On-wafer-packaging of crystal quartz based devises using low-temperature anodic bonding

Author

Zimin, Y. ; Ueda, T.

Author_Institution

Grad. Sch. of Inf., Production & Syst., Waseda Univ., Kitakyushu, Japan

fYear

2011

fDate

11-13 May 2011

Firstpage

148

Lastpage

151

Abstract

Low-temperature bonding of crystalline quartz and silicon wafers is described. The bonding has a big potential for MEMS applications because it could integrate the processing and packaging in a single high-tech process. In this work, strong bonding of silicon and crystal quartz wafers close to the mechanical strength of the initial materials has been achieved. Tensile test shows a disruptive stress of the samples at about 35 MPa. High bonding strength is associated with minimization of the residual stresses, optimization of surface activation, and application of an electric field during annealing. Lowest possible annealing temperature and the optimum thickness ratio of silicon and quartz layers have been used in order to minimize the residual stresses.

Keywords

annealing; internal stresses; quartz; silicon; wafer bonding; wafer level packaging; MEMS applications; bonding strength; crystal quartz; low-temperature anodic bonding; mechanical strength; on-wafer-packaging; optimum thickness ratio; residual stresses, optimization; silicon wafers; surface activation; tensile test; Annealing; Heating; Manuals; Pollution measurement; Silicon; Surface treatment; Thermal expansion;

fLanguage

English

Publisher

ieee

Conference_Titel

Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2011 Symposium on

Conference_Location

Aix-en-Provence

Print_ISBN

978-1-61284-905-8

Type

conf

Filename

6107974