Reconfigured-Wafer-to-Wafer 3-D Integration Using Parallel Self-Assembly of Chips With Cu–SnAg Microbumps and a Nonconductive Film

Abstract

A new 3-D integration concept based on reconfigured wafer-to-wafer stacking is proposed. Using reconfigured wafer-to-wafer 3-D integration, many known-good dies (KGDs) can be simultaneously and precisely self-assembled by water surface tension onto a carrier wafer, which is called a reconfigured wafer. In addition, the KGDs on the reconfigured wafer can be transferred and bonded to another target wafer at the wafer level. The alignment accuracy is within 1 μm when 3 × 3-, 5 × 5-, 4 × 9,- or 10 × 10- mm <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</sup> chips are employed. To 3-D stack many KGDs in a batch process, we developed and employed a self-assembly multichip bonder. KGDs with 20- μm-pitch Cu-SnAg microbumps covered with a nonconductive film as a preapplied underfill material on their top surface were self-assembled right-side up, and then transferred to the corresponding target interposer wafer upside down. The resulting daisy chain with 500 Cu-SnAg microbumps exhibited ohmic contacts, and the resistance of ~ 40 mΩ/bump was sufficiently low for 3-D large-scale integration application.