ABSTRACT In this paper, the development of wafer level packaging of radio frequency (RF) microelectromechanical system (MEMS) is reported. The packaging process consists of wafer bonding, wafer thinning, via etching, plating, under-bump-metallization (UBM) and bumping processes. 6-inch Si and glass wafers are used in the study. RF MEMS devices are fabricated on Si wafers and sandwiched between Si and glass cap wafers. To maintain the pressure balance between the cavities and outside world after bonding process, Si and glass wafers are anodically bonded at a pressure of 2 bar and a bonding temperature of 400 o C. The cavities are hermetically sealed. The glass wafer of the bonded pair is thinned down to 100 µm using mechanical polishing and ...
In this paper, we present wafer-level packaging (WLP) solution for RF-MEMS applications based on thr...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This work reports on RF MEMS chip capping to protect sensitive devices by quartz caps having a cavit...
Radio-frequency microelectromechanical systems (RF~MEMS) are highly miniaturized devices intended to...
In this paper, development of a wafer-level packaging (WLP) process suitable for RF–MEMS application...
A low-cost, low-temperature packaging concept is proposed for localized sealing and control of the a...
Describes a structure and process for packaging RF MEMS and other devices, employing a substrate of ...
A radio-frequency micro-electro-mechanical system (RF MEMS) wafer-level packaging (WLP) method using...
This paper reports experimental results of RF characteristics up to 20 GHz of a RF MEMS switch appli...
The current trend in electronic packaging research is to integrate more functions into one package, ...
RF MEMS technology shows great promise for wireless communication and other RF applications. However...
A variety of flip chip technologies are available today which differ in bumping material, substrate ...
Conventional fusion bonding technology requires high temperatures, thus it may generate thermal stre...
This paper presents the microwave characterization of a wafer level packaging approach for RF MEMS d...
Further cost reduction and miniaturization of electronic systems requires new concepts for highly ef...
In this paper, we present wafer-level packaging (WLP) solution for RF-MEMS applications based on thr...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This work reports on RF MEMS chip capping to protect sensitive devices by quartz caps having a cavit...
Radio-frequency microelectromechanical systems (RF~MEMS) are highly miniaturized devices intended to...
In this paper, development of a wafer-level packaging (WLP) process suitable for RF–MEMS application...
A low-cost, low-temperature packaging concept is proposed for localized sealing and control of the a...
Describes a structure and process for packaging RF MEMS and other devices, employing a substrate of ...
A radio-frequency micro-electro-mechanical system (RF MEMS) wafer-level packaging (WLP) method using...
This paper reports experimental results of RF characteristics up to 20 GHz of a RF MEMS switch appli...
The current trend in electronic packaging research is to integrate more functions into one package, ...
RF MEMS technology shows great promise for wireless communication and other RF applications. However...
A variety of flip chip technologies are available today which differ in bumping material, substrate ...
Conventional fusion bonding technology requires high temperatures, thus it may generate thermal stre...
This paper presents the microwave characterization of a wafer level packaging approach for RF MEMS d...
Further cost reduction and miniaturization of electronic systems requires new concepts for highly ef...
In this paper, we present wafer-level packaging (WLP) solution for RF-MEMS applications based on thr...
This paper presents the fabrication steps of a MEMS package based on silicon interposer wafers with ...
This work reports on RF MEMS chip capping to protect sensitive devices by quartz caps having a cavit...