A wafer-level vacuum package with silicon bumps and electrical feedthroughs on the cap wafer is developed for a microelectromechanical systems (MEMS) resonator device. A MEMS resonator wafer and a cap wafer are bonded together in a vacuum chamber using glass frit bonding. The cap wafer not only provides a vacuum chamber to protect the movable resonator structure and improve the resonant performance but also realizes the redistribution of the electrical feedthroughs by using the silicon bumps. The silicon bumps provide vertical interconnections between the cap wafer and the resonator wafer, which realizes the bonding pads "transferring" from the resonator wafer to the cap wafer. A gold-aluminum eutectic is used to ensure electrical...
A new Room Temperature (RT) 0-level vacuum package is demonstrated in this work, using amorphous sil...
This paper presents the vacuum wafer level packaging of in-house manufactured two-dimensional micro-...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
A low-cost, hermetic wafer-level packaging solution with negligible parasitics suitable for MEMS res...
In this paper, a high performance wafer-level vacuum packaging technology based on GSG triple-layer ...
This paper will present wafer level packaging approaches and results for MEMS encapsulation and inte...
In this paper the authors report about the six inch wafer level vacuum packaging of electro-statical...
Many MEMS (Micro Electro-Mechanic Systems) parts have to meet the requirements for vacuum packaging....
A novel vacuum (< 20 mTorr) encapsulation technology for the packaging of micro-electromechanical sy...
IEEEThis paper introduces a novel, inherently simple, and all-silicon wafer-level fabrication and he...
AbstractThis paper presents a new method for wafer level vacuum packaging of MEMS devices using anod...
This paper presents a new method for wafer level vacuum packaging of MEMS devices using anodic bondi...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
Silicon (Si) photonic micro-electro-mechanical systems (MEMS), with its low-power phase shifters and...
Results of wafer level packaging for micro-electro-mechanical systems based on low temperature melti...
A new Room Temperature (RT) 0-level vacuum package is demonstrated in this work, using amorphous sil...
This paper presents the vacuum wafer level packaging of in-house manufactured two-dimensional micro-...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
A low-cost, hermetic wafer-level packaging solution with negligible parasitics suitable for MEMS res...
In this paper, a high performance wafer-level vacuum packaging technology based on GSG triple-layer ...
This paper will present wafer level packaging approaches and results for MEMS encapsulation and inte...
In this paper the authors report about the six inch wafer level vacuum packaging of electro-statical...
Many MEMS (Micro Electro-Mechanic Systems) parts have to meet the requirements for vacuum packaging....
A novel vacuum (< 20 mTorr) encapsulation technology for the packaging of micro-electromechanical sy...
IEEEThis paper introduces a novel, inherently simple, and all-silicon wafer-level fabrication and he...
AbstractThis paper presents a new method for wafer level vacuum packaging of MEMS devices using anod...
This paper presents a new method for wafer level vacuum packaging of MEMS devices using anodic bondi...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
Silicon (Si) photonic micro-electro-mechanical systems (MEMS), with its low-power phase shifters and...
Results of wafer level packaging for micro-electro-mechanical systems based on low temperature melti...
A new Room Temperature (RT) 0-level vacuum package is demonstrated in this work, using amorphous sil...
This paper presents the vacuum wafer level packaging of in-house manufactured two-dimensional micro-...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...