Class / Patent application number | Description | Number of patent applications / Date published |
250369000 | With output system | 75 |
20080224053 | RADIATION IMAGE PICKUP DEVICE - A radiation image pickup device receives radiation passing through a subject and outputs an image pickup signal responsive to an amount of the radiation. The radiation image pickup device comprising pixel part each of which comprising: a photoelectric conversion section comprising a lower electrode on or above a substrate, a photoelectric conversion film on or above the lower electrode, and an upper electrode on or above the photoelectric conversion film; a phosphor film on or above the upper electrode; and a signal output section, provided in the substrate corresponding to the photoelectric conversion section, that outputs a signal responsive to a charge generated in the photoelectric conversion film. The signal output section and the photoelectric conversion section have an overlap in a plan view, and the photoelectric conversion film comprises an organic photoelectric conversion material that absorbs light emitted from the phosphor film. | 09-18-2008 |
20080272304 | Tracking region-of-interest in nuclear medical imaging and automatic detector head position adjustment based thereon - A method and system for automatically identifying and tracking a ROI over all planar acquisition view angles of a nuclear imaging system, such as a gamma camera used for SPECT or planar imaging. Temporal intensity variation in emission projection imaging is measured to identify a region of interest (ROI) such as the myocardium. The method automatically tracks the location of the ROI over different planar view angles and adapts detector head orbit and positioning to bring the ROI within a predefined preferred area or so-called “sweet spot” within the FOV of a collimator attached to the front of a scintillation detector surface. After initial positioning of the detector head by the user, the system automatically tracks the ROI location as the detector head(s) rotate about the patient and re-position the detector head(s) appropriately to maintain the ROI within the optimal collimation area of the detector FOV. | 11-06-2008 |
20080290282 | Concurrent DC-Coupled Anode and Dynode Readout Scheme For PET Block Detectors - A scintillation detector including one or more photomultiplier tubes, a scintillation block optically attached to the photomultiplier tubes, and a DC-coupled bleeder circuit combining outputs of dynodes of the photomultipliers to provide a DC-coupled dynode output together with a DC-coupled anode output of the photomultiplier tubes. The DC-coupled bleeder circuit includes a RF transformer. A positive high voltage supply also can be used together with a DC-coupled bleeder circuit for the anode outputs. | 11-27-2008 |
20090020704 | Analog to digital conversion shift error correction - A method for correcting energy values of pulses from a nuclear medicine camera for errors due to Analog to Digital conversion shift includes determining a relationship between a subset of samples selected from a set of samples from the pulse, the relationship being expressed in the form of a code. A conversion table is accessed which provides a list of codes and corresponding conversion factors. The conversion factor for the closest code to that of the subset of samples is selected from the table and applied to an integration of the set of samples to correct the energy value of the pulse. | 01-22-2009 |
20090084962 | Radiation imaging apparatus - The signal strength of communications of a cassette transmitter/receiver is set to be lower during transmission of confirmation image signals, that is, during readout of image signals from a radiation detector, than the signal strength of communications of the cassette transmitter/receiver at times other than during readout of image signals. This suppresses adverse influence imparted onto the image signals by wireless communication, and reduces the amount of noise generated in the image signals. | 04-02-2009 |
20090121143 | RADIATION IMAGING APPARATUS, DRIVE METHOD AND PROGRAM OF THE RADIATION IMAGING APPARATUS - Provided is a radiation imaging apparatus including: a conversion unit including a plurality of pixels arranged two dimensionally, wherein each of the pixels includes a conversion element (S | 05-14-2009 |
20090166542 | RADIATION DETECTION SYSTEM USING A MULTICHANNEL SPECTROMETER AND METHOD THEREOF - A data processing device for processing a reference background spectrum and a measurement spectrum of a radioactive material represented by a multichannel spectrum to acquire energy region information of detected gamma rays is provided, said data processing device comprising: energy region dividing means for degenerating said multichannel spectrum into a degenerated spectrum of limited channels, each degenerated spectrum representing an energy region; degenerated spectrum calculating means for calculating a background degenerated spectrum and measurement degenerated spectrum based on said background spectrum and said measurement spectrum corresponding to said degenerated spectrum of limited channels respectively; energy ratio calculating means for calculating a energy ratio based on the calculated background degenerated spectrum and measurement degenerated spectrum; peak-detection means, for searching a peak value in the calculated energy ratios; energy region determining means for determining a corresponding energy region of said gamma rays based on the searched peak value in the energy ratios. A corresponding radiation detection method and a radiation detection system employing the data processing device are also provided. | 07-02-2009 |
20090200474 | Low-power positron emission tomography (PET) imaging system - The power consumed by a positron emission tomography (PET) imaging system is substantially reduced by utilizing an analog memory, such as a switch-capacitor analog memory, to sample and store analog values for a number of gamma ray signals so that only the stored analog values that represent pairs of gamma rays with coincident emission and vectors that are opposite to each other are digitized. In addition, the digitization is performed at a much slower clock frequency. | 08-13-2009 |
20090242777 | Photomultiplier tube interface device - The present invention provides a photomultiplier tube interface device (PMT), comprising a PMT module and a circuit substrate. The PMT module comprises a plurality of pins formed at a front end. A plurality of contacts are disposed on a lateral side of the circuit substrate to be electrically connected to the plurality of pins while a connecting base is arranged at a peripheral portion on another lateral side of the circuit substrate to be electrically connected to the contacts. By means of the interface device, not only the connecting pins of the PMT can be protected from being damaged and generating high frequency noise but also the convenience for assembling or replacing the PMT can be improved. | 10-01-2009 |
20100038547 | RADIATION DOSIMETER AND RADIATION DOSE COMPUTING PROGRAM - Light emitted in correspondence to ionizing radiation incident from a scintillator is fed through an optical fiber to a photoelectron multiplier tube by which it is converted to an electrical signal. The electrical signal is amplified by a signal amplifying circuit, and any light emission events of given or higher intensity are discriminated by a discriminator and counted by a counter. The count value is fed to a computer. The computer converts the count value to a dosage on the basis of an exponential relationship lying between the light emission intensity and the number of emission events, thereby attaining detection of the dosage. | 02-18-2010 |
20100181488 | Solid State Neutron Detector - The invention relates to a neutron detector for detection of neutrons in fields with significant γ- or β-radiation, comprising a neutron sensitive scintillator crystal, providing a neutron capture signal being larger than the capture signal of 3 MeV γ-radiation, a semiconductor based photo detector being optically coupled to the scintillator crystal, where the scintillator crystal and the semiconductor based photo detector are selected so that the total charge collection time for scintillator signals in the semiconductor based photo detector is larger than the total charge collection time for signals generated by direct detection of ionizing radiation in the semiconductor based photo detector, the neutron detector further comprising a device for sampling the detector signals, a digital signal processing device, means which distinguish direct signals from the semiconductor based photo detector, caused by γ- or β-radiation and being at least partially absorbed in the semiconductor based photo detector, from light signals entering the semiconductor based photo detector, after being emitted from the scintillator crystal after capturing at least one neutron, by means of pulse shape discrimination, utilizing a difference between the total charge collection time for scintillator signals from the total charge collection time for signals generated by direct detection of ionizing radiation in the semiconductor based photo detector, and means which distinguish neutron induced signals from γ-radiation induced signals in the scintillator crystal by discriminating the different signals via their pulse height, making use of the difference between the number of photons generated by neutron and γ-radiation in the field of interest. | 07-22-2010 |
20100213379 | Self Powered Sensor with Radioisotope source - A self-powered sensor (e.g., | 08-26-2010 |
20100224785 | RADIATION DETECTOR - According to one embodiment, a radiation detector includes a photodetector including a fluorescent film configured to convert radiation into light, and a photoelectric conversion element configured to convert light into an electrical signal, a circuit board configured to electrically drives the photodetector, and electronically processes an output signal from the photodetector, and a connection board configured to electrically connect the photodetector and circuit board, and including a flexible circuit board, and an IC mounting board connected to the flexible circuit board, less flexible than the flexible circuit board, and including an IC semiconductor element. | 09-09-2010 |
20110001052 | COMPUTED RADIOGRAPHY SYSTEM - A computed radiography system comprises a radiation detecting system wherein an image is formed by the steps of (1) exposing an object to radiation; (2) forming a first digitized image directly captured from said radiation by a detector; (3) storing said digitized image from said radiation on an intermediate medium; (4) forming a latent image originating from the same radiation, as an image stored in a photostimulable phosphor layer, and (5) retrieving said directly captured digitized image and superposing it onto a digitized image originating from said latent image in said photostimulable phosphor layer after photostimulation of said phosphor layer with radiation having a lower energy than the said exposure radiation. | 01-06-2011 |
20110079726 | System and Method to Detect Target Radiation - A radiation detection system can include a first material to produce a first light in response to receiving a target radiation. The radiation detection system can also include a second material to propagate a second light to a first end of the second material and to a second end of the second material, in response to receiving the first light. The radiation detection system can also include a reflector coupled to the first end of the second material. In an embodiment, the reflector can reflect the second light, so that the reflected second light can be received by a photosensor coupled to a second end of the second material. | 04-07-2011 |
20110168902 | DOSIMETER WITH RFID TAG - Described is device comprising dosimeter for measuring one or more doses of radiation; and an RFID tag comprising an antenna for communicating with an RFID tag reader and non-volatile memory for storing data therein. | 07-14-2011 |
20110204244 | Neutron Detector - A neutron detector is disclosed. The neutron detector includes an optically transparent, low density solid porous matrix containing nanoparticles of a neutron absorbing material having a neutron absorption capture cross-section of at least about 70 barns, optionally doped with a scintillating material, for absorbing neutrons and emitting scintillation photons; and at least one detector element connected to the optically transparent neutron detector to detect fluorescence. | 08-25-2011 |
20110215249 | SIGNAL LIGHT DETECTION DEVICE AND METHOD OF DETECTING SIGNAL LIGHT - An electric signal produced by a photo-electric conversion element( | 09-08-2011 |
20110220803 | RADIATION SIGNAL-PROCESSING UNIT AND RADIATION DETECTOR PROVIDED WITH THE SAME - A radiation signal-processing unit including a position identifying device for identifying an incident radiation position in a radiation detector; a count data-memory device for storing positional information outputted from the position identifying device, a count ratio-calculation device for calculating a count ratio based on the positional information stored in the count data-memory device, a reference count ratio-memory device for memorizing a reference count ratio as the count ratio calculated under a state where fluorescence to be detected does not overlap each other temporally, and a correction instruction device for reading the reference count ratio from the reference count ratio-memory device and comparing the ratio with the count ratio, thereby instructing execution of correction of a radiation generating position to the position identifying device. | 09-15-2011 |
20110240868 | X-RAY DETECTOR - The application describes an X-ray detector for use in a medical equipment, wherein the detector comprises an unit for transforming X-ray radiation into electrical charge, a first capacitor for being charged by an electrical charge, wherein the first capacitor is electrically connected to the unit for transforming, a second capacitor for being charged by an electrical charge, and a first gain switching gate, wherein the second capacitor is electrically connected with the unit for transforming if the first gain switching gate is in on-state, wherein the detector is adapted to switch on the first gain switching gate for short periods. Further the application describes an X-ray system comprising a detector according to the invention, wherein the system is adapted for gain selection, wherein the detector is adapted to switch on the first gain switching gate for short periods. Further, the application describes a method for using a detector according to the inventive concept, wherein the first gain switching gate is switched on only for short periods of time for redistribution of electrical charge between the first capacitor and the second capacitor. | 10-06-2011 |
20110253900 | LITHOGRAPHY SYSTEM, SENSOR, CONVERTER ELEMENT AND METHOD OF MANUFACTURE - Charged particle beamlet lithography system for transferring a pattern to a surface of a target comprising a sensor for determining one or more characteristics of one or more charged particle beamlets. The sensor comprises a converter element for receiving charged particles and generating photons in response. The converter element comprises a surface for receiving one or more charged particle beamlets, the surface being provided with one or more cells for evaluating one or more individual beamlets. Each cell comprises a predetermined blocking pattern of one or more charged particle blocking structures forming multiple knife edges at transitions between blocking and non-blocking regions along a predetermined beamlet scan trajectory over the converter element surface. The converter element surface is covered with a coating layer substantially permeable for said charged particles and substantially impermeable for ambient light. An electrically conductive layer is located between the coating layer and the blocking structures. | 10-20-2011 |
20110284753 | Method and Apparatus for Extending a Scintillation Counter's Dynamic Range - A semiconductor diode scintillation detector probe, in conjunction with a base-line-stabilized, wide-bandwidth first amplifying circuit DC-coupled to a constrained-bandwidth second amplifying circuit DC-coupled, in turn, to a novel analog threshold discriminator circuit, suppresses base-line fluctuation and noise at low input count-rates, while providing a linear rate-meter response for time-random input pulse rates far in excess of what would otherwise—as in the prior art—be 100% saturation. | 11-24-2011 |
20110291018 | RADIATION DETECTION APPARATUS AND RADIATION IMAGING SYSTEM - A radiation detection apparatus including: a sensor panel having a first face on which a pixel region is formed and a second face that is opposite the first face and including a connecting portion at one or more sides; a scintillator layer formed over the pixel region; and a protective film covering the scintillator layer and a portion of the sensor panel is provided. The protective film has a hot-pressed part. At the side of the sensor panel where the connecting portion is formed, the hot-pressed part is formed in a portion of the protective film covering the first face. At other sides of the sensor panel, the hot-pressed part is formed in at least one of a portion of the protective film covering a lateral face of the sensor panel and the second face. | 12-01-2011 |
20110309258 | RADIATION DETECTION APPARATUS, MANUFACTURING METHOD THEREFOR, AND RADIATION IMAGING SYSTEM - A radiation detection apparatus comprising: a sensor panel including a photoelectric conversion region and an electrically conductive pattern that is electrically connected to the photoelectric conversion region; a scintillator layer disposed over the photoelectric conversion region of the sensor panel; a wiring member including a portion overlapping with the electrically conductive pattern and electrically connected to the electrically conductive pattern and; and a protective film covering the scintillator layer and the portion of the wiring member that overlaps with the electrically conductive pattern is provided. A region of the protective film that covers the wiring member includes a portion that is press-bonded to the sensor panel. | 12-22-2011 |
20110315887 | RADIATION IMAGE PICKUP APPARATUS, RADIATION IMAGE PICKUP SYSTEM, AND METHOD FOR MANUFACTURING RADIATION IMAGE PICKUP APPARATUS - A radiation image pickup apparatus includes a base which transmits ultraviolet rays, a plurality of image pickup elements, a scintillator, at least one ultraviolet peelable adhesive arranged between the base and the image pickup elements so as to fix the base and the image pickup elements in a predetermined position with respect to each other, and a heat peelable adhesive arranged between the image pickup elements and the scintillators so as to fix the image pickup elements to the scintillator. | 12-29-2011 |
20110315888 | APPARATUS AND METHOD FOR DATA ACQUISITION USING AN IMAGING APPARATUS - A detector tile ( | 12-29-2011 |
20120001082 | RADIOGRAPHIC IMAGING SYSTEM - A response with a wider dynamic range is obtained without a need for irradiating strong radiation onto a subject (human body). A CCD controller | 01-05-2012 |
20120006993 | SOLID-STATE IMAGING APPARATUS AND IMAGING SYSTEM - An imaging apparatus has an imaging area formed by arranging a plurality of imaging blocks each including a pixel array, a plurality of vertical signal lines, a horizontal output line commonly provided for the plurality of vertical signal lines to read out signals read out to the plurality of vertical signal lines, a first scanning circuit, and a second scanning circuit, wherein signals of the pixels of a selected row in the pixel array are read out to the plurality of vertical signal lines in accordance with a driving pulse from the first scanning circuit, the signals read out to the plurality of vertical signal lines are sequentially read out to the horizontal output line in accordance with a driving pulse from the second scanning circuit, and a length in a row direction of the pixel array is smaller than a length in a column direction of the pixel array. | 01-12-2012 |
20120012753 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME, RADIOLOGICAL IMAGING APPARATUS AND METHOD OF MANUFACTURING THE SAME, AND METHOD OF TESTING SOLID-STATE IMAGING DEVICE - A solid-state imaging device according to one embodiment includes a plurality of signal output units. Each of the plurality of signal output units includes a first input terminal electrode group that includes a plurality of terminal electrodes for inputting a reset signal, a hold signal, a horizontal start signal, and a horizontal clock signal and a first output terminal electrode that provides output signals. The solid-state imaging device further includes a second input terminal electrode group that includes a plurality of terminal electrodes for receiving the reset signal, the hold signal, the horizontal start signal, and the horizontal clock signal, a plurality of switches that switch an electrode group which is connected with integrating circuits, holding circuits, and a horizontal shift register between the first input terminal electrode group and the second input terminal electrode group, and a second output terminal electrode. | 01-19-2012 |
20120068077 | METHOD TO IMPROVE THE TIME RESOLUTION OF DIGITAL SILICON PHOTOMULTIPLIERS - A radiation detector module ( | 03-22-2012 |
20120080600 | DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A stacked-type detection apparatus includes a plurality of pixels arranged in a matrix having row and column directions. Each pixel includes a conversion element configured to convert radiation or light into an electric charge, and a switch element configured to output an electric signal corresponding to the electric charge. A driving line is connected to switch elements arranged in the row direction, and a signal line is connected to switch elements arranged in the column direction. In each pixel, the conversion element is disposed above the switch element. The signal line is formed by a conductive layer embedded in an insulating layer located below an uppermost surface portion of a main electrode of the switch element located below an uppermost surface portion of the driving line located below the conversion element. | 04-05-2012 |
20120104266 | RADIATION DETECTING ELEMENT, METHOD OF PRODUCING SAME, RADIATION DETECTING MODULE, AND RADIATION IMAGE DIAGNOSTIC APPARATUS - A method of producing a radiation detecting element with an improved resolution property, a radiation detecting element, a radiation detecting module, and a radiation image diagnostic apparatus are provided. The radiation detecting element includes a scintillator layer on a substrate. The scintillator layer includes a plurality of columnar crystals having substantially no irregularity on each side. | 05-03-2012 |
20120126127 | RADIATION DETECTION SYSTEM AND A METHOD OF USING THE SAME - A radiation detection system can include a scintillator that is capable of emitting scintillating light in response to capturing different types of targeted radiation, a photosensor optically coupled to the scintillator, and a control module electrically coupled to the photosensor. The control module can be configured to analyze state information of the radiation detection system, and select a first technique to determine which type of targeted radiation is captured by the scintillator, wherein the first technique is a particular technique of a plurality of techniques to determine which type of targeted radiation was captured by the scintillator, and the selection is based at least in part on the analysis. In an embodiment, the radiation detection system can be used to change from one technique to another in real time or near real time to allow the radiation detection system to respond to changing conditions. | 05-24-2012 |
20120126128 | RADIATION DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A radiation detection apparatus includes a scintillator, a photoelectric conversion unit, and a grid for removing scattered radiation. The photoelectric conversion unit includes a plurality of pixels arranged in a two-dimensional array on a substrate. Each pixel is configured to convert visible light output from the scintillator into an electric signal. The grid, the substrate, the photoelectric conversion unit, and the scintillator are disposed in this order from a radiation-incident side of the radiation detection apparatus to an opposite side thereof. In this radiation detection apparatus in which the scintillator is disposed on the side opposite to the radiation-incident side, scattered radiation is effectively removed. | 05-24-2012 |
20120126129 | RADIOGRAPHIC IMAGE CAPTURING APPARATUS - A radiographic image capturing apparatus includes a photodetector substrate, a scintillator, a switching filter, and a resetting light source, which are arranged successively in this order. If the switching filter is made permeable to resetting light from the resetting light source, the switching filter allows resetting light to be applied to the photodetector substrate through the scintillator, whereas, if the switching filter is made impermeable to the resetting light, the switching filter reflects at least a fluorescence, which is converted from radiation by the scintillator, toward the photodetector substrate. | 05-24-2012 |
20120126130 | REDUCTION OF NOISE CAUSED BY ABSORPTION OF X-RAY PHOTONS IN PIXELATED IMAGE SENSORS - There is provided a method and corresponding device for noise generated by absorption of x-ray photons in an image sensor having a number of pixels. The method is based on identifying (S | 05-24-2012 |
20120132816 | METHOD TO PREPARE A SCINTILLATOR LAYER FOR APPLICATION ONTO A PHOTOSENSOR LAYER TO PRODUCE AN X-RAY DETECTOR OR ELEMENT THEREOF - A scintillator layer is applied onto a photosensor layer to produce an x-ray detector or an x-ray detector element for imaging detection of ionizing radiation. The production process is improved by, in the production of the scintillator layer, an adhesive layer with a protective layer is applied onto the scintillator layer. This can occur layer by layer or a transfer adhesive tape that already includes the protective layer as a protective film can also be used. | 05-31-2012 |
20120132817 | ENCAPSULATED PHOTOMULTIPLIER DEVICE OF SEMICONDUCTOR MATERIAL, FOR USE, FOR EXAMPLE, IN MACHINES FOR PERFORMING POSITRON-EMISSION TOMOGRAPHY - An embodiment of a photomultiplier device is formed by a base substrate of insulating organic material forming a plurality of conductive paths and carrying a plurality of chips of semiconductor material. Each chip integrates a plurality of photon detecting elements, such as Geiger-mode avalanche diodes, and is bonded on a first side of the base substrate. Couplings for photon-counting and image-reconstruction units are formed on a second side of the base substrate. The first side of the base substrate is covered with a transparent encapsulating layer of silicone resin, which, together with the base substrate, bestows stiffness on the photomultiplier device, preventing warpage, and covers and protects the chips. | 05-31-2012 |
20120138806 | NOVEL RADIATION DETECTOR - The invention provides a device for the detection of elevated levels of radiation in remote locations, the device comprising a scintillator crystal and a variable length fibre optic cable. Preferably, the scintillator comprises an inorganic scintillator and the fibre optic cable comprises a metal coated fibre optic cable. The device preferably also comprises a light measurement device which co-operates with recording means such that the radiation levels of the environment in which the device is deployed may be determined. The device has potential widespread application in the nuclear industry, for the monitoring of products, processes and/or facilities that exhibit very high levels of radiation. | 06-07-2012 |
20120153171 | RADIATION DETECTOR, METHOD OF MANUFACTURING RADIATION DETECTOR, AND RADIOGRAPHIC IMAGE CAPTURING APPARATUS INCORPORATING RADIATION DETECTOR - A radiographic image capturing apparatus includes a housing and a radiation detector accommodated in the housing. The radiation detector includes a scintillator for converting radiation into visible light and photodiodes for converting the visible light into electric charges. If it is assumed that a temperature-dependent rate of change in sensitivity of the scintillator with respect to the radiation is represented by A [%/K] and a temperature-dependent rate of change in sensitivity of the photodiodes with respect to visible light is represented by B [%/K], a scintillator and photodiodes are selected having temperature-dependent rates of change A and B that satisfy the following inequality (1): | 06-21-2012 |
20120153172 | CASSETTE TYPE RADIOGRAPHIC IMAGE SOLID-STATE DETECTOR - A cassette type radiographic image solid-state detector includes: a detector unit having a scintillator for converting incident radiation into light and a detection section which receives and converts the light converted by the scintillator into electric signals; and a housing containing the detector unit, the housing having a rectangular tubular housing body which has openings at both ends and is formed in a rectangular tube shape using carbon fiber, and a first cover member and a second cover member for covering the openings of the rectangular tubular housing body, wherein a wall of the rectangular tubular housing body facing to a direction perpendicular to an incident direction of radiation is thicker than a wall of the rectangular tubular housing body facing to the incident direction of radiation. | 06-21-2012 |
20120193543 | RADIOLOGICAL IMAGE DETECTION APPARATUS AND METHOD FOR MANUFACTURING THE SAME - A radiological image detection apparatus includes: a scintillator which is formed out of a group of columnar crystals in which crystals of a fluorescent material emitting fluorescence when irradiated with radiation have grown into columnar shapes; and a photodetector which detects the fluorescence emitted by the scintillator as an electric signal. Activator density in the scintillator varies between high density and low density repeatedly in a radiation travelling direction in at least a part of the scintillator. The activator density in each of front end portions and base end portions of the columnar crystals is lower than the high density. | 08-02-2012 |
20120193544 | RADIOLOGICAL IMAGE DETECTION APPARATUS - A radiological image detection apparatus includes: a substrate in which a recess portion having a bottom portion including at least the whole of a radiological imaging region is formed; a phosphor which contains a fluorescent material emitting fluorescence when exposed to radiation and which is provided in the recess portion of the substrate; a group of photoelectric conversion elements which are provided on an opposite side to the recess portion provided with the phosphor and which photoelectrically convert the fluorescence emitted from the phosphor; a support which supports the phosphor; and a fixing portion which fixes the support and the substrate. The photoelectric conversion elements, the substrate, the phosphor and the support are arranged in ascending order of distance from a radiation entrance side. | 08-02-2012 |
20120205545 | RADIOLOGICAL IMAGE DETECTION APPARATUS - A radiological image detection apparatus includes: a phosphor which contains a fluorescent material emitting fluorescence when exposed to radiation; and a sensor panel which detects the fluorescence; in which the sensor panel has a substrate and a group of photoelectric conversion elements provided on one side of the substrate; the phosphor adheres closely to an opposite surface of the substrate to the side where the group of photoelectric conversion elements are provided; and an irregular structure is formed in the surface of the substrate to which the phosphor adheres closely. | 08-16-2012 |
20120211662 | RADIOGRAPHIC IMAGE CAPTURING APPARATUS - A radiographic image capturing apparatus includes a radiation conversion panel for converting radiation into radiographic images, an A/D converter for performing an A/D conversion process on image signals depending on the radiographic image output from the radiation conversion panel, and a number-of-sampling determiner for determining a number of times of sampling for the A/D conversion process performed by the A/D converter, based on the dose of radiation, which is applied to the radiation conversion panel. | 08-23-2012 |
20120223240 | RADIATION DETECTION APPARATUS, SCINTILLATOR PANEL, METHOD FOR MANUFACTURING SAME AND RADIATION DETECTION SYSTEM - A radiation detection apparatus comprising a sensor panel and a scintillator panel is provided. The scintillator panel including a substrate, a scintillator disposed on the substrate, and a scintillator protective film that has a first organic protective layer and an inorganic protective layer, and covers the scintillator. The scintillator protective film is located between the sensor panel and the scintillator. The first organic protective layer is located on a scintillator side from the inorganic protective layer. A surface on a sensor panel side of the scintillator is partially in contact with the inorganic protective layer. | 09-06-2012 |
20120261583 | HIGH-SENSITIVITY, HIGH-SPEED CONTINUOUS IMAGING SYSTEM - A continuous imaging system for recording low levels of light typically extending over small distances with high-frame rates and with a large number of frames is described. Photodiode pixels disposed in an array having a chosen geometry, each pixel having a dedicated amplifier, analog-to-digital convertor, and memory, provide parallel operation of the system. When combined with a plurality of scintillators responsive to a selected source of radiation, in a scintillator array, the light from each scintillator being directed to a single corresponding photodiode in close proximity or lens-coupled thereto, embodiments of the present imaging system may provide images of x-ray, gamma ray, proton, and neutron sources with high efficiency. | 10-18-2012 |
20130026378 | DENTAL RADIOLOGY APPARATUS AND SIGNAL PROCESSING METHOD USED THEREWITH - A dental radiology apparatus having: an intraoral sensor comprising a detector including an active pixel array produced using biCMOS technology and converting a received x-ray into at least one analog electrical output signal; an electronic module encapsulated in a case and which has at least one detector activation device, the module linked to the sensor for the transmission to the sensor of a detector activation signal generated in the module and for the transmission to the module of the at least one analog electrical output signal, the module having analog-digital means for converting the at least one analog electrical output signal into at least one digital output signal. A remote processing and display unit of the at least one digital output signal is linked to the electronic module to ensure the transmission to the unit of the at least one digital output signal. | 01-31-2013 |
20130032723 | RADIATION IMAGING SYSTEM - Disclosed is a radiation imaging system comprising a layer for a radiation converter; a top electrode on the layer for a radiation converter; and an array of pixel unit electrically coupled to the layer for a radiation converter; wherein, said layer for a radiation converter comprises an organic matrix comprising a charge transport material (CTM); and scintillating particles for absorbing radiation, being dispersed in the organic matrix, wherein the scintillating particles are in contact with a charge generation material (CGM). | 02-07-2013 |
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 |
20130181137 | Neutron Radiation Detector, Neutron Radiation Detection Scintillator and Method for Discriminating Between Neutron Radiation and Gamma Radiation - A neutron radiation detector has a function that discriminates between neutron radiation and γ radiation based on a difference in pulse shape between photodetection signals from a neutron radiation detection scintillator, which includes a Ce-containing LiCaAlF | 07-18-2013 |
20130248725 | X-RAY DETECTOR - An X-ray detector includes a top receiving container in which one or more subjects are disposed, an X-ray detection unit that detects shadow images of the one or more subjects when X-rays are radiated to the one or more subjects and calculates an X-ray radiation angle of the radiated X-rays based on the shadow images of the one or more subjects, and a bottom receiving container having a receiving space in which the X-ray detection unit is received. | 09-26-2013 |
20130264485 | METHOD OF MANUFACTURING RADIATION DETECTION APPARATUS, RADIATION DETECTION APPARATUS, AND RADIATION IMAGING SYSTEM - A method of manufacturing a radiation detection apparatus including a photoelectric conversion element that includes a first electrode placed above a substrate, a semiconductor layer placed on the first electrode, and a second electrode placed on the semiconductor layer includes forming the second electrode by removing a portion of an electrode layer formed over the semiconductor layer, the portion being located on an end section of the semiconductor layer. The method includes forming an insulating layer such that the insulating layer covers a portion of the semiconductor layer that is not covered by the second electrode. The method further includes forming a third electrode on at least one portion of the insulating layer such that the insulating layer is interposed between the third electrode and the end section of the semiconductor layer. | 10-10-2013 |
20140014846 | SCINTILLATOR PLATE, RADIATION MEASURING APPARATUS, RADIATION IMAGING APPARATUS, AND SCINTILLATOR PLATE MANUFACTURING METHOD - [Problem] To provide a scintillator plate capable of improving the accuracy of radiation detection, and expanding the surface area for practical use while suppressing manufacturing costs, and also provide a radiation measuring apparatus, a radiation imaging apparatus, and a scintillator plate manufacturing method. | 01-16-2014 |
20140042331 | DIGITAL X-RAY DETECTOR ASSEMBLY WITH ELASTOMERIC BACKSCATTER SHIELD - Portable digital X-ray detectors are provided. One X-ray detector includes an outer assembly and a detector assembly disposed within the outer assembly. The detector assembly includes an imager having a scintillator that converts radiographic energy to light and a detector array having one or more detector elements that detect the light from the scintillator. The detector assembly also includes electronic circuitry mounted on at least one printed circuit board and adapted to control operation of the imager during data acquisition and readout. Further, an elastomeric assembly is disposed between the imager and the electronic circuitry, and the elastomeric assembly is configured to absorb backscattered X-rays that pass through the imager or deflect off of a portion of the outer assembly during an X-ray exposure. | 02-13-2014 |
20140077086 | SYSTEM AND METHOD FOR LINEARIZATION OF MULTI-CAMERA FLAT PANEL X-RAY DETECTORS - System and method for linearization of photometric response of an imaging sensor of a multi-camera flat panel X-Ray detector. The linearization includes acquiring by the imaging sensor, during a linearization phase, at least two images related to detectable radiation radiated by a scintillator in response to X-Ray radiation generated by an X-Ray source at a field of view of the imaging sensor, wherein the intensity of the X-Ray radiation generated by the X-Ray source is different for each of the images, measuring by a light energy measurement unit, substantially simultaneously with the acquiring of each of the images, at least two corresponding levels of energy of the detectable radiation, wherein the light energy measurement unit is substantially linear at the range of operation, and calculating an inverse response function to the imaging sensor based on the images and on the corresponding levels of energy. | 03-20-2014 |
20140166890 | RESIN FOR SCINTILLATORS - A resin for scintillators having high radiation sensitivity, which is obtained without using a wavelength conversion agent. | 06-19-2014 |
20140246595 | RADIATION DETECTION SYSTEM AND METHOD OF ANALYZING AN ELECTRICAL PULSE OUTPUT BY A RADIATION DETECTOR - A radiation detection system can include a photosensor to receive light from a scintillator via an input and to send an electrical pulse at an output in response to receiving the light. The radiation detection system can also include a pulse analyzer that can determine whether the electrical pulse corresponds to a neutron-induced pulse, based on a ratio of an integral of a particular portion of the electrical pulse to an integral of a combination of a decay portion and a rise portion of the electrical pulse. Each of the integrals can be integrated over time. In a particular embodiment, the pulse analyzer can be configured to compare the ratio with a predetermined value and to identify the electrical pulse as a neutron-induced pulse when the ratio is at least the predetermined value. | 09-04-2014 |
20140246596 | PHOTODIODE AND OTHER SENSOR STRUCTURES IN FLAT-PANEL X-RAY IMAGERS AND METHOD FOR IMPROVING TOPOLOGICAL UNIFORMITY OF THE PHOTODIODE AND OTHER SENSOR STRUCTURES IN FLAT-PANEL X-RAY IMAGERS BASED ON THIN-FILM ELECTRONICS - A radiation sensor including a scintillation layer configured to emit photons upon interaction with ionizing radiation and a photodetector including in order a first electrode, a photosensitive layer, and a photon-transmissive second electrode disposed in proximity to the scintillation layer. The photosensitive layer is configured to generate electron-hole pairs upon interaction with a part of the photons. The radiation sensor includes pixel circuitry electrically connected to the first electrode and configured to measure an imaging signal indicative of the electron-hole pairs generated in the photosensitive layer and a planarization layer disposed on the pixel circuitry between the first electrode and the pixel circuitry such that the first electrode is above a plane including the pixel circuitry. A surface of at least one of the first electrode and the second electrode at least partially overlaps the pixel circuitry and has a surface inflection above features of the pixel circuitry. The surface inflection has a radius of curvature greater than one half micron. | 09-04-2014 |
20140291532 | COMPOUNDS FOR NEUTRON RADIATION DETECTORS AND SYSTEMS THEREOF - A composition of matter includes an organic molecule having a composition different than stilbene. The organic molecule is embodied as a crystal, and exhibits: an optical response signature for neutrons; an optical response signature for gamma rays, and performance comparable to or superior to stilbene in terms of distinguishing neutrons from gamma rays. The optical response signature for neutrons is different than the optical response signature for gamma rays. | 10-02-2014 |
20150034830 | Method for Acquiring PET Image with Ultra-High Resolution Using Movement of PET Device - A method for acquiring a PET image with ultra high resolution using movement of a PET device is provided. In the related art, there is a limit in lowering of the resolution below a half (d/2) of the width of a detector. According to the provided method, an image with ultra high resolution, which can jump over the limit, can be acquired. Further, since utilization of larger detectors becomes possible without a loss of the resolution, the sensitivity of the PET can be improved, and thus an image of higher quality can be acquired. | 02-05-2015 |
20150034831 | IMAGING DEVICE AND OPERATION METHOD THEREOF - Provided is an imaging device that can correct an output value of a pixel circuit. The imaging device includes a pixel circuit, a current detection circuit, an A/D converter, one or more memory circuit portions, and an arithmetic circuit portion. The pixel circuit includes a transistor, a charge accumulation portion, and a light-receiving element. The memory circuit portion includes a first look-up table, a second look-up table, and a region where image data output from the arithmetic circuit portion is stored. The first look-up table stores data of potentials of the charge accumulation portion, which depends on the intensity of light. The second look-up table stores output data of the transistor, which depends on the potentials of the charge accumulation portion. | 02-05-2015 |
20150108355 | CHARGE SENSITIVE AMPLIFIERS, DETECTORS AND X-RAY PHOTOGRAPHING APPARATUSES INCLUDING THE SAME - Disclosed are a charge sensitive amplifier, a detector and an X-ray photographing apparatus including the same. The charge sensitive amplifier includes an amplification unit that amplifies an electric charge input thereto, a capacitor that has one end of the capacitor, connected to an input terminal of the amplification unit, and the other end connected to an output terminal of the amplification unit, and a buffer unit that has an input terminal and an output terminal which is connected to the input terminal of the amplification unit and the one end of the capacitor. Impedance at the input terminal of the buffer unit is lower than impedance at the output terminal of the buffer unit. | 04-23-2015 |
20150293237 | RADIATION IMAGING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation imaging apparatus includes: a radiation detection panel; an electrical component electrically connected to the radiation detection panel; and a housing for housing the radiation detection panel including a top configured to cause the radiation to enter the housing and impinge on the radiation detection panel, and a bottom arranged on a side opposite to the top. An inner surface of the bottom on a side of the radiation detection panel includes a supporting surface configured to support the radiation detection panel. A concave portion defined by a part of an outer surface of the bottom is formed on a side of the bottom opposite to the side of the radiation detection panel i.e. on the outside of the housing. The electrical component is arranged in the concave portion. | 10-15-2015 |
20150296161 | PHOTODETECTOR - According to an embodiment, a photodetector includes a plurality of photoelectric transducers, a plurality of resistors, and a plurality of resetting sections. Each of the photoelectric transducers is configured to output a detection signal resulting from, conversion of received light into an electric charge. Each of the resistors is connected in series with an output end of a corresponding photoelectric transducer at one end of the resistor. Each of the resetting sections is connected in parallel with a corresponding resistor and configured to bring the output end of the corresponding photoelectric transducer to a reset level in response to the detection signal. | 10-15-2015 |
20150301193 | DOSIMETER WITH RFID TAG - Described is device comprising dosimeter for measuring one or more doses of radiation; and an RFID tag comprising an antenna for communicating with an RFID tag reader and non-volatile memory for storing data therein. | 10-22-2015 |
20150301195 | PHOTODIODE AND OTHER SENSOR STRUCTURES IN FLAT-PANEL X-RAY IMAGERS AND METHOD FOR IMPROVING TOPOLOGICAL UNIFORMITY OF THE PHOTODIODE AND OTHER SENSOR STRUCTURES IN FLAT-PANEL X-RAY IMAGERS BASED ON THIN-FILM ELECTRONICS - A radiation sensor including a scintillation layer configured to emit photons upon interaction with ionizing radiation and a photodetector including in order a first electrode, a photosensitive layer, and a photon-transmissive second electrode disposed in proximity to the scintillation layer. The photosensitive layer is configured to generate electron-hole pairs upon interaction with a part of the photons. The radiation sensor includes pixel circuitry electrically connected to the first electrode and configured to measure an imaging signal indicative of the electron-hole pairs generated in the photosensitive layer and a planarization layer disposed on the pixel circuitry between the first electrode and the pixel circuitry such that the first electrode is above a plane including the pixel circuitry. A surface of at least one of the first electrode and the second electrode at least partially overlaps the pixel circuitry and has a surface inflection above features of the pixel circuitry. The surface inflection has a radius of curvature greater than one half micron. | 10-22-2015 |
20150346361 | RADIATION IMAGING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation imaging apparatus includes pixels arranged to form an array, sensors including conversion elements dispersed in the array to monitor radiation, a processing circuit for processing signals from the sensors, first signal lines for transmitting a signal from at least one of the sensors to the processing circuit, and second signal lines extending in a direction parallel to the first signal lines and not directly connected to the pixels and the conversion elements or connected to at least one of the pixels and at least one of the sensors. The processing circuit determines a value of a signal generated by each sensor based on a difference between a value of a signal appearing on the first signal line and a value of a signal appearing on the second signal line. | 12-03-2015 |
20160061968 | Integrated Digital Discriminator For a Silicon Photomultiplier - Apparatuses and methods are provided that minimize the effects of dark-current pulses. For example, in one embodiment of the invention, a method is provided where a first pixel is struck (i.e., a primary pixel). Pixels struck within a fixed time frame after the primary pixel is struck are referred to as secondary pixels. After a short fixed time frame has expired, the number of primary and secondary pixels is added. If the count exceeds a threshold, the primary pixel was activated by the first (or early) photon from a true gamma event. If the threshold is not met then it is likely the primary pixel generated a dark pulse that should be ignored. | 03-03-2016 |
20160073983 | SCINTILLATOR, RADIATION DETECTION DEVICE, AND RADIATION INSPECTION DEVICE - According to an embodiment, a scintillator includes a scintillator layer and a radiation absorption layer. Scintillation photons corresponding to incident radiation are generated in the scintillator layer. The radiation absorption layer is laminated to the scintillator layer. The radiation absorption layer faces a detecting surface of a detector that detects the scintillation photons. | 03-17-2016 |
20160131769 | SEMICONDUCTOR SCINTILLATION DETECTOR - The present invention relates to a radiation detection device for detecting gamma or x-ray radiation quanta with improved timing accuracy and improved energy resolution. The radiation detection device finds application in the detection of gamma and x-ray radiation and may be used in the field of PET imaging, and in spectral CT. The radiation detection device includes a semiconductor scintillator element and a photodetector. The photodetector is in optical communication with the scintillator element. The scintillator element has two mutually opposing faces; a cathode is in electrical communication with one of the two faces and an anode is in electrical communication with the other of the two faces. | 05-12-2016 |
20160204164 | FLEXIBLE X-RAY DETECTOR AND METHODS FOR FABRICATING THE SAME | 07-14-2016 |
20160252629 | RADIATION IMAGE SENSING APPARATUS AND RADIATION IMAGE SENSING SYSTEM | 09-01-2016 |
20160377741 | SIGNAL PROCESSOR AND RADIATION DETECTION DEVICE - According to an embodiment, a signal processor includes an integrator, a differentiator, a zero cross detector, a pile-up detector, an event interval detector, a counter, and a creator. The integrator is configured to calculate charge of current from a photoelectric converter for an incident radiation. The differentiator is configured to calculate a differential value of the current. The zero cross detector is configured to detect a zero cross of the differential value. The pile-up detector is configured to detect pile-up of the current based on the zero cross. The event interval detector is configured to detect, based on the zero cross and pile-up, an event interval of the radiation entering. The counter is configured to count, based on the charge and pile-up, the respective numbers of events according to the charge and the event interval. The creator is configured to create histograms for the numbers of events. | 12-29-2016 |
20160377742 | RADIATION DETECTOR AND SCINTILLATOR PANEL, AND METHODS FOR MANUFACTURING SAME - According to an embodiment, a radiation detector comprises a photoelectric conversion substrate and a scintillator layer. The photoelectric conversion substrate converts light into an electrical signal. The scintillator layer contacts the photoelectric conversion substrate and converts radiation incident from the outside into light. The scintillator layer is a fluorescer of CsI containing Tl as an activator. The CsI is a halide. The concentration of the activator inside the fluorescer is 1.6 mass %±0.4 mass %. The concentration of the activator inside the fluorescer in an in-plane direction of the scintillator layer has the relationship of central portion>peripheral portion. The central portion is a central region of a formation region of the scintillator layer. The peripheral portion is an outer circumferential region of the formation region of the scintillator layer. | 12-29-2016 |