This paper gives an introduction to glass frit wafer bonding, which is an universally useable technology for encapsulation of microsystems, especially surface micromechanical sensors on wafer level. After a process description, some mechanical as well as electrical characteristics of glass frit bonded wafers are discussed and applications are shown
On industrial scale, glass frit bonding is widely used for assembly and encapsulation of MEMS. A key...
Glass frit bonding is a widely used encapsulation technology for micro-electro mechanical systems. I...
Wafer bonding techniques play a key role in the present day silicon bulk micromachining for MEMS bas...
This paper gives an overview about possibilities for wafer level encapsulation of surface micromachi...
Wafer bonding is a key technology in the manufacturing of microelectronic and micromechanical system...
The development of electronic and micro-mechanical components has been characterised by a constant i...
Wafer bonding is a key technology in the manufacturing of micro electro mechanical systems (MEMS). I...
This research project aims to investigate the suitability of glass frit bonding for multi-chip modul...
In microsystems technologies, frequently complex structures consisting of structured or plain silico...
A wafer-level vacuum package with silicon bumps and electrical feedthroughs on the cap wafer is deve...
The packaging of implanted devices is crucial if high reliability is to be achieved with an intended...
For many years, different methods for bonding glass borofloat substrates have been investigated1, in...
AbstractLaser glass frit sealing is a joining method predestined in electronics for the sealing of e...
In the thermo-compressive, silicon-to-silicon wafer bonding process, due to the residual stresses, t...
The glass frit layer in wafer-bonded MEMS is subjected to mechanical and thermo mechanical stresses ...
On industrial scale, glass frit bonding is widely used for assembly and encapsulation of MEMS. A key...
Glass frit bonding is a widely used encapsulation technology for micro-electro mechanical systems. I...
Wafer bonding techniques play a key role in the present day silicon bulk micromachining for MEMS bas...
This paper gives an overview about possibilities for wafer level encapsulation of surface micromachi...
Wafer bonding is a key technology in the manufacturing of microelectronic and micromechanical system...
The development of electronic and micro-mechanical components has been characterised by a constant i...
Wafer bonding is a key technology in the manufacturing of micro electro mechanical systems (MEMS). I...
This research project aims to investigate the suitability of glass frit bonding for multi-chip modul...
In microsystems technologies, frequently complex structures consisting of structured or plain silico...
A wafer-level vacuum package with silicon bumps and electrical feedthroughs on the cap wafer is deve...
The packaging of implanted devices is crucial if high reliability is to be achieved with an intended...
For many years, different methods for bonding glass borofloat substrates have been investigated1, in...
AbstractLaser glass frit sealing is a joining method predestined in electronics for the sealing of e...
In the thermo-compressive, silicon-to-silicon wafer bonding process, due to the residual stresses, t...
The glass frit layer in wafer-bonded MEMS is subjected to mechanical and thermo mechanical stresses ...
On industrial scale, glass frit bonding is widely used for assembly and encapsulation of MEMS. A key...
Glass frit bonding is a widely used encapsulation technology for micro-electro mechanical systems. I...
Wafer bonding techniques play a key role in the present day silicon bulk micromachining for MEMS bas...
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