Board level investigation of BGA solder joint deformation strength

In this paper we present a method to determine the stress in BGA solder joints on complex, real assembled circuit boards. To be able to investigate the mechanical effects of post-reflow assembly within the solder joints of BGA components, it is necessary to undertake a mechanical investigation at board level by taking into consideration the effect of the adjacent components and the interconnection layer layouts. In our project, we have developed a method of how to investigate the board level deformation strength of BGA joints. The elastic properties of a real assembled circuit board and of a circuit bare board are measured; an FEM model is then created, both of the bare board and of the assembled printed circuit board taking into account the layout of the interconnection layers. The advantage of this PCB FEM model is that the deformation of a PCB of any size and for any load can be calculated quickly using any ordinary computer. In our project, we also have created another detailed FEM model for the BGA solder joints. Using the constructed FEM models, we are able to determine the stress in BGA solder joints on a real electronic product for a typical type of load (i.e. bending of PCB) thereby verifying our method. Since the simulated results correspond well to previous literature written on this topic, we consider that our method is appropriate for calculating stress in the solder joints of multi-lead components on complex, fully assembled circuit boards.