Patent application number | Description | Published |
20100186507 | MICROMECHANICAL ROTATION RATE SENSOR WITH A COUPLING BAR AND SUSPENSION SPRING ELEMENTS FOR QUADRATURE SUPPRESSION - A micromechanical rotation rate sensor including at least one substrate, wherein the base surface of the substrate is oriented parallel to the x-y plane of a Cartesian coordinate system, at least two seismic masses and in each case at least one suspension spring element for suspending the seismic mass from the substrate, wherein the at least two seismic masses are coupled to one another by at least one coupling bar, and at least one of the suspension spring elements includes at least two bar sections, which, in the undeflected state, are oriented essentially parallel to one another or are at an angle of less than 45° with respect to one another, and one or more connecting sections, which connect the bar sections to one another, wherein the bar sections can be displaced relative to one another in their longitudinal direction. | 07-29-2010 |
20100290199 | Encapsulation Module Method for Production and Use Thereof - A method for producing an encapsulation module and/or for encapsulating a micromechanical arrangement, wherein electronic connection provisions are formed from a blank of electrically conductive semiconductor material, by one or more structuring processes and/or etching processes, wherein, in the course of forming the electronic connection provisions, a pedestal of the semiconductor material arises, on which the electronic connection provisions are arranged, wherein the latter are subsequently embedded with an embedding material and the embedding material and/or the semiconductor pedestal are removed after the embedding to an extent such that a defined number of the electronic connection provisions have electrical contacts on at least one of the outer surfaces of the encapsulation module thus produced, wherein | 11-18-2010 |
20110113880 | MICROMECHANICAL ACCELERATION SENSOR - A micromechanical acceleration sensor includes at least a first seismic mass which is suspended in a deflectable manner, at least one readout device for detecting the deflection of the first seismic mass and at least one resetting device. | 05-19-2011 |
20110197414 | SENSOR ARRANGEMENT AND METHOD FOR EASY INSTALLATION INTO A VEHICLE - A method for installing a sensor arrangement into a vehicle having a vehicle chassis, wherein the vehicle chassis is in a defined position during the installation, and the sensor arrangement is attached directly or indirectly to the vehicle chassis, wherein the sensor arrangement includes one or more acceleration sensors with three linearly independent measuring directions, and the sensor arrangement has an electronic control unit which is configured in such a way that it includes a sensor calibration mode, wherein, after the attachment of the sensor arrangement, the at least one acceleration sensor senses the gravitational acceleration, after which the electronic control unit in the sensor calibration mode calculates and stores one or more relative positioning parameters from at least the detected direction of the gravitational acceleration (g), which positioning parameters include at least information about the relative positioning between the sensor arrangement and the vehicle chassis. | 08-18-2011 |
20120017676 | SENSOR DEVICE FOR DETECTING AT LEAST ONE ROTATION RATE OF A ROTATING MOTION - In order to be able to perform redundant measurements of rotation rates particularly economically, disclosed herein is a sensor device which includes a dual-axis, first rotation rate sensor element with which rotation rates of rotating motions of the sensor device about a first and a second rotation rate measurement axis can be detected, wherein the first and the second rotation rate measurement axes are oriented orthogonally in relation to one another. The sensor device is defined by the fact that the sensor device includes at least one other rotation rate sensor element with which a rotation rate of a rotating motion of the sensor device about a rotation rate measurement axis, which lies in a plane together with the first and the second rotation rate measurement axes, can be deselected. | 01-26-2012 |
20120118062 | METHOD FOR THE PRECISE MEASURING OPERATION OF A MICROMECHANICAL ROTATION RATE SENSOR - A method and apparatus for the precise measuring operation of a micromechanical rotation rate sensor, including at least one deflectively suspended seismic mass, at least one drive device for driving the seismic mass, and at least one first and one second trimming electrode element, which are jointly assigned directly or indirectly to the seismic mass, a first electrical trimming voltage (U | 05-17-2012 |
20120162634 | SPEED SENSOR - A sensor for sensing speeds, at least including a sensor unit, which has a radiation emitter element, a sensor element, a preliminary optical element and an evaluation circuit, a sensor housing, which has a leadframe, and a dirt guard unit, which includes a lens, wherein the sensor unit is in electrical contact with the leadframe of the sensor housing, and the lens of the dirt guard unit caps off the sensor housing as a cover. | 06-28-2012 |
20120188778 | SEAT-BELT BUCKLE WITH A SENSOR/ILLUMINATION SUBASSEMBLY - A seat-belt buckle for securing persons in motor vehicles, including at least one sensor unit which is designed in such a manner that it can detect the closure state of the seat-belt buckle, the seat-belt buckle having an illumination unit which is integrated, together with the sensor unit, in a common sensor/illumination subassembly. | 07-26-2012 |
20120210788 | DOUBLE-AXLE, SHOCK-RESISTANT ROTATION RATE SENSOR WITH LINEAR AND ROTARY SEISMIC ELEMENTS - A micromechanical rotation rate sensor has at least one first and one second seismic mass coupled to at least one first drive device and are suspended such that the first and second seismic masses are driven such that they are deflected in antiphase in one drive mode, with the rotation rate sensor being designed such that it can detect rotation rates about at least two mutually essentially orthogonal sensitive axes, wherein at least the first and second seismic masses are designed and suspended such that they oscillate in antiphase in a first read mode when a first rotation rate about the first sensitive axis is detected, and the first and second seismic masses and/or additional seismic masses are designed and suspended such that they oscillate in antiphase in a second read mode when a second rotation rate about the second sensitive axis is detected. | 08-23-2012 |
20120279301 | DOUBLE-AXIAL, SHOCK-RESISTANT ROTATION RATE SENSOR WITH NESTED, LINEARLY OSCILLATING SEISMIC ELEMENTS - A micromechanical rotation rate sensor, including a substrate whose base surface is aligned parallel to the x-y plane of a Cartesian coordinate system, with the rotation rate sensor having at least one first seismic mass and a second seismic mass which are coupled to at least one first drive device and are suspended such that the first and the second seismic masses are driven such that they are deflected in antiphase in one drive mode, with the rotation rate sensor being designed such that it can detect rotation rates about at least two mutually essentially orthogonal sensitive axes, wherein at least the second seismic mass is in the form of a frame which at least partially surrounds the first seismic mass with respect to the position on the x-y plane. | 11-08-2012 |
20120303221 | VEHICLE SENSOR NODE - The invention relates to a sensor system including a plurality of sensor elements which are designed so that the elements detect at least partially different primary measured values and utilize at least partially different measurement principles, further including a signal processing apparatus, an interface apparatus and a plurality of functional apparatuses. The sensor elements are connected to the signal processing apparatus, which is designed so that it includes at least one of the following signal processing functions each for at least one of the sensor elements and/or the output signals thereof, an error handling, a filtering, a calculation and/or provision of a derived measured value. At least one measured value is derived from at least one primary measured value of one or more sensor elements, and all functional apparatuses are connected to the signal processing apparatus via the interface apparatus and the signal processing apparatus provides the signal processing functions. | 11-29-2012 |
20140283603 | Micromechanical Element, Component Having a Micromechanical Element, and Method for Producing a Component - A micromechanical element ( | 09-25-2014 |
20140306300 | Component and Method for Producing a Component - A micromechanical component formed from, a substrate ( | 10-16-2014 |
20140327535 | Method for Filtering Data in a Tire Pressure Monitoring System for a Vehicle - A method for filtering data in a tire pressure monitoring system for a vehicle includes the steps of: recording a variable that is dependent on the tire radius for a wheel of the vehicle, and filtering the variable that is dependent on the tire radius on the basis of driving dynamics data and/or a global navigation satellite system signal, called GNSS signal below. A vehicle control system and a vehicle having the control system are also described. | 11-06-2014 |