Title :
Chip-level vacuum packaging of micromachines using NanoGetters
Author :
Sparks, Douglas R. ; Massoud-Ansari, S. ; Najafi, Nader
Author_Institution :
Integrated Sensing Syst. Inc, Ypsilanti, MI, USA
Abstract :
A new approach to vacuum packaging of micro-machined resonant, tunneling, and display devices is covered in this paper. A multi-layer, thin-film getter, called a NanoGetter, which is particle free and does not increase the chip size of the microsystem has been developed and integrated into conventional wafer-to-wafer bonding processes. Hermetic electrical feedthroughs are also provided as part of this total-solution technology. Experimental data taken with silicon resonators is presented in which Q values in excess of 21,000 have been obtained. Applications for this technology include gyroscopes, accelerometers, displays, flow sensors, density meters, infrared (IR) sensors, microvacuum tubes, radio frequency microelectromechanical systems (RF-MEMS) and pressure sensors.
Keywords :
chip scale packaging; getters; micromechanical resonators; microsensors; pressure sensors; wafer bonding; NanoGetters; Q values; RF-MEMS; accelerometers; chip-level vacuum packaging; density meters; display devices; flow sensors; gyroscopes; hermetic electrical feedthroughs; infrared sensors; micromachined resonant devices; micromachines; microvacuum tubes; multilayer thin-film getter; pressure sensors; silicon resonators; total-solution technology; wafer-to-wafer bonding processes; Bonding processes; Displays; Gettering; Infrared sensors; Packaging; Radiofrequency microelectromechanical systems; Resonance; Sensor systems and applications; Transistors; Tunneling;
Journal_Title :
Advanced Packaging, IEEE Transactions on
DOI :
10.1109/TADVP.2003.817964
