Patents by Inventor Jimmy J. Browning
Jimmy J. Browning 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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Patent number: 7462088Abstract: A method is provided for forming and associating a lower section of a large-area field emission device (“FED”) that is sealed under a predetermined level of vacuum pressure with an upper section of a large-area FED. The upper section of the FED includes a faceplate. A first conductive layer is disposed on a surface of the faceplate. A matrix member is disposed on a surface of the first conductive layer, and cathodoluminescent material is disposed on the first conductive layer in areas not covered by the matrix member. The method includes disposing a plurality of spacers between the upper and lower sections of the FED to provide a predetermined separation between the upper and lower sections, with the spacers having cross-sectional shapes commensurate with stresses exerted on the spacers and/or heights commensurate with stresses exerted on the spacers. Resulting FED structures are disclosed.Type: GrantFiled: April 17, 2006Date of Patent: December 9, 2008Assignee: Micron Technology, Inc.Inventors: David A. Cathey, Jimmy J. Browning
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Patent number: 7033238Abstract: A method is provided for forming and associating a lower section of a large-area field emission device (“FED”) that is sealed under a predetermined level of vacuum pressure with an upper section of a large-area FED. The upper section of the FED includes a faceplate. A first conductive layer is disposed on a surface of the faceplate. A matrix member is disposed on a surface of the first conductive layer, and cathodoluminescent material is disposed on the first conductive layer in areas not covered by the matrix member. The method includes disposing a plurality of spacers between the upper and lower sections of the FED to provide a predetermined separation between the upper and lower sections, with the spacers having cross-sectional shapes commensurate with stresses exerted on the spacers and/or heights commensurate with stresses exerted on the spacers. Resulting FED structures are disclosed.Type: GrantFiled: October 2, 2002Date of Patent: April 25, 2006Assignee: Micron Technology, Inc.Inventors: David A. Cathey, Jimmy J. Browning
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Patent number: 6633113Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: GrantFiled: May 14, 2002Date of Patent: October 14, 2003Assignee: Micron Technology, Inc.Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M. Watkins, David A. Cathey
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Publication number: 20030038588Abstract: A large-area field emission device (“FED”) which is sealed under a predetermined level of vacuum pressure and method for making same includes a large-area substrate, an emitter electrode structure disposed on the substrate such that the emitter structure is disposed over a substantial portion of the substrate, a plurality of groups of micropoints, with each group having a predetermined number of micropoints and with each group being disposed at discrete positions on the emitter electrode structure, an insulating layer disposed over the substrate, with the insulating layer having openings therethrough which have a diameter within a predetermined range, and with each openings surrounding at least a portion a micropoint, an extraction structure disposed on the insulating layer, with the extraction structure having openings therethrough which have a diameter within a predetermined range, with each openings surrounding at least a portion of a micropoint, and with the openings in the extraction structurType: ApplicationFiled: October 2, 2002Publication date: February 27, 2003Applicant: Micron Technology, Inc.Inventors: David A. Cathey, Jimmy J. Browning
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Patent number: 6524154Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: GrantFiled: May 16, 2002Date of Patent: February 25, 2003Assignee: Micron Technology, Inc.Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M. Watkins, David A. Cathey
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Patent number: 6509677Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: GrantFiled: May 16, 2002Date of Patent: January 21, 2003Assignee: Micron Technology, Inc.Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M Watkins, David A. Cathey
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Patent number: 6504291Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: GrantFiled: February 23, 1999Date of Patent: January 7, 2003Assignee: Micron Technology, Inc.Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M. Watkins, David A. Cathey
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Patent number: 6495956Abstract: A large-area field emission device (“FED”) which is sealed under a predetermined level of vacuum pressure and method for making same includes a large-area substrate, an emitter electrode structure disposed on the substrate such that the emitter structure is disposed over a substantial portion of the substrate, a plurality of groups of micropoints, with each group having a predetermined number of micropoints and with each group being disposed at discrete positions on the emitter electrode structure, an insulating layer disposed over the substrate, with the insulating layer having openings therethrough which have a diameter within a predetermined range, and with each openings surrounding at least a portion a micropoint, an extraction structure disposed on the insulating layer, with the extraction structure having openings therethrough which have a diameter within a predetermined range, with each openings surrounding at least a portion of a micropoint, and with the openings in the extraction structurType: GrantFiled: May 30, 2001Date of Patent: December 17, 2002Assignee: Micron Technology, Inc.Inventors: David A. Cathey, Jimmy J. Browning
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Publication number: 20020185963Abstract: An arrangement of spacer posts in a flat panel display. The spacer posts maintain a fixed separation between a back plate and a face plate. The back plate includes one or more electron emission sources. Phosphors or other electro-optic material are distributed among a plurality of pixel areas on the face plate. The pixel areas are arranged in distinct groups, where each group contains N adjacent pixel areas. Each pixel area includes an area free of phosphor material. Within each group of N pixel areas, the respective phosphor-free areas of the N pixel areas are contiguous so as to form a combined phosphor-free area equal to or greater than the transverse cross-section of one end of a spacer. Consequently, a spacer can be attached to the face plate at each combined phosphor-free area without disrupting the uniformity of the distribution of phosphors on the face plate.Type: ApplicationFiled: June 7, 2001Publication date: December 12, 2002Applicant: Pixtech S.AInventors: Jimmy J. Browning, David H. Wells, Jianping Yang
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Publication number: 20020130604Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: ApplicationFiled: May 16, 2002Publication date: September 19, 2002Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M. Watkins, David A. Cathey
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Publication number: 20020130611Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: ApplicationFiled: May 16, 2002Publication date: September 19, 2002Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M. Watkins, David A. Cathey
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Publication number: 20020125478Abstract: A high resolution field emission display includes a faceplate and a baseplate. The faceplate includes a transparent viewing layer, a transparent conductive layer formed on the transparent viewing layer and intersecting stripes of light-absorbing, opaque insulating material formed on the transparent conductive layer. The insulating material defines openings less than one hundred microns wide between the intersecting stripes. The faceplate also includes a plurality of localized regions of cathodoluminescent material, each formed in one of the openings. The cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material. Significantly, the reduced resistivity of the cathodoluminescent material together with the focusing effect of the insulating material provide increased acuity in luminous images formed on the faceplate.Type: ApplicationFiled: May 14, 2002Publication date: September 12, 2002Inventors: Zhongyi Xia, Jimmy J. Browning, Charles M. Watkins, David A. Cathey
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Publication number: 20010054866Abstract: A large-area field emission device (“FED”) which is sealed under a predetermined level of vacuum pressure and method for making same includes a large-area substrate, an emitter electrode structure disposed on the substrate such that the emitter structure is disposed over a substantial portion of the substrate, a plurality of groups of micropoints, with each group having a predetermined number of micropoints and with each group being disposed at discrete positions on the emitter electrode structure, an insulating layer disposed over the substrate, with the insulating layer having openings therethrough which have a diameter within a predetermined range, and with each openings surrounding at least a portion a micropoint, an extraction structure disposed on the insulating layer, with the extraction structure having openings therethrough which have a diameter within a predetermined range, with each openings surrounding at least a portion of a micropoint, and with the openings in the extraction structurType: ApplicationFiled: May 30, 2001Publication date: December 27, 2001Inventors: David A. Cathey, Jimmy J. Browning
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Patent number: 6255772Abstract: A large-area field emission device (“FED”) which is sealed under a predetermined level of vacuum pressure and method for making same includes a large-area substrate, an emitter electrode structure disposed on the substrate such that the emitter structure is disposed over a substantial portion of the substrate, a plurality of groups of micropoints, with each group having a predetermined number of micropoints and with each group being disposed at discrete positions on the emitter electrode structure, an insulating layer disposed over the substrate, with the insulating layer having openings therethrough which have a diameter within a predetermined range, and with each openings surrounding at least a portion a micropoint, an extraction structure disposed on the insulating layer, with the extraction structure having openings therethrough which have a diameter within a predetermined range, with each openings surrounding at least a portion of a micropoint, and with the openings in the extraction structurType: GrantFiled: February 27, 1998Date of Patent: July 3, 2001Assignee: Micron Technology, Inc.Inventors: David A. Cathey, Jimmy J. Browning
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Patent number: 6034480Abstract: Methods and apparatus for identifying and disabling shorted electrode pairs (such as field emitter tip electrodes shorted to grid electrodes) in a field emission display by applying a test voltage across the two electrodes in each pair. The magnitude of the test voltage is set below the voltage required to initiate field emission from the emitter tip electrode. Because no field emission occurs at this voltage, the test voltage should produce no current flow through good (non-shorted) emitter tips. However, current will flow through emitter tips which are shorted to their respective grid electrodes. In one embodiment, the current flow vaporizes the bad emitter tips themselves. In another embodiment, the current flow thermally damages a removable link connected in series with either the shorted emitter tip or the shorted grid electrode.Type: GrantFiled: February 23, 1998Date of Patent: March 7, 2000Assignee: Micron Technology, Inc.Inventors: Jimmy J. Browning, John K. Lee, Tyler A. Lowrey
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Patent number: 6027619Abstract: A filtered cathodic vacuum arc is used as a source of metal to generate a highly directional beam of metal ions having substantially larger velocity parallel to the axis of the beam (perpendicular to the surface of the target) than perpendicular to the axis of the beam. This ion beam, with energies ranging up to 80 eV, is used to deposit metal into the bottom of high aspect (typically greater than 3 to 1) openings, for example, to deposit titanium in the bottom of deep contact holes in semiconductor devices or to deposit molybdenum to form tips for emitters for a field emission display. Gases can be introduced into the vacuum deposition chamber during deposition to change the nature of the deposit. The substrate or target bias can be adjusted to control the deposition rate.Type: GrantFiled: December 19, 1996Date of Patent: February 22, 2000Assignee: Micron Technology, Inc.Inventors: David A. Cathey, Jimmy J. Browning, Zhong-Yi Xia
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Patent number: 5721472Abstract: Methods and apparatus for identifying and disabling shorted electrode pain (such as field emitter tip electrodes shorted to grid electrodes) in a field emission display by applying a test voltage across the two electrodes in each pair. The magnitude of the test voltage is set below the voltage required to initiate field emission from the emitter tip electrode. Because no field emission occurs at this voltage, the test voltage should produce no current flow through good (non-shorted) emitter tips. However, current will flow through emitter tips which are shorted to their respective grid electrodes. In one embodiment, the current flow vaporizes the bad emitter tips themselves. In another embodiment, the current flow thermally damages a removable link connected in series with either the shorted emitter tip or the shorted grid electrode.Type: GrantFiled: January 9, 1996Date of Patent: February 24, 1998Assignee: Micron Display Technology, Inc.Inventors: Jimmy J. Browning, John K. Lee