Your search keyword '"Suni, T."' showing total 3 results

1. Vacuum packaging at wafer level for MEMS using gold-tin metallurgy.

Author

Manier, C.-A., Zoschke, K., Oppermann, H., Ruffieux, D., Dalla Piazza, S., Suni, T., Dekker, J., and Allegato, G.

Abstract

Results of wafer level packaging for micro-electro-mechanical systems based on low temperature melting metallurgy are going to be presented. The MEMS are packaged under vacuum with internal pressure in the range of 1 mbar after sealing. Through Silicon Vias in a silicon interposer allow the feeding of the electrical contacts to the package outside. The thin silicon interposer acts as MEMS carrier or lid and therefore is part of the final packaged component after dicing. AuSn rings have been chosen for process compatibility with the MEMS and ensure the hermeticity of the components after vacuum sealing. Evaluation of the bond process is carried out using XRay imaging microscopy, analysis of cross sections and the final package resistance is evaluated using shear testing. The thickness of the chip-scale packaged MEMS is smaller than 500 μm and a yield of vacuum sealing of around 80% was obtained in first evaluation on 200 mm wafer scale. [ABSTRACT FROM PUBLISHER]

Published

2013

2. Vacuum packaging at wafer level for MEMS using gold-tin metallurgy

Author

Manier, C. -A, Zoschke, K., Hermann Oppermann, Ruffieux, D., Dalla Piazza, S., Suni, T., Dekker, J., and Allegato, G.

Subjects

MEMS, Au/Sn, vacuum, WLP, interposer, sealing

Abstract

Results of wafer level packaging for micro-electro-mechanical systems based on low temperature melting metallurgy are going to be presented. The MEMS are packaged under vacuum with internal pressure in the range of 1 mbar after sealing. Through Silicon Vias in a silicon interposer allow the feeding of the electrical contacts to the package outside. The thin silicon interposer acts as MEMS carrier or lid and therefore is part of the final packaged component after dicing. AuSn rings have been chosen for process compatibility with the MEMS and ensure the hermeticity of the components after vacuum sealing. Evaluation of the bond process is carried out using XRay imaging microscopy, analysis of cross sections and the final package resistance is evaluated using shear testing. The thickness of the chip-scale packaged MEMS is smaller than 500 µm and a yield of vacuum sealing of around 80% was obtained in first evaluation on 200 mm wafer scale

3. Reliability of wafer-level SLID bonds for MEMS encapsulation

Author

Xu, H., Broas, M., Dong, H., Vesa Vuorinen, Suni, T., Vähänen, S., Monnoyer, P., and Paulasto-Kröckel, M.

Subjects

MEMS, Au/Sn, WLP, vacuum, interposer, sealing

Abstract

Results of wafer level packaging for micro-electro-mechanical systems based on low temperature melting metallurgy are going to be presented. The MEMS are packaged under vacuum with internal pressure in the range of 1 mbar after sealing. Through Silicon Vias in a silicon interposer allow the feeding of the electrical contacts to the package outside. The thin silicon interposer acts as MEMS carrier or lid and therefore is part of the final packaged component after dicing. AuSn rings have been chosen for process compatibility with the MEMS and ensure the hermeticity of the components after vacuum sealing. Evaluation of the bond process is carried out using XRay imaging microscopy, analysis of cross sections and the final package resistance is evaluated using shear testing. The thickness of the chip-scale packaged MEMS is smaller than 500 ?m and a yield of vacuum sealing of around 80% was obtained in first evaluation on 200 mm wafer scale