Patent application number | Description | Published |
20080315105 | Method and Apparatus for Correcting Excess Signals in an Imaging System - A method and apparatus for excess signal compensation in an imaging system is described. In one particular embodiment, the invention provides for non-linear background, offset (due to time dependent dark current) and/or lag (including constant, linear and non-linear terms, due to image persistence) corrections of large area, flat panel imaging sensors. | 12-25-2008 |
20100118166 | METHOD AND APPARATUS FOR EXCESS SIGNAL CORRECTION IN AN IMAGER - A method and apparatus for excess signal compensation in an imaging system is described. In one particular embodiment, the invention provides for non-linear background, offset (due to time dependent dark current) and/or lag (including constant, linear and non-linear terms, due to image persistence) corrections of large area, flat panel imaging sensors. | 05-13-2010 |
20110311025 | METHOD AND APPARATUS FOR CORRECTING EXCESS SIGNALS IN AN IMAGING SYSTEM - A method and apparatus for excess signal compensation in an imaging system is described. In one particular embodiment, the invention provides for non-linear background, offset (due to time dependent dark current) and/or lag (including constant, linear and non-linear terms, due to image persistence) corrections of large area, flat panel imaging sensors. | 12-22-2011 |
Patent application number | Description | Published |
20100246753 | Fourth Generation Computed Tomography Scanner - A computed tomography apparatus includes a gantry having a rotary portion and a stationary portion. At least one radiation source and at least one anti-scatter grid are mounted on the rotary portion of the gantry and positioned opposite each other. A detector device is mounted on the stationary portion of the gantry. The detector device may include a plurality of detector sensors arranged in the form of a generally circular ring surrounding the periphery of the rotary portion. Alternatively, the detector device may include a plurality of flat panel detectors arranged in a generally circular geometry. | 09-30-2010 |
20120181436 | Indirect X-ray Imager Having Semi-Transparent layers - An indirect x-ray imager including one or more semi-transparent layers that reduce lateral spreading of light produced by the scintillator layer. The semi-transparent layers may be one or more layers above and/or below the scintillator, which the light generated by the scintillator goes through prior to being received by an array of photosensors. The semi-transparent layers may have a light transparency that is proportional to the pixel pitch of the photosensor, and/or proportional to a thickness of the layers. The semi-transparent layers have a light transparency that allows a high percent of the light to be received across the thickness of the layer, but restrains most of the light from being received across a lateral distance of more than one pixel pitch. Other embodiments are also described and claimed. | 07-19-2012 |
20130146776 | FLAT PANEL IMAGERS WITH PIXEL SEPARATION AND METHOD OF MANUFACTURING THE SAME - A method of making at least a portion of an imager includes obtaining an imager component having a substrate layer, a photo-sensitive layer, and a first image element and a second image element disposed between the substrate layer and the photo-sensitive layer, and delivering ultraviolet light through the substrate layer and between the first image element and the second image element to reach the photo-sensitive layer, wherein the ultraviolet light interacts with a portion of the photo-sensitive layer to form a photo-resist structure. | 06-13-2013 |
20130240745 | X-RAY MATRIX IMAGER - An X-Ray matrix imager includes a matrix, a plurality of gate line sets, and a plurality of data lines. The matrix includes a plurality of rows of pixels configured to accumulate charges in response to light or radiation. Each of the gate line sets includes a first gate line coupled to a first pixel among a first row of pixels of the matrix, and a second gate line coupled to a second pixel among the first row of pixels of the matrix, wherein the first pixel is adjacent to the second pixel. Each of the data lines is arranged to be coupled to the plurality of gate line sets for receiving charges accumulated on the first row of pixels. The X-Ray matrix imager is configured to operate based on multiple-gate-line driving scheme and shared-data-line driving scheme. | 09-19-2013 |
20130250522 | HEAT SINK PROFILE FOR INTERFACE TO THERMALLY CONDUCTIVE MATERIAL - A heat sink employs a scalloped surface profile to facilitate interface to thermally conductive materials. The scalloped surface profile reduces the surface area initially as the thermally conductive material is compressed for assembly. The reduced surface area allows the required compression force to be decreased, which helps reduce the risk of damages to the heat generating devices due to excessive force. The scalloped surface profile increases the final surface area in contact with the thermally conductive material after assembly. The increased final surface area helps improve the transfer capacities of the heat sink. | 09-26-2013 |
20140117245 | INDIRECT X-RAY IMAGER HAVING SEMI-TRANSPARENT LAYERS - An indirect x-ray imager including one or more semi-transparent layers that reduce lateral spreading of light produced by the scintillator layer. The semi-transparent layers may be one or more layers above and/or below the scintillator, which the light generated by the scintillator goes through prior to being received by an array of photosensors. The semi-transparent layers may have a light transparency that is proportional to the pixel pitch of the photosensor, and/or proportional to a thickness of the layers. The semi-transparent layers have a light transparency that allows a high percent of the light to be received across the thickness of the layer, but restrains most of the light from being received across a lateral distance of more than one pixel pitch. Other embodiments are also described and claimed. | 05-01-2014 |
20140175297 | IMAGING ARRAY AND METHOD FOR SUPPORTING AUTOMATIC EXPOSURE CONTROL IN A RADIOGRAPHIC SYSTEM - 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. | 06-26-2014 |
20150060682 | X-RAY MATRIX IMAGER BASED ON A MULTIPLE-GATE-LINE DRIVING SCHEME AND A SHARED-GATE-LINE DRIVING SCHEME - An X-ray matrix imager is configured to operate based on a multiple-gate-line driving scheme and a shared-data-line driving scheme. The X-ray matrix imager includes a matrix with multiple pixels, multiple gate line sets, multiple data lines, multiple gate drivers, multiple row multiplexers, and multiple pull-down units. Each gate line sets includes a first gate line coupled to a first pixel and a second gate line coupled to a second pixel adjacent to the first pixel. Each data line is coupled to the multiple gate line sets for receiving charges accumulated on the pixels. Each row multiplexer is configured to selectively couple a corresponding gate driver to the first gate line or the second gate line in a corresponding gate line set. Each pull-down unit is configured to couple the first gate line to a constant voltage when the first gate line is not coupled to the corresponding gate driver. | 03-05-2015 |