[특허]Integrated getter area for wafer level encapsulated microelectromechanical systems

[미국특허] Integrated getter area for wafer level encapsulated microelectromechanical systems 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	H01L-021/00
출원번호	US-0050099 (2011-03-17)
등록번호	US-8372676 (2013-02-12)
발명자 / 주소	Lutz, Markus Partridge, Aaron
출원인 / 주소	Robert Bosch GmbH
인용정보	피인용 횟수 : 1 인용 특허 : 24

초록 ▼

There are many inventions described and illustrated herein. In one aspect, present invention is directed to a thin film encapsulated MEMS, and technique of fabricating or manufacturing a thin film encapsulated MEMS including an integrated getter area and/or an increased chamber volume, which causes little to no increase in overall dimension(s) from the perspective of the mechanical structure and chamber. The integrated getter area is disposed within the chamber and is capable of (i) “capturing” impurities, atoms and/or molecules that are out-gassed from surrounding materials and/or (ii) reducing and/or minimizing the adverse impact of such impurities, atoms and/or molecules (for example, reducing the probability of adding mass to a resonator which would thereby change the resonator's frequency). In this way, the thin film wafer level packaged MEMS of the present invention includes a relatively stable, controlled pressure environment within the chamber to provide, for example, a more stable predetermined, desired and/or selected mechanical damping of the mechanical structure.

대표청구항 ▼

1. A method of manufacturing a microelectromechanical device having a mechanical structure, a periphery area and a fixed electrode that are disposed over or in a substrate and in a chamber which is formed, at least in part, by a thin film encapsulation structure, the method comprising: forming the mechanical structure disposed over the substrate wherein at least a portion of the mechanical structure is disposed in the chamber;depositing a fluid in the chamber;forming the periphery area disposed over the substrate;forming a plurality of gaps in the periphery area, wherein the plurality of gaps is disposed in the chamber and exposed to the fluid, and wherein the plurality of gaps increase a volume of the chamber; andsealing the chamber by depositing the thin film encapsulation structure over the mechanical structure and the periphery area, to partially define and seal the chamber, wherein the fluid is contained in the chamber after the chamber is sealed;wherein: the mechanical structure and the periphery area are formed within a single layer that extends over the substrate; andthe plurality of gaps and the mechanical structure are etched in a same etching process. 2. The method of claim 1, wherein the increase of the volume of the chamber is by at least 10 times a volume without the gaps. 3. A method of manufacturing a microelectromechanical device including a mechanical structure, a periphery area and a fixed electrode that are disposed over or in a substrate and in a chamber which is formed, at least in part, by a thin film encapsulation structure, the method comprising: forming the mechanical structure disposed over the substrate wherein at least a portion of the mechanical structure is disposed in the chamber;depositing a fluid in the chamber;forming the periphery area disposed over the substrate;forming a plurality of gaps in the periphery area, wherein the plurality of gaps is disposed in the chamber and exposed to the fluid;sealing the chamber by depositing the thin film encapsulation structure over the mechanical structure and the periphery area, to partially define and seal the chamber, wherein the fluid is contained in the chamber after the chamber is sealed;wherein the mechanical structure and the periphery area are formed within a single layer that extends over the substrate. 4. A method of manufacturing a microelectromechanical device including a mechanical structure, a periphery area and a fixed electrode that are disposed over or in a substrate and in a chamber which is formed, at least in part, by a thin film encapsulation structure, the method comprising: forming the mechanical structure disposed over the substrate wherein at least a portion of the mechanical structure is disposed in the chamber;depositing a fluid in the chamber;forming the periphery area disposed over the substrate;forming a plurality of gaps in the periphery area, wherein the plurality of gaps is disposed in the chamber and exposed to the fluid;sealing the chamber by depositing the thin film encapsulation structure over the mechanical structure and the periphery area, to partially define and seal the chamber, wherein the fluid is contained in the chamber after the chamber is sealed;wherein the plurality of gaps and the mechanical structure are etched in a same etching process.

이 특허에 인용된 특허 (24) 인용/피인용 타임라인 분석

Minekazu Sakai JP; Shinji Yoshihara JP, Capacitive physical quantity detection device.
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Zhang Xia ; McIntyre David G. ; Tang William Chi-Keung, Fabrication method for encapsulated micromachined structures.
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Thomas, Sunil, Flip-chip assembly of protected micromechanical devices.
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Lutz, Markus; Partridge, Aaron, Integrated getter area for wafer level encapsulated microelectromechanical systems.
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Tang William C. (Emeryville CA) Howe Roger T. (Lafayette CA), Laterally driven resonant microstructures.
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Lee Jong H. (Taegu KRX), Method for fabricating a semiconductor device using a porous silicon region.
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Drake Joseph D. ; Jerman John H. ; Jackson Kathy J., Method for processing a plurality of micro-machined mirror assemblies.
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Mastrangelo Carlos H. (Ann Arbor MI), Method for producing a silicon-on-insulator capacitive surface micromachined absolute pressure sensor.
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Muchow Joerg (Reutlingen DEX) Muenzel Horst (Reutlingen DEX) Offenberg Michael (Tuebingen DEX) Waldvogel Winfried (Kirchentellinsfurt DEX), Method of fabricating a micromechanical sensor.
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David J. Collins ; Craig E. Core ; Lawrence E. Felton ; Jing Luo, Method of forming a cover cap for semiconductor wafer devices.
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Ishii Yorishige,JPX ; Inui Tetsuya,JPX ; Matoba Hirotsugu,JPX ; Hirata Susumu,JPX ; Kimura Masaharu,JPX ; Horinaka Hajime,JPX ; Abe Shingo,JPX ; Onda Hiroshi,JPX, Method of forming a microstructure.
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Evans Alan G. R. (Eastleigh GB2) Farooqui Mohammed M. (Southampton GB2), Method of forming a sealed diaphragm on a substrate.
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Cheong, Woo Seock; Roh, Eui Beom, Method of manufacturing a contact plug in a semiconductor device using selective epitaxial growth of silicon process.
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Srinivas Tadigadapa ; Chialun Tsai ; Yafan Zhang ; Nader Najafi, Micromachined fluidic apparatus.
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Lutz,Markus, Micromechanical component and method for producing the same.
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Muchow Joerg,DEX ; Muenzel Horst,DEX ; Offenberg Michael,DEX ; Waldvogel Winfried,DEX, Micromechanical sensor and method for the manufacture thereof.
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Peterson, Kenneth A.; Watson, Robert D., Multilayered microelectronic device package with an integral window.
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Offenberg Michael (Tubingen DEX), Process for producing surface micromechanical structures.
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Muller Richard S. (Kensington CA) Mastrangelo Carlos H. (Ann Arbor MI) Williams Kirt R. (Orinda CA), Sealed micromachined vacuum and gas filled devices.
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Sidner Diane W. (Noblesville IN) Yoder Douglas J. (Sharpsville IN) Moss David E. (Kokomo IN), Semiconductive structure useful as a pressure sensor.
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Kato Nobuyuki,JPX ; Yamamoto Toshimasa,JPX ; Fukada Tsuyoshi,JPX ; Sakai Minekazu,JPX, Semiconductor physical quantity sensor and production method thereof.
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Kano Kazuhiko,JPX ; Nara Kenichi,JPX ; Yamamoto Toshimasa,JPX ; Kato Nobuyuki,JPX ; Gotoh Yoshitaka,JPX ; Ohtsuka Yoshinori,JPX ; Ao Kenichi,JPX, Semiconductor sensor having suspended thin-film structure and method for fabricating thin-film structure body.
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Kano Kazuhiko,JPX ; Fujita Makiko,JPX ; Ohtsuka Yoshinori,JPX, Semiconductor type yaw rate sensor.
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Ouellet, Luc, Wafer-level MEMS packaging.
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이 특허를 인용한 특허 (1) 인용/피인용 타임라인 분석

Tsau, Christine H.; Chen, Li; Yang, Kuang L., Sealed MEMS devices with multiple chamber pressures.
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[미국특허] Integrated getter area for wafer level encapsulated microelectromechanical systems 원문보기