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Hohe
Hans-Peter Hohe, Heiligenstadt DE
| Patent application number | Description | Published |
|---|---|---|
| 20090315549 | METHOD FOR PROCESSING SENSOR SIGNALS SUBJECT TO AN OFFSET AND SENSOR ARRANGEMENT DESIGNED TO CARRY OUT THE METHOD - The present invention relates to a method and a sensor arrangement for processing sensor signals, which are subject to an offset, of a sensor ( | 12-24-2009 |
| 20100217556 | METHOD FOR DETERMINING, SECTION AFTER SECTION, A PARAMETER-DEPENDENT CORRECTION VALUE APPROXIMATION COURSE AND SENSOR ARRANGEMENT - An embodiment of a method for a determination, section after section, of a parameter-dependent correction value approximation course includes determining a first measurement signal value with a first parameter value associated with a sensor arrangement when the first parameter value fulfils a predetermined condition or a trigger condition is fulfilled, changing the first parameter value to obtain a second parameter value, determining a second signal value with the second parameter value and determining a second partial section of the correction value approximation course for a second parameter range based on a functional connection describing the second partial section, the first parameter value, the second parameter value, the first measurement signal value, the second measurement signal value and an initial correction value. | 08-26-2010 |
| 20110031960 | Calibratable Multidimensional Magnetic Point Sensor - A calibratable magnetic field sensor for sensing a first and a second spatial component of a magnetic field in a reference point, wherein the magnetic field includes a first and a second measurement field component and/or a first and a second calibration field component. The magnetic filed sensor includes a first sensor element arrangement including at least a first and a second sensor element for sensing the first magnetic field component, which includes a first measurement field component and/or a first calibration field component, with respect to a first spatial axis in the reference point. Furthermore, the magnetic field sensor includes a second sensor element arrangement for sensing the second magnetic field component, which includes a second measurement field component and/or a second calibration field component, with respect to a second spatial axis in the reference point. The magnetic filed sensor also includes an excitation line arranged with respect to the first sensor element arrangement so that, when impressing a default current into the excitation line, a pair of different asymmetrical default calibration field components in the first sensor element and in the second sensor element is generated with respect to the first spatial axis in the first sensor element arrangement, wherein the two spatial axes pass along linearly independent position vectors. | 02-10-2011 |
Hans-Peter Hohe, Heiligenstedt DE
| Patent application number | Description | Published |
|---|---|---|
| 20120016614 | Magnetic 3D Sensor Calibratable During Measurement Operation - A magnetic field sensor for detecting first, second, and third spatial components of a magnetic field at a reference point includes a first sensor element arrangement for detecting the first magnetic field component having a first measurement field component and a first calibration field component with respect to a first spatial axis at a reference point, a second sensor element arrangement for detecting the second magnetic field component having a second measurement field component and a second calibration field component with respect to a second spatial axis y at the reference point and a third sensor element arrangement for detecting the third magnetic field component having a third measurement field component and a third calibration field component with respect to a third spatial axis x at the reference point. An excitation line is arranged such with respect to the three sensor element arrangements that when impressing a predetermined current into the excitation line respective predetermined calibration field components with respect to the spatial axes in the sensor element arrangements are generated. | 01-19-2012 |
Karen Hohe, Ledgewood, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20090311369 | VANILLA-FLAVORED COMPOSITIONS AND DELIVERY SYSTEMS THEREFOR - The present invention relates to compositions and comestibles that are vanilla-flavored but with a contributory mint flavor. More specifically, the compositions of the present invention have a characterizing vanilla flavor in combination with breath-freshening components and optionally cooling agents. In some embodiments, the compositions may include a vanilla flavor composition which includes vanilla flavor and vanillin or its derivatives and a mint oil composition. | 12-17-2009 |
Kurt Hohe, Langenau DE
| Patent application number | Description | Published |
|---|---|---|
| 20090072493 | Gasket - A gasket may have at least one metallic layer with at least one combustion gas through-opening and at least one fastener through-opening. The fastener through-opening may be at least partially circumferentially bounded by a deformation limiter having a plurality of troughs and crests. All of the troughs and crests are substantially aligned with one another. | 03-19-2009 |
| 20090166985 | FLAT GASKET AND METHOD FOR THE PRODUCTION THEREOF - The invention relates to a flat gasket, having at least one metallic layer in which at least one port is formed, the metallic layer or at least one of the metallic layers being formed at least in regions in the form of an undulating and/or serrated profiling around the port(s). | 07-02-2009 |