Abstract

Flip chip on board (FCOB) is one of the most quickly growing segments in advanced electronic packaging. In many cases, assembly processes are not capable of providing the high throughputs needed for integrated surface mount technology (SMT) processing (Tummala et al, 1997). A new high throughput process using no-flow underfill materials has been developed that has the potential to significantly increase flip chip assembly throughput. Previous research has demonstrated the feasibility and reliability of the high throughput process required for FCOB assemblies. The goal of this research was to integrate the high throughput flip chip process on commercial flip chip packages that consisted of high lead solder balls on a polyimide passivated silicon die bonded with eutectic solder bumped pads on the laminate substrate interface (Qi, 1999). This involved extensive parametric experimentation that focused on the following elements: no-flow process evaluation and implementation on the commercial packages, reflow profile parameter effects on eutectic solder wetting of high lead solder bumps, interactions between the no-flow underfill materials and the package solder interconnect and tented via features, void capture and void formation during processing, and material set compatibility and the effects on long term reliability performance.

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