Add to ORKGA low-cost, hermetic wafer-level packaging solution with negligible parasitics suitable for MEMS resonators is presented. A glass cap with embedded 50!m diameter vertical single-crystal silicon feedthroughs is anodically bonded in vacuum to an SOI wafer prefabricated with mechanical resonators. This hermetic packaging process provides virtually zero-parasitic-capacitance vertical interconnects. A silicon-gold eutectic is used to ensure electrical contacts between the feedthroughs and the device wafer. An embedded wet-etched cavity in the glass cap allows mechanical motion of the resonator as well as the inclusion of a thin-film getter to further enhance and maintain vacuum. Temperature sweeps and quality factor measurements demonstrate the ...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
Silicon (Si) photonic micro-electro-mechanical systems (MEMS), with its low-power phase shifters and...
A wafer-level packaging method for SOI-MEMS structures that are desired to be encapsulated in a herm...
IEEEThis paper introduces a novel, inherently simple, and all-silicon wafer-level fabrication and he...
A wafer-level vacuum package with silicon bumps and electrical feedthroughs on the cap wafer is deve...
This paper presents a novel, inherently simple and low-cost fabrication and hermetic packaging metho...
This paper will present wafer level packaging approaches and results for MEMS encapsulation and inte...
This paper will present wafer level packaging approaches and results for MEMS encapsulation and inte...
This paper presents a novel and inherently simple all-silicon fabrication and hermetic packaging met...
This paper reports a new, inherently simple, and high-yield wafer-level hermetic encapsulation metho...
This paper presents a new method for wafer level vacuum packaging of MEMS devices using anodic bondi...
AbstractThis paper presents a new method for wafer level vacuum packaging of MEMS devices using anod...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This paper reports a novel and inherently simple fabrication process, so-called advanced MEMS (aMEMS...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
Silicon (Si) photonic micro-electro-mechanical systems (MEMS), with its low-power phase shifters and...
A wafer-level packaging method for SOI-MEMS structures that are desired to be encapsulated in a herm...
IEEEThis paper introduces a novel, inherently simple, and all-silicon wafer-level fabrication and he...
A wafer-level vacuum package with silicon bumps and electrical feedthroughs on the cap wafer is deve...
This paper presents a novel, inherently simple and low-cost fabrication and hermetic packaging metho...
This paper will present wafer level packaging approaches and results for MEMS encapsulation and inte...
This paper will present wafer level packaging approaches and results for MEMS encapsulation and inte...
This paper presents a novel and inherently simple all-silicon fabrication and hermetic packaging met...
This paper reports a new, inherently simple, and high-yield wafer-level hermetic encapsulation metho...
This paper presents a new method for wafer level vacuum packaging of MEMS devices using anodic bondi...
AbstractThis paper presents a new method for wafer level vacuum packaging of MEMS devices using anod...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This paper reports a novel and inherently simple fabrication process, so-called advanced MEMS (aMEMS...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
Silicon (Si) photonic micro-electro-mechanical systems (MEMS), with its low-power phase shifters and...