Patent application number | Description | Published |
20090231658 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS - The present invention provides an optical scanning device that can suppress irregularity of the rotation of a polygon mirror and an image forming apparatus that is disposed with this optical scanning device. The optical scanning device includes: a rotating polygon mirror that rotates and deflects light that has been emitted from a light source; and a plate member that covers one surface of surfaces intersecting an axial direction of a rotating shaft of the rotating polygon mirror, wherein a projecting portion that projects in the axial direction of the rotating shaft away from the rotating polygon mirror is disposed in the plate member. | 09-17-2009 |
20100245939 | STRUCTURE FOR HOLDING OPTICAL COMPONENT, AND OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS INCLUDING THE SAME - A structure for holding an optical component, includes: first and second flat plate portions provided in a state where the portions stand on a base plate, opposed to each other in a state where the flat plate portions are coupled to each other, and constituting first and second hierarchies, respectively; first and second positioning portions that are provided at the first flat plate portion, and that determine positions of directions of first and second coordinate axes of first, second, and third coordinate axes that intersect with each other; a third positioning portion that is provided at the second flat plate portion, and that determines a position of a direction of the third coordinate axis of the first, second, and third coordinate axes that intersect with each other; and a holding portion coupled to the first flat plate portion or the second flat plate portion, and holding the optical component. | 09-30-2010 |
20120099161 | OPTICAL SCANNING DEVICE, IMAGE FORMING APPARATUS, AND OPTICAL SCANNING METHOD - An optical scanning device includes a housing, a light source that emits light, a rotatable polygon mirror that receives the light from the light source while rotating and deflects the light by reflecting the light in a direction corresponding to an angle of rotation thereof, a scanning optical system that guides the light from the rotatable polygon mirror to a scanning object in such a manner as to repeatedly scan the scanning object with the light, and an intermediate member that is provided between an optical member included in the scanning optical system and the housing. The intermediate member is connected to the optical member with rubber adhesive and is also connected to the housing with the rubber adhesive. | 04-26-2012 |
20120105563 | EXPOSURE DEVICE AND IMAGE FORMING APPARATUS - An exposure device includes light emitting elements, a driving circuit, an image-signal connector, a power connector, and an adjustment-control-signal connector. The light emitting elements emit light which an exposure target member is exposed to. The driving circuit performs one of first and second drive operations. The image-signal connector has terminals connected to core wires of an image-signal cable, and relays, to the driving circuit, image signals transmitted through the image-signal cable. In the image-signal cable, the core wires are arranged at a first pitch. The power connector has terminals arranged at a pitch wider than the first pitch, and relays, to the driving circuit, power transmitted through power cables. The adjustment-control-signal connector has terminals arranged at a pitch wider than the first pitch, and relays, to the driving circuit, light-amount adjustment control signals transmitted through adjustment-control-signal cables. | 05-03-2012 |
20120105569 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS - An optical scanning device includes a housing, a light source, a rotatable polygon mirror deflecting a light beam from the light source, a scanning optical system scanning a scanning object with the light beam from the polygon mirror, first and second reflective mirrors one of which is provided inside a deflection area, and a photodetector detecting the timing of scanning of the scanning object with the light beam from the one of the first and second reflective mirrors. The scanning object is one of first and second scanning objects. The housing includes first and second supports configured to support the first and second reflective mirrors at first and second positions, respectively, that are outside first and second scan-use areas, respectively. The first position is also inside the second scan-use area. The first and second scan-use areas are used for the scanning of the first and second scanning objects, respectively. | 05-03-2012 |
20120113485 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS - An optical scanning apparatus includes a light source, a rotating polygonal mirror, a scanning optical system, a detector, and a light emission controller. The light source includes plural light emitting elements. The rotating polygonal mirror is irradiated with light beams. While rotating, the rotating polygonal mirror reflects and deflects, in a deflecting direction, light beams emitted from light emitting elements in a first direction to propagate through one point in the deflecting direction substantially at the same time. The scanning optical system causes the reflected and deflected light beams to scan over an object. The detector detects the timing at which a light beam propagates through a detection point. When the light beams propagate through the detection point, the light emission controller causes light emitting elements in a row in the first direction other than light emitting elements at both ends of a projection plane to emit light. | 05-10-2012 |
20120114347 | IMAGE FORMING APPARATUS - An image forming apparatus includes a photosensitive member that rotates and is subjected to exposure so that a latent image is formed thereon, a driver that rotates the photosensitive member, an exposure section that exposes the photosensitive member by irradiating the photosensitive member with light, a light intensity adjustment section that receives a part of the light from the exposure section and adjusts intensity of the light irradiated by the exposure section, and an adjustment controller that causes the driver to start rotating the photosensitive member and causes the light intensity adjustment section to start adjusting the intensity of the light after a rotation speed of the photosensitive member exceeds a predetermined threshold value. | 05-10-2012 |
20150355569 | ROTATIONAL POSITION DETECTION DEVICE, IMAGE FORMING APPARATUS, AND NON-TRANSITORY COMPUTER READABLE MEDIUM STORING ROTATIONAL POSITION DETECTION PROGRAM - Provided is a rotational position detection device including a position detection unit that is provided in a motor for driving a developing roll developing a latent image, detects a rotational position of the motor by using magnetism, and outputs a rotational position signal for each rotational position determined in advance, and a generation unit that generates a reference signal indicating a reference position of rotation of the developing roll using the rotational position signal, based on a transmission ratio of a transmission mechanism that transmits driving of the motor to the developing roll. | 12-10-2015 |
Patent application number | Description | Published |
20110001852 | IMAGING APPARATUS AND CONTROL METHOD THEREOF - An imaging apparatus includes, an imaging unit configured to output an image signal of a captured object, a processing unit configured to perform a signal processing on the image signal, wherein the processing unit includes a cyclic noise reduction unit configured to reduce a noise of the image signal, a parameter change unit configured to change a parameter concerning at least one of an imaging by the imaging unit and the signal processing, and a coefficient change unit configured to change a cyclic coefficient of the cyclic noise reduction unit. | 01-06-2011 |
20120133806 | IMAGE PROCESSING APPARATUS HAVING LUMINANCE-TYPE GAMMA CORRECTION CIRCUIT CAPABLE OF CHANGING NONLINEAR CHARACTERISTIC, AND IMAGE PROCESSING METHOD THEREFOR - An image processing apparatus is provided in which, even if a nonlinear characteristic of a luminance-type gamma correction circuit for converting a luminance signal is changed, saturation with respect to a luminance output can be nearly constant. A signal amount of the luminance signal generated from image data that exceeds a previously defined threshold is calculated. A first nonlinear characteristic is selected from a plurality of nonlinear characteristics previously set depending on the calculated signal amount. Nonlinear conversation is performed on a signal generated from the image data to determine luminance with the selected first nonlinear characteristic. An output ratio of the first nonlinear characteristic to a second nonlinear characteristic is prepared and the second nonlinear characteristic is defined so that the output ratio is satisfied. Nonlinear conversion is performed on a signal that has been generated from the image data to determine saturation with the selected second nonlinear characteristic. | 05-31-2012 |
20140055666 | IMAGE CAPTURE APPARATUS AND METHOD OF CONTROLLING THE SAME - An image capture apparatus comprises an image capturing unit that captures an object image and outputs image data; a photometric value acquisition unit that acquires, from the image data, a first photometric value and a second photometric value different from the first photometric value; and an exposure change unit that changes exposure such that the first photometric value comes close to a target value, wherein the exposure change unit calculates a third photometric value based on the first photometric value, the target value, and the second photometric value and corrects the exposure in accordance with a difference between the third photometric value and a reference value. | 02-27-2014 |
Patent application number | Description | Published |
20080230255 | ELECTRODE PATTERN AND WIRE BONDING METHOD - An electrode pattern for wire-bonding includes: a wire-bonding reference pattern indicating a reference position for determination of a wire-bonding position; and a wire-bonding recognition pattern. The distance between the reference position and a wire-bonding metal portion bonded to the electrode pattern and the distance between the wire-bonding recognition pattern and the wire-bonding metal portion satisfy predetermined relationships. | 09-25-2008 |
20090022197 | SEMICONDUCTOR LIGHT-EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - Semiconductor laser elements are formed on a common substrate. Au plating is formed on principal surfaces of the other semiconductor laser elements. The semiconductor laser elements are mounted on a package with solder applied to the Au plating. Areas opposed to each other across a light-emitting area of each semiconductor laser element are designated first and second areas. Average thickness of the Au plating is different in the first and second areas of each semiconductor laser element. | 01-22-2009 |
20100093118 | METHOD OF MANUFACTURING SEMICONDUCTOR LIGHT-EMITTING DEVICE - Semiconductor laser elements are formed on a common substrate. Au plating is formed on principal surfaces of the semiconductor laser elements. The semiconductor laser elements are mounted on a package with solder applied to the Au plating. Areas opposed to each other across a light-emitting area of each semiconductor laser element are designated first and second areas. Average thickness of the Au plating is different in the first and second areas of each semiconductor laser element. | 04-15-2010 |
20110013655 | SEMICONDUCTOR LASER DEVICE - In a semiconductor laser device a dual wavelength semiconductor laser chip is joined onto a submount, junction down, to reduce built-in stress produced between the laser chip and the submount and to decrease polarization angles of the two respective lasers. SnAg solder is used to join the dual wavelength semiconductor laser chip onto the submount. When joining, with respect to each of the two lasers, a ratio of a distance between the center line of a waveguide and an end, placed at a lateral side of the laser chip, of a portion joining the laser chip and the submount, to a distance between the center line of the waveguide and another end, placed toward the center of the laser chip, of the portion joining the laser chip and the submount, falls within a range of 0.69 to 1.46. | 01-20-2011 |