mm and PCB size 15mm ) by comprehensively considered with every factor's effect.
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