Next generation package design requirements continue to drive the development of advanced assembly equipment and process technologies that increase I/O density and performance while reducing package thickness and cost. Despite recent advances in 2.5D and 3D packaging technology, wire bonding remains the most commonly used interconnect process due to its low cost and flexibility. Over a decade ago, wire bonding packaging cost decreased significantly with the introduction of copper wire bonding solutions. Since then, productivity improvements and advanced process capabilities have maintained wire bonding as the preferred interconnect technology. This paper explores new developments in Vertical Wire Bonding process technology, which is now under evaluation to replace existing advanced packaging processes including TSV and Cu Pillar. Vertical Wire Bonding is already used in high volume production for electromagnetic interference (EMI) shielding in RF packages. Focus is now shifting towards qualifying Vertical Wire Bonding in various through mold interconnect and vertically stacked fan-out wafer level packages. Vertical Wire Bonding capabilities and design rules are presented and alternative packaging process flows and cost are compared.
Foley et al. (Wed,) studied this question.