Patent application number | Description | Published |
20110134289 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - In an image pickup apparatus including a plurality of pixels arranged a matrix of rows and columns, a correction unit performs a correction process based on an electric signal output via a first switch element of a particular pixel and a correction electric signal output via a second switch element of the particular pixel. A correction image signal based on the correction electric signal output via the second switch element is acquired in a period that partially overlaps in time a period in which an image signal based on the electric signal output via the first switch element is acquired. When the electric signal associated with the image signal is output for the particular pixel, the second switch element of the particular pixel is controlled to be in an on-state over a period during which the first switch element of the particular pixel is in an off-state. | 06-09-2011 |
20110248176 | DETECTION APPARATUS, METHOD OF MANUFACTURING THE SAME, AND DETECTION SYSTEM - A detection apparatus comprising a substrate; a switching element arranged over the substrate and including a plurality of electrodes; a conductive line arranged over the substrate and electrically connected to a first electrode of the plurality of electrodes of the switching element; and a conversion element including a semiconductor layer arranged over the switching element and the conductive line and arranged between two electrodes, one electrode of the two electrodes being electrically connected to a second electrode of the plurality of electrodes of the switching element, is provided. The one electrode of the conversion element is arranged over the switching element and the conductive line through a space formed between the one electrode and the first electrode of the switching element or between the one electrode and the conductive line. | 10-13-2011 |
20120032088 | DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A stacked-type detection apparatus including a plurality of pixels arranged at small intervals is configured to have low capacitance associated with signal lines and/or driving lines. With this novel configuration, small time constant and high-speed driving capability can be achieved in the signal lines and/or driving lines. The plurality of pixels in the detection apparatus are arranged in a row direction and a column direction on an insulating substrate. Each pixel includes a conversion element and a switch element, the conversion element is disposed above the switch element. A driving line disposed below the conversion elements is connected to switch elements arranged in the row direction, and a signal line is connected to switch elements arranged in the column direction. The signal line includes a conductive layer embedded in an insulating member, the insulating member is disposed in a layer lower than an uppermost surface portion of the driving line. | 02-09-2012 |
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 |
20120080605 | DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A stacked-type detection apparatus includes a plurality of pixels arranged at small intervals in row and column directions and has small signal line capacitance that allows a high-speed driving operation. Each pixel includes a conversion element configured to convert radiation or light into an electric charge and a switch element disposed on an insulating substrate. A driving line is disposed on the insulating substrate and is connected to switch elements arranged in the row direction; and a signal line is connected to switch elements arranged in the column direction. Each conversion element is disposed above a corresponding switch element. The driving line is realized using a conductive layer embedded in an insulating layer located below an uppermost surface portion of the driving line located below an uppermost surface portion of a main electrode of the switch element located below the conversion element. | 04-05-2012 |
20120126095 | DETECTION APPARATUS AND RADIATION DETECTION SYSTEM - A detection apparatus includes conversion elements and switch elements disposed below the conversion elements; insulating layers are disposed between the conversion elements and switch elements. Each conversion element includes a first electrode corresponding to a switch element. A second electrode extends over the plurality of conversion elements; and a semiconductor layer formed between the first electrodes and the second electrode extends over the plurality of conversion elements. Insulating layers include first regions located immediately below the first electrodes and a second region located between the first regions. A third electrode is disposed in the second region and between the insulating layers. The third electrode is supplied with a potential that sets a potential of a part where the second region is in contact with the semiconductor layer to a value between a potential of the second electrode and a potential of the first electrode. | 05-24-2012 |
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 |
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 |
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 |
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 |
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 |
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 |
20150194952 | 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. | 07-09-2015 |
Patent application number | Description | Published |
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 |
Patent application number | Description | Published |
20090245822 | IMAGE FORMING APPARATUS, IMAGE FORMING METHOD, AND COMPUTER PROGRAM PRODUCT - A patch-pattern forming unit causes an image forming unit to form a patch pattern including a plurality of patches on a conveying member. A detecting unit detects the patch pattern formed on the conveying member. An adjusting unit adjusts an image forming condition of the image forming unit based on a result of detection by the detecting unit. The patch pattern has a length substantially equal to a distance between a patch-pattern start position, which is located at a space corresponding to at least a predetermined margin of a recording medium from a position of the image, and a position of the detecting unit. | 10-01-2009 |
20130044176 | OPTICAL WRITING DEVICE, IMAGE FORMING APPARATUS, AND METHOD FOR CONTROLLING OPTICAL WRITING DEVICE - An optical writing device forms an electrostatic latent image and includes a pixel-information acquiring unit that acquires pixel information and stores the acquired pixel information in a storage medium with respect to each main scanning line; a tilt correcting unit that generates a tilt correction signal specifying a main scanning line from which the pixel information to be input to a light source is read out from the storage medium in order to correct a tilt of the electrostatic latent image; a position correcting unit that generates a position correction signal specifying a timing to input the pixel information to the light source in order to correct a position of the electrostatic latent image; and a pixel-information-input control unit that controls input of the pixel information from the storage medium to the light source in response to the tilt correction signal and the position correction signal. | 02-21-2013 |
20130063536 | LIGHT SOURCE CONTROL APPARATUS AND IMAGE FORMING APPARATUS - A light source control apparatus which controls, based on image data input, light emission of a light source which forms an electrostatic latent image on an image bearing body in an electrophotographic image forming apparatus is disclosed, including a pattern generating unit which generates an internal pattern for position aligning and concentration correcting according to the image data; and a mirroring processing unit which performs a process of mirroring the image data and the internal pattern at a later stage of the pattern generating unit. | 03-14-2013 |
20130071130 | TONER CONSUMPTION CALCULATOR, IMAGE FORMING APPARATUS, AND TONER CONSUMPTION CALCULATION METHOD - A toner consumption calculator includes a plurality of line memories; a recorder that sequentially records image data including a plurality of pixels into the line memories; a skew correction unit that performs skew correction on the image data by sequentially reading the image data from the line memories while controlling read timing; and a counter that sequentially reads the image data from the line memories and counts toner consumption of a target pixel on the basis of light amounts of surrounding pixels of the target pixel. | 03-21-2013 |
20130084109 | IMAGE FORMING APPARATUS - An image forming apparatus can transfer a plurality of color component images onto a surface of a recording medium to form an image on the recording medium. The image forming apparatus includes a pattern generation part to generate information about an alignment pattern to be used for a calibration of an image forming, a plurality of stations each including a photosensitive drum to form an alignment pattern corresponding to each of a plurality of color components onto a carry belt or the recording medium, and a read part to detect a plurality of alignment patterns formed by the plurality of stations. | 04-04-2013 |
20130164017 | POWER SUPPLY CIRCUIT, IMAGE FORMING APPARATUS INCORPORATING SAME, AND POWER SUPPLY METHOD TO SUPPLY VOLTAGE TO IMAGE FORMING APPARATUS - A power supply circuit includes a voltage regulator to which a first high voltage is supplied, to operate at constant voltage and regulate the supplied first high voltage, and a first rectifier circuit to which the first high voltage is supplied, connected in parallel to the voltage regulator, to rectify the supplied first high voltage for output as a first DC voltage. When the first high voltage is a pseudo-alternating-current (AC) voltage consisting of two types of high voltages that alternate, the voltage regulator regulates each of the two different types of the voltages to output a desired pseudo-AC voltage. | 06-27-2013 |
20130207339 | IMAGE FORMING DEVICE AND CONTROL METHOD FOR IMAGE FORMING DEVICE - According to an embodiment, provided is an image forming device that includes: an image forming unit forming an image in a predetermined cycle in a direction orthogonal to a conveying direction of a printing medium; a velocity acquisition unit acquiring a conveying velocity of the printing medium at a position where the image is formed by the image forming unit; and a correcting unit correcting the cycle on which the image forming unit forms the image in accordance with the conveying velocity acquired by the velocity acquisition unit. | 08-15-2013 |
20130223867 | POWER SUPPLY, IMAGE FORMING DEVICE, AND POWER SUPPLY METHOD - Disclosed is a power supply including a first voltage generating unit that generates a first voltage from an external power supply; a second voltage generating unit that generates a first predetermined voltage and supplies the generated first predetermined voltage to the load; a third voltage generating unit that generates the first predetermined voltage and supplies the generated first predetermined voltage to the load; and a controller that causes the first voltage to be greater than or equal to a second voltage during a first mode, and causes the first voltage to be less than the second voltage during a second mode. During the first mode, the power is supplied from the second voltage generating unit and the third voltage generating unit to the load, and during the second mode, the power is supplied from the third voltage generating unit to the load. | 08-29-2013 |
20130242318 | IMAGE FORMING APPARATUS AND METHOD FOR CONTROLLING THE SAME - In the invention, an inclination amount of sensors is reflected in positional deviation correction patterns, and for correcting formation positions of images of various colors, the positional deviation correction patterns are formed on a conveying belt. The positional deviation correction patterns are detected by the sensors. A control unit calculates positional deviation correction amounts based on detection results of the positional deviation correction patterns. Based on the calculated positional deviation correction amounts, the control unit performs calculation for correcting the positional deviation correction patterns, and cancels the inclination amount reflected in the calculation results to obtain final positional deviation correction amounts. Skew correction is performed based on the final positional deviation correction amounts, and thus, the positional deviations are corrected. | 09-19-2013 |
20130343775 | IMAGE FORMING APPARATUS - An image forming apparatus comprises: an image forming unit configured to form an image quality adjustment pattern image on an image carrier to be driven at a predetermined speed; a detector configured to detect the image quality adjustment pattern image; an image quality adjustment controller configured to control image quality adjustment processing in accordance with a detection result by the detector; a speed change unit configured to change an image formation speed indicating a speed at which an image is formed, and an interval change unit configured to change an interval at which the detector acquires a detection result in accordance with a change amount between the image formation speed before changed by the speed change unit and the image formation speed after changed. | 12-26-2013 |
20140002564 | OPTICAL WRITING CONTROL DEVICE, IMAGE FORMING APPARATUS, AND OPTICAL WRITING CONTROL METHOD | 01-02-2014 |
20140049591 | OPTICAL WRITING DEVICE, IMAGE FORMING APPARATUS, AND CONTROL METHOD OF OPTICAL WRITING DEVICE - An optical writing device forming an electrical latent image on a photoreceptor includes an optical writing unit configured to apply light to the photoreceptor, a power supply unit configured to supply power to the optical writing unit, a power supply status detector configured to detect a power supply status of the power supplied from the power supply unit to the optical writing unit, and output power supply information or power cutoff information, a power cutoff information retaining unit configured to retain the power cutoff information when the power cutoff information is output from the power supply status detector, and a power sensor configured to sense a power supply status of the power supplied by the power supply unit based on the power cutoff information retained by the power cutoff information retaining unit. | 02-20-2014 |
20140078521 | IMAGE FORMING APPARATUS, METHOD FOR PERFORMING THE SAME AND COMPUTER READABLE MEDIUM - An image forming apparatus comprising: a resolution conversion unit configured to convert the resolution of a pixel provided by input image data; a gradation conversion unit configured to perform matrix conversion onto the pixel; and a writing unit configured to perform a write operation, wherein, in the normal mode, the gradation conversion unit performs matrix conversion onto the pixel with reference to the gradation conversion table for the normal mode, and the writing unit performs the write operation of the pixel in a normal order that is the order image data being input into the image forming apparatus, and in the reverse mode, the gradation conversion unit performs matrix conversion onto the pixel with reference to the gradation conversion table for the reverse mode, and the writing unit performs the write operation of the pixel in a reverse order opposite to the normal order. | 03-20-2014 |
20140139607 | OPTICAL WRITING DEVICE, IMAGE FORMING APPARATUS, AND METHOD OF CONTROLLING OPTICAL WRITING DEVICE - An optical writing device is configured to form electrostatic latent images on a plurality of photosensitive elements by a plurality of light sources. The optical writing device includes: an image-data acquiring section that acquires image data; and a light-source control section that performs light-emission control on the light source based on pixel data generated from acquired image data, and also performs a neutralization process on the photosensitive element by controlling the light source to expose the photosensitive element to light. In the neutralization process, the light-source control section divides a period during which light-on/off control can be performed on the light source, into sub-periods based on pixel data input to the light-source control section, and causes the light sources to be lit in any one of the sub-periods so as to always place at least one of the plurality of light sources in a light-off state. | 05-22-2014 |
20140146371 | IMAGE FORMING APPARATUS AND IMAGE CORRECTION METHOD - Disclosed is an image forming apparatus including, at least, an image data storage unit that stores image data; an inclination amount detection unit that detects a first inclination amount of a portion of the image data spanning from one end to the other end relative to a main scanning direction; an inclination amount storage unit that stores, when a gradient of the image data changes at a point in the main scanning direction, a second inclination amount of a portion of the image data spanning from the one end to the point or from the other end to the point; a correction amount calculation unit that calculates correction amounts associated with the main scanning direction by switching, at the point, whether the first inclination amount is increased or decreased by the second inclination amount; and an image correction unit that corrects an image based on the correction amounts. | 05-29-2014 |
20140152754 | OPTICAL WRITING CONTROL DEVICE, IMAGE FORMING APPARATUS, AND METHOD OF CONTROLLING OPTICAL WRITING DEVICE - An optical writing control device includes a light emission control unit that controls light emission of a light source to exposes a photosensitive element. The light emission control unit is configured to draw two patterns as patterns for correction used to correct a transfer position of a developer image obtained by developing an electrostatic latent image formed on the photosensitive element, the two patterns including a narrow width pattern where a width of the pattern corresponds to a width of a detection area of a sensor that detects the patterns, in the main-scanning direction, and a wide width pattern having a wider width than the narrow width pattern, and control the light emission, after calculation of a correction value based on a detection signal of the wide width pattern is properly completed, in a manner where the narrow width pattern is drawn upon the calculation of the correction value. | 06-05-2014 |
20140153010 | OPTICAL-WRITING CONTROL DEVICE, IMAGE FORMING APPARATUS, AND METHOD OF CONTROLLING OPTICAL WRITING DEVICE - An optical-writing control device calculates correction values for use in correcting a transfer position at which developing-agent images are to be transferred onto a sheet, and overlaying positions at which the developing-agent images are to be overlaid, based on a detection signal output from a sensor upon detection of a correction pattern for use in correcting the transfer position and a correction pattern for use in correcting the overlaying positions. A timing of detecting the pattern for use in correcting the overlaying positions is determined based on a correction value calculated based on the detection signal output upon detection of the pattern for use in correcting the transfer position. The pattern for use in correcting the transfer position is caused to have a width, in the main-scanning direction, that is wider than the width in the main-scanning direction of the pattern for use in correcting the overlaying positions. | 06-05-2014 |
20140153042 | DATA TRANSMITTING DEVICE, IMAGE FORMING APPARATUS, DATA TRANSMISSION CONTROLLING METHOD, AND RECORDING MEDIUM STORING DATA TRANSMISSION CONTROL PROGRAM - A data transmitting device is provided. The data transmitting device includes plural bundles of signal lines, each of which includes flatly arranged plural signal lines and which are overlaid in such a manner that surfaces of the bundles of signal lines are contacted with each other while the signal lines extend in a same direction, wherein signal transmission and reception are performed through the signal lines; a transmission timing adjuster to adjust signal transmission timing for each of the plural bundles of signal lines; and a transmission timing controller to perform time division control such that the transmission timing adjuster adjusts the signal transmission timing under the time division control for each of the plural bundles of signal lines. | 06-05-2014 |
20150125170 | IMAGE FORMING APPARATUS - An image forming apparatus includes an exposure control unit that performs control, based on a shift-amount of an exposure position from an ideal position, the shift-amount being obtained from a detection-result of a misregistration correcting pattern image, to shift at least one of an exposure timing corresponding to first image data which is input to one of two electric cables in contact with a target electric cable and an exposure timing corresponding to second image data which is input to another one of the two electric cables, with respect to an exposure timing corresponding to target image data being input to the target electric cable both sides of which are in contact with the two other electric cables, among a plurality of the electric cables which corresponds respectively to a plurality of the exposure units provided for each of a plurality of colors. | 05-07-2015 |