Collective Cu-Cu Thermocompression Bonding Using Pillars

Abstract The demand for high-performance, high-functionality packages for integrated circuits continues to grow. Three-dimensional (3D) integration is strongly being pursued to meet this demand and has started to reach maturity and industrial adoption. As advanced 3D system designs progress, requiring higher 3D interconnect density with pitches of 10 μm and lower, traditional chip attachment through solder bump technology will likely face complex manufacturing and reliability challenges. Cu-Cu thermocompression bonding has been proposed as a key 3D-enabling technology and alternative to solder. One of the main issues challenging its commercialization in high-volume manufacturing is the sensitivity of Cu-Cu bond quality to prebond surface conditions. This is especially true for die bonding applications which have limited rework options once chips have been singulated. This article outlines further development and demonstration of a tack and collective bonding scheme for Cu-Cu thermocompression bonding. Thi...