Patents by Inventor Mark D. Owen

Mark D. Owen 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).

  • Patent number: 10401012
    Abstract: A high-intensity light source is formed by a micro array of a semiconductor light source such as a LEDs, laser diodes, or VCSEL placed densely on a liquid or gas cooled thermally conductive substrate. The semiconductor devices are typically attached by a joining process to electrically conductive patterns on the substrate, and driven by a microprocessor controlled power supply. An optic element is placed over the micro array to achieve improved directionality, intensity, and/or spectral purity of the output beam. The light module may be used for such processes as, for example, fluorescence, inspection and measurement, photopolymerzation, ionization, sterilization, debris removal, and other photochemical processes.
    Type: Grant
    Filed: July 17, 2013
    Date of Patent: September 3, 2019
    Assignee: Phoseon Technology, Inc.
    Inventors: Mark D. Owen, Tom McNeil, Francois Vlach
  • Patent number: 9478720
    Abstract: The present invention provides an optical array module that includes a plurality of semiconductor devices mounted on a thermal substrate formed with a plurality of openings that function as micro-reflectors, wherein each micro-reflector includes a layer of reflective material to reflect light. Such material preferably is conductive so as to provide electrical connection for its associated semiconductor device.
    Type: Grant
    Filed: January 23, 2014
    Date of Patent: October 25, 2016
    Assignee: Phoseon Technology, Inc.
    Inventors: Mark D. Owen, Duwayne R. Anderson, Thomas R. McNeill, Alexander F. Schreiner
  • Patent number: 9017613
    Abstract: In order to disinfect and to detoxify a fluid, a photoreactor contains at least two light sources. One light source activates the catalytic function of a semiconductor material in the fluid to reduce the concentration of contaminants in the fluid, such as by breaking down organic contaminants into non-toxic compounds. A second light source acts directly on living biological entities to sterilize or kill them and thereby disinfect the fluid, and can also serve to activate a semiconductor photocatalyst that in turn causes further damage to biological contaminants. The semiconductor photocatalyst is desirably attached to an optically transmitting fiber substrate in the fluid. The second light source in one embodiment is external to the fluid and illuminates the photocatalyst through transmitting surfaces in a fluid containment vessel. The light sources can comprise respective sets of plural LEDs.
    Type: Grant
    Filed: August 9, 2013
    Date of Patent: April 28, 2015
    Assignee: UVCleaning Systems, Inc.
    Inventors: Mark D. Owen, James Thorne, Manoj K. Sammi
  • Patent number: 8834805
    Abstract: In order to disinfect and to detoxify a fluid, a photoreactor contains at least two light sources. One light source activates the catalytic function of a semiconductor material in the fluid to reduce the concentration of contaminants in the fluid, such as by breaking down organic contaminants into non-toxic compounds. A second light source acts directly on living biological entities to sterilize or kill them and thereby disinfect the fluid, and can also serve to activate a semiconductor photocatalyst that in turn causes further damage to biological contaminants. The semiconductor photocatalyst is desirably attached to an optically transmitting fiber substrate in the fluid. The second light source in one embodiment is external to the fluid and illuminates the photocatalyst through transmitting surfaces in a fluid containment vessel. The light sources can comprise respective sets of plural LEDs.
    Type: Grant
    Filed: June 28, 2013
    Date of Patent: September 16, 2014
    Assignee: UVCleaning Systems, Inc.
    Inventors: Mark D. Owen, James Thorne, Manoj K. Sammi
  • Publication number: 20140131755
    Abstract: The present invention provides an optical array module that includes a plurality of semiconductor devices mounted on a thermal substrate formed with a plurality of openings that function as micro-reflectors, wherein each micro-reflector includes a layer of reflective material to reflect light. Such material preferably is conductive so as to provide electrical connection for its associated semiconductor device.
    Type: Application
    Filed: January 23, 2014
    Publication date: May 15, 2014
    Applicant: Phoseon Technology, Inc.
    Inventors: Mark D. Owen, Duwayne R. Anderson, Thomas R. McNeill, Alexander F. Schreiner
  • Patent number: 8637332
    Abstract: The present invention provides an optical array module that includes a plurality of semiconductor devices mounted on a thermal substrate formed with a plurality of openings that function as micro-reflectors, wherein each micro-reflector includes a layer of reflective material to reflect light. Such material preferably is conductive so as to provide electrical connection for its associated semiconductor device.
    Type: Grant
    Filed: November 12, 2009
    Date of Patent: January 28, 2014
    Assignee: Phoseon Technology, Inc.
    Inventors: Mark D. Owen, Duayne R. Anderson, Thomas R. McNeill, Alexander F. Schreiner
  • Publication number: 20130323128
    Abstract: In order to disinfect and to detoxify a fluid, a photoreactor contains at least two light sources. One light source activates the catalytic function of a semiconductor material in the fluid to reduce the concentration of contaminants in the fluid, such as by breaking down organic contaminants into non-toxic compounds. A second light source acts directly on living biological entities to sterilize or kill them and thereby disinfect the fluid, and can also serve to activate a semiconductor photocatalyst that in turn causes further damage to biological contaminants. The semiconductor photocatalyst is desirably attached to an optically transmitting fiber substrate in the fluid. The second light source in one embodiment is external to the fluid and illuminates the photocatalyst through transmitting surfaces in a fluid containment vessel. The light sources can comprise respective sets of plural LEDs.
    Type: Application
    Filed: August 9, 2013
    Publication date: December 5, 2013
    Applicant: UVCleaning Systems, Inc.
    Inventors: Mark D. Owen, James Thorne, Manoj K. Sammi
  • Publication number: 20130302209
    Abstract: A high-intensity light source is formed by a micro array of a semiconductor light source such as a LEDs, laser diodes, or VCSEL placed densely on a liquid or gas cooled thermally conductive substrate. The semiconductor devices are typically attached by a joining process to electrically conductive patterns on the substrate, and driven by a microprocessor controlled power supply. An optic element is placed over the micro array to achieve improved directionality, intensity, and/or spectral purity of the output beam. The light module may be used for such processes as, for example, fluorescence, inspection and measurement, photopolymerzation, ionization, sterilization, debris removal, and other photochemical processes.
    Type: Application
    Filed: July 17, 2013
    Publication date: November 14, 2013
    Inventors: Mark D. Owen, Tom McNeil, Francois Vlach
  • Publication number: 20130294968
    Abstract: In order to disinfect and to detoxify a fluid, a photoreactor contains at least two light sources. One light source activates the catalytic function of a semiconductor material in the fluid to reduce the concentration of contaminants in the fluid, such as by breaking down organic contaminants into non-toxic compounds. A second light source acts directly on living biological entities to sterilize or kill them and thereby disinfect the fluid, and can also serve to activate a semiconductor photocatalyst that in turn causes further damage to biological contaminants. The semiconductor photocatalyst is desirably attached to an optically transmitting fiber substrate in the fluid. The second light source in one embodiment is external to the fluid and illuminates the photocatalyst through transmitting surfaces in a fluid containment vessel. The light sources can comprise respective sets of plural LEDs.
    Type: Application
    Filed: June 28, 2013
    Publication date: November 7, 2013
    Inventors: Mark D. Owen, James Thorne, Manoj K. Sammi
  • Patent number: 8496356
    Abstract: A high-intensity light source is formed by a micro array of a semiconductor light source such as a LEDs, laser diodes, or VCSEL placed densely on a liquid or gas cooled thermally conductive substrate. The semiconductor devices are typically attached by a joining process to electrically conductive patterns on the substrate, and driven by a microprocessor controlled power supply. An optic element is placed over the micro array to achieve improved directionality, intensity, and/or spectral purity of the output beam. The light module may be used for such processes as, for example, fluorescence, inspection and measurement, photopolymerzation, ionization, sterilization, debris removal, and other photochemical processes.
    Type: Grant
    Filed: May 8, 2012
    Date of Patent: July 30, 2013
    Assignee: Phoseon Technology, Inc.
    Inventors: Mark D. Owen, Tom McNeil, Francois Vlach
  • Publication number: 20130180931
    Abstract: Disclosed herein are embodiments of a solar-activated photochemical fluid treatment system, some of which comprise an group of modules coupled together with attachment mechanisms, the group of modules comprising one or more floats. The modules comprise a porous substrate and a semiconductor photocatalyst coupled to the substrate. The group of interconnected modules can be configured to float at or near the surface of a body of fluid such that the fluid and sunlight can be in contact with the photocatalyst. The fluid treatment system can, responsive to solar radiation applied to the photocatalyst and to the fluid, induce photochemical modification of contaminants and living organisms in the fluid. Related methods are also disclosed.
    Type: Application
    Filed: September 27, 2011
    Publication date: July 18, 2013
    Applicant: UVCLEANING SYSTEMS, INC.
    Inventor: Mark D. Owen
  • Publication number: 20130118995
    Abstract: Disclosed herein are embodiments of a solar-activated photochemical fluid treatment system, some of which comprise a fluid vessel, a porous enclosure positioned inside of the fluid vessel, a porous enclosure positioned inside of the fluid vessel, a fiber substrate contained within the enclosure, and a semiconductor photocatalyst coupled to the fiber substrate. The fluid vessel can be configured to contain a fluid in contact with the photocatalyst such that the fluid treatment system, responsive to solar radiation applied to the photocatalyst and to the fluid in the vessel, induces photochemical modification of contaminants and living organisms in the fluid. Related methods are also disclosed.
    Type: Application
    Filed: July 22, 2011
    Publication date: May 16, 2013
    Applicant: UVCleaning Systems, Inc.
    Inventors: R. Thomas Hawkins, II, Mark D. Owen
  • Publication number: 20130034663
    Abstract: System and methods are disclosed in connection with a reaction at or below the surface of a work object, in the context of a fluid flow fostering the reaction. In some example embodiments, the reaction is fostered by (1) creating fluid flow of an inerting fluid over a surface during exposure of the surface to a predetermined type of light, (2) creating fluid flow comprising a reactive species that reacts with another species at or below the work surface in a predetermined manner and/or (3) creating a fluid flow comprising a catalytic species that catalyzes a reaction in a predetermined manner, e.g., during exposure of the surface to a predetermined type of light. In some example embodiments, a light source is employed that comprises a solid-state light source, e.g., a dense array of solid-state light sources. In at least one of such example embodiments, the reaction is a photoreaction associated with the light source.
    Type: Application
    Filed: December 30, 2005
    Publication date: February 7, 2013
    Applicant: Phoseon Technology, Inc.
    Inventors: Duwayne R. Anderson, Roland Jasmin, Mark D. Owen
  • Publication number: 20120281408
    Abstract: A high-intensity light source is formed by a micro array of a semiconductor light source such as a LEDs, laser diodes, or VCSEL placed densely on a liquid or gas cooled thermally conductive substrate. The semiconductor devices are typically attached by a joining process to electrically conductive patterns on the substrate, and driven by a microprocessor controlled power supply. An optic element is placed over the micro array to achieve improved directionality, intensity, and/or spectral purity of the output beam. The light module may be used for such processes as, for example, fluorescence, inspection and measurement, photopolymerzation, ionization, sterilization, debris removal, and other photochemical processes.
    Type: Application
    Filed: May 8, 2012
    Publication date: November 8, 2012
    Applicant: PHOSEON TECHNOLOGY, INC.
    Inventors: Mark D. Owen, Tom McNeil, Francois Vlach
  • Publication number: 20120228236
    Abstract: Apparatus and methods for the photochemical purification of fluids are disclosed. Fluids containing organic, inorganic and/or microbiological contaminants are treated by photochemical processes in a hybrid photoreactor incorporating a photocatalyst bonded to a light transmissive fiber substrate within at least a portion of the fluid and light sources to illuminate the fluid and photocatalyst. Photochemical processes include photocatalytic oxidation, photocatalytic reduction, photoadsorption, photolysis and photodisinfection. Some aspects of the disclosure include optimization of distribution of photocatalyst within the fluid, optimization of mass transport of contaminants by distribution of randomly-oriented fiber substrate, optimization of photoefficiency by control of light source wavelengths, use of LEDs to achieve optimized light source wavelengths, optimization of light delivery from light sources to fluid, and use of a microprocessor to optimize system performance.
    Type: Application
    Filed: November 4, 2010
    Publication date: September 13, 2012
    Inventors: R.Thomas Hawkins, II, Mark D. Owen
  • Patent number: 8192053
    Abstract: A high-intensity light source is formed by a micro array of a semiconductor light source such as a LEDs, laser diodes, or VCSEL placed densely on a liquid or gas cooled thermally conductive substrate. The semiconductor devices are typically attached by a joining process to electrically conductive patterns on the substrate, and driven by a microprocessor controlled power supply. An optic element is placed over the micro array to achieve improved directionality, intensity, and/or spectral purity of the output beam. The light module may be used for such processes as, for example, fluorescence, inspection and measurement, photopolymerzation, ionization, sterilization, debris removal, and other photochemical processes.
    Type: Grant
    Filed: November 8, 2004
    Date of Patent: June 5, 2012
    Assignee: Phoseon Technology, Inc.
    Inventors: Mark D. Owen, Tom McNeil, Francois Vlach
  • Patent number: 8077305
    Abstract: The invention consists of a camera, light sources, lenses and software algorithms that are used to image and inspect semiconductor structures, including through infrared radiation. The use of various configurations of solid state lighting and software algorithms enhances the imaging and inspection.
    Type: Grant
    Filed: April 19, 2005
    Date of Patent: December 13, 2011
    Inventors: Mark D. Owen, Francois Vlach, Steven J. Olson
  • Patent number: 8039785
    Abstract: The present invention provides an optical system having an array of light emitting semiconductor devices to performing an operation that have multiple characteristics associated with performing the operation. The array includes at least one detector located within the array to selectively monitor multiple characteristics of the light emitting semiconductor devices and is configured to generate a signal corresponding to the selected characteristic. A controller is configured to control the light emitting semiconductor devices in response to the signal from the at least one detector. At least one of the multiple characteristics may be concentrated at an area of the array and the at least one detector may be located within the array at the area of the array to selectively monitor characteristic that is concentrated at the area of the array.
    Type: Grant
    Filed: September 27, 2010
    Date of Patent: October 18, 2011
    Assignee: Phoseon Technology, Inc.
    Inventors: Steven J. Olson, Duwayne R. Anderson, Robert G. Culter, Mark D. Owen
  • Publication number: 20110012514
    Abstract: The present invention provides an optical system having an array of light emitting semiconductor devices to performing an operation that have multiple characteristics associated with performing the operation. The array includes at least one detector located within the array to selectively monitor multiple characteristics of the light emitting semiconductor devices and is configured to generate a signal corresponding to the selected characteristic. A controller is configured to control the light emitting semiconductor devices in response to the signal from the at least one detector. At least one of the multiple characteristics may be concentrated at an area of the array and the at least one detector may be located within the array at the area of the array to selectively monitor characteristic that is concentrated at the area of the array.
    Type: Application
    Filed: September 27, 2010
    Publication date: January 20, 2011
    Applicant: PHOSEON TECHNOLOGY, INC.
    Inventors: Steven J. Olson, Duwayne R. Anderson, Robert G. Culter, Mark D. Owen
  • Patent number: 7816638
    Abstract: The present invention provides an optical system having an array of light emitting semiconductor devices to performing an operation that have multiple characteristics associated with performing the operation. The array includes at least one detector located within the array to selectively monitor multiple characteristics of the light emitting semiconductor devices and is configured to generate a signal corresponding to the selected characteristic. A controller is configured to control the light emitting semiconductor devices in response to the signal from the at least one detector. At least one of the multiple characteristics may be concentrated at an area of the array and the at least one detector may be located within the array at the area of the array to selectively monitor characteristic that is concentrated at the area of the array.
    Type: Grant
    Filed: March 30, 2005
    Date of Patent: October 19, 2010
    Assignee: Phoseon Technology, Inc.
    Inventors: Steven J. Olson, Duwayne R. Anderson, Robert G. Culter, Mark D. Owen