Patents by Inventor Rüdiger Sprengard
Rüdiger Sprengard 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: 20170271716Abstract: A method for producing miniaturized electronic components is provided, where the miniaturized electronic components are obtained as singularized parts of a sheet-like glass which has structures applied thereon, in particular at least one layer. The method includes the steps of: providing a sheet-like glass toughened at least during a time period, as a substrate material; applying structures onto the substrate, in particular in the form of a sequence of coating processes and by processes for patterning of layers, so that at least portions of the substrate carry structures while other portions of the substrate remain free; subjecting the substrate carrying the structures to a thermal load; and singularizing so that the portions of the substrate carrying structures are obtained in singularized form. A miniaturized electronic component produced in this manner is also provided.Type: ApplicationFiled: June 1, 2017Publication date: September 21, 2017Applicant: SCHOTT AGInventors: Ulrich PEUCHERT, Matthias JOTZ, Rüdiger SPRENGARD
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Patent number: 7341965Abstract: The invention relates to bismuth oxide glass, containing germanium oxide, a method for the production thereof, the use thereof and a glass fiber consisting of said inventive glass.Type: GrantFiled: September 7, 2002Date of Patent: March 11, 2008Assignee: Schott AGInventors: Bianca Schreder, Ruediger Sprengard, Ulrich Peuchert, Martin Letz, Joseph S. Hayden, Sally Pucilowski
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Patent number: 7115536Abstract: A rare earth containing glass nominally based on the ternary P2O5—WO3—Na2O-Ln2O3 compositional space, with WO3>30-65 mole %, Na2O 15-35 mole %, P2O5 5-65 mole %, Ln2O3 (Ln=one or more cations selected from lanthanum or any of the rare earth oxides) up to the limit of solubility; with optional additives, MoO3 being a preferred additive, that can be employed alone or in combination at levels up to 15 mole %.Type: GrantFiled: March 5, 2003Date of Patent: October 3, 2006Assignee: Schott Glass Technologies, Inc.Inventors: Joseph Hayden, Sally Pucilowski, Bianca Schreder, Ulrich Peuchert, Ruediger Sprengard, Martin Letz
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Patent number: 7107792Abstract: The method of supporting and transporting hot flat glass on a gas bed for ceramicizing includes arranging a number of spaced-apart porous or perforated planar segments to form a base with a gas-permeable support surface so that slits, which are narrower than the planar segments, are formed between them, forcing gas through the porous or perforated planar segments and conducting the gas away through the slits between them so as to form the gas bed with no static pressure zones and with a parabolic pressure distribution and producing a predetermined temperature profile for ceramicizing through which the hot flat glass is transported on the gas bed without deformation and without any contact between it and the base. The resulting glass ceramic has smoother surfaces without pits or deformations.Type: GrantFiled: September 8, 2001Date of Patent: September 19, 2006Assignee: Schott AGInventors: Andreas Langsdorf, Ruediger Sprengard, Sybill Nuettgens, Ulrich Lange
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Publication number: 20050176573Abstract: To provide an improved ion exchange process for the gentle treatment of phosphate-containing glass substrates in salt melts, the invention provides a process in which the source for the ions used is a salt melt 10 which contains silver ions, wherein the salt melt 10 contains ammonium ions. Furthermore, the invention provides a glass material (100) which comprises a phosphate-containing glass (1) and at least one region (210) which contains at least a first composition of ions and at least one region (220) which contains at least a second composition of ions, producible by the process according to the invention.Type: ApplicationFiled: December 27, 2004Publication date: August 11, 2005Inventors: Frank Thoma, Sylvia Biedenbender, Joseph Hayden, Sally Pucilowski, Bianca Schreder, Ulrich Peuchert, Ruediger Sprengard, Martin Letz
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Patent number: 6882782Abstract: The invention concerns a photonic device comprising a first section including a material adapted to interact with photons, a second section including a material adapted to interact with photons, with an area of said first section and an area of said second section abutting each other wherein at least a part of said first area and a part of said second area defines a low temperature bonding area to provide adaptability for a plurality of applications based on a combination of materials having specific characteristic benefits, however without introducing unwanted effects having a negative influence on the quality of optical signals.Type: GrantFiled: May 16, 2001Date of Patent: April 19, 2005Assignee: Schott GlasInventors: Samuel D. Conzone, Joseph S. Hayden, Alexander J. Marker, III, Marren Walther, Rainer Liebald, Ulrike Beer, Ulrich Peuschert, Ruediger Sprengard, Tobias Käleer
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Patent number: 6853659Abstract: A laser uses a rare-earth doped phosphate laser glass characterized by a particularly high rare-earth content to generate the highest possible output power/energy pulses. The laser glass is composed primarily of P2O5, Al2O3, and alkaline earth and alkali earth oxides, and possesses other properties such as physical and thermal properties that are compatible with melting and manufacturing methods. The laser glass can be used in high power and high energy laser systems where laser action is achieved in rod or slab shaped components as well as in waveguide or thin film structures prepared by structuring technologies such as sputtering, ion exchange, and/or direct writing with a femtosecond laser.Type: GrantFiled: August 28, 2002Date of Patent: February 8, 2005Assignee: Schott Glass Technologies, Inc.Inventors: Joseph Hayden, Sally Pucilowski, Bianca Schreder, Ulrich Peuchert, Ruediger Sprengard, Martin Letz
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Patent number: 6843073Abstract: The invention relates to a method for ceramizing starting glass of glass-ceramics into glass-ceramics, comprising at least the following steps: 1.1 the starting glass is heated from an initial temperature T1 to a temperature T2 which is disposed above the glass transformation temperature TG at which crystallization nuclei are precipitated; 1.2 the glass is held at the temperature T2 for a period t2 for the precipitation of crystallization nuclei; 1.3 the glass is further heated to a temperature T3 at which a crystal phase grows on the nuclei formed following step 1.1 and 1.2; 1.4 the glass is held for a period t3 at a temperature T3 or heated during this period to a higher temperature T4 until the predetermined properties of the glass-ceramics have been reached; 1.5 the control of the temperature curve is performed with the help of a control loop comprising at least one temperature sensor for sensing the temperature and a heating unit as an actuator. The invention is characterized in that 1.Type: GrantFiled: August 23, 2001Date of Patent: January 18, 2005Assignee: Schott GlasInventors: Ulrich Fotheringham, Hauke Esemann, Bernd Hoppe, Rüdiger Sprengard, Michael Kluge, Falk Gabel
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Publication number: 20040176236Abstract: A rare earth containing glass nominally based on the ternary P2O5 —WO3—Na2O—Ln2O3 compositional space, with WO3>30-65 mole %, Na2O 15-35 mole %, P2O5 5-65 mole %, Ln2O3 (Ln=one or more cations selected from lanthanum or any of the rare earth oxides) up to the limit of solubility; with optional additives, MoO3 being a preferred additive, that can be employed alone or in combination at levels up to 15 mole %.Type: ApplicationFiled: March 5, 2003Publication date: September 9, 2004Applicant: SCHOTT GLASS TECHNOLOGIES, INC.Inventors: Joseph Hayden, Sally Pucilowski, Bianca Schreder, Ulrich Peuchert, Ruediger Sprengard, Martin Letz
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Publication number: 20040042515Abstract: A laser uses a rare-earth doped phosphate laser glass characterized by a particularly high rare-earth content to generate the highest possible output power/energy pulses. The laser glass is composed primarily of P2O5, Al2O3, and alkaline earth and alkali earth oxides, and possesses other properties such as physical and thermal properties that are compatible with melting and manufacturing methods. The laser glass can be used in high power and high energy laser systems where laser action is achieved in rod or slab shaped components as well as in waveguide or thin film structures prepared by structuring technologies such as sputtering, ion exchange, and/or direct writing with a femtosecond laser.Type: ApplicationFiled: August 28, 2002Publication date: March 4, 2004Applicant: Schott Glass Technologies, Inc.Inventors: Joseph Hayden, Sally Pucilowski, Bianca Schreder, Ulrich Peuchert, Ruediger Sprengard, Martin Letz
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Publication number: 20030177790Abstract: The invention relates to a method and a device for storing and transporting hot flat glass in a contactless manner during glass production, said storage and transportation being carried out on a gas bed which is constructed over a gas permeable bearing surface pertaining to a base (2). Pressurised gas is supplied to the base via a connection (5), said gas being guided through the gas permeable base and then re-evacuated. The aim of the invention is to obtain an optimum pressure distribution above the bearing surface, without any static pressure. In order to achieve this, the base (2) consists of a plurality of interspaced segments (21, 22 . . . 2n) respectively comprising a porous and/or perforated bearing surface (7a) as a gas outlet surface. Evacuation openings (61, 62 . . . 6n) are formed between said segments for evacuating the gas. The segments are preferably formed by bars (7) having a box profile.Type: ApplicationFiled: February 25, 2003Publication date: September 25, 2003Inventors: Andreas Langsdorf, Ruediger Sprengard, Sybill Nuettgens, Ulrich Lange
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Publication number: 20020089711Abstract: The invention concerns a photonic device comprising a first section including a material adapted to interact with photons, a second section including a material adapted to interact with photons, with an area of said first section and an area of said second section abutting each other wherein at least a part of said first area and a part of said second area defines a low temperature bonding area to provide adaptability for a plurality of applications based on a combination of materials having specific characteristic benefits, however without introducing unwanted effects having a negative influence on the quality of optical signals.Type: ApplicationFiled: May 16, 2001Publication date: July 11, 2002Inventors: Samuel D. Conzone, Joseph S. Hayden, Alexander J. Marker, Marren Walther, Rainer Liebald, Ulrike Beer, Ulrich Peuschert, Ruediger Sprengard, Tobias Kaleer