With Secondary Emission Stage In The Cathode-ray Tube Patents (Class 315/12.1)
  • Patent number: 11016179
    Abstract: Methods and systems for the image processing of a three-dimensional imaging system include a multi-processor embodiment wherein the image output by an image sensor is divided amongst the several multi-processors for processing in order to improve the frame rate of the three-dimensional imaging system. Since the frame rate of a three-dimensional imaging system utilizing an image-intensifier is not limited by the amount of useful signal light available for imaging but is instead limited by image processing capacity, this technology provides for the use of multi-core or multi-processor image processing methods to improve the frame rate. Additionally, locating the image processor in close proximity to the image sensor allows for faster image data communication between the image sensor and image processor, which further improves the frame rate of the three-dimensional imaging system.
    Type: Grant
    Filed: December 3, 2018
    Date of Patent: May 25, 2021
    Assignee: MUNRO DESIGN & TECHNOLOGIES, LLC
    Inventor: James F. Munro
  • Patent number: 10991497
    Abstract: An apparatus for providing a magnetic field includes a magnet having a surface, and a structure disposed above the magnet surface. The structure includes a material of high magnetic permeability. The apparatus provides an interface between the material of high magnetic permeability and a material of low magnetic permeability. The apparatus may have two poles in magnetic communication with the magnet, the poles extending above the surface of the magnet, and the structure is disposed between the poles. The structure may have alternating regions of high magnetic permeability and low magnetic permeability. The apparatus alters the magnetic field of the magnet to reduce or remove a disorder in the magnetic field, and/or decrease the magnitude of the magnetic field, and/or induce a distortion in the magnetic field, and/or align or re-align the magnetic field, and/or orientate or re-orientate the magnetic field, and/or alter distribution or shape of the magnetic field.
    Type: Grant
    Filed: February 2, 2017
    Date of Patent: April 27, 2021
    Assignee: ADAPTAS SOLUTIONS PTY LTD
    Inventors: Richard Stresau, Kevin Hunter, Yair Benari, Russell Jurek, Toby Shanley
  • Patent number: 9999118
    Abstract: The plasma is formed between electrodes to be energized from an electric power source, containing a partially ionized mass having a luminescence region including neutral atoms (NA), primary electrons (PE), secondary electrons (SE), and ions. The method comprises the steps of: accelerating the primary electrons (PE) toward one of said electrodes polarized by a positive high voltage pulse impacting primary electrons (PE) against said electrode and ejecting secondary electrons (SE) from it; subsequently, accelerating the secondary electrons (SE) toward the luminescence region by polarization of said electrode by a negative voltage to collide the secondary electrons with neutral atoms (NA) and producing positive ions (PI) and derived electrons (DE); repeating the previous steps in order to obtain a steady state plasma with a desired degree of ionization.
    Type: Grant
    Filed: March 27, 2017
    Date of Patent: June 12, 2018
    Assignee: Scholtz E Fontana Consultoria LTDA-ME
    Inventors: Juliano Sadi Scholtz, Luis Cesar Fontana
  • Patent number: 9543129
    Abstract: An electron multiplier includes an insulating substrate which includes an electrical wiring pattern and in which a through-hole is formed, an MCP arranged on one side of the through-hole of the insulating substrate and electrically connected to the electrical wiring pattern, a shield plate arranged in one side of the MCP and electrically connected to the MCP, an anode arranged on the other side of the through-hole and electrically connected to the electrical wiring pattern, and a signal readout terminal fixed to the insulating substrate for reading a signal from the anode. The shield plate is formed to include the MCP when viewed in a thickness direction. A through-hole exposing at least a portion of the MCP is formed in the shield plate. The insulating substrate, the MCP, the shield plate and the anode are fixed to each other to be integral.
    Type: Grant
    Filed: May 31, 2012
    Date of Patent: January 10, 2017
    Assignee: HAMAMATSU PHOTONICS K.K.
    Inventors: Akio Suzuki, Yuto Yanagihara, Hiroshi Kobayashi
  • Patent number: 9478392
    Abstract: There is provided a charged particle beam apparatus radiating a charged particle beam to a specimen so as to acquire an image of the specimen, the charged particle beam apparatus including: a charged particle gun that generates the charged particle beam; an electron optical system that radiates the charged particle beam emitted from the charged particle gun onto a surface of the specimen so as to scan the surface of the specimen; a detecting unit that detects secondary electrons or reflection electrons emitted from the specimen, and converts the electrons into pulse signals; a pulse signal detecting circuit that detects time detecting information regarding time of the pulse signals converted by the detecting unit, and peak value detecting information regarding each peak value of the pulse signals; and an image processing unit that generates luminance gradation of the acquired image based on a time detecting signal and a peak value detecting signal of the pulse signals detected by the pulse signal detecting ci
    Type: Grant
    Filed: July 20, 2015
    Date of Patent: October 25, 2016
    Assignee: Hitachi High-Technologies Corporation
    Inventors: Kazuki Ikeda, Wen Li, Ryo Kadoi, Hisaaki Kanai, Hajime Kawano, Hiroyuki Takahashi, Makoto Suzuki
  • Patent number: 9117640
    Abstract: The present invention relates to a low-resistance MCP with an expanded dynamic range and excellent environment resistance, in comparison with the conventional technology. The MCP has a double structure composed of hollow first cladding glasses whose inner wall surfaces function as channel walls, and a second cladding glass having a resistivity lower than that of the first cladding glasses.
    Type: Grant
    Filed: May 16, 2013
    Date of Patent: August 25, 2015
    Assignee: HAMAMATSU PHOTONICS K.K.
    Inventors: Toshiyuki Uchiyama, Yusuke Hayase, Katsuyuki Ishiguro
  • Publication number: 20150022080
    Abstract: A cathode assembly is for use in a radiation generator and includes an ohmically heated cathode, and a support having formed therein a hole and a recess at least partially surrounding the hole. In addition, there is a mount coupled to the support. The mount includes a larger outer frame positioned within the recess, a smaller inner frame carrying the ohmically heated cathode and spaced apart from the larger outer frame, and a plurality of members coupling the smaller inner frame to the larger outer frame.
    Type: Application
    Filed: July 18, 2013
    Publication date: January 22, 2015
    Applicant: Schlumberger Technology Corporation
    Inventor: Brian Umbach
  • Publication number: 20140361683
    Abstract: A photomultiplier tube having an ion suppression electrode positioned between a photocathode and an electron multiplying device in the photomultiplier tube is disclosed. The ion suppression electrode includes a grid that is configured to provide sufficient rigidity to avoid deformation during operation of the photomultiplier tube. The photomultiplier tube also includes a source of electric potential connected to the electron multiplying device and to the ion suppression electrode to provide a first voltage to the second electrode and a second voltage to the suppression grid electrode wherein the second voltage has a magnitude equal to or greater than the magnitude of the first voltage. A method of making the photomultiplier and a method of using it are also disclosed.
    Type: Application
    Filed: June 5, 2014
    Publication date: December 11, 2014
    Inventor: Jeffrey DeFazio
  • Publication number: 20140265829
    Abstract: A tandem electron multiplier device includes an input end position electron multiplier generating an electron emission; an output end position electron multiplier receiving the electron emission and generating an output electron emission; an electron collector to receive the output electron emission; a power supply; and an electrical biasing network coupled to the power supply, the electrical biasing network supplying voltages to connections at the input end position electron multiplier and the output end position electron multiplier, the voltages supplied to provide output current linearly with respect to input current across the tandem electron multiplier device.
    Type: Application
    Filed: March 12, 2013
    Publication date: September 18, 2014
    Applicant: EXELIS, INC.
    Inventors: Joseph K. Hosea, Matthew L. Breuer, Robert A. Silverstein
  • Publication number: 20140263995
    Abstract: A photomultiplier includes a tube and plurality of dynodes within the tube and including at least one first dynode and at least one second dynode. A respective insulator is between adjacent pairs of dynodes. The at least one first dynode includes a conductive outer ring and a medial conductive member coupled to the conductive outer ring in spaced relation therefrom. The at least one second dynode includes a conductive outer ring and a conductive inner ring supported within the conductive outer ring.
    Type: Application
    Filed: March 14, 2013
    Publication date: September 18, 2014
    Inventor: Kenneth E. Stephenson
  • Patent number: 8294367
    Abstract: Electron sources for a cathodoluminescent lighting system are disclosed. An electron source is a broad-beam reflecting-type electron gun having a cathode for emitting electrons and a reflector and/or secondary emitter electrode and no grids. An alternative electron gun has a cathode having a heater welded to a disk, the disk having an emissive surface on a side facing a dome-shaped defocusing grid and an anode. A lighting system incorporating the electron sources has an envelope with a transparent face, an anode with a phosphor layer to emit light through the face and a conductor layer. The system also has a power supply for providing from five to thirty thousand volts of power to the light emitting device to draw electrons from cathode to anode and excite a cathodoluminescent phosphor, and the electrons transiting from cathode to anode are essentially unfocused. A power-factor-corrected embodiment is also disclosed.
    Type: Grant
    Filed: September 11, 2009
    Date of Patent: October 23, 2012
    Assignee: Vu1 Corporation
    Inventors: Richard N. Herring, Charles E. Hunt, Thomas Skupien, Tomas Hasilik, Viktor Jelinek, Bernard K. Vancil
  • Publication number: 20120056535
    Abstract: A light emitting device has a cathode-ray tube and power supply. The cathode-ray tube in an embodiment is optimized for emitting a broad electron beam, in one variation a dome-shaped diffusing grid is used to spread the beam. In another embodiment, the device has a base adapted for attachment to a standard lighting fixture.
    Type: Application
    Filed: November 14, 2011
    Publication date: March 8, 2012
    Inventors: Charles E. Hunt, Bearnard K. Vancil, Richard N. Herring, Richard Gale Sellers
  • Patent number: 7183713
    Abstract: A magnetic field compensation winding arrangement for a cathode ray tube includes a magnetic field compensation winding positioned on the cathode ray tube to compensate for an ambient magnetic field. An operational amplifier is used for generating a magnetic field compensation current in the winding. A pair of digital-to-analog converters are used for generating a pair of signals, respectively, that are coupled to the amplifier to control the magnetic field compensation current.
    Type: Grant
    Filed: April 16, 2003
    Date of Patent: February 27, 2007
    Assignee: Thomson Licensing
    Inventors: James Albert Wilber, Joseph Curtis Stephens
  • Patent number: 6791269
    Abstract: A Photo-Multiplier Tube (PMT) base for supplying long-term stable power, gain control and output amplification to a PMT. The present PMT base integrates the circuitry required for the dynode stages of the PMT with an amplifying circuit that amplifies the PMT output signals without disturbing the stable power that is required by each of the dynode stages. In operation the PMT base is electrically and mechanically connected to a PMT. The circuits for the dynode stages primarily provide gain control for each dynode stage in the PMT. The amplifying circuit in the PMT base is electrically connected to a dynode, the anode or both a dynode and the anode of the PMT, from which the PMT output signal is received. A PMT high voltage divider supplies the power to the circuitry required for the dynode stages and the amplifying circuit in the PMT base. The PMT base can be replaceable and can replace PMT bases that do not have an integrated amplifier for the PMT output signal.
    Type: Grant
    Filed: January 31, 2001
    Date of Patent: September 14, 2004
    Assignee: Southeastern Universities Research Assn., Inc.
    Inventor: Vladimir E. Popov
  • Patent number: 6188178
    Abstract: Picture display device having a vacuum envelope with a face plate whose inner side is provided with a luminescent screen having a repetitive pattern of triplets of red, green and blue-luminescing phosphor elements, a rear plate at a short distance therefrom and in the space therebetween a plurality of electron emitters and juxtaposed, electron ducts cooperating therewith and having walls of substantially electrically insulating material having a secondary emission coefficient suitable for electron transport for transporting, through vacuum, produced electrons in the form of electron currents. Means are provided for withdrawing each electron current at predetermined locations from its duct and for directing this current towards a desired location on the luminescent screen for producing a picture composed of pixels.
    Type: Grant
    Filed: April 10, 1995
    Date of Patent: February 13, 2001
    Assignee: U.S. Philips Corporation
    Inventors: Gerardus G. P. Van Gorkom, Petrus H. F. Trompenaars, Siebe T. De Zwart, Nicolaas Lambert