Patent application number | Description | Published |
20090160988 | DRIVE METHOD FOR SOLID-STATE IMAGING DEVICE, SOLID-STATE IMAGING DEVICE, AND IMAGING APPARATUS - A solid-state imaging device having: (a) a pixel array with an oblique pixel pattern in which pixels are obliquely disposed, an odd-numbered row vertical signal line in an odd-numbered row vertical signal line group being connected to each column of odd-numbered row pixels and an even-numbered row vertical signal line in an even-numbered row vertical signal line group being connected to each column of even-numbered row pixels; (b) a row selector for separately selecting an odd-numbered row and an even-numbered row of the oblique pixel pattern; (c) an odd-numbered row column processing circuit group including column processing circuits and connected to the odd-numbered row vertical signal line group, for adding signals of the odd-numbered row pixels between columns; (d) an even-numbered row column processing circuit group including column processing circuits and connected to the even-numbered row vertical signal line group, for adding signals of the even-numbered row pixels in pixel columns; and (d) a column selector for selecting the column processing circuits of the odd-numbered row column processing circuit group and the column processing circuits of the even-numbered row column processing circuit group. | 06-25-2009 |
20090242740 | SOLID STATE IMAGING DEVICE, METHOD OF DRIVING SOLID STATE IMAGING DEVICE, AND IMAGE PICKUP APPARATUS - A solid-state imaging device which includes a pixel unit, a plurality of pixels in the pixel unit which are two dimensionally arranged in rows and columns and each include a photoelectric conversion element and a reset element, a driver unit which sequentially applies selective scanning to each respective row of the pixel unit, a mode switching circuit, where the mode switching circuit is configured to charge a portion of the pixels in the pixel unit and to apply an intermediate voltage to a gate of each reset element in the non-charged pixels. | 10-01-2009 |
20130341750 | SOLID-STATE IMAGING DEVICE, METHOD FOR CONTROLLING THE SAME, AND ELECTRONIC APPARATUS - There is provided a solid-state imaging device including a plurality of pixels which are arranged in a two-dimensional array form and in each of which color separation is performed in a substrate depth direction. The solid-state imaging device includes a pixel addition section which performs addition, when pixel signals of the plurality of pixels are added up to be outputted, by setting addition regions of pixel signals of a first color component to be shifted from addition regions of pixel signals of a second color component at regular intervals. | 12-26-2013 |
Patent application number | Description | Published |
20080277585 | MONITORING APPARATUS - An imaging apparatus includes a camera unit, a panorama-image generating section generating a panorama image of the entire area by combining a plurality of unit images obtained by the camera unit, a panorama-image storage/management section storing and managing the panorama image generated by the panorama-image generating section, an infrared camera photographing an object that has a temperature falling within a preset temperature range as an infrared image, a direction controller sequentially shifting the photographing direction of the infrared camera within the area being photographed, an infrared-image generating section combining a plurality of infrared images provided by the infrared camera, an image-synthesizing section synthesizing the panorama image generated by the panorama-image generating section, with the panorama infrared image generated by the infrared-image generating section, and a display displaying the synthesized image generated by the image-synthesizing section. | 11-13-2008 |
20090066791 | Monitoring system - Disclosed herein is a monitoring system, including an infrared camera; an image pickup direction control section configured to vary the image pickup direction of the infrared camera; a correction section configured to correct irregularity in brightness of a screen image of image data picked up in each of the image pickup directions by the infrared camera and output the corrected image data whose irregularity in brightness is corrected; an image processing section configured to connect the corrected image data corresponding to the image data picked upon in the individual image pickup directions by the infrared camera to produce a whole image; and a display section configured to display the whole image. | 03-12-2009 |
20090213209 | MONITORING SYSTEM FOR A PHOTOGRAPHY UNIT, MONITORING METHOD, COMPUTER PROGRAM, AND STORAGE MEDIUM - A coverage area picture imaging a maximum area is displayed on a coverage area picture display. A camera is moved within a predetermined range and a plurality of frames obtained as a result form a picture. The pixels of the picture is decimated in vertical and horizontal directions and form a thumbnail as the coverage area picture. The coverage area picture display presents a display indicating a direction in which the camera is currently directed for picture photographing. In accordance with the display, a photographing direction is controlled. A plurality of frames are photographed with respect to a designated position, then stored, and displayed. A whole picture display presents a whole panorama picture. A selective picture display presents a frame at the position designated within the whole panorama picture as a selected picture. | 08-27-2009 |
20130242042 | MONITORING SYSTEM, MONITORING METHOD, COMPUTER PROGRAM, AND STORAGE MEDIUM - A coverage area picture imaging a maximum area is displayed on a coverage area picture display. A camera is moved within a predetermined range and a plurality of frames obtained as a result form a picture. The pixels of the picture is decimated in vertical and horizontal directions and form a thumbnail as the coverage area picture. The coverage area picture display presents a display indicating a direction in which the camera is currently directed for picture photographing. In accordance with the display, a photographing direction is controlled. A plurality of frames are photographed with respect to a designated position, then stored, and displayed. A whole picture display presents a whole panorama picture. A selective picture display presents a frame at the position designated within the whole panorama picture as a selected picture. | 09-19-2013 |
Patent application number | Description | Published |
20090268591 | HIGH-FREQUENCY SUPERIMPOSING METHOD AND OPTICAL DISK APPARATUS USING IT - An optical disk drive includes drive current generation unit for supplying a mark forming semiconductor laser drive current and a space forming semiconductor laser drive current; first high-frequency superimposition unit for superimposing a high-frequency component on the space forming semiconductor laser drive current; and high-frequency superimposition control unit for controlling the first high-frequency superimposition unit to stop the superimposition of the high-frequency component for a predetermined duration prior to a timing at which to switch from the space forming semiconductor laser drive current to the mark forming semiconductor laser drive current, eliminating positional variations on the disk of the mark leading and trailing edges due to the high frequency superimposition. | 10-29-2009 |
20100118677 | Optical Disc Apparatus, Method of Adjusting Focus Offset for Optical Disc Apparatus, and Program for Executing Focus Offset Adjustment - In an optical disc apparatus, whether an unrecorded recording layer without information recorded thereon is included in the multiple recording layers of the optical disc mounted inside the apparatus is judged. then when the unrecorded recording layer is judged to be present, a signal for focus offset adjustment is recorded in a non-user data recording area of the unrecorded recording layer, and reproduction of the recorded focus offset adjusting signal is followed by its quality evaluation, which is further followed by calculation and setup of an appropriate focus offset value based on evaluation results. | 05-13-2010 |
20110096641 | OPTICAL DISC, OPTICAL DISC RECORDING/PLAYBACK APPARATUS, AND INFORMATION RECORDING/PLAYBACK METHOD - For a disc on which recording is to be performed at a plurality of recording densities, a technique for easily reading out disc management information without an error is disclosed. An optical disc ( | 04-28-2011 |
20110235487 | RECORDING QUALITY EVALUATION METHOD OF OPTICAL DISK AND OPTICAL DISK STORAGE SYSTEM - There is provided a method of calculating the degradation over time of the quality of data recorded on an optical disk in a short time. In the method, when user data is recorded on a data area, a test signal including a component in which the signal level is smaller than a reference value, is recorded on a test area. Then, the test signal is reproduced from the test area when a predetermined time has passed, to calculate the quality degradation of the user data from the evaluation result. Alternatively, every time when the user data is recorded/reproduced on/from the data area, the test signal is recorded/reproduced repeatedly on/from the test area. Then, the test signal is reproduced from the test area at a predetermined timing, to calculate the quality degradation of the user data from the evaluation result. | 09-29-2011 |
20120047372 | OPTICAL DISC, OPTICAL DISC RECORDING METHOD, OPTICAL DISC REPRODUCTION METHOD, OPTICAL DISC DEVICE AND STORAGE SYSTEM - A storage system having a plurality of optical disc devices allows other optical disc devices inside the storage system to reproduce the optical disc recorded by a certain optical disc device but inhibits optical disc devices outside the storage system to reproduce the optical disc. A device key as a base for generating an encryption key is common to the plurality of optical disc devices. In the optical disc devices, a guest key other than the device key can be used temporarily to generate the encryption key. An authentication list containing a reproduction condition is recorded with the key information to the optical disc. | 02-23-2012 |
Patent application number | Description | Published |
20080199284 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus is composed of an indexer block, a first processing block and a second processing block that are provided in parallel with one another. The indexer block is provided with an indexer robot. The first processing block is provided with a plurality of back surface cleaning units and a first main robot. The second processing block is provided with a plurality of end surface cleaning units, a plurality of top surface cleaning units and a second main robot. | 08-21-2008 |
20130180551 | Substrate Processing Apparatus - A substrate processing apparatus is composed of an indexer block, a first processing block and a second processing block that are provided in parallel with one another. The indexer block is provided with an indexer robot. The first processing block is provided with a plurality of back surface cleaning units and a first main robot. The second processing block is provided with a plurality of end surface cleaning units, a plurality of top surface cleaning units and a second main robot. | 07-18-2013 |
20130206185 | Substrate Processing Apparatus - A substrate processing apparatus is composed of an indexer block, a first processing block and a second processing block that are provided in parallel with one another. The indexer block is provided with an indexer robot. The first processing block is provided with a plurality of back surface cleaning units and a first main robot. The second processing block is provided with a plurality of end surface cleaning units, a plurality of top surface cleaning units and a second main robot. | 08-15-2013 |
20140202499 | SUBSTRATE PROCESSING METHOD - A substrate processing apparatus has an indexer block and a processing block. One side of the processing block has a vertical stack of a plurality of top surface cleaning units and the other side of the processing block has a vertical stack of a plurality of back surface cleaning units. Reversing units for reversing the substrate W are provided one above the other between the indexer block and the processing block. For example, one reversing unit is used for reversing the substrate before a back surface cleaning processing by the back surface cleaning unit or for other purposes, and the other reversing unit is used for placing the substrate W after a top surface cleaning processing by the top surface cleaning unit or for other purposes. | 07-24-2014 |
20140202501 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus has an indexer block and a processing block. One side of the processing block has a vertical stack of a plurality of top surface cleaning units and the other side of the processing block has a vertical stack of a plurality of back surface cleaning units. Reversing units for reversing the substrate W are provided one above the other between the indexer block and the processing block. For example, one reversing unit is used for reversing the substrate before a back surface cleaning processing by the back surface cleaning unit or for other purposes, and the other reversing unit is used for placing the substrate W after a top surface cleaning processing by the top surface cleaning unit or for other purposes. | 07-24-2014 |
Patent application number | Description | Published |
20110292136 | MAINTENANCE DEVICE, FLUID EJECTING APPARATUS AND MAINTENANCE METHOD - A printer includes a fluid ejecting head having a plurality of nozzles, an ink supply channel and a maintenance device. The maintenance device includes a pressure regulating mechanism configured to reduce the pressures in the interiors of the ink supply channels at a position of pressure reduction, and a tight cap being brought into abutment with the fluid ejecting head so that the nozzle openings of the nozzles which receives a supply of ink through flow channels which are subject to relatively small pressure losses first by priority according to the magnitudes of the pressure losses in the respective flow channels extending from the position of pressure reduction to the respective nozzles. | 12-01-2011 |
20110298865 | EJECTION LIQUID DRYNESS SUPPRESSING DEVICE, LIQUID EJECTING APPARATUS, AND EJECTION LIQUID DRYNESS SUPPRESSING METHOD - There is provided a nozzle contact unit capable of realizing a contact state, where a contact surface comes into close contact with a nozzle formation surface to block a plurality of nozzle openings, and a separated state, where the contact surface is separated from the nozzle formation surface. The nozzle contact unit separates the contact surface from the nozzle formation surface to sequentially open the nozzle openings preferentially from the nozzle opening of the nozzle with a shorter flow passage length of ink flowing from a supply port to the nozzle via a common ink chamber among the plurality of nozzle openings in a procedure from the contact state to the separated state. | 12-08-2011 |
20110298875 | MAINTENANCE APPARATUS, LIQUID EJECTING APPARATUS, AND MAINTENANCE METHOD - A maintenance apparatus that removes bubbles from a nozzle is provided in a printer that includes a recording head having a nozzle capable of ejecting ink from a nozzle opening formed in a nozzle formation surface. The maintenance apparatus includes: a pressurizing pump that pressurizes the ink in the nozzle in a direction in which the ink is discharged from the nozzle opening; and a contact member having an upper surface that makes contact with the nozzle formation surface so as to cover the nozzle opening, and that has, formed therein, a flow channel whose pressure loss is greater than that of the nozzle and that allows air to pass through from the side of the upper surface. The ink within the nozzle is pressurized by the pressurizing pump in a state in which the contact member is in contact with the nozzle formation surface. | 12-08-2011 |
Patent application number | Description | Published |
20100150617 | DEVELOPING ROLLER MANUFACTURING METHOD, DEVELOPING ROLLER, DEVELOPING DEVICE, AND IMAGE FORMING APPARATUS - A method of manufacturing a developing roller, including: a first rolling process for forming a first inclined groove which is continuous in a helical shape, by rotating a first die having blades inclined with respect to an axial direction and a circumferential direction, and a non-bladed die, and feeding an unprocessed developing roller between the first die and the non-bladed die; and a second rolling process for forming a second inclined groove which is continuous in a helical shape and intersects with the first inclined groove, by rotating a second die having blades inclined with respect to an axial direction and a circumferential direction in the direction opposite to that of the first die, and the non-bladed die in the same direction opposite to that in the first rolling process, and feeding the developing roller between the second die and the non-bladed die. | 06-17-2010 |
20100150618 | DEVELOPING ROLLER, DEVELOPING DEVICE, IMAGE FORMING APPARATUS, AND DEVELOPING ROLLER MANUFACTURING METHOD - A developing roller having a first inclined groove and a second inclined groove, which are continuous in a helical shape inclined with respect to an axial direction and a circumferential direction and which intersect with each other, formed in the surface thereof, wherein the first inclined groove and the second inclined groove have different groove depths. | 06-17-2010 |
20100150619 | DEVELOPMENT DEVICE AND IMAGE FORMING APPARATUS - Provided is a development device including: a development roller in which continuous spiraling inclined grooves having different inclinations with respect to an axial direction are formed so as to cross each other; and a feed roller which is in contact with the development roller and feeds toner to the development roller, wherein transportation force, which is used for transporting the toner on the development roller from one side to the other side of the axial direction of the development roller, is generated by the rotation of the feed roller. | 06-17-2010 |