Scheibenzuber
Helmut Scheibenzuber, Weyarn DE
Patent application number | Description | Published |
---|---|---|
20150160292 | METHOD FOR POSITIONING A CARRIER WITH A PLURALITY OF ELECTRONIC COMPONENTS IN A DEVICE FOR TESTING THE ELECTRONIC COMPONENTS - Embodiments of the invention are based on a method for positioning a carrier with a plurality of electronic components in a device for testing the electronic components, wherein the carrier is provided with a pick-and-place unit. | 06-11-2015 |
Helmut Scheibenzuber, Feldkirchen-Westerham DE
Patent application number | Description | Published |
---|---|---|
20110041311 | TWO ABUTTING SECTIONS OF AN ALIGN FIXTURE TOGETHER FLOATINGLY ENGAGING AN ELECTRONIC COMPONENT - An align fixture for aligning an electronic component having a receptacle adapted to receive the electronic component and having a first abutting section and a second abutting section, the align fixture further having a first elastic unit and a second elastic unit, the first abutting section is flexibly mounted via the first elastic unit, and the second abutting section is flexibly mounted via the second elastic unit, and the first abutting section and the second abutting section are together adapted to floatingly engage the electronic component. | 02-24-2011 |
20110043231 | SYSTEM FOR POST-PROCESSING OF ELECTRONIC COMPONENTS - A method of post-processing a plurality of electronic components in a post-processing machine after fabrication of the electronic components including providing a carrier with align fixtures, which align fixtures have a clamping mechanism, actuating the clamping mechanism to enlarge a size of receptacles, each of the receptacles is assigned to one of the align fixtures and the enlarged receptacles are larger than the electronic components to be received, positioning the electronic components in the receptacles of the align fixtures, actuating the clamping mechanism to reduce a size of the receptacles so that the electronic components are aligned within the receptacles of the carrier, placing the carrier in the post processing machine, and subjecting the electronic components to operations of the post-processing machine while the electronic components maintain in aligned positions in the receptacles of the carrier. | 02-24-2011 |
20140167798 | SYSTEM FOR POST-PROCESSSING OF ELECTRONIC COMPONENTS - A method of post-processing a plurality of electronic components in a post-processing machine after fabrication of the electronic components including providing a carrier with align fixtures, which align fixtures have a clamping mechanism, actuating the clamping mechanism to enlarge a size of receptacles, each of the receptacles is assigned to one of the align fixtures and the enlarged receptacles are larger than the electronic components to be received, positioning the electronic components in the receptacles of the align fixtures, actuating the clamping mechanism to reduce a size of the receptacles so that the electronic components are aligned within the receptacles of the carrier, placing the carrier in the post processing machine, and subjecting the electronic components to operations of the post-processing machine while the electronic components maintain in aligned positions in the receptacles of the carrier. | 06-19-2014 |
Marcus Scheibenzuber, Munchen DE
Patent application number | Description | Published |
---|---|---|
20100143891 | Method for the Rapid Diagnosis of Targets in Human Body Fluids - More particularly, the present invention relates to a method for the detection of a target, e.g. pathogen in a human body fluid wherein a body fluid sample is collected with a swab member. | 06-10-2010 |
20140080204 | Apparatus for the Rapid Diagnosis of Targets in Human Body Fluids - More particularly, the present invention relates to a method for the detection of a target, e.g. pathogen in a human body fluid wherein a body fluid sample is collected with a swab member. | 03-20-2014 |
Marcus Scheibenzuber, Muechen DE
Patent application number | Description | Published |
---|---|---|
20100112725 | METHOD TO INCREASE SPECIFICITY AND/OR ACCURACY OF LATERAL FLOW IMMUNOASSAYS - The present invention includes methods and devices for preventing interfering substances from affecting the accuracy of a lateral flow immunoassay. In preferred embodiments, a test strip includes a capturing zone that includes at least one mobile capturing reagent that separates at least one interfering substance from the analyte. The capturing zone is preferably located upstream of the sample application zone. In some embodiments, the reagent/conjugate zone is also located upstream of the sample application zone. The capturing zone may be located upstream, downstream, or overlapping with the reagent/conjugate zone in these embodiments. In other preferred embodiments, one or more mobile capturing reagents are included in the elution medium/running buffer. In yet other embodiments, the capturing reagent is incorporated into a sample collection device of a sample collection system, preferably separate from the chromatographic test strip. A lysis zone is also included in some preferred embodiments. | 05-06-2010 |
Marcus Scheibenzuber, Munich DE
Patent application number | Description | Published |
---|---|---|
20130295583 | Method to Increase Specificity and/or Accuracy of Lateral Flow Immunoassays - The present invention includes methods and devices for preventing interfering substances from affecting the accuracy of a lateral flow immunoassay. In preferred embodiments, a test strip includes a capturing zone that includes at least one mobile capturing reagent that separates at least one interfering substance from the analyte. The capturing zone is preferably located upstream of the sample application zone. In some embodiments, the reagent/conjugate zone is also located upstream of the sample application zone. The capturing zone may be located upstream, downstream, or overlapping with the reagent/conjugate zone in these embodiments. In other preferred embodiments, one or more mobile capturing reagents are included in the elution medium/running buffer. In yet other embodiments, the capturing reagent is incorporated into a sample collection device of a sample collection system, preferably separate from the chromatographic test strip. A lysis zone is also included in some preferred embodiments. | 11-07-2013 |
Robert Scheibenzuber, Muenchen DE
Patent application number | Description | Published |
---|---|---|
20090172928 | Turning fastener for a shoe - A turning fastener for a shoe has a pulling means with two end portions, which act on a take-up reel, which is provided with an annular groove for receiving the pulling means, a rotatable mounting of the take-up reel with a bearing journal, which engages in a bearing, a holder, which can be fastened to the shoe, for the rotatable mounting, and an engageable and disengageable directional locking mechanism, which in the engaged position blocks the take-up reel in one direction of rotation for closing the shoe and in the disengaged position releases it in this direction of rotation. The take-up reel is formed as a rotary grip, wherein two through-openings, extending from the annular groove to the end face of the take-up reel that is facing away from the holder, are provided for leading one or the other end portion of the pulling means through. The take-up reel is guided in an axially displaceable manner with the bearing journal and the bearing, and the directional locking mechanism is engaged in the position of the take-up reel in which it is pushed towards the holder and is disengaged in the position in which it is pushed away from the holder. | 07-09-2009 |
Wolfgang Georg Scheibenzuber, Vilsbiburg DE
Patent application number | Description | Published |
---|---|---|
20150019152 | Error Compensation in an Angle Sensor - Embodiments provide a method for determining sine or cosine correction values for an error compensation in an angle sensor. At least three pairs of values for at least three rotation angle values of an angle sensor are detected. Each pair of values includes a rotation angle value and an associated measurement signal value. The associated measurement signal value includes a sine component and a cosine component. The sine correction value for an offset error of the sine components of the measurement signal values is determined by adding the sine components of two detected measurement signal values. The cosine correction value for an offset error of the cosine components of the measurement signal values is determined by adding the cosine components of two detected measurement signal values. The sine correction value for the offset error of the sine components or the cosine correction value for the offset error of the cosine components is provided for error compensation. | 01-15-2015 |