Wafer-level bonding and direct electrical interconnection of stacked 3D MEMS by a hybrid low temperature process

The presented fabrication technology enables the direct integration of electrical interconnects during low temperature wafer bonding of stacked 3D MEMS and wafer-level packaging. The low temperature fabrication process is based on hydrophilic direct bonding of plasma activated Si/SiO2 surfaces and the simultaneous interconnection of two metallization layers by eutectic bonding of ultra-thin AuSn connects. This hybrid wafer-level bonding and interconnection technology allows for the integration of metal interconnects and multiple materials in stacked MEMS devices. The process flow is successfully validated by fabricating test structures made out of a two wafer stack and featuring multiple ohmic electrical interconnects.