Patent application number | Description | Published |
20080217548 | IMAGING APPARATUS, RADIATION IMAGING APPARATUS, AND RADIATION IMAGING SYSTEM - An imaging apparatus capable of reducing a line noise artifact in a simple configuration without complicated operations includes: a plurality of pixels arranged in row and column directions and having a photoelectric conversion element and a switch element; a plurality of signal wirings connected to the plurality of switch elements in the column direction; a read-out circuit connected to the plurality of signal wirings; and a power source for supplying a voltage to the photoelectric conversion element. With the configuration, the plurality of pixels are classified into a plurality of groups, and the power sources are independently provided for each of the plurality of groups. | 09-11-2008 |
20080226031 | RADIATION IMAGING APPARATUS, AND METHOD AND PROGRAM FOR CONTROLLING RADIATION IMAGING APPARATUS - A radiation imaging apparatus is provided that stabilizes a dark current, image ghosting, and the sensitivity of the imaging apparatus, reduces the power consumption and the heat generation of a light source, and improves the durability of a conversion element. The radiation imaging apparatus includes a flat panel detector including a conversion unit, where the conversion unit includes a plurality of pixels arranged in a matrix and each of the pixels includes a conversion element capable of converting a radiation ray into electric charge, a light source capable of emitting light to the conversion unit, and a control unit configured to control the flat panel detector and the light source. The control unit controls the emission of light performed by the light source on the basis of a signal output from the flat panel detector. | 09-18-2008 |
20080246065 | IMAGING APPARATUS, IMAGING SYSTEM, ITS CONTROLLING METHOD, AND STORAGE MEDIUM STORING ITS PROGRAM - An idling time period after applying a bias to a conversion element until a start of an accumulation of the conversion element for deriving an image and an accumulation period from the start of the accumulation to a termination of the accumulation are measured. An offset correction of the image is conducted by using a dark current accumulation charge quantity in the accumulation calculated based on the measured idling time period and accumulation period and stored dark current response characteristics. Thus, even just after applying the bias to the conversion element, the offset correction can be properly conducted. An imaging apparatus which can execute a good radiographing without increasing costs and a size even just after applying the bias to the conversion element is provided. | 10-09-2008 |
20080279334 | RADIATION IMAGING APPARATUS, RADIATION IMAGING SYSTEM, AND METHOD OF CONTROLLING RADIATION IMAGING APPARATUS - A radiation imaging apparatus is capable of taking a moving picture by acquisition by a reading circuit of a plurality of radiation image signals on the basis of a plurality of successive times of irradiation of a radiation detector with radiation rays. The radiation detector has a two-dimensional array of pixels. In a period between a start of an n-th time of irradiation with radiation rays and a start of an (n+1)-th time of irradiation with radiation rays, where n is a natural number, a controller switches an operation status of an analog-to-digital converter that converts electric signals read by the reading circuit into digital signals so that power consumption of the analog-to-digital converter is reduced. | 11-13-2008 |
20090014661 | RADIATION IMAGING APPARATUS - A single flat panel detector provides radiation images which can correspond with various radiographic modes. In a radiation imaging apparatus including a flat panel detector which derives a radiation image according to incident radiation, a holding unit which holds the flat panel detector and a connecting mechanism capable of performing an connecting and a disconnecting between the holding unit and the flat panel detector, the flat panel detector can be controlled so that the maximum number of images of radiation images that the flat panel detector can derive when the flat panel detector is disengaged from the holding unit is smaller than the maximum number of images of radiation images that the flat panel detector can derive when the flat panel detector is held by the holding unit. | 01-15-2009 |
20090021607 | IMAGING SYSTEM, METHOD FOR PROCESSING THEREOF AND PROGRAM - An imaging apparatus is provided, which improves correction accuracy at the time of pixel addition reading and scarcely deteriorates in resolution of the image data. This apparatus comprises: a conversion unit comprising a plurality of unit-pixels and converting an incident radiation or a light into pixel information; a signal processing unit capable of reading the pixel information for each unit-pixel, or capable of reading additional added pixel information for a plurality of unit-pixels, based on a control from a control unit for controlling a driving of the conversion unit according to a plurality of operation modes; a storage unit for storing a plurality of correction informations according to the plurality of operating modes; and a correction unit for performing the correction of the pixel information based on the correction information extracted from the plurality of correct informations according to the operation mode. | 01-22-2009 |
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 |
20090140155 | RADIATION IMAGING APPARATUS AND ITS DRIVING METHOD AND PROGRAM - As a radiation imaging apparatus which can easily and effectively correct a line noise, there is provided a radiation imaging apparatus having: a conversion unit having a pixel region in which a plurality of pixels each having a conversion element ( | 06-04-2009 |
20090146071 | Imaging Apparatus, Radiation Imaging Apparatus, and Radiation Imaging System - An imaging apparatus capable of reducing a line noise artifact in a simple configuration without complicated operations includes: a plurality of pixels arranged in row and column directions and having a photoelectric conversion element and a switch element; a plurality of signal wirings connected to the plurality of switch elements in the column direction; a read-out circuit connected to the plurality of signal wirings; and a power source for supplying a voltage to the photoelectric conversion element. With the configuration, the plurality of pixels are classified into a plurality of groups, and the power sources are independently provided for each of the plurality of groups. | 06-11-2009 |
20090256079 | IMAGING APPARATUS, METHOD FOR DRIVING THE SAME AND RADIATION IMAGING SYSTEM - For reducing extremely conspicuous line noise appearing in a picked up image with a simple configuration without complicating the configuration of an apparatus, an imaging apparatus a first sampling and holding circuit for sampling and holding an electric signal from pixels in one column of the detection unit and a second sampling and holding circuit for sampling and holding and electric signal from pixels in the other column of the detection unit, and a control unit for controlling such that the first and second sampling and holding circuits perform the sampling and holding in mutually different timings. | 10-15-2009 |
20090272909 | IMAGING APPARATUS, RADIATION IMAGING SYSTEM, CONTROLLING METHOD OF IMAGING APPARATUS, AND RECORDING MEDIUM RECORDING CONTROL PROGRAM OF IMAGING APPARATUS - An imaging apparatus according to the present invention includes a transmitting path transmitting the output electric signal, and a read out circuit performing a sampling and holding operation for holding the electric signal read out through the transmitting path, and performing a reset operation for reset of the transmitting path, and includes a control unit for controlling an outputting drive circuit and a read out circuit so as to perform row by row the sampling and holding operation after a start of the output operation, to perform the reset operation after the sampling and holding operation, and to perform a termination of the output operation after the reset operation. This can provide an imaging apparatus and a radiation imaging apparatus that can reduce a frame time without reducing an S/N ratio of an image signal. | 11-05-2009 |
20090323897 | RADIATION IMAGING APPARATUS, ITS CONTROL METHOD, AND RADIATION IMAGING SYSTEM - A radiation imaging apparatus having high frame rate and picture quality by offset correction has: a sensor array having matrix-shaped pixels each including a converting element and a TFT; a driver for supplying signals to control terminals of the TFTs row by row; a reader for holding a signal into a first or second sampling/holding (S/H) circuit and outputting an image signal; and a controller for controlling the driver and reader. Until the image signal is output after the irradiation of pulsating radiation, the TFT of a pixel is driven so as to output a first signal, the TFT of the pixel to which the first signal has been output is driven so as to output a second electric signal, and the reader outputs the image signal of the signal showing a difference between the first and second signals held in the first and second S/H circuits. | 12-31-2009 |
20100001198 | RADIATION IMAGING APPARATUS AND ITS DRIVING METHOD AND PROGRAM - As a radiation imaging apparatus which can easily and effectively correct line noise, there is provided a radiation imaging apparatus having: a conversion unit having a pixel region in which a plurality of pixels each having a conversion element ( | 01-07-2010 |
20100044573 | RADIATION IMAGING APPARATUS - A single flat panel detector provides radiation images which can correspond with various radiographic modes. In a radiation imaging apparatus including a flat panel detector which derives a radiation image according to incident radiation, a holding unit which holds the flat panel detector and a connecting mechanism capable of performing a connecting and a disconnecting between the holding unit and the flat panel detector, the flat panel detector can be controlled so that the maximum number of radiation images that the flat panel detector can derive when the flat panel detector is disengaged from the holding unit is smaller than the maximum number of radiation images that the flat panel detector can derive when the flat panel detector is held by the holding unit. | 02-25-2010 |
20100086102 | RADIATION IMAGING APPARATUS AND METHOD OF DRIVING THE SAME, AND RADIATION IMAGING SYSTEM - There is provided a radiation imaging apparatus delivering an output image with a satisfactory image quality irrespective of the dosage of the X-rays incident on the detector. The radiation imaging apparatus according to the present invention includes a detection unit for detecting as an image signal an X-ray irradiated from the an X-ray generation apparatus and penetrating through an object; a read out unit for amplifying and reading out the image signal detected by the detection unit; and a control unit for controlling at least one of the X-ray generation apparatus, the detection unit and the read out unit such that the obtained SN ratio of the image signal according to the dosage of the X-rays incident on the detector can be equal to the S/N ratio required for the image signal. | 04-08-2010 |
20100148077 | ELECTRONIC CASSETTE TYPE OF RADIATION DETECTION APPARATUS - An electronic cassette type of radiation detection apparatus having a sensor array including a plurality of sensors for detecting incident radiation has a connecting portion to which detachable additional function modules are connected. A selection unit is provided for changing a radiographing mode from a still image radiographing mode and a moving image radiographing mode into a selectable state in response to a connection of at least one of the additional function modules changes. | 06-17-2010 |
20100148080 | IMAGING APPARATUS AND RADIATION IMAGING SYSTEM - First drive wirings electrically connected to output switching elements TT | 06-17-2010 |
20100149324 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - An apparatus includes a detector including a plurality of pixels which converts radiation or light into analog electric signals, a signal processor including a reading circuit which reads an analog electric signal output from the detector and an A/D convertor which converts the analog electric signal into a digital signal, a power-supply unit configured to apply bias to the detector and the signal processor. The apparatus further includes a controller configured to control at least one of the signal processor and the power-supply unit in accordance with information on an A/D conversion characteristic of the A/D convertor and information on an input analog electric signal to be input to the A/D convertor. | 06-17-2010 |
20100149391 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - An apparatus includes a detection unit including a plurality of pixels that are arranged in a matrix and that are divided into at least first and second pixel groups, a signal processing unit including first and second readout circuits and first and second A/D converters, a power supply unit configured to supply the components included in the signal processing unit with respective biases, and a control unit configured to control at least one of the signal processing unit and the power supply unit. The control unit is configured to perform processing of altering an analog signal capable of being input into at least one of the first and second A/D converters or altering an A/D conversion characteristic of at least one of the first and second A/D converters. | 06-17-2010 |
20100155614 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - An apparatus includes a detecting unit having pixels that converts radiation or light to electric signals; a drive circuit that drives the detecting unit; a read circuit that outputs the electric signals as image signals; a power supply unit that supplies voltages to the detecting unit, the drive circuit, and the read circuit; and a control unit that controls at least the drive circuit and the power supply unit. The control unit performs a first process of stopping the voltage supply operation to the detecting unit, with the voltage supply operations to the drive circuit and the read circuit maintained; a second process of driving the detecting unit; and a third process of stopping the voltage supply operations to the drive circuit and the read circuit. | 06-24-2010 |
20100176285 | RADIATION IMAGING APPARATUS, RADIATION IMAGING SYSTEM, AND CORRECTION METHOD - The invention intends to be able to perform a gain correction fully adequately. Hence, at the time of radiographing an object, a gain correction of the object image is performed based on a gain correction image (XRc | 07-15-2010 |
20100277592 | IMAGING APPARATUS, IMAGING SYSTEM, SIGNAL PROCESSING METHOD AND PROGRAM - A read out operation for reading out image data from a conversion circuit irradiated with a radiation, and a read out operation for reading out offset image data from the conversion circuit without irradiated with a radiation are selectively conducted, a control is conducted to repeat at a plurality of times the operation for reading out the offset image data, offset data corresponding to each pixel is extracted from one of the plurality of the offset image data to generate corrective offset image data such that offset data corresponding to all the pixels in a row of the matrix is not extracted from one of the plurality of offset image data, and the corrective offset image data is subtracted from the image data to perform an offset correction to render line noise less noticeable, for an offset correction without line noise by a simple signal processing to be provided. | 11-04-2010 |
20100327176 | IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, AND CONTROL METHOD THEREOF - An image pickup apparatus includes a detection unit in which a matrix of pixels converts radiation or light into analog electrical signals, a reading circuit configured to perform signal processing operation by reading the analog electric signals on a row-by-row basis, an A/D converter configured to convert a pixel signal output from the reading circuit into pixel data, and a correction processing unit configured to correct the pixel data. A control unit performs control processing so that the reading circuit outputs reset signals to the A/D converter in a period in which the signal processing operation of a predetermined row is performed, the A/D converter converts the reset signals into pieces of reset data in the period, and the correction processing unit averages the pieces of reset data output from the A/D converter and performs subtraction with the averaged reset data and the pixel data output from the A/D converter. | 12-30-2010 |
20110024641 | RADIOGRAPHIC IMAGING APPARATUS AND RADIOGRAPHIC IMAGING SYSTEM, CONTROL METHOD THEREFOR, AND PROGRAM THEREFOR - An imaging apparatus includes a detector, having a plurality of pixels arranged in a matrix, for performing first and second radiography operations, a bias light source, and a control unit that controls the operation of the detector and the bias light source. In the first radiography operation, image data corresponding to radiation in a first radiation field corresponding to some of the pixels is output. In the second radiography operation, image data corresponding to radiation in a second radiation field larger than the first radiation field is output. In accordance with a change from the first radiation field to the second radiation field, the operation of the bias light source is controlled so that the irradiation with the bias light is performed during a period between the first and second radiography operations at a bias-light integral dose determined based on radiation integral dose information in the first radiography operation. | 02-03-2011 |
20110044430 | IMAGING SYSTEM AND DRIVING METHOD THEREOF - When a gain correction is performed for the radiographed object image, the acquisition of the object image having a high grade quality and no artifact is realized. For that purpose, an image storing unit is provided for storing an image for correction radiographed based on conditions set with the table in a state in which no object exists to each operation modes of the plurality of operation modes; and an image processing unit is provided for performing a gain correction processing of the radiographed object image and performs the gain correction processing of the radiographed object image obtained based on the conditions set in the table of the operation mode selected by the selecting unit in a state in which the object exists using a corresponding image for correction extracted from the image storage unit based on the operation mode selected by the selecting unit. | 02-24-2011 |
20110049375 | RADIATION IMAGING APPARATUS, CONTROL METHOD THEREOF, AND RADIATION IMAGING SYSTEM USING RADIATION IMAGING APPARATUS - A radiation imaging apparatus comprises a first driving circuit unit to drive a first switching element connected to a conversion element, wherein the conversion element converting radiation into charges, a second driving circuit unit to drive a second switching element connected to the conversion element, and a control unit to control the first driving circuit and the second driving circuit independently at different timing. | 03-03-2011 |
20110095169 | IMAGING APPARATUS, IMAGING SYSTEM, METHOD OF CONTROLLING THE APPARATUS AND THE SYSTEM, AND PROGRAM - An imaging apparatus includes a conversion unit including a plurality of pixels arranged in a matrix, each pixel including a conversion element, an output switch element, and an initialization switch element; an output drive circuit controls an output operation; an initialization drive circuit controls an initialization operation; and a readout circuit performs a signal sample-and-hold operation and a reset operation. A control unit performs termination of the output operation of a certain row and start of the output operation of another row after the termination of the reset operation, the start of the signal sample-and-hold operation after the termination of the output operation of the certain row and the start of the output operation of the other row, the start of the reset operation and the initialization operation after the termination of the signal sample-and-hold operation, and the termination of the reset operation after the termination of the initialization operation. | 04-28-2011 |
20110121183 | IMAGING APPARATUS, IMAGING SYSTEM, ITS CONTROLLING METHOD, AND STORAGE MEDIUM STORING ITS PROGRAM - An idling time period after applying a bias to a conversion element until a start of an accumulation of the conversion element for deriving an image and an accumulation period from the start of the accumulation to a termination of the accumulation are measured. An offset correction of the image is conducted by using a dark current accumulation charge quantity in the accumulation calculated based on the measured idling time period and accumulation period and stored dark current response characteristics. Thus, even just after applying the bias to the conversion element, the offset correction can be properly conducted. An imaging apparatus which can execute a good radiographing without increasing costs and a size even just after applying the bias to the conversion element is provided. | 05-26-2011 |
20110128359 | IMAGING APPARATUS, IMAGING SYSTEM, METHOD OF CONTROLLING THE APPARATUS AND THE SYSTEM, AND PROGRAM - An imaging apparatus includes a detector including multiple pixels arranged in a matrix. The detector performs an image capturing operation whereby light or radiation incident on the pixels is converted into an image signal. The imaging apparatus also includes a bias light source and a control unit. The image capturing operation includes a first image capturing operation in which the detector is scanned in a scanning area A and a second image capturing operation in which the detector is scanned in a scanning area B larger than the scanning area A. The control unit controls the bias light source to emit bias light on the basis of a control signal indicative of an amount of integration of accumulation times in the first image capturing operation during a period between the first and second image capturing operations in accordance with switching from an irradiation field A to an irradiation field B. | 06-02-2011 |
20110286582 | IMAGING SYSTEM AND CONTROL METHOD THEREFOR - An imaging system includes a plurality of imaging apparatuses, each of the imaging apparatuses includes a detector for performing an imaging operation for outputting image data corresponding to applied radiation or light and a controller for controlling the operation of the detector. The imaging apparatuses can independently perform an imaging operation and are movable in accordance with a relative positional relationship thereof. Sensing means obtain information indicative of the relative positional relationship between the imaging apparatuses. A control computer sends a control signal for determining operations of the imaging apparatuses to the controller. The control computer determines the operations of the imaging apparatuses by using the information obtained from the sensing means; and sets an appropriate scanning direction of each of the imaging apparatuses in accordance with the positional relationship thereof. | 11-24-2011 |
20110309262 | IMAGING APPARATUS AND IMAGING SYSTEM, METHOD THEREOF AND PROGRAM FOR THE SAME - An imaging operation includes a first imaging operation for outputting image data according to irradiation to the detector with radiation or light in an irradiation field A corresponding to a part of the plurality of pixels, and a second imaging operation for outputting image data according to irradiation to the detector | 12-22-2011 |
20110317054 | IMAGING APPARATUS AND IMAGING SYSTEM, AND CONTROL METHOD AND PROGRAM FOR THE SAME - An imaging apparatus | 12-29-2011 |
20120044392 | IMAGING SYSTEM AND METHOD FOR ERROR-REDUCTION PROCESSING - An imaging apparatus is provided, which improves correction accuracy at the time of pixel addition reading and scarcely deteriorates in resolution of the image data. This apparatus comprises: a conversion unit comprising a plurality of unit-pixels and converting an incident radiation or a light into pixel information; a signal processing unit capable of reading the pixel information for each unit-pixel, or capable of reading additional added pixel information for a plurality of unit-pixels, based on a control from a control unit for controlling a driving of the conversion unit according to a plurality of operation modes; a storage unit for storing a plurality of correction information according to the plurality of operating modes; and a correction unit for performing the correction of the pixel information based on the correction information extracted from the plurality of correct information according to the operation mode. | 02-23-2012 |
20120075600 | IMAGING APPARATUS, IMAGING SYSTEM, AND METHOD FOR CONTROLLING IMAGING APPARATUS - An imaging apparatus includes a detector in which a plurality of pixels are arranged in a matrix; each pixel includes a conversion element that converts radiation or light into an electric charge. The detector performs an exposure imaging operation for outputting exposure image data, a correction imaging operation for outputting correction image data, and a correction imaging preparation operation including an initialization operation for initializing the conversion element between the exposure imaging operation and the correction imaging operation. A correction unit corrects the exposure image data using the correction image data; and a control unit controls the operation of the detector so that the detector performs the initialization operation based on an amount of variation in offset of the conversion element at the time of transitioning from an exposure imaging preparation operation to the exposure imaging operation. | 03-29-2012 |
20120126126 | RADIATION DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A radiation detection apparatus includes a scintillator configured to convert incident radiation into visible light, a photoelectric conversion unit and an electrically conductive member. The photoelectric conversion unit includes a two-dimensional array of pixels arranged on a substrate. Each pixel is configured to convert the visible light into an electric signal. The electrically conductive member is supplied with a fixed potential. The electrically conductive member, the substrate, the photoelectric conversion unit, and the scintillator are disposed in this order from the radiation-incident side of the radiation detection apparatus to the opposite side. | 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 |
20120138811 | IMAGING SYSTEM, IMAGE PROCESSING METHOD THEREFOR, AND PROGRAM THEREFOR - An imaging system includes a detector ( | 06-07-2012 |
20120154353 | MATRIX SUBSTRATE, DETECTION DEVICE, DETECTION SYSTEM, AND METHOD FOR DRIVING DETECTION DEVICE - A matrix substrate which realizes high operation speed and high reliability and which is capable of obtaining a high-quality image while the number of connection terminals is limited is provided. The matrix substrate includes pixels arranged in a matrix, N driving lines arranged in a row direction, P connection terminals where P is less than N, a demultiplexer which is disposed between the connection terminals and the driving lines and which includes first polycrystalline semiconductor TFTs and first connection terminals. The demultiplexer further includes second polycrystalline semiconductor TFTs and the second control lines used to maintain the driving lines to have non-selection voltages which bring the pixels to non-selection states between one of the connection terminals and two or more of the driving lines. | 06-21-2012 |
20120170827 | IMAGING APPARATUS, IMAGING SYSTEM, METHOD OF CONTROLLING THE APPARATUS AND THE SYSTEM, AND PROGRAM - An imaging apparatus includes a control unit and a detector that includes multiple pixels and that performs an image capturing operation to output image data corresponding to emitted radiation or light. The image capturing operation includes a first image capturing operation in which the detector is scanned in a first scanning area corresponding to part of the multiple pixels to output image data in the first scanning area and a second image capturing operation in which the detector is scanned in a second scanning area larger than the first scanning area to output image data in the second scanning area. The control unit causes the detector to perform an initialization operation to initialize the conversion element during a period between the first image capturing operation and the second image capturing operation in accordance with switching from the first scanning area to the second scanning area. | 07-05-2012 |
20120181438 | RADIATION DETECTING APPARATUS, RADIATION DETECTING SYSTEM, AND METHOD OF MANUFACTURING RADIATION DETECTING APPARATUS - A radiation detecting apparatus includes a scintillator, a plurality of photoelectric conversion elements, and a substrate having a first surface opposing the scintillator and a second surface opposite from the first surface. The substrate, the photoelectric conversion elements and the scintillator are arranged in this order from the side of the radiation detecting apparatus where radiation enters, and the second surface includes a plurality of depressions arranged in orthogonal projection areas where orthogonal projections of the plurality of projected photoelectric conversion elements are positioned and projections parts of which are positioned in the orthogonal projection areas and the remaining areas other than the parts of which are positioned between the orthogonal projection areas. | 07-19-2012 |
20120199749 | IMAGING APPARATUS, IMAGING SYSTEM, METHOD OF CONTROLLING THE APPARATUS AND THE SYSTEM, AND PROGRAM - An imaging apparatus includes a control unit and a detector that includes multiple pixels and that performs an image capturing operation to output image data corresponding to radiation or light that is emitted. The image capturing operation includes a first image capturing operation in a first scanning area corresponding to part of the multiple pixels to output image data in the first scanning area and a second image capturing operation in a second scanning area larger than the first scanning area to output image data in the second scanning area. The control unit causes the detector to perform an accumulation operation in the second image capturing operation in a time determined so that an image artifact caused by the scanning area is lower than a predetermined allowable value on the basis of information about the amount of integration of accumulation times in the first image capturing operation. | 08-09-2012 |
20120217413 | IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, METHOD FOR CONTROLLING IMAGE PICKUP APPARATUS, METHOD FOR CONTROLLING IMAGE PICKUP SYSTEM, AND PROGRAMS - An image pickup apparatus includes a detector having pixels divided into first and second pixel groups, a signal processor including a reading circuit unit including first and second reading circuits, an A/D conversion unit including first and second A/D converters, a digital data processing circuit, and a controller. The controller instructs the signal processor to perform a signal processing operation several times of adding direct current potentials to analog electric signals of pixels from the reading circuit unit, supplying the signals to the A/D conversion unit, and outputting digital data to the digital data processing circuit while the direct current potentials are changed, and an average processing operation of averaging the digital data for the pixels using the digital data processing circuit. | 08-30-2012 |
20120235270 | SEMICONDUCTOR APPARATUS AND METHOD OF MANUFACTURING THE SAME - A semiconductor apparatus including a substrate, a pixel array on the substrate, first and second conductive pads between which the substrate locates is provided. The apparatus also comprises an insulating layer arranged between the substrate and the first conductive pad; a third conductive pad arranged between the substrate and the insulating layer; a first conductive member which passes through the insulating layer and connects the first and third conductive pads to each other; and a second conductive member which passes through the substrate and connects the second and third conductive pads to each other. The pixel array further comprises a conductive line connected to circuit elements included in pixels aligned in a row or column direction. The first conductive pad is connected to the conductive line in an interval between the pixels. | 09-20-2012 |
20120261581 | METHOD FOR MANUFACTURING DETECTOR, RADIATION DETECTION APPARATUS INCLUDING DETECTOR MANUFACTURED THEREBY, AND RADIATION DETECTION SYSTEM - A method is provided for manufacturing a high-performance plane-type detector without the increase in cost or decrease in yield accompanying the increase in the number of masks. The method includes the first step of forming a first electrode and a control electrode from a first electroconductive film deposited on a substrate, the second step of depositing an insulating film and a semiconductor film in that order after the first step, the third step of depositing an impurity semiconductor film and a second electroconductive film in that order after the second step, and forming a common electrode wire and a first electroconductive member from the second electroconductive film, and the fourth step of forming with the same mask a second electrode and a second electroconductive member from a transparent electroconductive oxide film formed after the third step, and impurity semiconductor layers from the impurity semiconductor film. | 10-18-2012 |
20120305785 | DETECTION DEVICE MANUFACTURING METHOD, DETECTION DEVICE, AND DETECTION SYSTEM - In a method of manufacturing a detection device including a plurality of pixels arrayed on a substrate, the pixels each including a switch element and a conversion element including an impurity semiconductor layer disposed on an electrode, which is disposed above the switch element, which is isolated per pixel, and which is made of a transparent conductive oxide joined to the switch element, and further including an interlayer insulating layer, which is made of an organic material, which is disposed between the switch elements and the electrodes, and which covers the switch elements, the method includes insulating members each made of an inorganic material and disposed to cover the interlayer insulating layer between adjacent two of the electrodes in contact with the interlayer insulating layer, and forming an impurity semiconductor film covering the insulating members and the electrodes and becoming the impurity semiconductor layer. | 12-06-2012 |
20120306041 | DETECTION DEVICE MANUFACTURING METHOD, DETECTION DEVICE, AND DETECTION SYSTEM - In a method of manufacturing a detection device including pixels on a substrate, each pixel including a switch element and a conversion element including an impurity semiconductor layer on an electrode, which is disposed above the switch element and isolated per pixel, the switch element and the electrode being connected in a contact hole formed in a protection layer and an interlayer insulating layer, which are disposed between the switch elements and the electrodes, the method includes forming insulating members over the interlayer insulating layer between the electrodes in contact with the interlayer insulating layer, forming an impurity semiconductor film covering the insulating members and the electrodes, and forming a coating layer covering an area of the protection layer where an orthographically-projected image of a portion of the electrode is positioned, the portion including a level difference within the contact hole. | 12-06-2012 |
20130020494 | RADIATION DETECTION APPARATUS AND DETECTION SYSTEM INCLUDING SAME - A detection apparatus includes a driving circuit unit in which a plurality of unit circuits each including a first circuit that supplies conducting voltage of a switch element of a pixel based on voltage included in a clock signal to a driving wire in accordance with an initiation signal and a second circuit that supplies non-conducting voltage of the switch element to the driving wire in accordance with a termination signal are provided for the plurality of corresponding driving wires and a control unit that supplies the clock signal to the driving circuit unit. The control unit supplies control voltage to the plurality of unit circuits, and each of the plurality of unit circuits further includes a third circuit that continues to supply the non-conducting voltage to the corresponding driving wire in accordance with the control voltage. | 01-24-2013 |
20130075621 | RADIATION DETECTION APPARATUS AND DETECTION SYSTEM INCLUDING SAME - A detection apparatus includes a conversion element; a transistor which includes a semiconductor layer including a first channel region and a second channel region, a first gate electrode, and a second gate electrode; a first drive wiring which is connected to the first gate electrode; a second drive wiring which is connected to the second gate electrode; a first conduction voltage supply unit which supplies the first conduction voltage to the first driving wiring; a second conduction voltage supply unit which supplies the second conduction voltage to the second driving wiring; and a selection unit which selects any one of a first connection between the second drive wiring and the first conduction voltage supply unit and a second connection between the second drive wiring and the second conduction voltage supply unit. | 03-28-2013 |
20130099093 | DETECTION APPARATUS AND DETECTION SYSTEM - A detection apparatus includes a transistor disposed on a substrate, a conversion element disposed above the transistor and connected to the transistor, a capacitor connected in parallel with conversion element to the transistor, the capacitor including, between the substrate and the conversion element, an ohmic contact part connected to the conversion element, a semiconductor part connected to the ohmic contact part, and an electrically conductive part disposed at a location opposite to the semiconductor part and the ohmic contact part via an insulating layer, and a potential supplying unit configured to selectively supply a first electric potential to the electrically conductive part to accumulate charge carriers in the semiconductor part and a second electric potential to the electrically conductive part to deplete the semiconductor part. The detection apparatus configured in the above-described manner is capable of controlling pixel capacitance thereby achieving a high signal-to-noise ratio. | 04-25-2013 |
20130162833 | IMAGING APPARATUS, RADIATION IMAGING SYSTEM, AND METHOD FOR MANUFACTURING IMAGING APPARATUS - An imaging apparatus includes: a plurality of pixels each of which includes a conversion element and a first transistor of which one of a source and a drain is connected to the conversion element; and a second transistor which is shared by the plurality of pixels and has a gate connected respectively to the other of the source and the drain of the first transistor of each of the plurality of pixels. At least one among the gate, a source, a drain and a channel portion of the second transistor is formed to be extended over the plurality of pixels, and the conversion element is arranged over the first and second transistors. | 06-27-2013 |
20130162859 | IMAGING APPARATUS, RADIATION IMAGING SYSTEM, AND METHOD FOR DRIVING IMAGING APPARATUS - A source follower connection line connects a gate of a source follower thin film transistor in a first pixel with a gate of a source follower thin film transistor in a second pixel, between adjacent first and second pixel, and a driving circuit turns the transfer thin film transistor in the first pixel region ON and turns the transfer thin film transistor in the second pixel OFF to make the transfer thin film transistor in the first pixel region output the signal of the first pixel. | 06-27-2013 |
20130187837 | MATRIX SUBSTRATE, DETECTING DEVICE, AND DETECTING SYSTEM - A matrix substrate includes a plurality of pixels arranged in a matrix of rows and columns. In the matrix substrate a conducting voltage and a non-conducting voltage of a transistor included in a unit circuit including a demultiplexer that connects a plurality of connection terminals which are disposed to be smaller in number than the number of a plurality of driving lines which are connected in common to a plurality of pixels in a row direction and are arranged in parallel to each other in a column direction are supplied to a control line connected to a control electrode of a transistor at a frequency which is half a frequency at which a pixel is driven. Thus, a matrix substrate capable of suppressing the number of connection terminals and reducing power consumption is provided. | 07-25-2013 |
20130248727 | IMAGING APPARATUS, IMAGING SYSTEM, METHOD OF CONTROLLING THE APPARATUS AND THE SYSTEM, AND PROGRAM - An imaging apparatus includes a control unit and a detector that includes multiple pixels and that performs an image capturing operation to output image data corresponding to radiation or light that is emitted. The image capturing operation includes a first image capturing operation in a first scanning area corresponding to part of the multiple pixels to output image data in the first scanning area and a second image capturing operation in a second scanning area larger than the first scanning area to output image data in the second scanning area. The control unit causes the detector to perform an accumulation operation in the second image capturing operation in a time determined so that an image artifact caused by the scanning area is lower than a predetermined allowable value on the basis of information about the amount of integration of accumulation times in the first image capturing operation. | 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 |
20130299711 | DETECTION DEVICE, DETECTION SYSTEM, AND METHOD OF MANUFACTURING DETECTION DEVICE - A detection device includes conversion elements, each including a first electrode disposed on a substrate, a semiconductor layer disposed on the first electrode, an impurity semiconductor layer disposed on the semiconductor layer and including at least a first region and a second region, and a second electrode disposed on the first region of the impurity semiconductor layer in contact with the impurity semiconductor layer. Sheet resistance in the second region disposed at a position where the impurity semiconductor layer is not contacted with the second electrode is less than sheet resistance in the first region. | 11-14-2013 |
20130307041 | METHOD OF MANUFACTURING DETECTION DEVICE, DETECTION DEVICE, AND DETECTION SYSTEM - Before transmitting a print job to a printing apparatus, a CPU of a print processing apparatus determines whether paper information designated in the print job has been registered in a paper information database of the print processing apparatus. If the paper information has not been registered, the CPU extracts paper information similar to the paper information designated in the print job from those stored in the paper information database of the print processing apparatus. Furthermore, the CPU copies information about the dependency on the printing apparatus, which is included in the extracted paper information (printer dependency information) to the paper information designated in the print job. Then, the CPU registers the paper information designated in the print job, to which the printer dependency information has been copied, in a paper information database of the printing apparatus and transmits the print job to the printing apparatus. | 11-21-2013 |
20130328612 | ACTIVE MATRIX PANEL, DETECTION APPARATUS AND DETECTION SYSTEM - An active matrix panel includes a gate line connected to control electrodes of a plurality of transistors; and a drive circuit supplying the gate line with a conducting voltage and a non-conducting voltage. The drive circuit includes a shift register including a plurality of shift register unit circuits connected to each other, and a demultiplexer including a plurality of demultiplexer unit circuits into which output signals of the shift register unit circuits are input. The demultiplexer unit circuit includes a first transistor for supplying the gate line with the conducting voltage, and a second transistor for supplying the gate line with the non-conducting voltage. The first transistor is changed from a non-conducting state into a conducting state when the second transistor is in the conducting state. | 12-12-2013 |
20130342514 | DETECTION APPARATUS, DETECTION SYSTEM, AND DETECTION APPARATUS DRIVE METHOD - A detection apparatus includes a substrate which includes a plurality of pixels arranged in a matrix and adapted to generate pixel signals, a plurality of drive lines arranged in a column direction and each connected in common to a plurality of pixels in a row direction, a plurality of data lines arranged in the row direction and each connected in common to a plurality of pixels in the column direction, connection terminals smaller in number than the data lines, and a multiplexer unit provided between the connection terminals and the data lines; a read circuit provided with a reset switch for supplying a constant potential to the connection terminals and connected to the connection terminals; a drive circuit adapted to control driving of the plurality of pixels; and a control circuit adapted to supply a control signal to the substrate and the read circuit. | 12-26-2013 |
20140001340 | IMAGING APPARATUS, IMAGING SYSTEM, METHOD OF CONTROLLING THE APPARATUS AND THE SYSTEM, AND PROGRAM | 01-02-2014 |
20140014844 | 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. | 01-16-2014 |
20140035006 | DETECTION APPARATUS, DETECTION SYSTEM, AND METHOD FOR MANUFACTURING DETECTION APPARATUS - A detection apparatus includes a plurality of pixels and a plurality of signal wires arranged on a substrate, in which each of the plurality of pixels includes a switch element arranged on the substrate and a conversion element arranged on the switch element, the conversion element includes a first electrode which is arranged on the switch element and electrically connected to the switch element and a semiconductor layer arranged over a plurality of the first electrodes, and a plurality of the switch elements is electrically connected to the plurality of signal wires, and the detection apparatus further includes a constant potential wire which is supplied with a constant potential, in which the first electrode is electrically connected to the constant potential wire in apart of pixels among the plurality of pixels. | 02-06-2014 |
20140091203 | DETECTION APPARATUS, DETECTION SYSTEM, AND METHOD FOR PRODUCING DETECTION APPARATUS - A detection apparatus includes a plurality of conversion elements, an interlayer insulating layer, and a covering layer. Each of the plurality of conversion elements includes an electrode electrically connected to a corresponding one of a plurality of switching elements and a semiconductor layer disposed on the electrode. The interlayer insulating layer is disposed so as to cover the plurality of switching elements and composed of an organic material, and has a surface including a first region and a second region located outside the first region. The electrodes are disposed on the surface of the interlayer insulating layer in the first region. The covering layer is disposed on the surface of the interlayer insulating layer in the second region and composed of an inorganic material. | 04-03-2014 |
20140097348 | DETECTING APPARATUS AND DETECTING SYSTEM APPARATUS AND DETECTING SYSTEM - A detecting apparatus formed on a substrate, includes a plurality of pixels arranged in a matrix, and a signal line electrically connected to the pixels. Each of the pixels includes a sensing element that converts radiant ray or light to electric charges, an amplification thin film transistor that outputs an electric signal based on an amount of the electric charges, a capacitor that holds an electric signal output by the amplification thin film transistor, and a transfer thin film transistor that transfers an electric signal held in the capacitor to the signal line. | 04-10-2014 |
20140151769 | DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A detection apparatus includes a conversion layer configured to convert incident light or radiation into a charge, electrodes configured to collect a charge produced as a result of the conversion by the conversion layer, and impurity semiconductor layers arranged between the electrodes and the conversion layer. The conversion layer is arranged over the electrodes so as to cover the electrodes. A part of the conversion layer which covers a region between an adjacent pair of the electrodes includes a portion smaller in film thickness than a part of the conversion layer which covers edges of the electrodes. | 06-05-2014 |
20140154833 | MANUFACTURING METHOD FOR DETECTION APPARATUS - A manufacturing method for a detection apparatus is provided. The method includes depositing a first impurity semiconductor layer and a first intrinsic semiconductor layer in this order on a plurality of first electrodes arranged in an array above a substrate. The method also includes patterning the first intrinsic semiconductor layer and the first impurity semiconductor layer and thereby dividing the first intrinsic semiconductor layer and the first impurity semiconductor layer so as to cover each of the plurality of first electrodes separately. The method further includes depositing a second intrinsic semiconductor layer on the patterned first intrinsic semiconductor layer. | 06-05-2014 |
20140339431 | DETECTING APPARATUS AND DETECTING SYSTEM - A detecting apparatus includes a substrate that permits visible light to pass therethrough, a converting element that includes a pixel electrode, an impurity semiconductor layer, and a semiconductor layer arranged in that order from a side adjacent to the substrate and is configured to convert radiation or light into charge, and a light source configured to emit the visible light through the substrate to the converting element. The pixel electrode includes a metal layer that permits the visible light to pass therethrough. | 11-20-2014 |
20140339561 | DETECTING DEVICE, DETECTING SYSTEM, AND MANUFACTURING METHOD OF DETECTING DEVICE - A detecting device includes a conversion device having a substrate, a pixel electrode formed of a transparent conductive oxide, a impurity semiconductor portion, and a semiconductor portion, the pixel electrode, impurity semiconductor portion, and semiconductor portion having been formed upon the substrate in that order from the substrate side. The impurity semiconductor portion includes a first region including a place in contact with the pixel electrode, and a second region situated nearer to the semiconductor portion than the first region. Concentration of dopant in the second region is higher than concentration of dopant in the first region. | 11-20-2014 |
20140353470 | DETECTION APPARATUS, METHOD OF MANUFACTURING THE SAME, AND RADIATION DETECTION SYSTEM - A method of manufacturing a detection apparatus including pixels is provided. The method includes forming an organic insulation layer above a substrate above which a switching element is formed, forming pixel electrodes divided for individual pixels above the organic insulation layer; forming an inorganic material portion above a portion of the organic insulation layer, which is uncovered with the pixel electrodes, forming an inorganic insulation film covering the plurality of pixel electrodes and the inorganic material portion, forming a semiconductor film covering the inorganic insulation film, and dividing the semiconductor film for individual pixels by etching using a stacked structure of the inorganic material portion and the inorganic insulation film as an etching stopper. | 12-04-2014 |