| Patent application number | Description | Published |
|---|
| 20090128519 | OPTICAL WAVEGUIDE DEVICE FOR TOUCH PANEL AND TOUCH PANEL USING THE SAME - An optical waveguide device for a touch panel, including: a body; a plurality of cores formed on a surface of the body; and an over-cladding layer formed on the surface of the body to cover the plurality of cores, in which the over-cladding layer includes an end portion which covers each of the end surfaces of the cores, and the end portion of the over-cladding layer is formed as a lens portion. The lens portion includes a surface formed as an arcuately curved surface in side view which bulges outwardly, in which a distance (L) from the end surface of the cores to the center of curvature of the arcuately curved surface and the radius (R) of curvature of the arcuately curved surface satisfy the following condition (a): | 05-21-2009 |
| 20090162021 | OPTICAL WAVEGUIDE FOR LUMINESCENT DEVICE AND MANUFACTURING METHOD THEREOF - An optical waveguide for a luminescent device capable of efficiently leading light beams propagating through a core outwardly to cause light emission, and a manufacturing method thereof. The optical waveguide for a luminescent device includes an under cladding layer | 06-25-2009 |
| 20090196544 | WAVEGUIDE SENSOR FOR SENSING - A waveguide sensor according to an embodiment of the present invention includes: a substrate; a first underclad arranged on one side of the substrate; a first sensing core arranged on outer side of the first underclad and having a stripe pattern which extends in one direction; a first overclad arranged on outer side of the first sensing core; a second underclad arranged on another side of the substrate; a second sensing core arranged on outer side of the second underclad and having a stripe pattern which extends in a direction not parallel to the direction in which the first sensing core extends; and a second overclad arranged on outer side of the second sensing core. A first grooved part which extends in a direction not parallel to the direction in which the first sensing core extends is formed on the first overclad, so that the first grooved part and the first sensing core together form a first grating in a plane view. Furthermore, a second grooved part which extends in a direction not parallel to the direction in which the second sensing core extends is formed on the second overclad, so that the second grooved part and the second sensing core together form a second grating in a plane view. | 08-06-2009 |
| 20090237375 | APPARATUS USING WAVEGUIDE, OPTICAL TOUCH PANEL, AND METHOD OF FABRICATING WAVEGUIDE - An apparatus, an optical touch panel, a waveguide, and a process for producing a double layered waveguide structure are provided. The apparatus includes a waveguide having a plurality of transmission waveguide elements and a plurality of reception waveguide elements; a light source coupled to the waveguide; a light detector coupled to the waveguide; and a reflector, spaced apart from the waveguide, the reflector reflecting light emitted from the plurality of transmission waveguide elements towards the reception waveguide elements. The waveguide includes a substrate, a first cladding layer, a reception waveguide, a second cladding layer, a transmission waveguide, and a third cladding layer. The optical touch panel includes a waveguide section comprising a waveguide; a mirror; a surface emitting laser; and a detector. | 09-24-2009 |
| 20100001979 | OPTICAL WAVEGUIDE FOR TOUCH PANEL AND TOUCH PANEL USING THE SAME - An optical waveguide for a touch panel which eliminates the need for alignment between the optical waveguide and a lens device, and to provide a touch panel using the same. An optical waveguide for a touch panel is provided in which end surfaces of cores | 01-07-2010 |
| 20100002995 | OPTICAL TOUCH PANEL AND METHOD FOR MANUFACTURING THE SAME - An optical touch panel having over-cladding layers each integrated with a lens-shaped portion (i.e., optical waveguides each having a lens-integrated over-cladding layer). The optical touch panel requires neither lens assembly nor optical axis alignment, and is therefore free from the fear that the displacement of lenses will occur. This makes it possible to achieve high optical transmission efficiency and high impact resistance. | 01-07-2010 |
| 20100007622 | OPTICAL TOUCH PANEL - An optical touch panel | 01-14-2010 |
| 20100007633 | OPTICAL WAVEGUIDE FOR TOUCH PANEL AND TOUCH PANEL USING THE SAME - An optical waveguide for a touch panel which eliminates the need for alignment between the optical waveguide and a lens device, and a touch panel using the same. An end portion of a light-emitting core for emitting light beams and an end portion of a light-receiving core for receiving emitted light beams are formed as first and third lens portions so as to protrude from edge portions of an over cladding layer and to be exposed to outside air. The first and third lens portions have lens surfaces which bulge outwardly. The over cladding layer includes second and fourth lens portions formed as extensions of the over cladding layer and corresponding to the first and third lens portions, with the second and fourth lens portions spaced apart from the lens surfaces of the first and third lens portions. The second and fourth lens portions have lens surfaces which bulge outwardly. | 01-14-2010 |
| 20100027937 | THREE-DIMENSIONAL SENSOR OPTICAL WAVEGUIDE, AND THREE-DIMENSIONAL SENSOR EMPLOYING THE SAME - A three-dimensional sensor optical waveguide which permits size reduction, and a three-dimensional sensor employing the same. A three-dimensional sensor optical waveguide includes a plurality of frame-shaped optical waveguide members stacked coaxially in a thickness direction, and a measurement space defined by inner spaces of the stacked frame-shaped optical waveguide members. The optical waveguide members each include a light emitting core, a light receiving core and an over-cladding layer covering the cores. The light emitting core has a light output end positioned in one of opposed inner edge portions of each of the frame-shaped optical waveguide members. The light receiving core has a light input end positioned in the other inner edge portion of each of the frame-shaped optical waveguide members. | 02-04-2010 |
| 20100123682 | TOUCH PANEL - A touch panel | 05-20-2010 |
| 20100182280 | OPTICAL COORDINATE INPUT APPARATUS - In an optical coordinate input apparatus, beams emitted from one light emitting element are simultaneously guided through a plurality of cores provided at a waveguide to edges on Y-side and X-side of light emitting sides of an operational area, a light receiving element group includes light receiving elements corresponding respectively to cores aligned on Y-side of light receiving sides and light receiving elements corresponding respectively to cores aligned on X-side of the light receiving sides of the operational area, a scan is performed on each of the light receiving elements sequentially so as to detect presence or absence of a light shielding signal, and a scan time for the scan of all the light receiving elements included in the light receiving element group is set to be not more than 1 ms. | 07-22-2010 |
