Patent application number | Description | Published |
20130243370 | OPTO-ELECTRIC HYBRID BOARD AND METHOD OF MANUFACTURING SAME - An opto-electric hybrid board which is capable of suppressing the increase in light propagation losses and which is excellent in flexibility, and a method of manufacturing the same are provided. The opto-electric hybrid board includes an electric circuit board, an optical waveguide, and a metal layer. The electric circuit board includes an insulative layer having front and back surfaces, and electrical interconnect lines formed on the front surface of the insulative layer. The optical waveguide is formed on the back surface of the insulative layer of the electric circuit board. The metal layer is formed between the optical waveguide and the back surface of the insulative layer of the electric circuit board. The metal layer is patterned to have a plurality of strips. Cores of the optical waveguide are disposed in a position corresponding to a site where the metal layer is removed by the patterning. | 09-19-2013 |
20130243371 | OPTO-ELECTRIC HYBRID BOARD AND METHOD OF MANUFACTURING SAME - An opto-electric hybrid board includes an electric circuit board, an optical waveguide, and a metal layer. The electric circuit board includes an insulative layer having front and back surfaces, and electrical interconnect lines formed on the front surface of the insulative layer. The optical waveguide includes a first cladding layer and cores, and the optical waveguide is formed on the back surface of the insulative layer of the electric circuit board. The metal layer is formed between the first cladding layer of the optical waveguide and the back surface of the insulative layer of the electric circuit board. Part of the opto-electric hybrid board is formed as a to-be-bent portion. The metal layer is partially removed in a portion corresponding to the to-be-bent portion. A first cladding layer of the optical waveguide fills a site where the metal layer is removed. | 09-19-2013 |
20130259430 | OPTO-ELECTRIC HYBRID BOARD - An opto-electric hybrid board includes: an electric circuit board including an insulative layer having front and back surfaces, and electrical interconnect lines formed on the front surface of the insulative layer; an optical element mounted on a surface of the electric circuit board with the electrical interconnect lines formed thereon; and an optical waveguide including a core and formed on the back surface of the insulative layer of the electric circuit board. The core includes at its end portion a reflecting surface capable of reflecting alight beam to propagate the light beam between the core and the optical element. The insulative layer is made of a light-transmissive material. A portion of the insulative layer corresponding to an optical path between the reflecting surface of the core and the optical element is in the form of a lens portion. | 10-03-2013 |
20130301980 | OPTO-ELECTRIC HYBRID BOARD AND METHOD OF MANUFACTURING SAME - An opto-electric hybrid board capable of suppressing the increase in light propagation losses and excellent in flexibility, and a method of manufacturing the same, are provided. The opto-electric hybrid board includes an electric circuit board, an optical waveguide, and a metal layer. The electric circuit board includes an insulative layer having front and back surfaces, and electrical interconnect lines formed on the front surface of the insulative layer. The optical waveguide is formed on the back surface of the insulative layer. The metal layer is formed between the cladding layer and the insulative layer. At least part of the metal layer is formed in one of first and second patterns. The first pattern includes a distribution of dot-shaped protrusions, and the second pattern includes a distribution of dot-shaped recesses. A first cladding layer fills a site where the metal layer is removed by the patterning. | 11-14-2013 |
20150355422 | OPTO-ELECTRIC HYBRID MODULE - There is provided an opto-electric hybrid module in which an optical element of an optical element unit and a core of an optical waveguide of an opto-electric hybrid unit are aligned with each other simply and precisely. The opto-electric hybrid module includes: a connector including an optical element; and an opto-electric hybrid unit including an electric circuit board and an optical waveguide which are stacked together. The connector includes aligning protrusions positioned and formed in a predetermined position with respect to the optical element. The opto-electric hybrid unit includes fitting holes for fitting engagement with the aligning protrusion, the fitting holes being positioned and formed in a predetermined position with respect to an end surface of a core of the optical waveguide. The connector and the opto-electric hybrid unit are coupled together. | 12-10-2015 |
20160070075 | OPTO-ELECTRIC HYBRID MODULE - There is provided an opto-electric hybrid module in which an optical element of an optical element unit and a core of an optical waveguide of an opto-electric hybrid unit are aligned with each other simply and precisely. This opto-electric hybrid module includes: a connector including an optical element; and an opto-electric hybrid unit including an electric circuit board and an optical waveguide which are stacked together. The connector includes aligning protrusions positioned and formed in a predetermined position with respect to the optical element. The opto-electric hybrid unit | 03-10-2016 |
20160085151 | PHOTOSENSITIVE EPOXY RESIN COMPOSITION, CURABLE FILM FOR FORMATION OF OPTICAL WAVEGUIDE CORE LAYER, AND OPTICAL WAVEGUIDE AND OPTICAL/ELECTRICAL TRANSMISSION HYBRID FLEXIBLE PRINTED WIRING BOARD PRODUCED BY USING THE PHOTOSENSITIVE EPOXY - The present invention provides a photosensitive epoxy resin composition which contains: (A) a cresol novolak polyfunctional epoxy resin; (B) a liquid epoxy resin having a fluorene skeleton in its main chain; and (C) a photoacid generator; wherein the components (A) and (B) are present in a mixing weight ratio of (A)/(B)=40/60 to 60/40. Where the inventive photosensitive epoxy resin composition is used as an optical waveguide forming material, particularly as an optical waveguide core layer forming material for formation of a core layer, the optical waveguide core layer can be formed as having excellent reflow resistance and a lower loss through a coating process and a roll-to-roll process without altering the conventional production process. | 03-24-2016 |
Patent application number | Description | Published |
20130136789 | AGENT FOR TREATING RENAL FIBROSIS - The present invention relates to a substance delivery carrier for extracellular matrix-producing cells in the kidney, the carrier including a retinoid as a targeting agent, an agent for treating renal fibrosis utilizing the carrier, a process for producing them, a production kit, a method for treating renal fibrosis using the agent for treating renal fibrosis, etc. | 05-30-2013 |
20140323550 | INTESTINAL FIBROSIS TREATMENT AGENT - The present invention relates to a carrier for delivering a substance to extracellular matrix-producing cells in the intestine, the carrier containing a retinoid as a targeting agent, and an agent for treating fibrosis of the intestine utilizing the carrier. | 10-30-2014 |
20150259683 | AGENT FOR TREATING RENAL FIBROSIS - The present invention relates to a substance delivery carrier for extracellular matrix-producing cells in the kidney, the carrier including a retinoid as a targeting agent, an agent for treating renal fibrosis utilizing the carrier, a process for producing them, a production kit, a method for treating renal fibrosis using the agent for treating renal fibrosis, etc. | 09-17-2015 |