Patent application number | Description | Published |
20090201406 | SOLID STATE IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - The invention is to reduce a color mixing resulting from influences of adjacent pixels. The invention provides a solid-state image pickup apparatus including plural pixels each including a PN junction area constituting a photoelectric conversion area, a floating diffusion area for holding a charge outputted from the PN junction area, an amplifying transistor for amplifying the charge in the floating diffusion area, and a wiring for connecting at least the floating diffusion area, a gate electrode of the amplifying transistor and a resetting MOS transistor, and a signal output line for outputting signals from the amplifying transistors, the apparatus including shield lines between the wiring of one pixel or the floating diffusion area and the wiring of one pixel and the signal output line of another adjacent pixel. | 08-13-2009 |
20110037884 | PHOTOELECTRIC CONVERSION DEVICE AND IMAGE PICKUP SYSTEM USING THE PHOTOELECTRIC CONVERSION DEVICE - It is a principle object of the present invention to reduce a voltage drop of a common power supply wiring in a plurality of amplification circuits to suppress crosstalk generated in other signal output lines. A photoelectric conversion device includes: a plurality of pixels each having a photoelectric conversion area; a plurality of signal output lines through which electrical signals are to be read out from the plurality of pixels; and a plurality of amplification circuits provided in correspondence to the plurality of signal output lines for amplifying the electrical signals, respectively, the plurality of amplification circuits including at least one constant current circuit portion and being disposed in a predetermined direction of repetitive dispersion, in which a constant current circuit portion includes at least a source grounded field effect transistor (the gate electrode is designated by reference symbol | 02-17-2011 |
20110102654 | IMAGE CAPTURE DEVICE HAVING AMPLIFICATION CIRCUIT FOR AMPLIFYING SIGNAL FROM PHOTOELECTRIC CONVERSION PORTION - An image capture device includes a plurality of image capture elements for capturing an object image, a plurality of vertical output lines for reading signals out of the plurality of image capture elements, and a plurality of processing circuits. Each processing circuit includes a first capacitor element having a first electrode connected to one of the plurality of vertical output lines, a differential amplifier having a first input terminal connected to a second electrode of the first capacitor element, a second capacitor element connected between the first input terminal and an output terminal of the differential amplifier, and a first switch configured to control conduction between the first input terminal and the output terminal of the differential amplifier. The image capture device further includes a plurality of third capacitor elements configured to hold signals from the differential amplifiers of the plurality of processing circuits and to limit an output frequency band of each differential amplifier, and a horizontal output line for sequentially outputting signals from the plurality of third capacitor elements. | 05-05-2011 |
20110169996 | IMAGE PICK-UP APPARATUS AND IMAGE PICK-UP SYSTEM - An output level difference in the case of using a joint line as a boundary, a bright line, a black bar, or the like is suppressed. A solid-state image pick-up apparatus in which, on a substrate having a plurality of photoelectric converting areas (photodiodes), a solid-state image pick-up element provided with at least one pattern layer formed by divisional exposure and a lens for introducing light into the plurality of photoelectric converting areas of the solid-state image pick-up element are formed. By setting a center of an optical axis of the lens to an approximate joint position between the pattern layers where the pattern layers have been joined by the divisional exposure, the output level difference of a pixel output of the solid-state image pick-up element on the right and left sides of the joint position is suppressed. | 07-14-2011 |
Patent application number | Description | Published |
20100285707 | OUTBOARD ENGINE UNIT - Exhaust passage system in an outboard engine unit includes: an engine-side exhaust pipe; a downstream exhaust pipe for directing exhaust gas downstream from the engine-side exhaust pipe, a lower end portion of the engine-side exhaust pipe and an upper end portion of the downstream exhaust pipe being positioned in horizontally parallel to each other and horizontally overlap each other so as to provide fluid communication therebetween via a through-hole formed in the overlapping portions of the end portions; and a vertical partition wall provided, in an upper end region of the overlapping portions for hampering back-flows of fluid. | 11-11-2010 |
20110294372 | OUTBOARD MOTOR - An outboard motor in which exhaust of an engine is emitted into water via an exhaust passage. The outboard motor comprises a throttle valve connected to an air intake port of the engine via an air intake manifold, a control motor for driving the throttle valve to open and close, and a controller for controlling the control motor. The controller controls the control motor such that the throttle valve fully closes when a determination is made that reverse rotation is occurring in the engine. The exhaust passage is communicated with the air intake manifold via a communication passage. A communication valve which opens only when reverse rotation is occurring in the engine is located at a portion where the communication passage and the air intake manifold connect. | 12-01-2011 |
20130143032 | Rust-Preventive Coating - A rust-preventive coating comprises two layers of coatings contacted with each other, wherein among the two layers of coatings, a first coating as a coating at an inner layer side is obtained from a first paint composition that contains a first metal-based powder and a first binder component, among the two layers of coatings, a second coating as a coating at an outer layer side is obtained from a second paint composition that contains a second metal-based powder and a second binder component, and compositions are different between the first metal-based powder and the second metal-based powder. | 06-06-2013 |
20130143034 | Rust-Preventive Coating - A rust-preventive coating comprises a zinc-containing coating obtained by heating a liquid layer comprising a zinc-containing inorganic-based paint that contains: an inorganic binder including an organic silicon compound and an organic titanate compound; and a metal-based powder, wherein the metal-based powder comprises aluminum-based powder and zinc-based powder, and this aluminum-based powder is such that a particle size D50 when a percent passing by weight is 50% in a particle-size accumulation curve is 10 μm or more and 20 μm or less, a leafing value is 70% or more, and a mass ratio to the metal-based powder is 10 mass % or more and 40 mass % or less. | 06-06-2013 |
20140158101 | BLOW-BY GAS PROCESSING CIRCUIT FOR INTERNAL COMBUSTION ENGINE - A blow-by gas processing circuit for an internal combustion engine includes a blow-by gas lead-out pipe uprising from the engine and extending along one side surface of an air cleaner, an upper pipe bending laterally from an upper end of the lead-out pipe and extending along the one side surface, a descending pipe bending downward from an extremity portion of the upper pipe and extending along the one side surface to reach a purification completion chamber of the cleaner, a branch pipe branching downward from an intermediate portion of the upper pipe and connected to a blow-by gas outlet port opened to an intake passage penetrating an insulator member, and a control valve placed in an upper portion of the branch pipe and opening responding to a rise in boost negative pressure of the engine. | 06-12-2014 |