Patents Assigned to Varex Imaging Corporation
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Patent number: 10297414Abstract: An X-ray tube may include a housing, a cathode, an anode, and a tube auxiliary unit or an authentication module. The cathode and the anode are positioned within the housing. The cathode and the anode are spaced apart such that a target surface of the anode is positioned to receive electrons emitted by the cathode. The tube auxiliary unit may be coupled to the housing. The tube auxiliary unit may include X-ray tube data including tube calibration data based on parameters of the X-ray tube. The authentication module may be configured to authenticate the X-ray tube with a tube control unit.Type: GrantFiled: September 20, 2016Date of Patent: May 21, 2019Assignee: VAREX IMAGING CORPORATIONInventors: Michael Meiler, Inwoo Yoon, Christopher Lewis
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Publication number: 20190146105Abstract: Embodiments include a detector with a flexible scintillator screen and a flexible photosensor array and an apparatus with supports coupled to the ends of the detector. The apparatus enables the detector to either flex repeatedly or be flexed and then fixedly held in a flexed configuration.Type: ApplicationFiled: May 24, 2018Publication date: May 16, 2019Applicant: Varex Imaging CorporationInventors: Scott Clark, Michael Petrillo, Richard E. Colbeth, Cody Bussey
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Patent number: 10269529Abstract: A method of designing an electron emitter can include: determining a desired cross-sectional profile of an electron emission from an electron emitter and inputting parameters of the electron emitter into a computer; determining a desired temperature profile for the electron emitter that emits the desired cross-sectional profile; and determining desired emitter dimensions for a defined electrical current through the electron emitter that produces the desired temperature profile with the computer based on the input parameters of the electron emitter. The emitter dimensions can include: each rung width dimension; each first gap segment dimension; each second gap segment dimension; and each web dimension. The emitter can include: a plurality of elongate rungs connected together in a planar pattern; a plurality of corners; a first gap between adjacent non-connected elongate rungs; a second gap between adjacent non-connected elongate rungs; and one or more cutouts between a corner apex and corner nadir.Type: GrantFiled: May 22, 2017Date of Patent: April 23, 2019Assignee: Varex Imaging CorporationInventors: Bradley D. Canfield, Colton B. Woodman
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Publication number: 20190101495Abstract: An X-ray imaging device includes a color sensor configured to generate a color signal indicating a particular color sensed, an imaging matrix of pixel detector elements that are each configured to detect photon energy and generate an image signal, and a controller that is coupled to the color sensor, the imaging matrix, and the wireless transceiver. The controller is configured to receive a color signal from the color sensor, determine an identifier of the computing device external to the X-ray imaging device based on the color signal, and change at least one operational setting of the X-ray imaging device based on the identifier.Type: ApplicationFiled: September 29, 2017Publication date: April 4, 2019Applicant: VAREX IMAGING CORPORATIONInventors: Carlo TOGNINA, Rudiger SCHWARTZ, Cesar PROANO, Keith GRAY
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Publication number: 20190074154Abstract: Some embodiments include a system, comprising: a high voltage enclosure; a cathode disposed in the high voltage enclosure; an anode disposed in the high voltage enclosure; a plurality of grids disposed in the high voltage enclosure between the cathode and the anode; a voltage source configured to generate a common grid voltage; and a voltage divider disposed in the high voltage enclosure, configured to generate a plurality of grid voltages based on the common grid voltage, and configured to apply at least two of the grid voltages to the grids.Type: ApplicationFiled: September 1, 2017Publication date: March 7, 2019Applicant: Varex Imaging CorporationInventors: Colton B. Woodman, Brad D. Canfield
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Publication number: 20190057830Abstract: Embodiments include a vacuum device, comprising: an enclosure configured to enclose a vacuum, the enclosure including an external base including an opening; an internal base within the enclosure; and an adjustable support assembly adjustably coupling the internal base to the external base and extending through the opening, the adjustable support assembly comprising: a threaded shaft extending along a longitudinal axis and coupled to the internal base; a threaded hole component threadedly engaged with the threaded shaft and coupled to the external base such that the threaded hole component is axially constrained in a direction along the longitudinal axis relative to the external base independent of the threaded shaft; and a flexible component coupled to the external base and the threaded shaft and sealing the opening.Type: ApplicationFiled: June 30, 2018Publication date: February 21, 2019Applicant: Varex Imaging CorporationInventor: Chris Ferrari
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Publication number: 20190057829Abstract: Embodiments include a vacuum device, comprising: an enclosure configured to enclose a vacuum, comprising an external base forming at least a portion of the enclosure; an internal base within the enclosure; and at least one thermal dissipative strap assembly, comprising: an internal base thermal conductive base in contact with the internal base, an external base thermal conductive base in contact with the external base, and a flexible thermal dissipative strap coupling the internal base thermal conductive base to the external base thermal conductive base.Type: ApplicationFiled: July 3, 2018Publication date: February 21, 2019Applicant: Varex Imaging CorporationInventors: Chris Ferrari, Thomas M. Bemis
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Publication number: 20190038918Abstract: An imaging apparatus includes a first X-ray detector that includes: a low energy scintillator operable to convert an incident X-ray spectrum into a first set of light photons; a first light imaging sensor operable to generate a set of low energy image signals from the first set of light photons, wherein a first exit radiation is a remainder portion of the first incident radiation after the X-ray spectrum passes through the low energy scintillator and the first light imaging sensor; an energy-separation filter operable to absorb or reflect at least a portion of the energy of the first exit X-ray spectrum and convert the first exit X-ray spectrum into a second exit X-ray spectrum; a second X-ray detector that includes: a high energy scintillator operable to convert the second exit X-ray spectrum into a second set of light photons; a second light imaging sensor operable to generate a set of high energy image signals from the second set of light photons; and a processor configured to: generate a high-energy imageType: ApplicationFiled: June 30, 2018Publication date: February 7, 2019Applicant: VAREX IMAGING CORPORATIONInventors: Minghui LU, Richard AUFRICHTIG, Joachim STEIGER
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Patent number: 10181389Abstract: An X-ray tube can include: a cathode including an electron emitter that emits an electron beam; an anode configured to receive the electron beam; a first magnetic quadrupole between the cathode and the anode and having a first yoke with four first pole projections extending from the first yoke and oriented toward a central axis of the first yoke and each of the four first pole projections having a first quadrupole electromagnetic coil; a second magnetic quadrupole between the first magnetic quadrupole and the anode and having a second yoke with four second pole projections extending from the second yoke and oriented toward a central axis of the second yoke and each of the four second pole projections having a second quadrupole electromagnetic coil; and at least one steering coil collocated with a quadrupole on a pole projection.Type: GrantFiled: March 17, 2015Date of Patent: January 15, 2019Assignee: VAREX IMAGING CORPORATIONInventors: Bradley D. Canfield, Colton B. Woodman
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Publication number: 20180368801Abstract: An X-ray imaging detector comprises at least one wireless transceiver configured to download study data from at least one external server, a digital image sensor configured to generate a plurality of signals in response to x-rays incident on the imaging detector, and at least one processor communicatively coupled to the imaging detector and the radio. The at least one processor is configured to receive the plurality of signals and generate a digital representation of an x-ray image based on the plurality of signals and associate the digital representation to the study data.Type: ApplicationFiled: January 11, 2018Publication date: December 27, 2018Applicant: VAREX IMAGING CORPORATIONInventors: Maxwell ALLEN, William HORNOF, Martin KLAUSMEIER-BROWN, Cameron LOVE
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Patent number: 10149659Abstract: An X-ray sensing apparatus includes a detector array configured to generate a plurality of signals in response to x-rays incident on the detector array during an exposure period; a high-clock logic device communicatively coupled to the detector array; a low-clock logic device communicatively coupled to the high-clock logic device; an accelerometer communicatively coupled to the low-clock logic device; and a processor communicatively coupled to the high-clock logic device. The low-clock logic device is configured to receive an acceleration signal from the accelerometer; determine that the acceleration signal corresponds to a wake gesture; and, in response to determining that the acceleration signal corresponds to the wake gesture, send a first power state change signal to the processor and a second power state change signal to the high-clock logic device.Type: GrantFiled: September 29, 2017Date of Patent: December 11, 2018Assignee: VAREX IMAGING CORPORATIONInventors: Rudiger Schwartz, Maxwell Allen
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Publication number: 20180350551Abstract: An X-ray assembly may include a vacuum wall, an anode, and a cathode. The vacuum wall may define a vacuum enclosure and may include an X-ray window. The anode may be located within the vacuum enclosure. The anode may include a target area. The cathode may be located within the vacuum enclosure. The cathode may generate an electron stream to travel to a focus area located at the target area of the anode. The cathode may be positioned such that the electron stream travels along an oblique path relative a virtual line positioned so as to intersect a center of the focus area and a center of the X-ray window.Type: ApplicationFiled: December 3, 2015Publication date: December 6, 2018Applicant: VAREX IMAGING CORPORATIONInventors: Kasey Otho GREENLAND, Robert S. MILLER, Michael STAMM
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Patent number: 10109450Abstract: A cathode head can include: an insulating member on a base; an electron emitter with a planar emitter surface formed by a plurality of elongate rungs connected together through a plurality of turns from a first emitter end to a second emitter end so as to form a serpentine emitter pattern; a plurality of elongate legs extending from the plurality of turns at an angle relative to the planar emitter surface, each of the legs being coupled with the insulating member; an elongate first lead leg at the first emitter end and an elongate second lead leg at the second emitter end; a first electrical lead and a second electrical lead extending from the base; and a first electrical coupler coupling the first electrical lead to the first lead leg and a second electrical coupler coupling the second electrical lead to the second lead leg.Type: GrantFiled: March 18, 2016Date of Patent: October 23, 2018Assignee: VAREX IMAGING CORPORATIONInventors: Gary F. Virshup, James R. Boye, Michael C. Green, David H. Humber
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Patent number: 10055316Abstract: Technology is described for generating a valid token control signal from control signals from a row driver. In one example, a matrix type integrated circuit includes a row driver module and a 2D array of cell elements. The row driver module includes a voting logic module and at least two row drivers configured to generate control signals on at least two communal lines for cell elements of a row of the 2D array. Each row driver is configured to generate control signals on at least three control lines where at least two control lines are the communal lines and coupled to a corresponding communal line of another row driver. The voting logic module is coupled to the at least three control lines of one of the row drivers and configured to generate an output based on the control signals on the at least three control lines.Type: GrantFiled: January 28, 2017Date of Patent: August 21, 2018Assignee: VAREX IMAGING CORPORATIONInventors: Steven Freestone, Pieter Gerhard Roos
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Publication number: 20180227518Abstract: An example imaging system includes a plurality of pixel circuits each having a photodiode, a biasing circuit and a charge-to-voltage converter. The photodiode is configured to generate charges in response to light or radiation. The biasing circuit includes an operational amplifier having an input signal port for receiving a bias reference signal which controls a bias current flowing through an internal circuit of the operational amplifier. The charge-to-voltage converter is configured to accumulate the charges drained by the biasing circuit and convert the accumulated charges into a corresponding output voltage.Type: ApplicationFiled: January 16, 2018Publication date: August 9, 2018Applicant: VAREX IMAGING CORPORATIONInventors: Arundhuti GANGULY, Pieter Gerhard ROOS
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Patent number: 10026586Abstract: An X-ray tube can include: a cathode planar emitter that emits an inhomogeneous electron beam; an anode to receive the electron beam; a first magnetic quadrupole having a first yoke with four evenly distributed first pole projections extending from the first yoke and oriented toward a central axis of the first yoke and each of the four first pole projections having a first quadrupole electromagnetic coil; a second magnetic quadrupole having a second yoke with four evenly distributed second pole projections extending from the second yoke and oriented toward a central axis of the second yoke and each of the four second pole projections having a second quadrupole electromagnetic coil; and at least one coil of a first pair of opposing coils with alternating current offset from the power supply.Type: GrantFiled: March 17, 2015Date of Patent: July 17, 2018Assignee: VAREX IMAGING CORPORATIONInventors: Bradley D. Canfield, Colton B. Woodman
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Patent number: 10012744Abstract: Technology is described for imaging device (e.g., x-ray detector) that includes a tag reader. In one example, the imaging device includes a imaging matrix of pixel detector elements, a wireless local area network (LAN) transceiver, a tag reader, and a controller. Each pixel detector element is configured to detect photon energy. The wireless LAN transceiver is configured to transmit imaging matrix data to at least one wireless access point (WAP). The tag reader is configured to read WAP configuration data from a close proximity tag. The controller is coupled to the imaging matrix, the wireless LAN transceiver, and the tag reader. The controller is configured to initialize the wireless LAN transceiver for communication with a specified WAP using the WAP configuration data. The at least one WAP includes the specified WAP.Type: GrantFiled: February 8, 2016Date of Patent: July 3, 2018Assignee: VAREX IMAGING CORPORATIONInventors: Yao Zhang, Mark D Batts, Keith Douglas Gray
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Patent number: 10015874Abstract: A hybrid linear accelerator is disclosed comprising a standing wave linear accelerator section (“SW section”) followed by a travelling wave linear accelerator section (“TW section”). In one example, RF power is provided to the TW section and power not used by the TW section is provided to the SW section via a waveguide. An RF switch, an RF phase adjuster, and/or an RF power adjuster is provided along the waveguide to change the energy and/or phase of the RF power provided to the SW section. In another example, RF power is provided to both the SW section and the TW section, and RF power not used by the TW section is provided to the SW section, via an RF switch, an RF phase adjuster, and/or an RF power. In another example, an RF load is matched to the output of the TW section by an RF switch.Type: GrantFiled: March 10, 2017Date of Patent: July 3, 2018Assignee: VAREX IMAGING CORPORATIONInventor: Andrey Mishin
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Patent number: 10008359Abstract: An X-ray tube can include: a cathode including an electron emitter; an anode configured to receive the emitted electrons; a first magnetic quadrupole between the cathode and the anode and having a first quadrupole yoke with four first quadrupole pole projections extending from the first quadrupole yoke and oriented toward a central axis of the first quadrupole yoke and each of the four first quadrupole pole projections having a first quadrupole electromagnetic coil; a second magnetic quadrupole between the first magnetic quadruple and the anode and having a second quadrupole yoke with four second quadrupole pole projections extending from the second quadrupole yoke and oriented toward a central axis of the second quadrupole yoke and each of the four second quadrupole pole projections having a second quadrupole electromagnetic coil; and a magnetic dipole between the cathode and anode and having a dipole yoke with four dipole electromagnetic coils.Type: GrantFiled: March 9, 2015Date of Patent: June 26, 2018Assignee: VAREX IMAGING CORPORATIONInventors: Bradley D. Canfield, Colton B. Woodman
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Patent number: 9970890Abstract: A control circuit having access to information regarding a plurality of models for different materials along with feasibility criteria processes imaging information for an object (as provided, for example, by a non-invasive imaging apparatus) to facilitate identifying the materials as comprise that object by using the plurality of models to identify candidate materials for portions of the imaging information and then using the feasibility criteria to reduce the candidate materials by avoiding at least one of unlikely materials and combinations of materials to thereby yield useful material-identification information.Type: GrantFiled: October 20, 2011Date of Patent: May 15, 2018Assignee: Varex Imaging CorporationInventor: Kevin M. Holt