Patent application number | Description | Published |
20110083507 | Yaw rate sensor and method for operating a yaw rate sensor - A yaw rate sensor includes a substrate which has a main plane of extension and a Coriolis element which is movable relative to the substrate. The yaw rate sensor has an excitation arrangement for exciting a drive oscillation of the Coriolis element along a first direction parallel to the main plane of extension. The yaw rate sensor has a detection arrangement for detecting a Coriolis deflection of the Coriolis element along a third direction which is perpendicular to the main plane of extension. In addition, the yaw rate sensor has a quadrature compensation structure which includes a comb electrode structure and a plate capacitor structure. | 04-14-2011 |
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 |
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 |
20120136632 | SENSOR AND METHOD FOR OPERATING A SENSOR | 05-31-2012 |
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 |
20130042664 | Method for the functional checking of an inertial sensor and inertial sensor - A method for providing functional checking of an inertial sensor, a first test signal having a first frequency being fed in at a test electrode of the inertial sensor for exciting a vibration of a vibration mass and a first response signal corresponding to the vibration mass is recorded, a second test signal having a second frequency different from the first frequency being fed in at the test electrode, a second response signal corresponding to the vibration mass being recorded, and the two response signals being evaluated. Also described is an inertial sensor. | 02-21-2013 |
20130298672 | YAW-RATE SENSOR - A yaw-rate sensor, having a substrate which has a main extension plane, for detecting a yaw rate about a first direction extending either parallel to the main extension plane or perpendicular to the main extension plane. The yaw-rate sensor has a drive device, a first Coriolis mass and a second Coriolis mass, the drive device being configured to drive at least one part of the first Coriolis mass and at least one part of the second Coriolis mass in a direction parallel to a drive direction extending perpendicular to the first direction. | 11-14-2013 |
20140373628 | YAW RATE SENSOR HAVING THREE SENSITIVE AXES AND METHOD FOR MANUFACTURING A YAW RATE SENSOR - A yaw rate sensor includes: a first sensor structure having a first oscillating mass and configured to detect a first yaw rate around a first axis of rotation; a second sensor structure having a second oscillating mass and configured to detect second and third yaw rates around second and third axes of rotation, respectively; and a drive structure coupled to the first and second oscillating masses. The first oscillating mass is drivable into a first drive oscillation along a first oscillation direction, and the second oscillating mass is drivable into a second drive oscillation along a second oscillation direction different from the first oscillation direction. The first axis of rotation is perpendicular to the first oscillation direction, and the second and third axes of rotation are perpendicular to the second oscillation direction. | 12-25-2014 |
Patent application number | Description | Published |
20100122577 | EVALUATION ELECTRONICS SYSTEM FOR A ROTATION-RATE SENSOR - An evaluation electronics system for a rotation-rate sensor, having a first and a second seismic mass, is developed for the purpose of ascertaining a rotation rate, acting on the rotation-rate sensor, from a deflection of the first and second seismic masses. The evaluation electronics system, in this instance, has a regulation member in order to minimize an undesired deflection of the first and second seismic masses, caused by interference influences. | 05-20-2010 |
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 |