Wafer level micro-electro-mechanical systems package with accelerometer and gyroscope
First Claim
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1. A device, comprising:
- a micro-electro-mechanical system (MEMS) wafer that is formed of one monolithic body devoid of a via hole and comprises first and second sensors formed on one side of the MEMS wafer, the first and second sensors each including an active component;
an application-specific-integrated-circuit (ASIC) wafer bonded to the MEMS wafer and configured to electrically communicate to the first and second sensors, the ASIC wafer includes first and second cavities in a first surface thereof, the first and second cavities providing space for the first and second sensors, respectively, so that the active components of the first and second sensors freely move within the first and second cavities without touching the ASIC wafer;
first and second electrical contacts providing electrical connection between the ASIC wafer and the MEMS wafer; and
sealing mechanisms that bond the ASIC wafer to the MEMS wafer and separate the first cavity and the first electrical contact from the second cavity and the second electrical contact, the sealing means preventing fluid communication between the first and second cavities.
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Abstract
The invention relates to sensors, and more particularly, a sensor device having accelerometer and gyroscope integrated into a low cost compact package. The device includes: MEMs wafer; and an ASIC wafer bonded to the MEMs wafer; a wafer-level-package redistribution layer (WLP RDL) formed on a surface of the ASIC wafer; and a ball grid array having a plurality of solder balls that electrically connect the package to a circuit board. The MEMs wafer includes the accelerometer and gyroscope, while the ASIC wafer includes two separate cavities corresponding to the accelerometer and gyroscope, respectively. The ASIC wafer includes electrical circuits/components to process the readout signals received from the accelerometer and gyroscope.
26 Citations
6 Claims
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1. A device, comprising:
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a micro-electro-mechanical system (MEMS) wafer that is formed of one monolithic body devoid of a via hole and comprises first and second sensors formed on one side of the MEMS wafer, the first and second sensors each including an active component; an application-specific-integrated-circuit (ASIC) wafer bonded to the MEMS wafer and configured to electrically communicate to the first and second sensors, the ASIC wafer includes first and second cavities in a first surface thereof, the first and second cavities providing space for the first and second sensors, respectively, so that the active components of the first and second sensors freely move within the first and second cavities without touching the ASIC wafer; first and second electrical contacts providing electrical connection between the ASIC wafer and the MEMS wafer; and sealing mechanisms that bond the ASIC wafer to the MEMS wafer and separate the first cavity and the first electrical contact from the second cavity and the second electrical contact, the sealing means preventing fluid communication between the first and second cavities. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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Current AssigneeHanking Electronics Hongkong Company Limited
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Original AssigneeHanking Electronics, Ltd.
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InventorsHarper, Peter, Kondylis, Demetre, Desai, Hemant
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Primary Examiner(s)Kwok, Helen
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Application NumberUS14/067,727Time in Patent Office1,378 DaysField of Search73493, 73431, 257415US Class CurrentCPC Class CodesB81B 2201/0235 AccelerometersB81B 2201/0242 GyroscopesB81B 7/02 containing distinct electri...B81C 1/0023 Packaging together an elect...B81C 1/00238 Joining a substrate with an...B81C 2203/0118 Bonding a wafer on the subs...G01P 1/023 for acceleration measuring ...G01P 15/0802 DetailsG01P 2015/0865 using integrated signal pro...
