Wei Keat Loh scite author profile

Solder joint reliability under shock loading condition has been a concern over the years especially with constant reductions in the characteristic dimensions of the package and the solder joint. With the impeding transition to lead free solder, attention has moved from temperature cycle failure to mechanical shock failure. A method has been developed that employs a specially designed shock test board (STB) to characterize the solder joint performance as a function of board surface strain. This unique test board can be adapted to a wide range of test and boundary conditions. Using this board, a range of shock inputs is tested to establish correlation of the dynamic response and solder joint damage severity. The effects of package size, board thickness, and solder ball pitch are included in this paper to highlight the critical design factors for solder joint reliability in shock. This method can be used to characterize solder joint performance at the component level, early in development. One can also provide board strain based design limits guide system design and prevent late discovery of solder joint issues. Modal analysis based finite element models have been used to supplement understanding of the board response. The model demonstrates good correlation of the strain on the board and the stresses developed in the solder joint. The modeling data also suggested that the maximum principal stress at the solder joint face is a good failure criterion as it maps well with the actual failure locus found.

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FSI implications of EMC rheological properties to 3D IC with TSV structures during plastic encapsulation process

Ong

Abdullah

Loh

et al. 2013

Microelectronics Reliability

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FSI Simulation of Wire Sweep PBGA Encapsulation Process Considering Rheology Effect

Ramdan¹,

Abdullah²,

Mujeebu³

et al. 2012

IEEE Trans. Compon., Packag. Manufact. Technol.

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Wei Keat Loh

Fluid/Structure Interaction Investigation in PBGA Packaging

Fluid–structure interaction analysis on the effect of chip stacking in a 3D integrated circuit package with through-silicon vias during plastic encapsulation

Solder Joint Reliability Prediction of Flip Chip Packages Under Shock Loading Environment

FSI implications of EMC rheological properties to 3D IC with TSV structures during plastic encapsulation process

FSI Simulation of Wire Sweep PBGA Encapsulation Process Considering Rheology Effect

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