Patent application number | Description | Published |
20090040908 | OPTICAL PICKUP AND OPTICAL INFORMATION PROCESSING APPARATUS - An optical pickup performing recording, reproduction and deletion of information on or from an optical recording medium. The pickup includes light sources for information recording media using a blue wavelength beam, information recording media of DVD family and information recording media of CD family. A single object lens may be used to condense light from any of the light sources. A single aberration correction device may be disposed in a common light path between each of the light sources and the object lens. | 02-12-2009 |
20090231981 | OPTICAL PICKUP AND OPTICAL DATA PROCESSING DEVICE USING THE SAME - An optical pickup including a light source, a light focus device, a diffraction element, an optical split element, a ¼ wavelength board, a light reception device and a correction element wherein the correction element is divided into multiple areas in a surface vertical to an optical axis, each area of the multiple areas has a sub-wavelength convexo-concave structure having a pitch equal to or shorter than a wavelength of the outgoing light beam and the sub-wavelength convexo-concave structures of the multiple areas adjacent to each other have groove directions perpendicular to each other, and the filling factors of adjacent areas of the multiple areas are determined to substantially equalize effective refractive indices with regard to the polarization direction of the outgoing beam emitted from the light source and impart a phase difference of π with regard to a polarization direction perpendicular to the polarization direction of the outgoing beam. | 09-17-2009 |
20090231982 | OPTICAL PICKUP AND OPTICAL DATA PROCESSING DEVICE USING THE SAME - An optical pickup including a light source, two light focus devices, a light reception device, a polarization selective light path splitting device, a polarization switching device, a first diffraction element including a periodic structure including two kinds of sub-wavelength convexo-concave structures while the two kinds of sub-wavelength convexo-concave structures alternately arranged at right angles to each other, and the filling factors of the two kinds of sub-wavelength convexo-concave structures are determined to substantially equalize effective refractive indices of the two kinds of sub-wavelength convexo-concave structures with regard to the polarization direction of the outgoing light beam, and the second diffraction element having a structure similar to that of the first diffraction element except that the filling factors are determined to substantially equalize effective refractive indices of the two kinds of sub-wavelength convexo-concave structures with regard to a polarization direction perpendicular to the polarization direction of the outgoing light beam. | 09-17-2009 |
20090315993 | IMAGE PICKUP AND METHOD OF DETECTING ROAD STATUS - An image pickup including a lens array having a substrate on which multiple lenses are provided; a filter including at least two polarizer areas with respective perpendicular axes which are separated according to beams of light which have passed through the respective lenses of the lens array; an image pickup unit including multiple image pickup areas that shoots images of an object by receiving the beams of light which have passed through the respective corresponding polarizer areas of the filter; a signal processing unit that processes image signals of the images of the object shot in the multiple image pickup areas of the image pickup unit, wherein a vertical polarization image is shot at one of the image pickup areas and a horizontal polarization image is shot at another image pickup area, and wherein the signal processing unit produces an image according to the polarization ratio of the vertical polarization image to the horizontal polarization image shot in the image pickup unit. | 12-24-2009 |
20090316025 | IMAGE PICKUP - An image pickup including a light emission portion that irradiates an object with near infrared; and an image pickup portion that receives a reflection light image of the object by the near infrared. The image pickup portion includes a lens array containing a substrate on which multiple lenses to respectively receive the reflection light image of the object by the near infrared are arranged; a light shield spacer that shields beams of light that have passed through the lens array from each other; a color filter separated into areas according to beams of light that pass through the light shield spacer, each of which transmits only particular beams of near infrared depending on the wavelengths thereof; and an image pickup element that simultaneously obtains multiple images of the object which are formed of each of the particular beams of near infrared having independent wavelengths that have passed through each of the areas of the color filter. | 12-24-2009 |
20100020401 | WAVELENGTH SELECTION FILTER, FILTER UNIT, LIGHT SOURCE DEVICE, OPTICAL APPARATUS, AND REFRACTIVE INDEX SENSOR - A wavelength selection filter selectively resonating and reflecting light of a given wavelength contained in incident light, includes a substrate having a rectangular waveform concave and convex structure which is formed on a plane on which the incident light falls incident, the concave and convex structure including convex portions and concave portions which are arranged in one axial direction and a multilayer structure including a first layer and a second layer respectively coating one and the other one of side surfaces, in the one axial direction, of each of convex portions of the concave and convex structure. A refractive index of the first layer and a refractive index of the second layer are both higher than a refractive index of the substrate. | 01-28-2010 |
20130208120 | ATTACHED MATTER DETECTOR AND IN-VEHICLE DEVICE CONTROLLER USING THE SAME - An attached matter detector includes a light source; an imager receiving transmitted light from a predetermined imaging region on a light-receiving region for an imaging region and imaging an image of the imaging region, and receiving reflected light on a light-receiving region for attached matter detection when light from the light source is reflected by attached matter and imaging an image of the attached matter; a parameter calculator of an image for an attached matter image region calculating a parameter of an image for an attached matter image region as information of an image region of the attached matter; a parameter calculator of an image for an imaging region calculating a parameter of an image for an imaging region as information of the imaging region; and an output device of an attached matter state signal outputting a signal showing a state of the attached matter based on the calculated parameters. | 08-15-2013 |
20140270532 | ATTACHED MATTER DETECTOR AND VEHICLE EQUIPMENT CONTROL APPARATUS - An attached matter detector includes a light source configured to irradiate light toward a plate-like transparent member from one surface thereof, an imaging device configured to image reflection light by attached matter on a surface of the plate-like transparent member, a memory configured to previously store flare information obtained by the image device by turning on the light source in a state without having disturbance light and the attached matter on the surface of the plate-like transparent member, and a difference information-obtaining device configured to obtain difference information between a light-up image as an image obtained by the imaging device with the turned-on light source and a light-out image as an image obtained by the imaging device with the turned-off light source, wherein the attached matter on the surface of the plate-like transparent member is detected based on the difference information and the flare information stored in the memory. | 09-18-2014 |
20150054954 | IMAGING UNIT AND METHOD FOR INSTALLING THE SAME - An imaging unit includes a light source, an imaging element to receive a light having entered an outer surface of the transparent plate-like member from a predetermined imaging area and transmitted through the transparent plate-like member and a light from the light source reflected by an attached matter on the outer surface, to capture an image of the predetermined imaging area and that of the attached matter, a mirror module fixed on the internal surface of the transparent plate-like member to fixedly support a reflective mirror to reflect the light from the light source, an imaging module to fixedly support the light source and the imaging element, fixed relative to the internal surface of the transparent plate-like member so that the imaging element captures an image in a certain direction, and a positioning mechanism to determine relative positions of the mirror module and the imaging module. | 02-26-2015 |
Patent application number | Description | Published |
20110007485 | ELECTRONIC APPARATUS - A conductive chassis plate faces a printed circuit board at a distance. One end of the conductive chassis plate is aligned with one end of the printed circuit board. One end of the conductive chassis plate is electrically connected to a ground wiring pattern provided on one end of the printed circuit board. One end of the conductive chassis plate is electrically connected to a conductive member that extends from one end of the conductive chassis plate toward the other end. As a result, in transmitting or receiving a signal with respect to external equipment attached to a connector, an influence of electrostatic discharge is reduced with a simple configuration. | 01-13-2011 |
20120159411 | DESIGN SUPPORT APPARATUS AND INFORMATION PROCESSING METHOD THEREOF - Layout information indicating a layout of circuits on a print circuit board is obtained. With reference to the layout information, a connection portion, which electrically connects a ground pattern of the print circuit board and an external ground of the print circuit board, is specified, and a pin, which is included in a connector laid out on the print circuit board and is connected to the ground pattern, is identified. Then, a discharge route between the pin and connection portion is determined. | 06-21-2012 |
20150049370 | IMAGE FORMING APPARATUS - An image forming apparatus which suppresses the degradation of an image signal originating in ESD with a simple configuration is provided. An original feeder unit is supported openably and closably by a hinge mechanism fixed on a bottom member of an image reading unit. An image sensor substrate of an image reading unit and an image processing substrate of an image forming unit are connected by a cable. An electrically conductive connecting portion electrically connects a bottom member of the image reading unit with a casing of the image forming unit, and is arranged along the cable. The bottom member has a notch formed therein, the connecting portion is fixed to the bottom member so as to extend over the notch, and the cable is arranged so as to pass through an opening portion thereby formed in a direction from above to below of the bottom member. | 02-19-2015 |
Patent application number | Description | Published |
20140113173 | SEPARATOR HAVING HEAT-RESISTANT INSULATING LAYER AND ELECTRIC DEVICE COMPRISING THE SAME - A separator having a heat-resistant insulating layer of the present invention includes a porous resin base layer and a heat-resistant insulating layer which is formed on one or both sides of the porous resin base layer and contains inorganic particles and a binder. The porous resin base layer contains a resin having a melting temperature of 120° C. to 200° C. The separator is configured so that the ratio of the basis weight of the heat-resistant insulating layer to the basis weight of the porous resin base layer is not less than 0.5. Accordingly, the separator having a heat-resistant insulating layer of the present invention exhibits excellent thermal shrinkage resistance while ensuring a shutdown function. | 04-24-2014 |
20140113176 | SEPARATOR HAVING HEAT RESISTANT INSULATION LAYERS - A separator ( | 04-24-2014 |
20140242443 | SEPARATOR WITH HEAT-RESISTANT INSULATION LAYER - A separator with a heat-resistant insulation layer for an electric device includes a resin porous substrate and a heat-resistant insulation layer containing heat-resistant particles and a binder, the heat-resistant insulation layer being formed on at least one surface of the resin porous substrate. The heat-resistant particles contain alumina and a parameter X is 0.018 to 0.336. Parameter X is represented by X=C | 08-28-2014 |
20140287295 | SEPARATOR WITH HEAT RESISTANT INSULATION LAYER - A separator with a heat resistant insulation layer includes a porous substrate, and a heat resistant insulation layer formed on one surface or both surfaces of the porous substrate and containing at least one kind of inorganic particles and at least one kind of a binder, wherein a content mass ratio of the inorganic particles to the binder in the heat resistant insulation layer is in a range from 99:1 to 85:15, a BET specific surface area of the inorganic particles is in a range from 3 m | 09-25-2014 |
Patent application number | Description | Published |
20090278301 | RECORDING APPARATUS - A recording apparatus is capable of reliably correcting skew feeding of a recording sheet in an arrangement for conveying the recording sheet absorbed by a belt surface. The recording apparatus includes: a driving roller for driving the conveying belt wound around the driving roller and electrically charging the conveying belt by application of a voltage; and a pinching roller abutting against the driving roller via the conveying belt. A pinching section, which is formed by the driving roller and the pinching roller, corrects skew feeding of the recording sheet fed from the paper feed section and thereafter the voltage is applied to the driving roller to electrically charge the conveying belt. | 11-12-2009 |
20110134201 | CONVEYING MECHANISM AND RECORDING APPARATUS INCLUDING THE SAME - Provided is a recording medium conveying mechanism including an endless center conveying belt and endless side conveying belts, the endless center conveying belt and the endless side conveying belts being looped over a driving roller to be driven by a motor, a driven roller and a tension roller. The center conveying belt is positioned in a center in a width direction of a recording medium to be conveyed, and the side conveying belts are positioned on opposite sides in a width direction of the center conveying belt, respectively. The center conveying belt includes a material with a high elastic modulus while the side conveying belts include a material with a low elastic modulus, and a biasing member for providing a tension to the center conveying belt and the side conveying belts is provided on a shaft of the tension roller. | 06-09-2011 |
20110141213 | INK JET RECORDING APPARATUS - An ink jet recording apparatus capable of landing an ink drop on an exact position on a recording medium is provided. An ink jet recording apparatus performs recording on a recording medium A which has been subjected to application processing with a pretreatment liquid. The ink jet recording apparatus has an electrostatic belt which has a resistance layer formed on the surface thereof, and a power feed roller which imparts charges to the surface of the electrostatic belt. The recording head discharges ink to the surface of the recording medium when the back of the recording medium comes into contact with the surface of the electrostatic belt to which the charges have been imparted. | 06-16-2011 |
20110261130 | PRINTING APPARATUS - A printing apparatus is provided which can prevent foreign matters such as ink adhering to the surface of the conveying belt from getting transferred to other constitutional components. When the conveying belt is rotating in one direction, the foreign matters adhering to the surface of the conveying belt is removed by the wiper. When the conveying belt rotates a predetermined distance in the opposite direction, the pinch roller, the electric charge removing roller and the electric charge supply roller that are in contact with the belt surface are disengaged from the surface of the conveying belt. The predetermined distance is set equal to a rotating distance that the conveying belt rotates until a portion of the surface of the conveying belt, which was in contact with the wiper, comes into contact with the pinch roller, the electric charge removing roller and the electric charge supply roller. | 10-27-2011 |
20120154472 | INKJET PRINTING APPARATUS AND INK DISCHARGE CONTROL METHOD - In an inkjet printing apparatus, a printing medium is conveyed in a conveying direction by causing the printing medium to adsorb to the surface of the endless belt by electrostatic force. When print, the surface potential of the printing medium directly below the printing head is acquired. The discharge speed of the ink that has been associated in advance with the acquired surface potential is obtained, and an amount of variation in the landing position of the ink is determined based on the scanning speed of the printing head, the distance from the printing head to the printing medium, and the discharge speed of the ink. The timing of discharge of ink from the printing head is corrected to cancel out the determined amount of variation, and printing is performed based on image data in accordance with the corrected timing. | 06-21-2012 |
20130001859 | SHEET CONVEYING APPARATUS, PRINTING APPARATUS, AND PROCESSING APPARATUS - Even in printing apparatus that make use of a plurality of kinds of sheets, the degradation of image quality is reduced. A sheet conveying apparatus includes: a sheet stacking unit; a sheet conveying unit being in contact with the sheet stacked on an uppermost portion, of the stacked sheets, and conveying the sheet; a separation unit separating the sheets into only one sheet of the uppermost portion by a separation slope that abuts a tip portion of the sheet conveyed by the sheet conveying unit; and a guide unit connected to the separation unit and guiding the sheet, in which an angle between the sheet stacking unit and the separation slope is switched to a first angle and a second angle smaller than the first angle by a rotation center of the separation unit provided in a vicinity of a connection portion of the separation unit and the guide unit. | 01-03-2013 |