Patent application number | Description | Published |
20140072813 | POLYAMIDE-IMIDE SOLUTION AND POLYAMIDE-IMIDE FILM - An object of the present invention is to obtain a polyamide-imide solution that has a low linear thermal expansion coefficient, that is, an excellent linear thermal expansion coefficient, and that also is excellent in coating applicability. A further object of the present invention is to provide, with use of the polyamide-imide solution, a product or member which has high requirements for heat resistance and a low linear thermal expansion coefficient. In particular, the present invention is intended to provide a product or member that is suitably used for applications in which the polyamide-imide film obtained from the polyamide-imide solution of the present invention is formed on a surface of an inorganic material such as metal, metal oxide, or monocrystalline silicon. | 03-13-2014 |
20140093715 | POLYAMIC ACID, POLYIMIDE, POLYAMIC ACID SOLUTION, POLYIMIDE SOLUTION, POLYIMIDE FILMS OBTAINED FROM THESE SOLUTIONS, AND USE OF POLYIMIDE FILMS - Objects of the present invention are: to obtain a polyimide that is excellent in heat resistance, transparency, and optical isotropy and is soluble in an organic solvent; to provide, by using either a polyimide or a polyamic acid which is a precursor or the polyimide, a product or a member that is highly required to have heat resistance and transparency; and particularly to provide a product and a member both of which are obtained by applying a polyamic acid solution and a polyimide solution of the present invention to the surface of an inorganic substance such as glass, metal, metal oxide, or a single crystal silicon. These objects can be attained by a polyimide acid and a polyimide which are each prepared from an alicyclic tetracarboxylic dianhydride and a monomer having a fluorene structure. | 04-03-2014 |
Patent application number | Description | Published |
20110177347 | GLASS ROLL - Provided is a glass roll utilizing a flanged roll core, and reliably inhibiting a glass film from breaking from an end portion in a width direction thereof as an origin of breakage. A glass roll ( | 07-21-2011 |
20110200812 | GLASS ROLL AND PROCESS FOR PRODUCING GLASS ROLL - Provided is a glass roll formed by winding a glass film into a roll, in which a minimum winding radius of the glass film is optimized. Thus, the glass film is reliably prevented from breaking due to static fatigue, and is able to be stored for long periods. A glass roll ( | 08-18-2011 |
20130091897 | GLASS SHEET CUTTING METHOD - A glass sheet cutting device ( | 04-18-2013 |
20130122264 | Cutting method for glass sheet and glass sheet cutting apparatus - Provided is a cutting method for a glass sheet, comprising radiating a laser beam to a cutting portion (C) of a glass sheet (G) having a thickness of 500 μm or less to fuse the glass sheet (G), wherein a narrowest gap between fused end surfaces (Ga1 and Gb1) of the glass sheet (G), which face each other in the cutting portion (C), is managed to satisfy a relationship of 0.1≦b/a≦2, where “a” is a thickness of the glass sheet (G) and “b” is the narrowest gap. | 05-16-2013 |
20130167590 | Method of cleaving and separating a glass sheet and apparatus for cleaving and separating a glass sheet - Provided is a method of cleaving and separating a glass sheet, the method comprising: a cleaving step of cleaving a glass sheet (G) along preset cleaving lines (X, Y) by a laser cleaving method; and a separation step of separating adjacent pieces of the cleaved glass sheet (G) from each other, wherein the cleaving step is performed under a state in which the glass sheet (G) is placed on support members ( | 07-04-2013 |
20130174610 | METHOD OF CLEAVING AND SEPARATING A GLASS SHEET - Provided is a method of cleaving and separating a glass sheet (G), the method comprising: a cleaving step of cleaving the glass sheet (G) along preset cleaving lines (X, Y) by a laser cleaving method; and a separation step of separating adjacent pieces of the cleaved glass sheet (G) from each other, wherein the cleaving step is performed under a state in which the glass sheet (G) is placed on a sheet (S) having stretchability, and the separation step is performed by stretching the sheet (S). | 07-11-2013 |
20140319001 | GLASS ROLL WITH A SEPARABLE PROTECTIVE SHEET - A glass roll includes a glass film formed by a downdraw method. The glass film is wound into a roll using a winding roller in a state in which front and back glass surfaces of the glass film formed in the forming operation are exposed, and during the winding operation, the glass film is superposed on a separable protective sheet. The protective sheet extends beyond both sides in a width direction of the glass film. The protective sheet can further be wound on an outer peripheral surface of the glass film by winding only the protective sheet from a trailing end of the glass film in a winding direction of the glass film. | 10-30-2014 |
Patent application number | Description | Published |
20080259191 | Image Input Apparatus that Resolves Color Difference - A microcomputer outputs correction data. A shading correction circuit performs a shading correction to a digital image signal using the correction data outputted from the microcomputer. A YC processing circuit generates a video signal from the digital image signal having undergone the shading correction, performs processing such as a gamma correction to the generated video signal, and outputs the video signal having undergone the processing such as the gamma correction. | 10-23-2008 |
20090128626 | VEHICLE-MOUNTED IMAGING DEVICE - Color signals that have passed through a multilayer film filter and been photoelectrically converted are inputted into an image processing LSI. A color signal processing section of the image processing LSI corrects the color signals on a color matrix. The color matrix is divided into a plurality of regions corresponding to the color signals, and the correction is made for each of the regions. | 05-21-2009 |
20090207253 | AUTOMATIC PHASE ADJUSTING APPARATUS - A digital imaging signal obtained by converting an image data obtained by an imaging element into a digital value for each pixel is inputted to an automatic phase adjusting apparatus, and the automatic phase adjusting apparatus adjusts phases of pulses to be used for imaging based on the inputted digital imaging signal. The automatic phase adjusting apparatus is provided with a brightness level detector for calculating a brightness level of the digital imaging signal for a plurality of pixels in a first pixel region, a variability calculator for calculating a variability value which indicates signal variability of the digital imaging signal for each pixel for a plurality of pixels in a second pixel region, and a timing adjuster for adjusting the phases of the pulses in accordance with calculation results obtained by the brightness level detector and the variability calculator. | 08-20-2009 |
20100328485 | IMAGING DEVICE, IMAGING MODULE, ELECTRONIC STILL CAMERA, AND ELECTRONIC MOVIE CAMERA - An imaging device includes a plurality of pixels each configured to convert incident light to an electric charge signal and output the electric charge signal as a pixel signal, and a pixel binning unit configured to bin pixel signals from pixels adjacent to each other and output the binned pixel signal. The pixel binning unit performs first pixel binning operation of binning pixel signals from pixels on the same column and second pixel binning operation of binning pixels on the same row. | 12-30-2010 |
20120206637 | SOLID-STATE IMAGE PICKUP ELEMENT AND IMAGE PICKUP APPARATUS - In a basic pixel arrangement of a solid-state image sensor, a dispersing element is arranged to face each of pixels that are located at row 1, column 2 and row 3, column 1 positions in order to make a light ray with a first color component incident on a horizontally adjacent pixel and also make a light ray with a complementary color component with respect to the first color component incident on that pixel that faces the dispersing element. A dispersing element is arranged to face each of pixels that are located at row 2, column 1 and row 4, column 1 positions in order to make a light ray with a second color component incident on a horizontally adjacent pixel and also make a light ray with a complementary color component with respect to the second color component incident on that pixel that faces the dispersing element. On the other hand, no dispersing elements are arranged to face pixels that are located at row 1, column 1, row 2, column 2, row 3, column 2 and row 4, column 2 positions. | 08-16-2012 |
20130135493 | SOILD-STATE IMAGING ELEMENT, IMAGING DEVICE AND SIGNAL PROCESSING METHOD - A solid-state image sensor includes a photosensitive cell array and a dispersing element array. Each unit block | 05-30-2013 |
20140055649 | SOLID-STATE IMAGING ELEMENT, IMAGING DEVICE, AND SIGNAL PROCESSING METHOD - This solid-state image sensor includes a photosensitive cell array including first through fourth photosensitive cells | 02-27-2014 |
20140055650 | SOLID-STATE IMAGE SENSOR - This solid-state image sensor includes an array of photosensitive cells and an array of dispersive elements. The photosensitive cell array is comprised of a plurality of unit blocks | 02-27-2014 |
20140078355 | SOLID-STATE IMAGE SENSOR - This solid-state image sensor includes an array of photosensitive cells and an array of dispersive elements. The photosensitive cell array is comprised of a plurality of unit blocks | 03-20-2014 |
20140168485 | SOLID-STATE IMAGE SENSOR, IMAGE CAPTURE DEVICE AND SIGNAL PROCESSING METHOD - This solid-state image sensor | 06-19-2014 |
20140284455 | SOLID-STATE IMAGING ELEMENT, IMAGING DEVICE, AND SIGNAL PROCESSING METHOD - This solid-state image sensor includes a photosensitive cell array including first through fourth photosensitive cells | 09-25-2014 |