Patents by Inventor Aris Silzars
Aris Silzars 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: 20240103309Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: ApplicationFiled: December 11, 2023Publication date: March 28, 2024Inventors: Richard Cope, Aris Silzars
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Patent number: 11841566Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: GrantFiled: August 12, 2022Date of Patent: December 12, 2023Assignee: Nanolumens Acquisition, Inc.Inventors: Richard Cope, Aris Silzars
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Patent number: 11774788Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: GrantFiled: December 17, 2021Date of Patent: October 3, 2023Assignee: Nanolumens Acquisition, Inc.Inventors: Richard Cope, Aris Silzars
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Publication number: 20220382095Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: ApplicationFiled: August 12, 2022Publication date: December 1, 2022Inventors: Richard Cope, Aris Silzars
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Publication number: 20220187650Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: ApplicationFiled: December 17, 2021Publication date: June 16, 2022Inventors: Richard Cope, Aris Silzars
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Patent number: 11204516Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: GrantFiled: April 12, 2020Date of Patent: December 21, 2021Assignee: NanoLumens Acquisition, Inc.Inventors: Richard Cope, Aris Silzars
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Publication number: 20200241349Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: ApplicationFiled: April 12, 2020Publication date: July 30, 2020Applicant: Nanolumens Acquisition, Inc.Inventors: Richard Cope, Aris Silzars
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Patent number: 10620463Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: GrantFiled: February 20, 2015Date of Patent: April 14, 2020Assignee: Nanolumens Acquisition, Inc.Inventors: Richard Cope, Aris Silzars
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Patent number: 9146419Abstract: A quantum rod based color pixel backlight system for Liquid Crystal Display, not requiring color filters and traditional polarizer, comprising multiplicity of LEDs, emitting ultraviolet or near-ultraviolet or blue light, assembled at one edge of a ultraviolet or near-ultraviolet or blue light transmitting light guide, which has other three edges and bottom surface coated with ultraviolet/near-ultraviolet reflecting layer and its top surface roughened with ultraviolet and near-ultraviolet extracting pixel patterns that contain aligned layers of quantum rods that emit different colors of plane polarized light in red, blue and green region with sharp spectrum, to increase the color gamut and optical efficiency of LCD screen, upon excitation by ultraviolet or near-ultraviolet or blue light.Type: GrantFiled: March 22, 2015Date of Patent: September 29, 2015Inventors: Munisamy Anandan, Aris Silzars
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Publication number: 20150160501Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: ApplicationFiled: February 20, 2015Publication date: June 11, 2015Applicant: NANOLUMENS ACQUISITION, INC,Inventors: Richard Cope, Aris Silzars
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Patent number: 8963895Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: GrantFiled: September 22, 2011Date of Patent: February 24, 2015Assignee: Nano Lumens Acquisition Inc.Inventors: Richard Cope, Aris Silzars
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Publication number: 20130076605Abstract: A ubiquitously mountable image display system includes a shape-reconfigurable display screen component to which is attached a plurality of circuit modules each having at least one light source. The shape-reconfigurable display screen component is formed of a material that accommodates flexing of the display screen component without creating a perceivable aberration in separation distance between two or more picture elements of an image that is rendered upon a viewing plane of the display screen component when light from the plurality of light sources is directed towards the viewing plane.Type: ApplicationFiled: September 22, 2011Publication date: March 28, 2013Inventors: Richard Cope, Aris Silzars
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Publication number: 20110176328Abstract: A ultra-violet based color pixel backlight system for color filter-less Liquid Crystal Display, comprising multiplicity of LEDs, emitting UV or NUV light in the wavelength range of 150 nm to 390 nm, assembled at one edge of a UV transmitting light guide, which has other three edges and bottom surface coated with UV reflecting layer and its top surface roughened with UV and NUV extracting pixel patterns that contain layers of quantum dots that emit different colors of light in red, blue and green region with sharp spectrum, to increase the color gamut on LCD screen, upon excitation by UV or NUV light. The formed pixels contain reflective islands, underneath the layers of quantum dots, to reflect the visible rays, generated by the pixelated quantum dots, towards the LCD and suppress the visible light leaving the pixel as well as suppress the visible light from adjacent pixels entering the pixel. Thus suppressing the color mixing that could occur without the incorporation of reflective islands.Type: ApplicationFiled: March 28, 2011Publication date: July 21, 2011Inventors: Munisamy Anandan, Aris Silzars
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Publication number: 20080074049Abstract: A individually formed EL module device, named herein as a nixel, adapted to be integrated into a modular electroluminescent display (ELD), is presented. The nixel of the present invention can be in the form of a subpixel, a pixel, or a plurality thereof. The nixel can be made in a variety of shapes, and can be individually tested and sorted according to its mechanical and/or electrical attributes prior to being integrated into an ELD. A customized ELD can be made by selecting nixels of particular characteristics in accordance with ELD application and/or user specifications. Nixels can easily be arranged to form a variety of color patterns on an ELD. A nixel can include a lower electrode layer, a ceramic base layer, a first charge injection layer, a phosphor layer, a second charge injection layer and an upper electrode layer. Nixels can be positioned on a flexible display structure to produce a flexible and scalable ELD.Type: ApplicationFiled: September 26, 2006Publication date: March 27, 2008Inventors: Adrian Kitai, Aris Silzars, Joe K. Cochran, Richard C. Cope
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Patent number: 7064500Abstract: An apparatus and method for electrically connecting semi-conductor devices is disclosed. The apparatus and method employs a vacuum chamber and first and second semi-conductor components. The first and second semi-conductor components are coupled to a vacuum chamber and free space electron transmitters and receivers. The transmitters are configured to transmit a signals between the semi-conductor components.Type: GrantFiled: October 4, 2004Date of Patent: June 20, 2006Assignee: Exaconnect Corp.Inventors: Michel N Victor, Aris Silzars, Gerald G Mansour
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Publication number: 20050162104Abstract: An apparatus and method for electrically connecting semi-conductor devices is disclosed. The apparatus and method employs a vacuum chamber and first and second semi-conductor components. The first and second semi-conductor components are coupled to a vacuum chamber and free space electron transmitters and receivers. The transmitters are configured to transmit a signals between the semi-conductor components.Type: ApplicationFiled: October 4, 2004Publication date: July 28, 2005Inventors: Michel Victor, Aris Silzars, Gerald Mansour
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Patent number: 6800877Abstract: An apparatus and method for electrically connecting semi-conductor devices is disclosed. The apparatus and method employs a vacuum chamber and first and second semi-conductor components. The first and second semi-conductor components are coupled to a vacuum chamber and free space electron transmitters and receivers. The transmitters are configured to transmit a signals between the semi-conductor components.Type: GrantFiled: June 6, 2002Date of Patent: October 5, 2004Assignee: Exaconnect Corp.Inventors: Michel N. Victor, Aris Silzars
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Patent number: 6801002Abstract: A communications system that includes one or more free space electron switches. The free space electron switch employs an array of electron emitters, where each emitter is responsive to an RF or optical input signal on an input channel. Each emitter includes a cathode that emits electrons in response to the input signal. Each emitter further includes a focussing/accelerating electrode for collecting and accelerating the emitted electrons into an electron beam. Each emitter further includes an aiming anode that directs the beam of electrons to a desired detector within an array of detectors that converts the beam of electrons to a representative RF or optical signal on an output channel. Each emitter may include a modulating electrode that generates an electric field to modulate data onto the beam of electrons. The communications systems employing the switch can be an ISDN, DSLAM networks, packet routing systems, ADSL networks, PBX systems, local exchange systems, etc.Type: GrantFiled: February 26, 2003Date of Patent: October 5, 2004Assignee: Exaconnect Corp.Inventors: Michel N. Victor, Aris Silzars, Gerald G. Mansour
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Publication number: 20040080285Abstract: A communications system that includes one or more free space electron switches. The free space electron switch employs an array of electron emitters, where each emitter is responsive to an RF or optical input signal on an input channel. Each emitter includes a cathode that emits electrons in response to the input signal. Each emitter further includes a focussing/accelerating electrode for collecting and accelerating the emitted electrons into an electron beam. Each emitter further includes an aiming anode that directs the beam of electrons to a desired detector within an array of detectors that converts the beam of electrons to a representative RF or optical signal on an output channel. Each emitter may include a modulating electrode that generates an electric field to modulate data onto the beam of electrons. The communications systems employing the switch can be an ISDN, DSLAM networks, packet routing systems, ADSL networks, PBX systems, local exchange systems, etc.Type: ApplicationFiled: February 26, 2003Publication date: April 29, 2004Inventors: Michel N. Victor, Aris Silzars, Gerald G. Mansour
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Publication number: 20030076047Abstract: An apparatus and method for electrically connecting semi-conductor devices is disclosed. The apparatus and method employs a vacuum chamber and first and second semi-conductor components. The first and second semi-conductor components are coupled to a vacuum chamber and free space electron transmitters and receivers. The transmitters are configured to transmit a signals between the semi-conductor components.Type: ApplicationFiled: June 6, 2002Publication date: April 24, 2003Inventors: Michel N. Victor, Aris Silzars