Patents by Inventor Thomas A. Isberg
Thomas A. Isberg 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: 20210344852Abstract: In one embodiment, an infrared (IR) imaging system for determining a concentration of a target species in an object is disclosed. The imaging system can include an optical system including an optical focal plane array (FPA) unit. The optical system can have components defining at least two optical channels thereof, said at least two optical channels being spatially and spectrally different from one another. Each of the at least two optical channels can be positioned to transfer IR radiation incident on the optical system towards the optical FPA. The system can include a processing unit containing a processor that can be configured to acquire multispectral optical data representing said target species from the IR radiation received at the optical FPA. Said optical system and said processing unit can be contained together in a data acquisition and processing module configured to be worn or carried by a person.Type: ApplicationFiled: April 27, 2021Publication date: November 4, 2021Inventors: Thomas A. ISBERG, Robert Timothy KESTER, Suresh VENKATARAYALU, Patrick Charles O'DRISCOLL, Steve Patrick GAUTIERI, Gary Timothy NOE, II, Venus J. DANTAS, Carlos A. CLAVERIA, Ronald J. MARTIN, Michael Jon FREEMAN, Ryan Patrick MALLERY
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Patent number: 7927454Abstract: A method of forming a metallic material on a receptor that includes the steps of: placing a donor element proximate a receptor, wherein the donor element includes a donor substrate and a thermal transfer layer, wherein the thermal transfer layer includes a catalytic material, and wherein the thermal transfer layer of the donor element is placed proximate the surface of the receptor; thermally transferring at least a portion of the thermal transfer layer from the donor element to the receptor; and electrolessly depositing a metallic material on the receptor by growth of the metallic material on the catalytic material.Type: GrantFiled: July 17, 2007Date of Patent: April 19, 2011Assignee: Samsung Mobile Display Co., Ltd.Inventors: Khanh T. Huynh, Thomas A. Isberg, Matthew S. Stay, William A. Tolbert, Martin B. Wolk, Joseph W. Woody, Robin E. Wright, Haiyan Zhang
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Publication number: 20090023587Abstract: A method of forming a metallic material on a receptor that includes the steps of: placing a donor element proximate a receptor, wherein the donor element includes a donor substrate and a thermal transfer layer, wherein the thermal transfer layer includes a catalytic material, and wherein the thermal transfer layer of the donor element is placed proximate the surface of the receptor; thermally transferring at least a portion of the thermal transfer layer from the donor element to the receptor; and electrolessly depositing a metallic material on the receptor by growth of the metallic material on the catalytic material.Type: ApplicationFiled: July 17, 2007Publication date: January 22, 2009Inventors: Khanh T. Huynh, Thomas A. Isberg, Matthew S. Stay, William A. Tolbert, Martin B. Wolk, Joseph W. Woody, Robin E. Wright, Haiyan Zhang
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Publication number: 20080049330Abstract: A light management film package includes a first optical film having a structured surface and a second major surface, a second optical film having a first major surface and a second major surface disposed adjacent to and making contact with the structured surface of the first optical film via an adhesive layer. The structured surface of the first optical film includes a plurality of tall structures separated by short structures with the tops of neighboring tall structures separated by a distance of between about 50 and about 150 microns. The tall structures of the first optical film penetrate the adhesive layer, but the short structures do not.Type: ApplicationFiled: August 25, 2006Publication date: February 28, 2008Inventors: William A. Tolbert, James M. Nelson, Thomas A. Isberg, Andrew L. Hightower, Dean Faklis
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Patent number: 7330240Abstract: An optical imaging system is disclosed for selective thermal transfer of a material from a donor film to a substrate. The imaging system includes a light source assembly that is configured to emit a patterned light beam. The patterned light beam includes a plurality of discrete output light segments where the segments at most partially overlap. The imaging system further includes a light relay assembly that receives and projects the plurality of discrete output light segments onto a transfer plane so as to form a projected light segment by a substantial superposition of the plurality of discrete output light segments. When a donor film that includes a transferable material is placed proximate a substrate that lies in the transfer plane, the projected light segment is capable of inducing a transfer of the transferable material onto the substrate.Type: GrantFiled: August 15, 2006Date of Patent: February 12, 2008Assignee: 3M Innovative Properties CompanyInventors: William A. Tolbert, James M. Nelson, Thomas A. Isberg, Andrew L. Hightower, Dean Faklis
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Publication number: 20070015079Abstract: Various processes and models are provided for laser induced thermal imaging for use in manufacturing display elements. The processes and models set forth criteria for manufacture and delivery of donor film for use in laser induced thermal imaging, and licensing of related information for an imaging process using the donor film.Type: ApplicationFiled: July 18, 2005Publication date: January 18, 2007Inventors: Martin Wolk, Rick Neby, William Tolbert, Bradley Zinke, Thomas Isberg, James Nelson
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Patent number: 7148957Abstract: An optical imaging system is disclosed for selective thermal transfer of a material from a donor film to a substrate. The imaging system includes a light source assembly that is configured to emit a patterned light beam. The patterned light beam includes a plurality of discrete output light segments where the segments at most partially overlap. The imaging system further includes a light relay assembly that receives and projects the plurality of discrete output light segments onto a transfer plane so as to form a projected light segment by a substantial superposition of the plurality of discrete output light segments. When a donor film that includes a transferable material is placed proximate a substrate that lies in the transfer plane, the projected light segment is capable of inducing a transfer of the transferable material onto the substrate.Type: GrantFiled: June 9, 2004Date of Patent: December 12, 2006Assignee: 3M Innovative Properties Company,Inventors: William A. Tolbert, James M. Nelson, Thomas A. Isberg, Andrew L. Hightower, Dean Faklis
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Publication number: 20060274296Abstract: An optical imaging system is disclosed for selective thermal transfer of a material from a donor film to a substrate. The imaging system includes a light source assembly that is configured to emit a patterned light beam. The patterned light beam includes a plurality of discrete output light segments where the segments at most partially overlap. The imaging system further includes a light relay assembly that receives and projects the plurality of discrete output light segments onto a transfer plane so as to form a projected light segment by a substantial superposition of the plurality of discrete output light segments. When a donor film that includes a transferable material is placed proximate a substrate that lies in the transfer plane, the projected light segment is capable of inducing a transfer of the transferable material onto the substrate.Type: ApplicationFiled: August 15, 2006Publication date: December 7, 2006Inventors: William Tolbert, James Nelson, Thomas Isberg, Andrew Hightower, Dean Faklis
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Publication number: 20050275819Abstract: An optical imaging system is disclosed for selective thermal transfer of a material from a donor film to a substrate. The imaging system includes a light source assembly that is configured to emit a patterned light beam. The patterned light beam includes a plurality of discrete output light segments where the segments at most partially overlap. The imaging system further includes a light relay assembly that receives and projects the plurality of discrete output light segments onto a transfer plane so as to form a projected light segment by a substantial superposition of the plurality of discrete output light segments. When a donor film that includes a transferable material is placed proximate a substrate that lies in the transfer plane, the projected light segment is capable of inducing a transfer of the transferable material onto the substrate.Type: ApplicationFiled: June 9, 2004Publication date: December 15, 2005Inventors: William Tolbert, James Nelson, Thomas Isberg, Andrew Hightower, Dean Faklis
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Publication number: 20010010884Abstract: An improved electronic display that includes components selected to enhance display performance. The improved display includes an active substrate that has a plurality of thin film transistors and a plurality of thermally transferred color filters that include a colorant in a crosslinked binder. The active substrate can also include a black matrix. Other components in the improved display such as a liquid crystal material, spacers, and bottom polarizer, can be selected to enhance display performance characteristics such as brightness, power consumption, response time, weight, and thickness. The invention also provides a method of forming a color filter substrate for displays including the steps of thermally mass transferring a plurality of color filters and crosslinking the plurality of color filters after transfer. Before the crosslinking step, the plurality of color filters can be inspected and removed for reworking of the substrate.Type: ApplicationFiled: January 29, 2001Publication date: August 2, 2001Applicant: 3M Innovative Properties CompanyInventors: Paul F. Guehler, Thomas A. Isberg, Kazuhiko Mizuno, Kazuki Noda, Raghunath Padiyath, Richard J. Pokorny, John S. Staral, Jeffrey C. Chang
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Patent number: 6221543Abstract: An improved electronic display that includes components selected to enhance display performance. The improved display includes an active substrate that has a plurality of thin film transistors and a plurality of thermally transferred color filters that include a colorant in a crosslinked binder. The active substrate can also include a black matrix. Other components in the improved display such as a liquid crystal material, spacers, and bottom polarizer, can be selected to enhance display performance characteristics such as brightness, power consumption, response time, weight, and thickness. The invention also provides a method of forming a color filter substrate for displays including the steps of thermally mass transferring a plurality of color filters and crosslinking the plurality of color filters after transfer. Before the crosslinking step, the plurality of color filters can be inspected and removed for reworking of the substrate.Type: GrantFiled: May 14, 1999Date of Patent: April 24, 2001Assignee: 3M Innovatives PropertiesInventors: Paul F. Guehler, Thomas A. Isberg, Kazuhiko Mizuno, Kazuki Noda, Raghunath Padiyath, Richard J. Pokorny, John S. Staral, Jeffrey C. Chang
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Patent number: 6057067Abstract: A method for the manufacture of a matrix on a substrate, said matrix being particularly useful in the formation of color filter elements, the process comprising the steps of:a) providing an imageable article comprising a substrate having on at least one surface thereof a black layer,b) directing energy of sufficient intensity at said black layer to transparentize black layer,c) said directing of energy being done so that black layer is removed in some areas, but is not removed in other areas so that borders of black layer surround areas from which black layer has been removed.A preferred method deposits colorant material within the open areas of the matrix by thermal transfer, e.g., laser induced thermal transfer, of colorant material to form a filter element.Type: GrantFiled: July 11, 1994Date of Patent: May 2, 2000Assignee: 3M Innovative Properties CompanyInventors: Thomas A. Isberg, Hsin-hsin Chou, Terrance P. Smith, William V. Dower, Martin B. Wolk
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Patent number: 5998085Abstract: A process is described for forming an emissive or phosphor screen. The process comprises the steps of:a) providing a thermal mass donor element comprising a substrate with a front side and a back side, with a coating of emissive material or phosphor adhered to said front side of said substrate,b) placing said coating of emissive material or phosphor adjacent to a support layer,c) addressing said mass donor element with coherent radiation to heat at least a portion of said coating of emissive material or phosphor to locally transfer at least some of said emissive material or phosphor to said support layer,d) repeating step c) a sufficient number of times to provide a coating of transferred emissive material or phosphor on said support layer in an area of at least 1 square centimeter.Type: GrantFiled: June 25, 1997Date of Patent: December 7, 1999Assignee: 3M Innovative PropertiesInventors: Thomas A. Isberg, Claire A. Jalbert, John S. Staral, William A. Tolbert, Martin B. Wolk
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Patent number: 5976698Abstract: Process and materials are described for selectively placing uniform spacers on a receptor. Spacer elements are placed on a receptor by selectively irradiating a thermal transfer donor sheet comprising a transferable spacer layer. The transferable spacer layer may include particles or fibers to form a composite. The particles may have a spacing dimension either greater than or less than the thickness of the transferable layer. When the spacing dimension of the particle is greater than the thickness of the transferable layer, then the spacing dimension of the particles control the spacing distance. The process and materials are useful in the manufacture of flat panel displays, particularly, liquid crystal display devices.Type: GrantFiled: September 24, 1997Date of Patent: November 2, 1999Assignee: 3M Innovative Properties CompanyInventors: John S. Staral, Claire A. Jalbert, William A. Tolbert, Martin B. Wolk, Allan R. Martens, Thomas A. Isberg
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Patent number: 5897727Abstract: Optical elements are prepared by the adhesive transfer of at least a low temperature curable (e.g., radiation or room temperature curable, preferably pressure-sensitive) adhesive layer and a conductive layer to a substrate, preferably a transparent, non-birefringent substrate such as ceramic, glass or polymeric film having, for example, a color filter array thereon. The (pressure-sensitive) curable adhesive is cured after the curable adhesive layer has been placed into contact with a final receptor surface (e.g., a color filter array on a liquid crystal panel).Type: GrantFiled: September 20, 1996Date of Patent: April 27, 1999Assignee: Minnesota Mining and Manufacturing CompanyInventors: John S. Staral, Naimul Karim, Thomas A. Isberg, Terrance P. Smith, Kevin E. Kinzer
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Patent number: 5766827Abstract: A process for forming an image on a transparent or translucent substrate comprising the steps of providing an imageable element comprising a transparent or translucent glass or polymeric film having a coating of a black metal on one surface thereof, directing radiation in an imagewise distributed pattern at said black metal layer with sufficient intensity to substantially increase the light transmissivity of the medium in the irradiated region in an imagewise distributed pattern, said element having no layers comprising a thermally activated gas-generating composition. The image comprises residual black metal on the film base, and may be used for overhead transparencies, contact negatives/positives, and the like.Type: GrantFiled: February 13, 1997Date of Patent: June 16, 1998Assignee: Minnesota Mining and Manufacturing Co.Inventors: Richard E. Bills, Hsin-hsin Chou, Thomas A. Isberg, Charles C. Lee, William V. Dower, Martin B. Wolk, John S. Staral
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Patent number: 5710097Abstract: Process and materials are described for selectively placing uniform spacers on a receptor. Spacer elements are placed on a receptor by selectively irradiating a thermal transfer donor sheet comprising a transferable spacer layer. The transferable spacer layer may include particles or fibers to form a composite. The particles may have a spacing dimension either greater than or less than the thickness of the transferable layer. When the spacing dimension of the particle is greater than the thickness of the transferable layer, then the spacing dimension of the particles control the spacing distance. The process and materials are useful in the manufacture of flat panel displays, particularly, liquid crystal display devices.Type: GrantFiled: June 27, 1996Date of Patent: January 20, 1998Assignee: Minnesota Mining and Manufacturing CompanyInventors: John S. Staral, Claire A. Jalbert, William A. Tolbert, Martin B. Wolk, Allan R. Martens, Thomas A. Isberg
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Patent number: 5685939Abstract: A Z-axis adhesive is produced by dispersing electrically-conductive particles in an organic binder and then imagewise exposing the material to electromagnetic radiation, preferably from a laser or a flash lamp, under conditions sufficient to transfer the particles from the binder to a receptor in a patterned fashion such that the resulting adhesive is a Z-axis conductor in the patterned areas. The patterned adhesive can then be used to establish electrical interconnection between facing electrodes of a number of different structures including semiconductor chips and a flexible printed circuit board.Type: GrantFiled: March 10, 1995Date of Patent: November 11, 1997Assignee: Minnesota Mining and Manufacturing CompanyInventors: Martin B. Wolk, Thomas A. Isberg, Michael A. Kropp, William V. Dower, Joel A. Gerber
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Patent number: 5521035Abstract: Color filter elements are prepared by the laser induced thermal transfer of colorant from a color donor to a transparent, non-birefringent substrate such as glass or polymeric film. Transparent pigments which are less prone to migration, more thermally stable, and considerably more lightfast than dyes can be used to prepare the color filter elements of this invention. Color filter elements are useful for elements in color displays such as liquid crystal display devices.Type: GrantFiled: July 11, 1994Date of Patent: May 28, 1996Assignee: Minnesota Mining and Manufacturing CompanyInventors: Martin B. Wolk, Thomas A. Isberg, Kenneth L. Hanzalik, Jeffrey C. Chang, Richard E. Bills, William V. Dower, Terrance P. Smith
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Patent number: 5278023Abstract: Laser-addressable thermal transfer materials for producing color proofs, printing plates, films, printed circuit boards, and other media are disclosed. The materials contain a substrate coated thereon with a propellant layer wherein the propellant layer contains a material capable of producing nitrogen (N.sub.2) gas at a temperature of preferably less than about 300.degree. C.; a radiation absorber; and a thermal mass transfer material. The thermal mass transfer material may be incorporated into the propellant layer or in an additional layer coated onto the propellant layer. The radiation absorber may be employed in one of the above-disclosed layers or in a separate layer in order to achieve localized heating with an electromagnetic energy source, such as a laser. Upon laser induced heating, the transfer material is propelled to the receptor by the rapid expansion of gas.Type: GrantFiled: November 16, 1992Date of Patent: January 11, 1994Assignee: Minnesota Mining and Manufacturing CompanyInventors: Richard E. Bills, William V. Dower, Thomas A. Isberg, Stanley C. Busman, Jeffrey C. Chang, Minyu Li, Hsin-hsin Chou