Patents by Inventor Ulrich Ritter
Ulrich Ritter has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240118109Abstract: A device for detecting axial and/or radial magnetic fields acting relative to an axis (A) is characterised by at least two magnetic switch components (530, 531) arranged adjacent to one another along the axis (A) and an evaluation circuit for combining the signals of the magnetic switch components (530, 531) to form an output signal representing a switch-on and switch-off process.Type: ApplicationFiled: September 27, 2023Publication date: April 11, 2024Inventors: Ulrich Ritter, Shangping Ying
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Publication number: 20230184852Abstract: A sensor (10) for a magnetic field position measuring system has at least one transparent substrate (11) that has a first side and a second side which is opposite the first side. At least one photosensor (12) using spatial resolution is arranged on the second side. At least one light source (13a-h) is arranged on at least one side. Diamonds (14) having lattice defects are arranged between the substrate (11) and the photosensor (12) and/or in the substrate (11). Alternatively, the substrate (11) is a diamond having lattice defects.Type: ApplicationFiled: December 6, 2022Publication date: June 15, 2023Inventors: Matthias Niethammer, Ulrich Ritter, Christoph Boeckenhoff
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Patent number: 9996781Abstract: The invention relates to a data carrier comprising a storage layer forming a plurality of first surface elements (6). The storage layer (2) has at least one optical characteristic, which is optically anisotropic and which varies spatially between the first surface elements (6). A cover layer (3) over the storage layer (2) forms a plurality of second surface elements (10), each acting as a polarization filter for a predetermined polarization direction. The predetermined polarization direction varies between the second surface elements (10). The storage layer can contain in particular bacteriorhodopsin in the form of a purple membrane. The invention also relates to a method for the production and reading of a data carrier of this type.Type: GrantFiled: October 5, 2015Date of Patent: June 12, 2018Assignee: ACTILOR INTELLECTUAL ASSET AGInventors: Ulrich Ritter, Samuel Schindler, Geza Murvai
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Publication number: 20170364783Abstract: The invention relates to a data carrier comprising a storage layer forming a plurality of first surface elements (6). The storage layer (2) has at least one optical characteristic, which is optically anisotropic and which varies spatially between the first surface elements (6). A cover layer (3) over the storage layer (2) forms a plurality of second surface elements (10), each acting as a polarisation filter for a predetermined polarisation direction. The predetermined polarisation direction varies between the second surface elements (10). The storage layer can contain in particular bacteriorhodop sin in the form of a purple membrane. The invention also relates to a method for the production and reading of a data carrier of this type.Type: ApplicationFiled: October 5, 2015Publication date: December 21, 2017Applicant: Actilor Intellectual Asset AGInventors: Ulrich RITTER, Samuel SCHINDLER, Geza MURVAI
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Patent number: 9667031Abstract: An architecture for current driver circuitry for diode laser systems is contemplated whereby the circuitry is both modular and minimally complex with respect to the number of components and connections.Type: GrantFiled: November 24, 2015Date of Patent: May 30, 2017Assignee: Coherent, Inc.Inventors: Ulrich Ritter, Jerry Chang
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Patent number: 9623699Abstract: The invention specifies an apparatus for applying a film (7) to a substrate (2) by lamination. This apparatus has a heating device (12, 19), which makes it possible for different regions of the film (7) and/or the substrate (2) to be exposed specifically to different temperatures. It is thus also possible to process substrates or films which contain temperature-sensitive elements, e.g. security elements based on bacteriorhodopsin. For this purpose, the heating device comprises a plurality of heating elements (19) which can be activated separately, and therefore different regions of a heating surface (12) can be subjected specifically to different levels of heating power. In order to compensate for irregularities on the surface of the substrate or of the film, the apparatus may have a flexible mating surface (21) which is arranged opposite the healing surface and can be subjected to pressure pneumatically by way of a pressure chamber (22).Type: GrantFiled: June 4, 2012Date of Patent: April 18, 2017Assignee: U-NICA Technology AGInventors: Ulrich Ritter, Samuel Schindler
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Publication number: 20160230028Abstract: A product having a substrate and a color application applied thereto is specified. The color application comprises, in each of a first area element and a second area element, at least one color layer (32) comprising a retinal protein which shows a color change when illuminated. Present in at least one of the area elements is a functional layer (33, 33?) which alters the proton availability for the retinal protein in the area element in question, such that the color change of the retinal protein in the first area element and in the second area element shows a different time dependence and/or light sensitivity.Type: ApplicationFiled: August 26, 2014Publication date: August 11, 2016Applicant: ACTILOR INTELLECTUAL ASSET AGInventors: Ulrich RITTER, Samuel SCHINDLER, Geza MURVAI
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Publication number: 20160222230Abstract: A product having a substrate and an ink application applied thereto. The ink application exhibits a time-dependent visual effect, e.g. an ink colour change which occurs in different surface elements (21, 22, 23, 24, 25) with different time-dependencies. The time-dependent visual effect allows the creation of e.g. a spatial “migration” of the ink colour change instead of a simple ink colour change.Type: ApplicationFiled: August 26, 2014Publication date: August 4, 2016Applicant: ACTILOR INTELLECTUAL ASSET AGInventors: Ulrich RITTER, Samuel SCHINDLER, Geza MURVAI
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Patent number: 9387450Abstract: A method for producing bacteriorhodopsin-containing microcapsules is described, which can be optically activated, having a diameter of less than 50 ?m, preferably less than 10 ?m, comprising an enveloping layer, which protects the bacteriorhodopsin from harmful environmental factors, while at the same time preserving the functionality thereof. In doing so, bacteriorhodopsin is suspended in a first step, in the form of PM/BR patches in an aqueous medium having a pH value ranging from 6-9 in the presence of a water-retaining polymer, and said suspension is spray-dried to form a powder, or is dried in an aliphatic solvent using low steam pressure and subsequent dehydration to form a powder. In a second step, the powder obtained in this way is provided with an envelope, which is substantially completely translucent to light in the visible range and made of a polymer and/or a paraffin having a solidification point ranging between 45° C. and 65° C. and/or a carnauba wax having a melting range of 70-90° C.Type: GrantFiled: March 22, 2010Date of Patent: July 12, 2016Assignee: U-NICA Technology AGInventors: Ulrich Ritter, Markus Lange, Samuel Schindler
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Patent number: 9358636Abstract: A laser processing machine for processing workpieces includes a beam guide containing a gas atmosphere, and also includes an apparatus for investigating the gas atmosphere in the beam guide for impurities. The investigation apparatus makes use of the photoacoustic effect. The measuring apparatus has a measuring chamber and at least one measuring head, where the beam guide acts as the measuring chamber. As a measuring chamber, the beam guide contains the gas atmosphere that is to be investigated and also a modulated laser beam modulated. The measuring head(s) are integrated into the beam guide and are used to detect the photoacoustic effect in the measuring chamber.Type: GrantFiled: December 20, 2010Date of Patent: June 7, 2016Assignee: TRUMPF Werkzeugmaschinen GmbH + Co. KGInventors: Gerhard Hammann, Ulrich Ritter, Dirk Fey, Giovanni Sanfelici, Gunther Krieg
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Publication number: 20160149376Abstract: An architecture for current driver circuitry for diode laser systems is contemplated whereby the circuitry is both modular and minimally complex with respect to the number of components and connections.Type: ApplicationFiled: November 24, 2015Publication date: May 26, 2016Applicant: Coherent, Inc.Inventors: Ulrich RITTER, Jerry CHANG
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Patent number: 8986787Abstract: The invention relates to a method for producing a coating, in regions, on a substrate, said coating being based on a formulation, in the form of an active color-change motif, which contains bacteriorhodopsin color-changing pigment, and to coatings produced using a method of this type and to articles having coatings of this type. Here, the method comprises the following steps: a) printing of the substrate with the formulation, in the form of a motif, containing bacteriorhodopsin color-changing pigment; b) partial drying of the printed substrate; c) optionally repetition of steps a) and/or b); calendering of the printed and partially dried substrate; e) complete drying of the coating.Type: GrantFiled: June 17, 2011Date of Patent: March 24, 2015Assignee: U-NICA Technology AGInventors: Ulrich Ritter, Markus Lange, Samuel Schindler
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Patent number: 8953008Abstract: A method for producing images (8) on a substrate (2) with colour bodies thereon, the colour bodies losing a colour effect due to a laser (23) and consisting of dyes or pigments contained in capsules (1). Different colour bodies having at least three different colour effects are on or in the substrate (2). The method includes: (a) producing a colour chart (14), with individual colour effect of individual colour bodies contained as a function of the spatial coordinates thereof on or in the substrate; and (b) spatially resolving radiation, which opens the colour effect of colour bodies of individual capsules and releases dyes by a laser (23) at a single frequency on the basis of the colour chart (14) in order to produce a resultant colour effect. Substrates, like security documents, can be produced this method.Type: GrantFiled: September 12, 2012Date of Patent: February 10, 2015Assignee: U-NICA Technology AGInventors: Rainer Goldau, Klaus Schafer, Ulrich Ritter
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Publication number: 20140193615Abstract: The invention specifies an apparatus for applying a film (7) to a substrate (2) by lamination. This apparatus has a heating device (12, 19), which makes it possible for different regions of the film (7) and/or the substrate (2) to be exposed specifically to different temperatures. It is thus also possible to process substrates or films which contain temperature-sensitive elements, e.g. security elements based on bacteriorhodopsin. For this purpose, the heating device comprises a plurality of heating elements (19) which can be activated separately, and therefore different regions of a heating surface (12) can be subjected specifically to different levels of heating power. In order to compensate for irregularities on the surface of the substrate or of the film, the apparatus may have a flexible mating surface (21) which is arranged opposite the healing surface and can be subjected to pressure pneumatically by way of a pressure chamber (22).Type: ApplicationFiled: June 4, 2012Publication date: July 10, 2014Applicant: U-NICA TECHNOLOGY AGInventors: Ulrich Ritter, Samuel Schindler
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Publication number: 20140160220Abstract: What is described is a method for producing a sign, pattern, symbol and/or image (8) on a substrate (2) with colour bodies arranged on said substrate, said colour bodies losing the colour effect under the influence of a laser (23) and consisting of dyes or pigments contained in capsules (1), wherein different colour bodies (1) having at least three different colour effects are arranged on or in the substrate (2). The invention is characterised by the following method steps: (a) producing a colour chart (14), in which the individual colour effect of individual colour bodies (1) formed from dyes or pigment particles is contained as a function of the spatial coordinates thereof on or in the substrate (2); (b) spatially resolved radiation, which open the colour effect of colour bodies (1) just of individual capsules and release these dyes, by means of an excitation beam of a laser (23) at a single frequency on the basis of the colour chart (14) in order to produce a resultant colour effect.Type: ApplicationFiled: September 12, 2012Publication date: June 12, 2014Applicant: U-NICA TECHNOLOGY AGInventors: Rainer Goldau, Klaus Schafer, Ulrich Ritter
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Publication number: 20130052374Abstract: The invention relates to a method for producing a coating, in regions, on a substrate, said coating being based on a formulation, in the form of an active colour-change motif, which contains bacteriorhodopsin colour-changing pigment, and to coatings produced using a method of this type and to articles having coatings of this type. Here, the method comprises the following steps: a) printing of the substrate with the formulation, in the form of a motif, containing bacteriorhodopsin colour-changing pigment; b) partial drying of the printed substrate; c) optionally repetition of steps a) and/or b); calendering of the printed and partially dried substrate; e) complete drying of the coating.Type: ApplicationFiled: June 17, 2011Publication date: February 28, 2013Applicant: U-NICA TECHNOLOGY AGInventors: Ulrich Ritter, Markus Lange, Samuel Schindler
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Patent number: 8258430Abstract: A method of determining a contact point of a laser beam on an edge of a body and a system for performing the same, in which the method includes a) moving the laser beam relative to the edge in a spatial direction until the laser beam touches the edge, in which the spatial direction is at a right angle relative to an axis of the laser beam and in which the edge is formed at an opening, b) measuring acoustic oscillations produced photoacoustically during the movement of the laser beam, and c) determining the laser beam point of contact with the edge based on the measured acoustic oscillations.Type: GrantFiled: December 17, 2009Date of Patent: September 4, 2012Assignee: TRUMPF Werkzeugmaschinen GmbH + Co. KGInventors: Juergen-Michael Weick, Andreas Milich, Ulrich Ritter
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Publication number: 20120055370Abstract: A method for producing bacteriorhodopsin-containing microcapsules is described, which can be optically activated, having a diameter of less than 50 ?m, preferably less than 10 ?m, comprising an enveloping layer, which protects the bacteriorhodopsin from harmful environmental factors, while at the same time preserving the functionality thereof. In doing so, bacteriorhodopsin is suspended in a first step, in the form of PM/BR patches in an aqueous medium having a pH value ranging from 6-9 in the presence of a water-retaining polymer, and said suspension is spray-dried to form a powder, or is dried in an aliphatic solvent using low steam pressure and subsequent dehydration to form a powder. In a second step, the powder obtained in this way is provided with an envelope, which is substantially completely translucent to light in the visible range and made of a polymer and/or a paraffin having a solidification point ranging between 45° C. and 65° C. and/or a carnauba wax having a melting range of 70-90° C.Type: ApplicationFiled: March 22, 2010Publication date: March 8, 2012Applicant: U-NICA TECHNOLOGY AGInventors: Ulrich Ritter, Markus Lange, Samuel Schindler
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Publication number: 20110220626Abstract: A laser processing machine for processing workpieces includes a beam guide containing a gas atmosphere, and also includes an apparatus for investigating the gas atmosphere in the beam guide for impurities. The investigation apparatus makes use of the photoacoustic effect. The measuring apparatus has a measuring chamber and at least one measuring head, where the beam guide acts as the measuring chamber. As a measuring chamber, the beam guide contains the gas atmosphere that is to be investigated and also a modulated laser beam modulated. The measuring head(s) are integrated into the beam guide and are used to detect the photoacoustic effect in the measuring chamber.Type: ApplicationFiled: December 20, 2010Publication date: September 15, 2011Applicant: TRUMPF WERKZEUGMASCHINEN GMBH + CO. KGInventors: Gerhard Hammann, Ulrich Ritter, Dirk Fey, Giovanni Sanfelici, Gunther Krieg
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Publication number: 20100116797Abstract: A method of determining a contact point of a laser beam on an edge of a body and a system for performing the same, in which the method includes a) moving the laser beam relative to the edge in a spatial direction until the laser beam touches the edge, in which the spatial direction is at a right angle relative to an axis of the laser beam and in which the edge is formed at an opening, b) measuring acoustic oscillations produced photoacoustically during the movement of the laser beam, and c) determining the laser beam point of contact with the edge based on the measured acoustic oscillations.Type: ApplicationFiled: December 17, 2009Publication date: May 13, 2010Applicant: TRUMPF Werkzeugmaschinen GmbH + Co. KGInventors: Juergen-Michael Weick, Andreas Milich, Ulrich Ritter