| Patent application number | Description | Published |
|---|
| 20090086039 | Compound lens and camera comprising the same - A compound lens on which a plastic lens is formed on a glass lens, having:
| 04-02-2009 |
| 20090185279 | Image Pickup apparatus - An image pickup apparatus that comprises: an optical path splitting element; an optical system including a variable-optical-power element which is substantially immobile in an optical axis direction and a reflective surface; and an image pickup surface, the variable-optical-power element, the optical system, and the image pickup surface being arranged so that a ray from an object side is divided into two rays by the optical path splitting element, at least one of the rays enters the optical system, and is reflected by the reflective surface to return to the optical path splitting element, and the ray strikes on the image pickup surface via the optical path splitting element. | 07-23-2009 |
| 20090220224 | Optical system, finder optical system, relay type finder optical system, eyepiece optical system, and single-lens reflex camera - The invention concerns an optical system adapted to split an optical path from a taking optical system into a finder optical system, which has a camera-shake correction function best suited for the finder optical system, and so on. This optical system comprises a taking optical system and a finder optical system. The taking optical system comprises an optical path splitter means operable to split an optical path into the finder optical system, and the finder optical system includes a relay optical system RLS for re-forming a subject image once. Anti-shake is implemented by shifting an optical subsystem RL that forms a part of the finder optical system in a plane vertical to an optical axis. | 09-03-2009 |
| 20100157443 | Wide angle optical system and image pickup apparatus using the same - A wide angle optical system is formed by, in order from the object side, an aperture stop, a first lens with positive refracting power, a second lens with negative refracting power, and a third lens. Both surfaces of the third lens are an aspherical surface in which refracting power varies in accordance with distance from the optical axis in such a way that the both surfaces have a convex shape facing toward the object side in the vicinity of the optical axis and have a concave shape facing toward the object side in the vicinity of the outer circumference, and the following conditions (1) and (2) are satisfied: | 06-24-2010 |
| 20100238561 | Image forming optical system and electronic image pickup apparatus using with the same - There is provided a zoom lens with a wide angle of view at the wide angle end and a high zoom ratio that has good imaging performance throughout the entire zoom range with chromatic aberrations being corrected favorably. In a zoom lens including, in order from the object side to the image side, a first lens group having a positive refracting power, a second lens group having a negative refracting power, and an image side lens group having a positive refracting power, in which the distance between the first lens group and the second lens group changes during zooming, wherein a refractive optical element A that has a positive refracting power if its object side surface and its image side surface are interfaces with air is provided between an object side base optical element B and an image side base optical element C to constitute therewith a three-piece cemented optical element D in the first lens group, there is at least one optical element having a positive refracting power disposed closer to the object side than the three-piece cemented optical element D, and the zoom lens satisfies a certain condition. | 09-23-2010 |
| 20110102660 | Lens component, image forming optical system, and electronic image pickup apparatus using the same - A lens component of the present invention is made by cementing a lens LA and a lens LB having a refracting power smaller than a refracting power of the lens LA, and satisfies predetermined conditional expressions. Moreover, in an image forming optical system of the present invention which includes a lens group B having a negative refracting power, a lens group C having a positive refracting power and which moves only toward an object side at the time of zooming from a wide angle end to a telephoto end, and one or two more lens groups additionally, one of the lens components of the present invention is used in the lens group B. | 05-05-2011 |
| 20110228147 | Image pickup apparatus and camera - At least some of the pixels on which color filters that give the largest weight to a brightness signal or color filters that have the highest transmittance among the plurality of color filters are provided are pixels for focus detection that are designed in such a way that the direction of incidence of light beams incident thereon is restricted, the pixels other than the pixels for focus detection are pixels for image picking-up that are designed in such a way that the degree of restriction placed on light beams incident thereon is smaller than that placed on light beams incident on the pixels for focus detection, the pixels for focus detection output at least a signal for ranging, the pixels for image picking-up output at least a signal for an image, and there are at least three pixels for focus detection in an area defined between a circle having its center at the center of any one of the pixels for focus detection and having a radius equal to 3.1 times the pixel pitch and a circle having its center at the center of the aforementioned any one of the pixels for focus detection and having a radius equal to 5.9 times the pixel pitch. | 09-22-2011 |
| 20110249156 | Image pickup apparatus and camera - In an image pickup apparatus which includes a photoelectric conversion cell group in which, a plurality of photoelectric conversion cells which convert an optical image formed by an optical system to an electrical signal, are arranged two-dimensionally, at least some photoelectric conversion cells from among the plurality of photoelectric conversion cells are formed to output an image signal and a signal for ranging, and areas of a photoelectric conversion regions of photoelectric conversion cells which output the image signal, including the photoelectric conversion cells which output the image signal and the signal for ranging having the same spectral sensitivity of light received, in the photoelectric conversion cell group are substantially same, and the photoelectric conversion cells are arranged such that, for at least two photoelectric conversion cells which are necessary for ranging, a distance between centers of gravity of areas of the photoelectric conversion region of the photoelectric conversion cells which output the image signal and the signal for ranging differs from a distance between centers which is calculated from a pixel pitch. | 10-13-2011 |
| 20110279909 | Image forming optical system and electronic image pickup apparatus equipped with same - An image forming optical system includes in order from an object side to an image side, a first lens group having a positive refractive power, a second lens group having a negative refractive power, and an image-side lens group having a positive refractive power. A distance between the first lens group and the second lens group changes at the time of zooming. A refractive optical element A having a positive refractive power is positioned in the first lens group. The image forming optical system satisfies the following conditional expression (1-1), conditional expression (1-2), and conditional expression (2). | 11-17-2011 |
| 20110286104 | Image forming optical system and electronic image pickup apparatus using the same - A zoom lens including, in order from the object side to the image side, a first lens group including a positive refractive power, a second lens group having a negative refractive power, an image side lens group having a positive refractive power, wherein the distance between the first lens group and the second lens group changes during zooming, and a refractive optical element A, which has a positive refractive power when its object side surface and image side surface are exposed to air, is provided in the first lens group and located closest to the object side in the first lens group, and the refractive optical element A is cemented together with an optical element B. The Abbe constant νd and the relative partial dispersion θgF of the refractive optical element A satisfies certain conditions. | 11-24-2011 |
| 20110286109 | Image forming optical system and electronic image pickup apparatus using the same - A zoom lens including, in order from the object side to the image side, a first lens group having a positive refractive power, a second lens group having a negative refractive power, an image side lens group having a positive refractive power, wherein the distance between the first lens group and the second lens group changes during zooming, a refractive optical element A, which has a positive refractive power when its object side surface and image side surface are exposed to air, is provided in the first lens group and located closest to the object side in the first lens group, and the refractive optical element A is cemented together with an optical element B. The Abbe constant νd and the partial dispersion ratio θgF of the refractive optical element A satisfies certain conditions. | 11-24-2011 |
| 20110310280 | Image pickup apparatus - An image pickup element has a plurality of pixels which are arranged two-dimensionally. The plurality of pixels form at least two pixel sets having a first pixel set and a second pixel set. An exit pupil is assumed, and four divided areas which are separated by two straight lines which are mutually orthogonal in a plane which is orthogonal to an optical axis thereof, are set in the exit pupil. Pixels in the first pixel set are arranged to receive a light beam from a first pupil area for which, a center of gravity of area is in one of the four divided areas. For the optical axis, a center of gravity of area of a second pupil area is in a divided area which is symmetrical to a divided area in which the center of gravity of the first pupil area lies. Pixels in the second pixel set are arranged to receive a light beam having a center of gravity of area in the second pupil area. A signal from the first pixel set and a signal from the second pixel set are compared in at least one of directions of the two straight lines, and defocus information is acquired. | 12-22-2011 |
| 20110317042 | Image Pickup System - An image pickup system includes an image pickup apparatus in which, photoelectric conversion cells are arranged two-dimensionally, and at least some of the photoelectric conversion cells are arranged to output a signal for detecting an amount of defocus. The photoelectric conversion cells which output the signal for detecting the amount defocus form at least two photoelectric conversion cell groups, each receiving a light beam from a pupil area having different area. Each photoelectric conversion cell group has a plurality of photoelectric conversion cell columns. The image pickup system includes a calculating section which has an AF mode which generates a defocus signal by comparing mutually the signals for detecting the amount of defocus which have been output from the two photoelectric conversion cell groups, and a correction section which corrects the signal for detecting the amount of defocus, from information related to distortion of the taking lens. | 12-29-2011 |
| 20120026372 | Image pickup apparatus - An image pickup apparatus in which, a taking lens is installable or fixed, includes
| 02-02-2012 |
| 20120099006 | IMAGE PICKUP APPARATUS - An image pickup apparatus,includes a computing section which computes a defocus amount which has been estimated,a calculating section which calculates an accuracy of defocus detection, a setting section which sets a correction value from a result of the calculating section, a correcting section which corrects the correction value obtained from the result of the setting section, to reduce an absolute value of the defocus amount which has been estimated, a lens-drive amount calculating section which calculates a lens-drive amount based on a result from the correcting section, and a control section which, at the time of video photography, carries out focusing successively by using the defocus amount and the lens drive amount obtained from the computing section, the calculating section, the setting section, and the correcting section. | 04-26-2012 |
