Class / Patent application number | Description | Number of patent applications / Date published |
359718000 | Having one component | 35 |
20080225409 | Wide Band Achromatic Visible to Near-Infrared Lens Design - A lens design comprising a positive lens made of barium fluoride crystal material and a negative lens element made of glass with dispersive properties common to the family of Schott type materials enabling an object to be imaged with superior chromatic aberration correction in the spectral range extending from the visible to the near-infrared region of the electromagnetic spectrum. The achromatic lens design as described has negligible residual and higher order chromatic aberration throughout the visible, the near-infrared or simultaneously both the visible and near-infrared regions of the electromagnetic spectrum. | 09-18-2008 |
20090046379 | Laminated optical element - Disclosed herein is a reliable laminated optical element that is a hybrid optical element obtained by laminating an optical resin layer on an optical substrate such as a glass substrate, the optical resin layer being less likely to be separated from the optical substrate even under high temperature and high humidity conditions. | 02-19-2009 |
20090052056 | OPTICAL ELEMENT MOLDING METHOD AND OPTICAL ELEMENT - A molding material is heated and pressed plural times when molded is an optical element having a radius of curvature smaller than a radius of a sphere having the same volume as the optical element. When such an optical element is molded, a closed space is formed between a molding material and a transfer surface of a mold in a state where the molding material is placed thereon. Thus, an appearance defect such as a recess is easily generated on the molded optical element. However, since the molding material is molded plural times, it is possible to place the molding materials on the transfer surfaces of the molds after a size of the closed space is adjusted so as not to generate the appearance defect prior to each heating/pressing process. Thereby, it is possible to suppress generation of an appearance defect in the molded optical element. | 02-26-2009 |
20090091848 | Two-Lens Type Optical Lens System for Taking Image - A two-lens type optical lens system for taking image comprises two lens elements with refractive power, from the object side: a positive first lens element with a convex object-side surface and a concave image-side surface, both the object-side surface and the image-side surface of the first lens element being aspheric; a positive second lens element with a concave object-side surface and a convex image-side surface, both the object-side surface and the image-side surface of the second lens element being aspheric, and an aperture stop located in front of the first lens element. A focal length of the first lens element is f1, a focal length of the second lens element is f2, a focal length of the optical lens system is f, a radius of curvature of the object-side surface of the second lens element is R3, and they satisfy the relations: f/f1>0.9; (f1/f1)−(f/f2)>0.35; and 1/R3<−0.01 mm | 04-09-2009 |
20090153983 | Imaging lens unit and camera module - An imaging lens unit includes, from an object side, a diaphragm, a first lens, and a second lens placed on an image side of the first lens. The first lens is a positive meniscus lens convex toward the object side, and at least one side of the first lens has an aspherical surface. The second lens is a meniscus lens convex toward the image side, and at least one side of the second lens has an aspherical surface. Further, a maximum value of an angle between a tangent to a surface on the image side of the second lens and a normal to an optical axis is in a range of 65° to 90° within an effective diameter of the second lens. | 06-18-2009 |
20100014170 | Rectangular Optical Glass Lens and Manufacturing Method Thereof - A rectangular optical glass lens and a manufacturing method thereof are disclosed. A rectangular glass blank is put between an upper mold and a lower mold of a multi-cavity mold and then being heated and pressured. The rectangular glass blank is molded into a lens sheet having a plurality of optical surfaces and the lens sheet is cut to form a plurality of rectangular optical glass lenses. The rectangular optical glass lens produced by such method includes two optical surfaces working as optical areas and a rectangle circumference on non-optical area surrounding the optical surface. The circumference is a rectangular part with four right angles on each corner while the right angles as well as the rectangular shape are formed by cutting of the lens sheet. Thus the manufacturing method of rectangular optical glass lenses are simplified and the produced lens is assembled with a lens module conveniently. | 01-21-2010 |
20100060997 | Illumination lens and endoscope illuminating optical system - An endoscope illuminating optical system includes an illumination lens having a positive power. Illumination light rays parallel to each other emitted from an optical fiber bundle enter an incident surface of the illumination lens. The incident surface of the illumination lens is aspherical, and has a reference position vertical to the optical axis. The reference position is the most projecting portion on the incident surface. A shape of the incident surface is expressed by an equation of D=F(H). “H” is a height from the optical axis (0≦H≦Hmax), and “D” is a depth from a reference plane. The reference plane is vertical to the optical axis. The reference position is on the reference plane. A first-order differential value of the function F(H) is more than 0, and a second-order differential value of the function F(H) is 0 at a particular height Hi (003-11-2010 | |
20100060998 | Microchip - A microchip, including two resin substrates, wherein a groove serving as a channel is formed on a surface of at least one of the two resin substrates, and the surfaces of the two resin substrates are adhered to each other, and the surface carrying the formed groove faces an inner side of the two adhered resin substrates, the microchip is characterized in that a portion of at least one of the two resin substrates structures a portion of a condenser lens to focus light rays, coming from an external section, onto a predetermined position in the groove. | 03-11-2010 |
20100079875 | Optical Lens Component - An optical lens component comprises a fixed diaphragm, a lens group and a filter. The lens group comprises a first, a second and a third lens which is coaxial and arranged successively from object to image. The fixed diaphragm is located on the front of the first lens and the filter is located on the back of the third lens. The first lens comprises a first surface and a second surface; the second lens comprises a third surface and a fourth surface; and the third lens comprises a fifth surface and a sixth surface. The above six surfaces are all aspheric surfaces. | 04-01-2010 |
20100165486 | Imaging Lens - An imaging lens of which optical performance does not deteriorate even in a high temperature environment, various aberrations are well corrected, optical length is short, and back focus is sufficiently secured; the imaging lens comprising: an aperture stop S; and a junction type compound lens | 07-01-2010 |
20100290133 | OPTICAL SYSTEM AND OPTICAL EQUIPMENT INCLUDING THE SAME - Provided is an optical system with an excellent anti-reflection effect and ghost suppression effect including an aspherical lens having at least one of an incident surface and an exiting surface of an optical glass formed of an aspherical surface, in which: the aspherical surface includes an anti-reflection structure formed thereon, the anti-reflection structure having an anti-reflection function and including multiple inorganic structural parts finer than a used wavelength; and the aspherical surface has a point that satisfies the following expression: |(1/Rm−1/Rs)/Rm|>5.0×10 | 11-18-2010 |
20110026139 | SINGLE-LENS OPTICAL SYSTEM - A single-lens optical system including a stop and a lens sequentially arranged from an object side, and reducing distortion by controlling a distance between the stop and the lens. | 02-03-2011 |
20110181963 | Imaging Lens and Camera Module - Provided is an imaging lens and a camera module, the device including in an orderly way from an object side, a first lens with positive (+) refractive power; a second lens with negative (−) refractive power; a third lens with negative (−) refractive power; a fourth lens with negative (−) refractive power; and a fifth lens with negative (−) refractive power, wherein the lens is concavely formed at an object side surface. | 07-28-2011 |
20110181964 | MAGNIFYING GLASS - A magnifying glass has an eye-side aspherical biconvex-lens and an object-side meniscus lens, the concave lens surface of which faces a field of vision. This produces a magnifying glass, which is flexible to use and at the same time is not complex in its design. | 07-28-2011 |
20110255177 | IMAGING LENS - A concave surface is formed on an object side of a plastic lens of a one-piece construction, and a convex surface is formed on an image-point side thereof. The concave and convex surfaces are aspherical. A diffractive optical surface that exerts a chromatic dispersion ability is formed on the convex surface, and conditional expressions (1) and (2) below are met. | 10-20-2011 |
20120019934 | LENS AND LIGHT EMITTING APPARATUS HAVING THE SAME - Provided is a lens. The lens may include a lens body having a convex top surface having a first recessed part at a central portion thereof and a flat surface at a circumference thereof and a flat bottom surface having a second recessed part at a central portion thereof, and a plurality of lens supports on the bottom surface of the lens body. | 01-26-2012 |
20120044586 | PROJECTION APPARATUS - A projection apparatus includes an illumination system providing an illumination light beam, a light valve disposed in a transmission path of the illumination light beam and converting the illumination light beam into an image light beam, a projection lens disposed in a transmission path of the image light beam, a first field lens, and a second field lens. The first field lens and the second field lens are disposed between the light valve and the projection lens and in the transmission paths of the illumination light beam and the image light beam. The first field lens is a positive meniscus lens with a first concave surface facing the projection lens. The second field lens is a positive meniscus lens with a second concave surface adjacent to the first field lens. The projection apparatus is capable of reducing a ghost image. | 02-23-2012 |
20120075725 | Lens And Applications Thereof - The present invention, in some embodiments, provides a low distortion singlet lens and optical imaging apparatus including the same. | 03-29-2012 |
20120320466 | Lens Device and Method of Manufacturing the Same - A lens device and a method of manufacturing the same are provided, wherein the lens device includes a transparent substrate, a metal layer, a hydrophobic layer and an aspherical lens. The metal layer is formed on the transparent substrate, and the hydrophobic layer is formed on the metal layer. The metal layer has a first opening, such that an area of the transparent substrate corresponding to the first opening is not covered by the metal layer. The hydrophobic layer has a second opening connected to the first opening, and the second opening is larger than the first opening, such that a portion of the metal layer adjacent to a peripheral edge of the first opening is not covered by the hydrophobic layer. The aspherical lens is formed on the area of the transparent substrate and contacts the portion of the metal layer. | 12-20-2012 |
20130063828 | IMAGING LENS - A junction type compound lens using glass and resin is used. By properly controlling the difference between refractive indices and the difference between Abbe numbers of the resin and glass, interface reflection that occurs when a ray with a large incidence angle is incident is restricted, and generation of a flare or a ghost image is restricted. Further, by properly controlling the difference in refractive index and the difference in Abbe number, various aberrations, such as spherical aberration, field curvature, and chromatic aberration, which may deteriorate optical performance, can be corrected. Thus, a small and high-performance imaging lens can be provided. | 03-14-2013 |
20130188267 | Multi-Layer Polymer Lens And Method Of Making Same - A multi-layered lens having a substrate with opposing first and second surfaces. The substrate is formed of a plurality of discreet polymer layers. A cavity is formed into the first surface and is defined by a non-planar cavity surface that acts as a lens surface. The cavity extends into and exposes each of the plurality of polymer layers. The compositions of the polymer layers can vary to provide optimized focal properties. Alignment marks in the form of cavities or protrusions can be formed at the first surface or the second surface, so that multiple lenses can be stacked together in an aligned manner to form a stacked lens assembly. | 07-25-2013 |
20130235477 | ASPHERIC SURFACE MEASURING METHOD, ASPHERIC SURFACE MEASURING APPARATUS, OPTICAL ELEMENT PRODUCING APPARATUS AND OPTICAL ELEMENT - The method includes: measuring a first wavefront of a reference light on a sensor by using the sensor; calculating a second wavefront of the reference light on the sensor by using a parameter of an optical system; changing an optical system parameter in calculation such that a difference between rotationally symmetric components of the first and second wavefronts becomes smaller; calculating, by using the changed parameter, a magnification distribution of rays of the reference light between on the sensor and on a sensor conjugate surface; measuring a first ray angle distribution of the reference light by using the sensor, and measuring a second ray angle distribution of a measurement light by using the light-receiving sensor. The method calculates the profile of the measurement object aspheric surface by using the profile of the reference aspheric surface, the first and second ray angle distributions and the magnification distribution. | 09-12-2013 |
20130235478 | ASPHERIC SURFACE MEASURING METHOD, ASPHERIC SURFACE MEASURING APPARATUS, OPTICAL ELEMENT PRODUCING APPARATUS AND OPTICAL ELEMENT - The method for measuring profile of an aspheric surface projects an illumination light onto the aspheric surface and introduces a reflected light reflected by the aspheric surface to a sensor through an optical system. The method provides, to a wavefront of the illumination light, a curvature bringing an absolute value of an angle of the reflected light to a smaller value than a maximum value of absolute values of angles of optical system side peripheral rays, locates an exit pupil such that the absolute value of the reflected light angle is smaller than the maximum value, provides, to a sensor conjugate surface, a curvature and a position causing rays of the reflected light not to intersect on the sensor conjugate surface. The sensor conjugate surface, the wavefront of the illumination light and the aspheric surface have a same one of convex and concave surfaces toward a same direction. | 09-12-2013 |
20150323708 | CEMENTED LENS AND LENS UNIT - A cemented lens may include a first lens with a concave surface and a second lens with a convex surface. The concave surface of the first lens may be cemented to the convex surface of the second lens using an adhesive. The first lens may include an outer peripheral region. The second lens may include an outer peripheral region. An outer peripheral region on one side of the first lens side outer peripheral region and the second lens side outer peripheral region may include a protruded part. The first lens side outer peripheral region may include a recessed part which is extended in a circumferential direction so as to surround the lens face of the first lens. | 11-12-2015 |
20150378066 | OPTICAL LENS, LENS UNIT, IMAGING MODULE, ELECTRONIC DEVICE, OPTICAL LENS PRODUCTION METHOD, LENS MOLD, AND SHAPE CORRECTION METHOD FOR LENS MOLD - An optical lens | 12-31-2015 |
20160047950 | DISPLAY DEVICE - A display device includes a base, a display panel, a lens member, and a cover. The base includes a bottom plate and a sidewall perpendicularly extending from peripheral edges of the bottom plate. The sidewall includes an inner surface and an opposing outer surface. The display panel is received in the base and attached to the bottom plate. A gap is formed between the display panel and the inner surface. The lens member is attached to the inner surface and covers portions of the bottom plate corresponding to the gap. The lens member includes a bottom surface, an opposing light output surface, a first side surface, and an opposing second side surface. The first and second side surfaces are interconnected between the bottom surface and the light output surface. Striped protrusions are formed on the light output surface. The cover is supported on the base. | 02-18-2016 |
359719000 | Objective for laser (e.g., optical disc, etc.) | 9 |
20090009886 | OPTICAL PICKUP AND OPTICAL DISK DEVICE HAVING THIS PICKUP - An optical pickup according to the present invention includes a plurality of light sources for emitting a plurality of light beams including first and second light beams of respectively different wavelengths, an objective lens for converging the plurality of light beams, and a grating structure shaped axisymmetrically with respect to the optical axis of the objective lens. P | 01-08-2009 |
20100195220 | Optical pickup lens - An optical pickup lens for focusing a light beam from a laser light source on an optical information recording medium is a single lens. The optical pickup lens has two surfaces, and a surface R | 08-05-2010 |
20100254026 | OBJECT LENS - An object lens for an optical disk may include an aspherical lens surface, and an aspherical equation, which may be applied to form the aspherical lens surface may include two 2nd order function terms. Accordingly, a lens, which has a high numerical aperture (NA) and also has a small flexure on a lens surface or aberration, is provided. | 10-07-2010 |
20110013291 | OPTICAL PICKUP LENS - An optical pickup lens for focusing a light beam from a laser light source on an optical information recording medium is a single lens. The optical pickup lens has two surfaces, and a surface R | 01-20-2011 |
20110102914 | Lens, Laser Arrangement and Method for Producing a Laser Arrangement - An aspherical planoconvex lens ( | 05-05-2011 |
20110255178 | LENS FOR OPTICAL PICK-UP AND OPTICAL PICK-UP FOR OPTICAL DISC DRIVE - A lens for an optical pick-up formed by injection molding, the lens including a lens body having a first surface on an optical disc side and a second surface on a light source side, and a flange part formed to protrude from a periphery of the lens body outward in a radial direction of the lens body, and wherein a part of the flange part has been cut off along a cylindrical outer circumferential surface of the flange part to remove a gate part of the lens, and when D denotes a cutting depth of the flange part, R denotes a radius of the lens and W | 10-20-2011 |
20120182628 | Die Processing Method, Die, Objective Lens, and Optical Pick-Up Device - A method for processing a material for a die for molding an objective lens which is formed with a multilevel structure on the curved surface thereof, wherein the transfer surface of the objective lens is cut by a tool having a cutting face, the outline of which includes a linear first edge portion, a linear second edge portion extending in a direction which intersects the first edge portion at an acute angle thereto, and a third edge portion which joins the ends of the first and second edge portions, while the die material is rotated around the axis thereof, in a state in which at least the first edge portion and the second edge portion of the tool is inclined with respect to the axis and while the tool is moved only in the axial direction and in the direction which intersects the axis. | 07-19-2012 |
20130182337 | Objective Lens for Optical Pickup Device, and Optical Pickup Device - An objective lens for an optical pickup device is characterized in that compatibility of three types of optical discs, which are a BD, a DVD, and a CD, may be realized by a common objective lens, and a flare can be created by providing an over-spherical aberration when a third optical disc is used from a size relationship between a pitch on a central region side and a pitch on an intermediate region side across a boundary and a relationship of a direction of a step in the base structures superimposed in a central region and an intermediate region of the objective lens. | 07-18-2013 |
20160070090 | Architectures and Techniques for Optical Aberration Correction - Aspects of the disclosure relate to correction of aberration in optical systems. In one aspect, correction of aberration can rely on a corrector lens that is movably positioned between an objective lens and an optical member, and that can introduce a perturbation to a convergent beam of light that forms an image at the substantially the focal point of the objective lens. The formed image presents aberration and such a perturbation can correct at least a portion thereof. In another aspect, the corrector lens can embody or can comprise a positive power lens, that introduces the perturbation via, at least in part, a radially symmetric wavefront correction into the convergent beam, where such a correction varies as a fourth power of a radial distance from a central axis of propagation of the convergent beam of light. | 03-10-2016 |