Patent application number | Description | Published |
20140301696 | ELECTRONIC APPARATUS, METHOD FOR MANUFACTURING ELECTRONIC APPARATUS, AND ELECTRONIC DEVICE - Disclosed is an electronic apparatus including a circuit element including a first main surface, a first electrode provided in the first main surface, an optical element including a second main surface and being configured to either transmit or receive an optical signal, a second electrode provided in the second main surface, a window which is provided in the second main surface and through which the optical signal passes, a wiring layer provided on the first main surface and the second main surface, the wiring layer electrically connecting the first electrode and the second electrode, and an optical waveguide, which is provided on the second main surface and optically connected to the window, the optical signal passing through the optical waveguide. | 10-09-2014 |
20150093070 | OPTICAL WAVEGUIDE COMPONENT, MANUFACTURING METHOD THEREFOR, AND OPTICAL WAVEGUIDE DEVICE - An optical waveguide component includes: an optical fiber mounting substrate provided with optical fiber alignment grooves having either, for alignment of optical fibers, V-grooves or inverted trapezoidal grooves in which inverted top sections of the V-grooves are truncated; an optical waveguide substrate in which optical waveguides are formed; a resin layer that is aligned and fixed in a state in which the optical fiber mounting substrate and the optical waveguide substrate are flush or have a predetermined amount of offset; and a transparent resin that is filled in a gap in which the optical fiber mounting substrate and the optical waveguide substrate face each other. | 04-02-2015 |
20150295675 | OPTICALLY INTERCONNECTED CHIP, METHOD OF TESTING THE SAME, AND OPTICAL RECEIVER - An optically interconnected chip includes a first optical transmitter circuit, a first spot size converter connected by a first optical waveguide to the first optical transmitter circuit, a first optical receiver circuit, a second spot size converter connected by a second optical waveguide to the first optical receiver circuit, a rotator provided between the second spot size converter and the first optical receiver circuit and configured to rotate a direction of polarization of light propagating through the second optical waveguide by 45 degrees, and a splitter provided after the rotator and configured to separate the rotated light into components according to directions of polarization of the light, wherein the first spot size converter and the second spot size converter are coupled directly to each other on a wafer. | 10-15-2015 |
Patent application number | Description | Published |
20110014561 | TONER AND TONER MANUFACTURING METHOD - Provided are a toner and a toner manufacturing method with which high image density and a broad range of color reproduction are obtained, and with which high-quality images are also obtained. The toner is composed of toner particles that comprise a binding resin containing a polyester resin and a colorant, and contains 10-1,500 ppm of a metal element selected from titanium, germanium, and aluminum, and a cyclic phenol sulfide represented by general formula (1) selected from thiacalixarene, sulfinyl thiacalixarene and sulfonyl thiacalixarene. | 01-20-2011 |
20110236652 | IMAGE PRINT AND IMAGE FORMING METHOD - Disclosed is an image print which has a toner-holding layer on an image-supporting substrate in which the toner-holding layer holds a toner image formed by toner particles, wherein the toner-holding layer is composed of a hydrogel having a water content of 10% by mass or more and not more than 90% by mass. | 09-29-2011 |
20110254260 | IMAGE PRINTED MATTER AND IMAGE FORMING METHOD - An image forming method for forming an image printed matter, includes the steps of: forming a toner image with toner particles on a photoreceptor; transferring the toner image from the photoreceptor onto a substrate; laminating an toner holding material layer on the substrate so as to embed the toner image in the toner holding material layer so that the toner holding material layer holds the toner image therein and the image printed matter is formed, wherein the toner holding material layer is composed of a gel including a liquid dispersion medium having a contact angle of 20 to 110 degrees to the image supporting substrate. | 10-20-2011 |
Patent application number | Description | Published |
20100062362 | TONER FOR ELECTROPHOTOGRAPHY - An embodiment may be an electrophotographic toner which comprises at least one toner particle which comprises an inner layer and an outer layer covering the inner layer, wherein a cross-sectional area ratio of the outer layer to the inner layer is 0.05-0.46, and wherein a non-uniform thickness exists in the outer layer, and further the average thickness (t) taken at 5 positions as calculated by, is about 0.2-about 1.0 μm, t=(t | 03-11-2010 |
20100304288 | ELECTROPHOGRAPHIC TONER - A toner comprising toner particles, wherein a surface-treated titanate compound is contained on the surface of parent toner particles comprising a resin and a colorant, and the titanate compound having a carbon amount of not less than 0.15% by mass and not more than 0.50% by mass. | 12-02-2010 |
20100330491 | ELECTROSTATIC CHARGE IMAGE DEVELOPING TONER - Provided is an electrostatic charge image developing toner producing neither halftone image unevenness nor density drop of solid images, even though a large number of print sheets are printed at high temperature and high humidity, and subsequently printing is further carried out at high temperature and high humidity after standing for a long time. Disclosed is an electrostatic charge image developing toner containing 3-10% by weight of at least one metal fluoride selected from the group consisting of sodium fluoride, magnesium fluoride, calcium fluoride, barium fluoride and aluminum fluoride, based on a total weight of the toner. | 12-30-2010 |
20130108953 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENTS | 05-02-2013 |
20130190473 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENT - Disclosed is a toner for electrostatic image development that has low-temperature fixability and hot offset resistance and also has document offset resistance. The toner contains a hyperbranched polymer which is a homopolymer formed using an inimer having, in its molecule, a polymerizable functional group and a polymerization initiating group or is a copolymer formed using the inimer and a vinyl-based monomer. The hyperbranched polymer is preferably a terminal-modified hyperbranched polymer and is preferably obtained by a living radical polymerization process. | 07-25-2013 |
20130209930 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENT - Disclosed is a toner for electrostatic image development, having excellent low-temperature fixability and also having hot offset resistance and post-fixing separability. | 08-15-2013 |
20130280649 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENT - There is provided a toner for electrostatic-image development that can obtain heat-resistant storability, fixed image strength and long-term stability of charging while having excellent low-temperature fixing property. The toner is formed with toner particles containing a binder resin and a crystalline ester compound, and the binder resin contains a styrene-acrylic resin including a structural unit derived from an acrylic ester monomer. | 10-24-2013 |
20130280650 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENT - There is provided a toner for electrostatic-image development that can obtain low-temperature fixing property, heat-resistant storability and long-term stability of charging while having excellent low-temperature fixing property. | 10-24-2013 |
20140363763 | ELECTROSTATIC LATENT IMAGE DEVELOPING TONER AND ELECTROPHOTOGRAPHIC IMAGE FORMING METHOD - Disclosed is an electrostatic latent image developing toner which contains a toner host particle having a domain-matrix structure. The matrix contains an amorphous resin which contains a vinyl resin having an acid group, the domain contains a crystalline resin which is formed by combining a vinyl polymerized segment and a polyester polymerized segment. A content of the crystalline resin falls within a range from 3 to 30% by mass. | 12-11-2014 |
20150177632 | ELECTROSTATIC IMAGE DEVELOPING TONER - An electrostatic image developing toner includes a toner particle having a core-shell structure including a core portion containing a first polyester resin A, and a shell layer containing a second polyester resin B, the shell layer coating the core portion, wherein the second polyester resin B has at least a meta-phenylene skeleton, and the following relational expression (1) is satisfied: relational expression (1): 0≦a | 06-25-2015 |
20150227069 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENT - Disclosed is a toner for electrostatic image development having excellent low-temperature fixability and high-temperature off-set resistance, attaining good image density, and having excellent homogeneity in image density. The toner comprises toner particles containing a binder resin which contains an amorphous resin (A) and an amorphous polyester resin (B) different from the resin (A) and a colorant, wherein the toner particles have a domain-matrix structure having the resin (B) as a domain phase dispersed in a matrix phase comprising the resin (A), and in a cross-sectional image of the toner particles, the number average domain diameter of the domain phase of the resin (B) having a domain diameter of 100 nm or more is 100 to 200 nm and an area ratio of the domain phase having a domain diameter of 500 nm or more relative to the total area of the domain phase is 0 to 10%. | 08-13-2015 |
20160109819 | ELECTROSTATIC IMAGE DEVELOPING TONER - An electrostatic image developing toner includes toner particles that contain a binder resin and a coloring agent. The binder resin includes an amorphous resin and a crystalline polyester resin. The toner satisfies Relations (1) and (2). ΔH | 04-21-2016 |
Patent application number | Description | Published |
20130027397 | DRAWING DEVICE - A drawing device includes a coordinate transformation unit receiving vertex information of a graphic and generating graphic information including at least positional information indicative of coordinates on a two-dimensional display surface of the graphic based on the vertex information; a selection unit receiving the graphic information from the coordinate transformation unit, calculating a drawing range in a predetermined direction of the graphic based on the graphic information, and outputting the graphic information of the graphic to be drawn in divided areas for each of the divided areas obtained by dividing the two-dimensional display surface; an image generating unit generating image data of the divided areas based on the graphic information output from the selection unit; and a line buffer storing the image data generated by the image generating unit. | 01-31-2013 |
20130083046 | DRAWING DEVICE AND DRAWING METHOD - A drawing device includes a distinguish unit for distinguishing figure description information in scene data of each figure in a display screen, for tiles included in the display screen; an aggregation unit for aggregating a data size of the figure description information corresponding to the tiles; an address determination unit for determining a leading address in a memory area for storing the figure description information corresponding to each of the tiles, based on an aggregation result of each tile; and a memory write unit for sequentially writing, in the memory area, the figure description information distinguished as corresponding to the tiles, starting from the leading address determined for each corresponding tile, wherein the address determination unit determines the leading addresses so that the memory areas for storing the figure description information corresponding to the tiles are arranged in a physical address space in an order of drawing the tiles. | 04-04-2013 |
20130181981 | IMAGE DRAWING APPARATUS, COMPUTER-READABLE MEDIUM STORING PROGRAM, AND METHOD OF THE SAME - An image drawing apparatus includes a drawing position judging unit configured to judge a figure drawn on the scan line to be processed and extract each of vertexes constituting the judged figure, an vertex information reading unit configured to read vertex information, an image generating unit configured to generate graphics data of the scan line, and a line buffer configured to store the graphics data, wherein the vertex information reading unit includes a cache memory, a cache tag configured to store an address storing the vertex information when the vertex information is stored in the cache memory, and a control unit configured to refer to the cache tag, and read the vertex information from the address of the cache memory when the address is stored, and store the vertex information in the cache memory and store the address in the cache tag when the address is not stored. | 07-18-2013 |
20130314430 | DRAWING PROCESSING APPARATUS AND METHOD - A drawing processing apparatus is disclosed. A graphic index of a graphic included in a display screen or graphic description information which includes a setting parameter to be applied to the graphic is determined for each of regions dividing the display screen. A data size of the graphic description information is aggregated for the regions. A start address in a memory is determined to store the graphic description information into a successive storage area in the memory, based on the aggregated data size. The data size of an area of an overflow occurrence target is stored when the overflow occurs. The graphic description information of the regions is successively written from the start address when the overflow does not occur. A write process is stopped, and resumed from the area of the overflow occurrence target by using the data size when the overflow occurs. | 11-28-2013 |
20140152681 | RENDERING APPARATUS, RENDERING METHOD, AND COMPUTER PRODUCT - A rendering apparatus acquires graphic information of a figure to be rendered in a rendering area; specifies for each division area of the rendering area, graphic information of a figure to be rendered in the division area; calculates based on data size of the specified graphic information and for each division area, total data size of graphic information of the figure to be rendered in the division area; selects a division area as a rendering destination, based on each calculated total data size and a data capacity of a memory area to which graphic information is to be stored that is among the acquired graphic information and for the figure to be rendered; writes to the memory area, the graphic information of the figure to be rendered in the selected division area; and generates based on the written graphic information, an image for the selected division area. | 06-05-2014 |
Patent application number | Description | Published |
20090141025 | DRAWING APPARATUS, DRAWING PROGRAM, AND DRAWING METHOD - A drawing apparatus has dividing unit for dividing a rectangle frame circumscribing a triangle displayed on a display screen into a plurality of rectangle segments. A determining unit sequentially determines whether each rectangle segment included in the rectangle frame overlaps the triangle in a predetermined direction and outputs a determination result of overlap or nonoverlap. The sequential determination of overlap or nonoverlap is stopped in the predetermined direction, if a determination result output from the determining unit changes from the overlap to the nonoverlap. A drawing process is performed on the rectangle segment determined to overlap the triangle. | 06-04-2009 |
20100073557 | IMAGE CONVERSION DEVICE AND IMAGE CONVERTING METHOD - In an image conversion device, a unit calculates an estimate pixel value for comparing an upper line pixel value with a lower line pixel value using the upper line pixel value corresponding to a plurality of consecutive pixels to be interpolated in a line between adjacent upper and lower lines in a field image and calculates an estimate pixel value for comparing the lower line pixel value with the upper line pixel value using the lower line pixel value; a unit searches for a combination of an estimate pixel value to minimize the sum of an absolute value of a difference between the estimate pixel value for the upper line and an upper line pixel value and an absolute value of a difference between the estimate pixel value for the lower line and a lower line pixel value; and a unit interpolates a pixel value for the minimizing combination. | 03-25-2010 |
20100295858 | METHOD AND SYSTEM FOR APPROXIMATING CURVE, AND GRAPHIC DISPLAY CONTROL METHOD AND APPARATUS - A method and system for approximating a curve, and a graphic display control method and apparatus are disclosed. The method for approximating a curve comprises the steps of acquiring number information of subdividing points for subdividing a curve needed to be approximated based on coordinate information of control points of the curve, acquiring coordinate information of the subdividing points based on the number information of the subdividing points and the coordinate information of the control points, and connecting the subdividing points with straight lines based on the coordinate information of the subdividing points. The invention could achieve efficient curve approximation and in turn achieve efficient graphic-display control. | 11-25-2010 |
20110227912 | IMAGE GENERATING METHOD - An image generating method includes: generating first and second projected two-dimensional images of a front object seen from first and second viewpoints, the front object being a part of the three-dimensional image divided by a predetermined boundary surface; interpolating the first and second projected two-dimensional images to generate a first interpolated two-dimensional image of the front object seen from a third viewpoint locating on a straight line connecting the first and second viewpoint; generating third and fourth projected two-dimensional images of a rear object seen from the first and second viewpoints, the rear object being another part of the three-dimensional image divided by the predetermined boundary surface; interpolating the third and fourth projected two-dimensional images to generate a second interpolated two-dimensional image of the rear object seen from the third viewpoint; and overwriting the first interpolated two-dimensional image on the second interpolated two-dimensional image. | 09-22-2011 |