Patent application number | Description | Published |
20120067123 | Rotation Rate Sensor - A micromechanical rotation rate sensor, in particular for use in motor vehicles, includes a substrate, at least one seismic mass, which is arranged in a sprung manner on the substrate, drive means for production of a periodic movement of the seismic mass, force detection means for detection of a Coriolis force, which acts on the seismic mass as a result of rotation about a rotation axis which is at right angles to the excitation direction, and measurement means, wherein the measurement means are designed for measurement of structural deviations of the rotation rate sensor. | 03-22-2012 |
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 |
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 |
20130340522 | YAM RATE SENSOR - A yaw rate sensor, including a substrate and a main extension plane, for detecting a yaw rate around a first direction in parallel to the main extension plane, a first Coriolis mass, and a second Coriolis mass, and a drive device configured to drive the first and second Coriolis masses in parallel to a drive direction perpendicular to the first direction, the first and second Coriolis masses, for a yaw rate around the first direction, experiencing a Coriolis acceleration in parallel to a detection direction, which is perpendicular to the drive and first directions, the first and second Coriolis masses having first/second partial areas and third/fourth partial areas, respectively. The first and third partial areas are farther from the axis of symmetry in parallel to the first direction, and the second and fourth partial areas are closer to the axis of symmetry in parallel to the first direction. | 12-26-2013 |
20140103497 | PRODUCTION PROCESS FOR A MICROMECHANICAL COMPONENT AND MICROMECHANICAL COMPONENT - A production process for a micromechanical component includes at least partially structuring at least one structure from at least one monocrystalline silicon layer by at least performing a crystal-orientation-dependent etching step on an upper side of the silicon layer with a given ( | 04-17-2014 |
20160069682 | ROTATION RATE SENSOR HAVING A SUBSTRATE HAVING A MAIN EXTENSION PLANCE FOR DETECTING A ROTATION RATE - A rotation-rate sensor having a substrate with main extension plane, for detecting a rotation rate, extending in a direction parallel/orthogonal to the main plane; the sensor including a primary/secondary pair of seismic masses; the primary pair having first/second primary masses; the secondary pair having first/second secondary masses; the first/second primary masses being movable relative to the substrate along a primary deflection direction extending parallel to the main plane; the first/second secondary masses being movable relative to the substrate along a secondary deflection direction extending parallel to the main plane; the first/second primary masses and the first/second primary masses being movable antiparallel or parallel to one another corresponding to the deflection direction, essentially extending orthogonally to the secondary deflection direction; and the primary pair and/or secondary pair being drivable so that, based on sensor rotation, the Coriolis force leads to deflection of the first/second primary masses and/or the first/second secondary masses. | 03-10-2016 |
20160084653 | ROTATION RATE SENSOR AND A METHOD FOR OPERATING A ROTATION RATE SENSOR - A rotation rate sensor for detecting a rotational movement of the rotation rate sensor about a rotational axis extending within a drive plane of the rotation rate sensor include: a first rotational element, a second rotational element and a drive structure moveable in parallel to the drive plane, the first rotational element being drivable about a first center of rotation to achieve a first rotational vibration in parallel to the drive plane, the second rotational element being drivable about a second center of rotation to achieve a second rotational vibration in parallel to the drive plane, the drive structure being (i) coupled to the first and second rotational elements, and (ii) configured to generate a drive mode in phase opposition of the first and second rotational vibrations. | 03-24-2016 |
Patent application number | Description | Published |
20130264038 | PLATE-SHAPED HEAT EXCHANGER FOR A COOLING DEVICE COMPRISING AT LEAST ONE HEAT EXCHANGER PACKAGE - The invention relates to a plate-shaped heat exchanger for a cooling device comprising at least one heat exchanger package, in particular for a motor vehicle, consisting of a plurality of openings for accommodating a pipe conducting a coolant, wherein each opening is surrounded by an passage and a plurality of projections are distributed between the passages for the heat exchange with the medium to be cooled. In order to allow a high performance increase of a cooling device, yet a low increase in pressure loss of the charge air, a plurality of projections are arranged around an passage, wherein the projections have a shape that assures deliberate heat conduction from the projections to the passage. | 10-10-2013 |
20150096728 | CORRUGATED FIN AND METHOD FOR PRODUCING IT - A corrugated fin, in particular for a heat exchanger, having a substantially corrugated design, having a plurality of fin surfaces, wherein adjoining fin surfaces are connected to one another by means of a fin arch in such a way that a medium can flow through an intermediate space between adjoining fin surfaces, wherein the fin surfaces are arranged at an angle with respect to one another perpendicularly with respect to a throughflow direction for the medium, wherein the fin surface has at least one bulge which protrudes out of the plane of the fin surface, wherein the extent of the bulge in a direction perpendicularly with respect to the air throughflow direction is smaller than the extent of the fin surface in said direction. | 04-09-2015 |
Patent application number | Description | Published |
20090023194 | DEVICE AND METHOD FOR THE CULTIVATION AND GENERATION OF BIOLOGICAL MATERIAL IN A NUTRIENT MIST - The present invention relates to a device and a method for the cultivation and generation of biological material. | 01-22-2009 |
20100233140 | COLLAGEN-CONTAINING CELL CARRIER - The present invention relates to the use of a collagen-containing composition for the cultivation of biological cells, a method for the cultivation of biological cells, a method for the implantation of biological material into an organism and a method for the improvement of a composition in its suitability for the cultivation of biological cells. | 09-16-2010 |
20120077181 | METHOD FOR THE CRYOPRESERVATION OF CELLS, ARTIFICIAL CELL CONSTRUCTS OR THREE-DIMENSIONAL COMPLEX TISSUES ASSEMBLIES - The cryopreservation of cells and tissue cultures for long term storage of cells, cell constructs or three-dimensional complex tissues assemblies is based on the use of a collagen cell carrier (CCC) having a specific composition and thickness and appropriate mechanical properties which are maintained after thawing. The collagen cell carrier provides a suitable support for the cryopreservation resulting in high survival rates after thawing and providing cells and tissue assemblies already adhered to a mechanically stable and biocompatible support. Frozen collagen carrier-cells assemblies, the frozen artificial cell constructs or three-dimensional complex tissue assemblies obtainable by the method and the use thereof after thawing are also disclosed. | 03-29-2012 |
20130122078 | COLLAGEN-CONTAINING CELL CARRIER - The present invention relates to a method for the implantation of biological material into an organism. | 05-16-2013 |
20130267019 | CELL CULTURE INSERT - A cell culture device allows co-cultivation on both sides of a membrane and has an outer tubular body with upper end having an opening and lower end closed by the membrane, an inner surface and an outer surface, which can be colonized with biological material, a complementary tubular body whose inner diameter fits onto the outer diameter of the lower end and a hanger component with upper end and a lower end. A flange extends from the upper end and the outer diameter component fits the inner diameter of the outer tubular body. The outer tubular body in a first step is connected to the complementary tubular body to form a standing insert for a first cell cultivation, and in a second step wherein the outer tubular body is disengaged from the complementary tubular body and is attached to the hanger component for a second cell cultivation. | 10-10-2013 |