Patent application number | Description | Published |
20100122576 | Rotation rate sensor - A rotation rate sensor includes: a mounting device; a first drive frame having a drive, which is designed to set the first drive frame into a first oscillatory motion along an axis of oscillation relative to the mounting device; a first stator electrode; a first actuator electrode coupled to the first drive frame in such a way that in a rotary motion of the rotation rate sensor due to a Coriolis force, the first actuator electrode being displaceable in a first deflection direction relative to the first stator electrode; and an evaluation device configured to determine a voltage applied between the first stator electrode and the first actuator electrode, and to specify information regarding the rotary motion of the rotation rate sensor while taking the determined voltage value into account. | 05-20-2010 |
20100186505 | ROTATION RATE SENSOR AND METHOD FOR OPERATING A ROTATION RATE SENSOR - A rotation rate sensor includes a substrate having a main extension plane, and a Coriolis element movable relative to the substrate, the Coriolis element being provided to be excitable, by way of excitation means, to perform an oscillation deflection substantially parallel to the main extension plane; and the Coriolis element further being provided to be deflectable, by way of a Coriolis force acting on the Coriolis element, to perform a detectable Coriolis deflection perpendicular to the main extension plane; and the rotation rate sensor further including at least one compensation electrode that is provided for at least partial compensation, as a function of the oscillation deflection, for a levitation force acting on the Coriolis element. | 07-29-2010 |
20100199762 | MICROMECHANICAL DEVICE HAVING A DRIVE FRAME - A micromechanical device includes at least one drive frame and at least one vibrator, the vibrator being situated in a region surrounded by the drive frame; the vibrator being mechanically coupled to the drive frame. The drive frame is able to be excited to generate a flexural vibration. | 08-12-2010 |
20110023600 | MICROMECHANICAL YAW-RATE SENSOR - A micromechanical yaw-rate sensor comprising a first yaw-rate sensor element, which outputs a first sensor signal, which contains information about a rotation around a first rotational axis, a second yaw-rate sensor element, which outputs a second sensor signal, which contains information about a rotation around a second rotational axis, which is perpendicular to the first rotational axis, a drive, which drives the first yaw-rate sensor element, and a coupling link, which mechanically couples the first yaw-rate sensor element and the second yaw-rate sensor element to one another, so that driving of the first yaw-rate sensor element also causes driving of the second yaw-rate sensor element. | 02-03-2011 |
20110079080 | Micromechanical structure and method for operating a micromechanical structure - A micromechanical yaw rate sensor includes a substrate having a main plane of extension and two Coriolis elements. The first Coriolis element may be driven to a first vibration along a second direction which is parallel to the main plane of extension. The second Coriolis element may be driven to a second vibration which is antiparallel to the first vibration. A first deflection of the first Coriolis element and a second deflection of the second Coriolis element, in each case along a first direction which is parallel to the main plane of extension and perpendicular to the second direction, may be detected. The micromechanical sensor also has a rocker element indirectly or directly coupled to the first Coriolis element and to the second Coriolis element, which rocker element has a torsional axis essentially parallel to the second direction. | 04-07-2011 |
20110132087 | Yaw rate sensor - A yaw rate sensor having a substrate, a first Coriolis element and a second Coriolis element is described, the first Coriolis element being excitable to a first vibration by first excitation means, and the second Coriolis element being excitable to a second vibration by second excitation means, and the first and second Coriolis elements being connected to one another by a spring structure, and the spring structure also including at least one rocker structure, the rocker structure being anchored on the substrate by at least one spring element. | 06-09-2011 |
20110185813 | MICROMECHANICAL YAW RATE SENSOR HAVING TWO SENSITIVE AXES AND COUPLED DETECTION MODES - In a yaw rate sensor with a substrate having a main extent plane and with a first and second partial structure disposed parallel to the main extent plane, the first partial structure includes a first driving structure and the second partial structure includes a second driving structure, the first and second partial structure being excitable by a driving device, via the first and second driving structure, into oscillation parallel to a first axis parallel to the main extent plane, the first partial structure having a first Coriolis element and the second partial structure having a second Coriolis element, the yaw rate sensor being characterized in that the first and second Coriolis elements are displaceable by a Coriolis force parallel to a second axis, which is perpendicular to the first axis, and parallel to a third axis, which is perpendicular to the first and second axis, the second axis extending parallel to the main extent plane, and the first Coriolis element being connected to the second Coriolis element via a coupling element. | 08-04-2011 |
20110186944 | Micromechanical Structure and Method for Setting the Working Gap Width of a Micromechanical Structure - A micromechanical structure, includes at least two structure sections configured to bound a working gap, the at least two structure sections being movable relative to one another, and a working gap width setting device configured to broaden the at least one working gap by movement of a first structure section of the at least two structure sections relative to a second structure section of the at least two structure section, the first structure section is stationary relative to a reference point during operation of the micromechanical structure and (ii) the second structure section is movable relative to the reference point during operation. | 08-04-2011 |
20110219877 | MICROMECHANICAL SENSOR - A micromechanical sensor having at least one movably mounted measuring element which is opposite at least one stationary electrode, the electrode being situated in a first plane, and being contacted by at least one printed conductor track which is situated in a second plane. A third plane is located between the first plane and the second plane, the third plane including an electrically conductive material. | 09-15-2011 |
20110283794 | COUPLING STRUCTURE FOR A YAW RATE SENSOR DEVICE, YAW RATE SENSOR DEVICE, AND METHOD FOR THE PRODUCTION THEREOF - A coupling structure for a rotation rate sensor apparatus, having at least one first oscillating mass; and having a first frame, surrounding the first oscillating mass, to which the first oscillating mass is coupled; the first frame encompassing four angle elements, each of which angle elements has at least one first limb and one second limb and is respectively coupled with the first limb and with the second limb to another adjacent angle element of the four angle elements. Also described is a further coupling structure for a rotation rate sensor apparatus, to a rotation rate sensor apparatus, to a manufacturing method for a coupling structure for a rotation rate sensor apparatus, and to a manufacturing method for a rotation rate sensor apparatus. | 11-24-2011 |
20110296913 | Yaw rate sensor - A yaw rate sensor includes: at least one Coriolis element; a drive device connected to the Coriolis element and configured to drive a vibration of the Coriolis element; a detection device having at least one rotor; and a coupling device connected to the detection device and to the Coriolis element. The coupling device is configured to couple a deflection in the plane of vibration of the Coriolis element to the detection device in a direction orthogonal to the vibration, so that when the Coriolis element is deflected a torque for driving the at least one rotor is transmitted from the Coriolis element to the at least one rotor. | 12-08-2011 |
20120011933 | YAW RATE SENSOR - A yaw rate sensor is described which includes a drive device, at least one Coriolis element, and a detection device having at least two detection elements which are coupled to one another with the aid of a coupling device, the drive device being connected to the Coriolis element for driving a vibration of the Coriolis element, and an additional coupling device which is connected to the detection device and to the Coriolis element for coupling a deflection in the plane of vibration of the Coriolis element to the detection device in a direction orthogonal to the vibration. | 01-19-2012 |
20120031183 | MICROMECHANICAL SYSTEM - A yaw-rate sensor for determining a Coriolis force includes a semiconductor substrate, a mass body mounted so it is movable over the semiconductor substrate, a drive unit for setting the mass body into an oscillating movement, and a detection unit for determining a deflection of the mass body which is caused by the Coriolis force. The detection unit includes a piezoresistive element, whose electrical resistance is a function of the deformation of the piezoresistive element. | 02-09-2012 |
20120060604 | YAW-RATE SENSOR - A yaw-rate sensor having a substrate and a plurality of movable substructures that are mounted over a surface of the substrate, the movable substructures being coupled to a shared, in particular, central spring element, means being provided for exciting the movable substructures into a coupled oscillation in a plane that extends parallel to the surface of the substrate, the movable substructures having Coriolis elements, means being provided for detecting deflections of the Coriolis elements induced by a Coriolis force, a first Coriolis element being provided for detecting a yaw rate about a first axis, a second Coriolis element being provided for detecting a yaw rate about a second axis, the second axis being oriented perpendicularly to the first axis. | 03-15-2012 |
20120125098 | ROTATIONAL RATE SENSOR HAVING INTERMESHING CORIOLIS ELEMENTS - A rotational rate sensor includes: a substrate having a main plane of extension; a first Coriolis element; and a second Coriolis element. The first Coriolis element and the second Coriolis element have a first and a second center of gravity, respectively, and the elements are drivable along a drive direction. In the idle state of the rotational rate sensor, (i) the distance between the first center of gravity and the second center of gravity along the detection direction is less than a first value, and (ii) the distance between the first center of gravity and the second center of gravity along the third direction is less than a second value. | 05-24-2012 |
20120125099 | YAW-RATE SENSOR AND METHOD FOR OPERATING A YAW-RATE SENSOR - A yaw-rate sensor includes: a substrate having a main extension plane for detecting a yaw rate about a first axis extending parallel to the main extension plane; a first Coriolis element; a second Coriolis element; a third Coriolis element; and a fourth Coriolis element. The first Coriolis element and the fourth Coriolis element are drivable in the same direction parallel to a second axis extending parallel to the main extension plane and perpendicularly to the first axis. The first Coriolis element and the second Coriolis element are drivable in opposite directions parallel to the second axis. The first Coriolis element and the third Coriolis element are drivable in opposite directions parallel to the second axis. | 05-24-2012 |
20120152019 | Yaw-rate sensor and method for operating a yaw-rate sensor - A yaw-rate sensor is described as having a substrate which has a main plane of extension for detecting a yaw rate about a first axis extending parallel to the main plane of extension is provided, the yaw-rate sensor having a first rotation element and a second rotation element, the first rotation element being drivable about a first axis of rotation, the second rotation element being drivable about a second axis of rotation, the first axis of rotation being situated perpendicularly to the main plane of extension, the second axis of rotation being situated perpendicularly to the main plane of extension, the first rotation element and the second rotation element being drivable in opposite directions. | 06-21-2012 |
20120272735 | Micromechanical Rotary Acceleration Sensor and Method for Detecting a Rotary Acceleration - The disclosure relates to a micromechanical rotary acceleration sensor including a substrate with at least one anchoring device and at least two flywheel masses. At least one of the flywheel masses is connected to at least one anchoring device by means of a coupling element. The at least one anchoring device is designed in such a manner that the at least two flywheel masses are elastically deflectable from a respective rest position about at least one axis of rotation. The at least two flywheel masses is designed in such a manner that they have different natural frequencies. | 11-01-2012 |
20120297878 | Micromechanical Angular Acceleration Sensor and Method for Measuring an Angular Acceleration - A micromechanical angular acceleration sensor for measuring an angular acceleration is disclosed. The sensor includes a substrate, a seismic mass, at least one suspension, which fixes the seismic mass to the substrate in a deflectable manner, and at least one piezoresistive and/or piezoelectric element for measuring the angular acceleration. The piezoresistive and/or piezoelectric element is arranged in a cutout of the seismic mass. A corresponding method and uses of the sensor are also disclosed. | 11-29-2012 |
20130098154 | Piezoresistive Micromechanical Sensor Component and Corresponding Measuring Method - A piezoresistive micromechanical sensor component includes a substrate, a seismic mass, at least one piezoresistive bar, and a measuring device. The seismic mass is suspended from the substrate such that it can be deflected. The at least one piezoresistive bar is provided between the substrate and the seismic mass and is subject to a change in resistance when the seismic mass is deflected. The at least one piezoresistive bar has a lateral and/or upper and/or lower conductor track which at least partially covers the piezoresistive bar and extends into the region of the substrate. The measuring device is electrically connected to the substrate and to the conductor track and is configured to measure the change in resistance over a circuit path which runs from the substrate through the piezoresistive bar and from the piezoresistive bar through the lateral and/or upper and/or lower conductor track. | 04-25-2013 |
20140326070 | YAW-RATE SENSOR - A yaw-rate sensor having a substrate and a plurality of movable substructures that are mounted over a surface of the substrate, the movable substructures being coupled to a shared, in particular, central spring element, means being provided for exciting the movable substructures into a coupled oscillation in a plane that extends parallel to the surface of the substrate, the movable substructures having Coriolis elements, means being provided for detecting deflections of the Coriolis elements induced by a Coriolis force, a first Coriolis element being provided for detecting a yaw rate about a first axis, a second Coriolis element being provided for detecting a yaw rate about a second axis, the second axis being oriented perpendicularly to the first axis. | 11-06-2014 |