Patent application number | Description | Published |
20130247666 | MICROMACHINED 3-AXIS ACCELEROMETER WITH A SINGLE PROOF-MASS - This document discusses, among other things, an inertial measurement system including a device layer including a single proof-mass 3-axis accelerometer, a cap wafer bonded to a first surface of the device layer, and a via wafer bonded to a second surface of the device layer, wherein the cap wafer and the via wafer are configured to encapsulate the single proof-mass 3-axis accelerometer. The single proof-mass 3-axis accelerometer can be suspended about a single, central anchor, and can include separate x, y, and z-axis flexure bearings, wherein the x and y-axis flexure bearings are symmetrical about the single, central anchor and the z-axis flexure is not symmetrical about the single, central anchor. | 09-26-2013 |
20130270657 | MICROMACHINED MONOLITHIC 6-AXIS INERTIAL SENSOR - The device layer of a 6-degrees-of-freedom (6-DOF) inertial measurement system can include a single proof-mass 6-axis inertial sensor formed in an x-y plane, the inertial sensor including a main proof-mass section suspended about a single, central anchor, the main proof-mass section including a radial portion extending outward towards the edge of the inertial sensor, a central suspension system configured to suspend the 6-axis inertial sensor from the single, central anchor, and a drive electrode including a moving portion and a stationary portion, the moving portion coupled to the radial portion, wherein the drive electrode and the central suspension system are configured to oscillate the 6-axis inertial sensor about a z-axis normal to the x-y plane. | 10-17-2013 |
20130270660 | SEALED PACKAGING FOR MICROELECTROMECHANICAL SYSTEMS - One example includes an integrated circuit including at least one electrical interconnects disposed on an elongate are extending away from a main portion of the integrated circuit and a microelectromechanical layer including an oscillating portion, the microelectromechanical layer coupled to the main portion of the integrated circuit, wherein the microelectromechanical layer includes a cap comprising a membrane that extends to the integrated circuit. | 10-17-2013 |
20130277773 | THROUGH SILCON VIA WITH REDUCED SHUNT CAPACITANCE - This document refers to apparatus and methods for a device layer of a microelectromechanical system (MEMS) sensor having vias with reduced shunt capacitance. In an example, a device layer can include a substrate having a pair of trenches separated in a horizontal direction by a portion of the substrate, wherein each trench of the pair of trenches includes first and second vertical layers including dielectric, the first and second vertical layers separated by a third vertical layer including polysilicon. | 10-24-2013 |
20130298671 | FLEXURE BEARING TO REDUCE QUADRATURE FOR RESONATING MICROMACHINED DEVICES - An example include microelectromechanical die for sensing motion that includes a fixed portion, an anchor coupled to the fixed portion, a first nonlinear suspension member coupled to anchor on a side of the anchor, a second nonlinear suspension member coupled to the anchor on the same side of the anchor, the second nonlinear suspension member having a shape and location mirroring the first nonlinear suspension member about an anchor bisecting plane and a proof-mass that is planar, the proof mass suspended at least in part by the first nonlinear suspension member and the second nonlinear suspension member such that the proof-mass is rotable about the anchor and is slideable in a plane parallel to the fixed portion. | 11-14-2013 |
20130328139 | MICROMACHINED MONOLITHIC 3-AXIS GYROSCOPE WITH SINGLE DRIVE - This document discusses, among other things, a cap wafer and a via wafer configured to encapsulate a single proof-mass 3-axis gyroscope formed in an x-y plane of a device layer. The single proof-mass 3-axis gyroscope can include a main proof-mass section suspended about a single, central anchor, the main proof-mass section including a radial portion extending outward towards an edge of the 3-axis gyroscope sensor, a central suspension system configured to suspend the 3-axis gyroscope from the single, central anchor, and a drive electrode including a moving portion and a stationary portion, the moving portion coupled to the radial portion, wherein the drive electrode and the central suspension system are configured to oscillate the 3-axis gyroscope about a z-axis normal to the x-y plane at a drive frequency. | 12-12-2013 |
20150185012 | MEMS PROOF MASS WITH SPLIT Z-AXIS PORTIONS - This document discusses among other things apparatus and methods for a proof mass including split z-axis portions. An example proof mass can include a center portion configured to anchor the proof-mass to an adjacent layer, a first z-axis portion configure to rotate about a first axis using a first hinge, the first axis parallel to an x-y plane orthogonal to a z-axis, a second z-axis portion configure to rotate about a second axis using a second hinge, the second axis parallel to the x-y plane, wherein the first z-axis portion is configured to rotate independent of the second z-axis portion. | 07-02-2015 |
20150321904 | MULTI-DIE MEMS PACKAGE - This document refers to multi-die micromechanical system (MEMS) packages. In an example, a multi-die MEMS package can include a controller integrated circuit (IC) configured to couple to a circuit board, a MEMS IC mounted to a first side of the controller IC, a through silicon via extending through the controller IC between the first side and a second side of the controller IC, the second side opposite the first side, and wherein the MEMS IC is coupled to the through silicon via. | 11-12-2015 |