Abstract: An imaging array with integrated circuitry for supporting automatic exposure control and a method for using such an imaging array are provided. One or more electrodes are disposed substantially parallel with at least a portion of the array of pixels forming the imaging array and provide capacitively coupling to at least one photodiode electrode.
Type:
Grant
Filed:
December 21, 2012
Date of Patent:
July 25, 2017
Assignee:
Varex Imaging Corporation
Inventors:
Carl La Casce, Richard E Colbeth, Ivan P Mollov
Abstract: An x-ray housing can include a tubular unitary body having an external fin array adjacent to an internal fin array through a heat exchanger portion of the unitary body, the internal fin array being on a luminal surface of a housing lumen of the unitary body. The external fin array can extend from a first end of the housing to a second end of the housing. The external fin array may be at a discrete and defined location, and extend around only a portion (e.g., 25%) of a circumference or external surface of the housing. The internal fin array can extends from the first end of the housing to an arced manifold recess at the second end of the housing, and be located in a finned recess that is adjacent to and dimensioned correspondingly with the external fin array.
Type:
Grant
Filed:
February 10, 2014
Date of Patent:
July 25, 2017
Assignee:
VAREX IMAGING CORPORATION
Inventors:
Wayne R. Hansen, Travis Astle, Patrick Kevin Lewis
Abstract: An electron emitter can include: a plurality of elongate rungs connected together end to end from a first emitter end to a second emitter end in a plane so as to form a planar pattern; a plurality of corners, wherein each elongate rung is connected to another elongate rung through a corner having a corner apex and an opposite corner nadir; a first gap between adjacent non-connected elongate rungs, wherein the first gap extends from the first emitter end to a middle rung; a second gap between adjacent non-connected elongate rungs, wherein the second gap extends from the second emitter end to the middle rung, wherein the first gap does not intersect the second gap; and one or more cutouts at one or more of the corners of the plurality of corners between the corner apex and corner nadir or at the corner nadir.
Abstract: An x-ray housing can include: a finned housing member having a tubular body with an external fin array on a finned external surface and an internal fin array on a finned internal surface, the finned internal surface defining a finned housing lumen, the internal fin array and external fin array cooperatively forming a heat exchanger; and an apertured housing member having a tubular body with an x-ray window aperture extending therethrough from an external surface to an internal surface, the internal surface defining an apertured housing lumen, the finned housing member having an annular end integrally coupled with an annular end of the apertured housing member to form a tubular x-ray housing having an x-ray housing lumen.
Type:
Grant
Filed:
July 30, 2014
Date of Patent:
May 9, 2017
Assignee:
VAREX IMAGING CORPORATION
Inventors:
David Craig Smith, Gregory Andrews, Owen D. Brimhall, Anson Cole Chamberlain
Abstract: The present invention proposes a high speed radiographic system for use with megavolt linear-accelerator pulsed x-ray sources to produce video images of large-area fields. A linear accelerator is positioned above a field of view. X-ray photons are directed through an object of interest traveling and/or colliding within the field of view. A large area scintillator system, either truly continuous or in large continuous adjacent pieces, converts the x-ray photons that pass through the object into visible light, and an arrangement of cameras, focused at that plane, where each camera sees a sub-area of the entire scintillator, and these sub-areas overlap somewhat to cover the entire scintillator. The resulting images generated in each camera are synchronized to produce one contiguous, synchronized stream of images.
Abstract: An apparatus includes an x-ray source operable to generate x-ray beams, a collimator comprising one or more leaves configured to modify the x-ray beams, a motorized system operable to move the one or more leaves of the collimator independently in or out of the x-ray beams, and a controller configured to synchronize operation of the x-ray source and the motorized system, allowing modification of the x-ray beams substantially in real time with generation of the x-ray beams. At least one leaf or each of the leaves of the collimator may be configured to modulate a beam quality of the x-ray beams.
Abstract: An x-ray imager includes a scintillator layer configured to generate light from x-rays, a detector array configured to detect light generated in the scintillator layer, and a lens array situated between the scintillator layer and the detector array. The lens array may be configured to collect light and focus the collected light to the detector array.