Patent application number | Description | Published |
20150109021 | METHOD OF OPERATING A STATIONARY ELECTRICAL POWER PLANT CONNECTED TO A POWER SUPPLY NETWORK - A method of operating a stationary power plant connected to a power supply network, wherein upon the occurrence of a dynamic network fault in the power supply network, in particular an electric short-circuit, at least one fault value is ascertained in dependence on a state value of at least one operating parameter of the power plant wherein the at least one fault value is associated with at least one component of the power plant, wherein a maintenance signal for the at least one component of the power plant is output in dependence on the at least one fault value. | 04-23-2015 |
20150115616 | METHOD OF OPERATING AN INTERNAL COMBUSTION ENGINE CONNECTED TO AN ELECTRIC GENERATOR - A method of operating an internal combustion engine connected to an electric generator, in particular a synchronous generator, during a network fault, in particular during an electric short-circuit, in a power supply network connected to the generator, wherein a mechanical power delivered by the internal combustion engine is introduced into the generator and converted into electric power in the generator, wherein the electric power is delivered to the power supply network, wherein the mechanical power delivered by the internal combustion engine is at least temporarily increased in dependence on the value of at least one operating parameter of the generator and/or the internal combustion engine prior to the network fault and/or during the network fault, preferably by an amount of a fuel introduced into the internal combustion engine being increased. | 04-30-2015 |
20150115997 | METHOD OF OPERATING A GENERATOR CONNECTED TO A POWER SUPPLY NETWORK - A method of operating a generator connected to a power supply network, in particular a synchronous generator, during a network fault in the power supply network, in particular during an electric short-circuit, wherein electric excitation of the generator is at least temporarily reduced in dependence on the value of at least one operating parameter of the generator prior to the network fault and/or during the network fault. | 04-30-2015 |
Patent application number | Description | Published |
20100218860 | Method for producing a molded sheet metal part from an as-rolled, non-hardenable aluminum alloy - Method for producing an open molded sheet metal part from a non-hardenable aluminum alloy that has the following steps:
| 09-02-2010 |
20100319428 | METHOD FOR HYDROFORMING HOLLOW PROFILE METAL WORKPIECES - A method for hydroforming hollow metal workpieces includes submerging the same in a reservoir of hydraulic fluid. A press is provided having a hydroforming station located within the reservoir and includes a forming cavity configured to receive the fluid filled workpiece and create a fluid cushion spaced between the outside of the workpiece and the inside of the forming cavity. Sealing mandrels supply high-pressure hydraulic fluid to the interior of the workpiece which hydroform the same to the shape of the final part. The outward flow of fluid from the fluid cushion space is controlled, along with the associated pressure, to maintain the fluid cushion at least until such time as the mandrel pushing step concludes, thereby alleviating friction and adhesion between the formed part and the forming cavity. | 12-23-2010 |
20110171079 | METHOD AND APPARATUS FOR PRODUCING A CATALYTIC CONVERTER - A method is disclosed for producing a catalytic converter, which includes a monolith wrapped in a mat and is disposed in a housing, wherein an average diameter of the monolith and a thickness of the mat are determined and the monolith is wrapped in the mat. A housing blank is formed into a housing and the wrapped monolith is enclosed in the housing. The average diameter of the monolith is determined by introducing the monolith in a measurement space having an interior volume, filling a gap between the measurement space and the monolith with a fluid, measuring a quantity of fluid which corresponds to a volume difference between the monolith and the interior volume of the measurement space, and calculating the average diameter of the monolith from the volume difference. | 07-14-2011 |
20110284526 | CLAMPING APPARATUS AND METHOD OF HEAT-TREATING A LONG MATERIAL - Apparatus for heat treatment of a long material of metal includes an induction unit having an inductor for heating a long material and a quenching spray associated to the inductor. The induction unit and the long material are moveable in relation to one another during a heat treatment. A holding device secures the long material and includes at least two clamping units which are spaced from one another at a distance in a longitudinal direction of the long material. The clamping units can be opened to allow passage of the induction unit during the heat treatment and closed again after passage of the induction unit. | 11-24-2011 |
20130020834 | METHOD OF MANUFACTURING A TUBULAR STRUCTURAL PART, AND TUBULAR STRUCTURAL PART - In a method of making a tubular structural part for a motor vehicle, a metal plate is contoured and preformed in at least one shaping step into a tubular body. Subsequently, the tubular body is end-formed into the structural part by internal high-pressure application while free contact regions snugly bear upon one another. The structural part is at least partially heated and quenched in a holding tool acted upon with a coolant. | 01-24-2013 |
Patent application number | Description | Published |
20080284628 | Delta Sigma Modulator - A delta sigma modulator includes an oscillatory system having a natural frequency and an electronics and a control loop which acts upon the electronics from the oscillatory system and again upon the oscillatory system from the electronics. The control loop provides that a gain in the control loop demonstrates a peaking in a frequency range around the natural frequency of the oscillatory system. | 11-20-2008 |
20100000321 | YAW RATE SENSOR - A yaw rate sensor includes a drive mass element which is situated above a surface of a substrate and is drivable to vibrate by a drive device along a first axis extending along the surface, having a detection mass element, which is deflectable under the influence of a Coriolis force along a second axis perpendicular to the surface, and having a detection device by which the deflection of the detection mass element along the second axis is detectable. Due to the arrangement of the second axis perpendicular to the surface, the yaw rate sensor may be integrated into a chip together with additional yaw rate sensors suitable for detection of rotations about axes of rotation in other directions. | 01-07-2010 |
20100116043 | COMPONENT AND PRODUCTION METHOD FOR A COMPONENT - A component having an acceleration sensor having at least one freely oscillatory mass, and a resonator having at least one resonating structure, in which the at least one freely oscillatory mass of the acceleration sensor and the at least one resonating structure of the resonator are disposed on and/or in one chip. A corresponding production method for a component is also described. | 05-13-2010 |
20100145660 | MEMS SENSOR WITH BUILT-IN SELF-TEST - A method and system for testing a MEMS sensor element during operation of a MEMS sensor system in one embodiment includes a test signal generator configured to generate a broad frequency band test signal, and a verification signal substantially identical to the test signal, a microelectrical-mechanical system (MEMS) sensor element operatively connected to the test signal generator for generating a sensor output in response to the test signal, a comparison component configured to generate an evaluation signal output based upon the verification signal and the test signal, and an evaluation circuit operatively connected to the comparison component and configured to identify a mismatch between the verification signal and the sensor output based upon the evaluation signal. | 06-10-2010 |
20100225500 | METHOD FOR CONTROLLING A DEVICE AND A DEVICE FOR CONTROLLING THE DEVICE - A device for controlling a device by using a rotation-rate sensor. In order to provide a device for determining a triggering signal for a safety device which allows a particularly compact implementation of the device, the device is set up to ascertain an acceleration variable on the basis of a first sensor signal for a first seismic mass of the rotation-rate sensor and the second sensor signal for a second seismic mass of the rotation-rate sensor and to control the device as a function of the acceleration variable. | 09-09-2010 |
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 |
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 |
20120186345 | SELF-TEST FOR YAW RATE SENSORS - A yaw rate sensor ( | 07-26-2012 |
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 |
20150121990 | SELF-TEST FOR YAW RATE SENSORS - A yaw rate sensor ( | 05-07-2015 |
20150276408 | 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. | 10-01-2015 |