Patent application number | Description | Published |
20110158059 | INFORMATION STORAGE MEDIUM, RECORDING METHOD, AND RECORDING APPARATUS - According to one embodiment, an information storage medium in which layer 0 and layer 1 are arranged from a read surface, a system lead-in area, data lead-in area, data area, and middle area are arranged from an inner circumference of the layer 0, and a system lead-out area, data lead-out area, data area, and middle area are arranged from an inner circumference of the layer 1. A guard track zone is arranged on a side of the data area in the data lead-out area, and a reference code zone, R physical format information zone, recording management zone, and drive test zone are arranged in the data lead-in area of the layer 0 and padding of the guard track zone of the data lead-out area is performed after padding of the drive test zone of data lead-in area and recording of the recording management zone. | 06-30-2011 |
20110158060 | INFORMATION STORAGE MEDIUM, RECORDING METHOD, AND RECORDING APPARATUS - According to one embodiment, an information storage medium in which layer | 06-30-2011 |
20110158061 | INFORMATION STORAGE MEDIUM, RECORDING METHOD, AND RECORDING APPARATUS - According to one embodiment, an information storage medium in which layer | 06-30-2011 |
20110164480 | INFORMATION STORAGE MEDIUM, RECORDING METHOD, AND RECORDING APPARATUS - According to one embodiment, an information storage medium in which layer | 07-07-2011 |
20130229900 | INFORMATION STORAGE MEDIUM, RECORDING METHOD, AND RECORDING APPARATUS - According to one embodiment, an information storage medium in which layer 0 and layer 1 are arranged from a read surface, a system lead-in area, data lead-in area, data area, and middle area are arranged from an inner circumference of the layer 0, and a system lead-out area, data lead-out area, data area, and middle area are arranged from an inner circumference of the layer 1. A guard track zone is arranged on a side of the data area in the data lead-out area, and a reference code zone, R physical format information zone, recording management zone, and drive test zone are arranged in the data lead-in area of the layer 0 and padding of the guard track zone of the data lead-out area is performed after padding of the drive test zone of data lead-in area and recording of the recording management zone. | 09-05-2013 |
Patent application number | Description | Published |
20100232127 | WIRING BOARD COMPOSITE BODY, SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING THE WIRING BOARD COMPOSITE BODY AND THE SEMICONDUCTOR DEVICE - A wiring board composite body includes a supporting substrate, and wiring boards formed on each of the upper and the lower surfaces of the supporting substrate. The supporting substrate includes a supporting body, and a metal body arranged on each of the upper and the lower surfaces of the supporting body. The wiring board comprises at least an insulation layer insulating upper and lower wirings, and a via connecting the upper and the lower wirings. The wiring board mounted on the metal body constitutes a wiring board with the metal body. Thus, the supporting body supporting the metal body is effectively used in a process of forming the wiring board on the metal body, and the wiring board composite body, which has advantageous structural and production characteristics, is provided. A semiconductor device and a method for manufacturing such wiring board composite body and the semiconductor device are also provided. | 09-16-2010 |
20130122662 | ELECTRONIC COMPONENT AND METHOD OF MANUFACTURING ELECTRONIC COMPONENT - A method of manufacturing an electronic component, wherein a resin including colored particles composing dots in a dot pattern which will act as an authentication pattern is flowed in and solidified over the electronic component, thereby fixing the colored particles. | 05-16-2013 |
20140191363 | EXTERNAL STORAGE DEVICE AND METHOD OF MANUFACTURING EXTERNAL STORAGE DEVICE - An external storage device including an interconnect substrate having a contact type external terminal, at least one semiconductor chip disposed over a first surface of the interconnect substrate, and a sealing resin layer which seals the at least one semiconductor chip and does not cover the external terminal. The at least one semiconductor chip includes a storage device, an inductor being connected to the storage device, a driver circuit configured to control the inductor and an interconnect layer. The interconnect layer is formed at a first surface of the semiconductor chip and includes the inductor. The first surface of the semiconductor chip is other than facing the first surface of the interconnect substrate, and the inductor and the driver circuit are connected to each other through the interconnect layer. | 07-10-2014 |
Patent application number | Description | Published |
20080273068 | Cartridge for ink jet recording and method for producing the same - The present invention provides a method for producing an ink jet recording cartridge provided with a recording element substrate on the bottom surface, wherein the cartridge can be integrated with the recording element substrate precisely without causing any damage on the substrate has a high barrier capacity, and can work with various inks and wherein such characteristics of the cartridge are provided by including the steps of pressing a lid to the upper opening of an ink-holding container made of a resin material including glass fibers to cover the opening, and vibration welding the lid to the container where means for holding the lid is vibrated in the direction along the top surface of the container. | 11-06-2008 |
20110216112 | INK JET PRINTING APPARATUS - There is a case where, in the individual tank number checking processing, usually it is determined that individual tank number agreement can not be confirmed due to a collision of response signals from two tanks. However, due to individual differences among main body side control circuit threshold values and the like, there may be a case that an agreement of the individual tank numbers is confirmed. In response to this, the tank that has the individual tank number whose agreement could be confirmed is put in a sleep state, and because a control code is sent, the other tank designated with color ID is able to return its individual tank number, and the main body side control circuit detects its individual tank number. Based on this it is possible to determine that multiple ink tanks with the same color ID are mounted. | 09-08-2011 |
20110227972 | INK JET PRINTING APPARATUS AND INK TANK - Provided is an ink jet printing apparatus that receives light from the light emitting part of the ink tank in the light receiving part; on the basis of a result of the light reception, determines an attachment position of the ink tank; and controls the light from the light emitting part to inform the ink tank state, wherein the light emitting part has a plurality of light emitting elements that can respectively emit lights having different peak emission wavelengths. A peak sensitivity wavelength of the light receiving part is in the range not less than 760 nm and not more than 1100 nm; at least one of the plurality of light emitting elements has a peak emission wavelength in the range not less than 760 nm, and at least one has a peak emission wavelength in the range of 400 to 760 nm. | 09-22-2011 |
20130201261 | INK TANK - An ink tank includes a light-emitting portion and a light-guiding portion for guiding light emitted from the light-emitting portion, wherein the light-guiding portion includes an output portion configured to output the guided light to project individual information about the ink tank and a display portion formed on a side surface different from the output portion and configured to display information about a status of the ink tank by outputting the guided light. | 08-08-2013 |
Patent application number | Description | Published |
20080204723 | Mask defect inspection apparatus - The mask defect inspection apparatus including an illumination optical system for illuminating a mask on which a pattern is formed; an objective lens facing the mask; at least a pair of detection optical systems having a detection sensor for obtaining an image of the pattern, respectively, and which receive illumination light from illumination areas different from each other through the objective lens, respectively; and focusing changing means for changing a position of focusing between sites of the pattern in a film-thickness direction of the mask and the pattern images obtained by the detection sensors, such that the pattern images obtained by the detection sensors are changed corresponding to the film-thickness direction of the mask. | 08-28-2008 |
20140055780 | PATTERN TEST APPARATUS - According to one embodiment, a pattern test apparatus includes a light source configured to apply test light to a test sample, a polarizing beam splitter which reflects or transmits the test light, an imaging device which receives light which has been reflected by the test sample and transmitted through or reflected by the polarizing beam splitter, an optical system which forms a Fourier transform plane of the test sample between the test sample and the polarizing beam splitter, and a polarizing controller disposed in the Fourier transform plane. The polarizing controller includes a first region which lets the test light through, and a second region which is greater than the first region and lets the light reflected by the test sample through, and the each regions have different retardation quantities. | 02-27-2014 |
Patent application number | Description | Published |
20080198046 | VARIABLE LENGTH CODE DECODING APPARATUS AND VARIABLE LENGTH CODE DECODING METHOD - When a combination between a plurality of FIFO memories and a variable length coding table is used, a load generated by an increase in number of FIFO memories serving as output destinations of a codeword length output from the variable length coding table when the codeword length is output is reduced. | 08-21-2008 |
20080238733 | IMAGE DECODING APPARATUS AND DECODING METHOD - According to the present invention, there is provided an image decoding apparatus having: a table selection controller configured to output a syntax selection signal which selects one of a prefix level_prefix, a suffix level_suffix, and a TrailingOnes syntax; a variable-length code decoding device configured to receive a bit stream, the syntax selection signal, and a suffix length suffixLength, and, by using data contained in the bit stream and the suffix length suffixLength, simultaneously decode the prefix level_prefix and the suffix level_suffix and output the result if the syntax selection signal selects the prefix level_prefix and the suffix level_suffix, and decode the TrailingOnes syntax and output the result if the syntax selection signal selects the TrailingOnes syntax; a level formation device configured to receive the decoded prefix level_prefix, the decoded suffix level_suffix, and the decoded TrailingOnes syntax, and form and output a level; and a suffix length updating device configured to receive the decoded prefix level_prefix, the decoded suffix level_suffix, and the decoded TrailingOnes syntax, and update the suffix length suffixLength. | 10-02-2008 |
20090116556 | DIGITAL IMAGE DECODING APPARATUS AND DIGITAL IMAGE DECODING METHOD - A digital image decoding apparatus which decodes coded data using plurality of motion vectors in each block obtained by dividing an image in frame into a plurality of blocks. The digital image decoding apparatus comprises an error detection unit which detects an error of the block, a decoder which decodes the coded data to generate the motion vector, a motion vector setting unit which computes the motion vector of the block based on the motion vector generated by the decoder and sets the computed motion vector at the block, and a motion compensating decoder which performs motion compensating decoding using the motion vector set by the motion vector setting unit. The decoder generates a reference image motion vector by decoding the coded data of the image which motion compensation is performed to and used as a reference image. When the error detection unit detects the error in the block of the image to which the motion compensation is not performed, the motion vector setting unit computes the motion vector of the block of the image to which the motion compensation is not performed based on the reference image motion vector generated by the decoder, and sets the computed motion vector at the block of the image to which the motion compensation is not performed. | 05-07-2009 |
20100260256 | MOVING IMAGE COMPRESSION-CODING DEVICE, METHOD OF COMPRESSION-CODING MOVING IMAGE, AND H.264 MOVING IMAGE COMPRESSION-CODING DEVICE - A moving image compression-coding device has a pixel determination module configured to determine whether a color of each pixel in a macro block having a plurality of pixels in an input image is a predetermined color, a pixel counter configured to count a number of the pixels having the predetermined color in the macro block, a macro block determination module configured to determine whether a color of the macro block is considered to be the predetermined color according to the count result, and a compression-coded data generator configured to compression-code the input image with a compression ratio depending on the determination result. | 10-14-2010 |
20120263389 | IMAGE ENCODER, IMAGE DECODER AND METHOD FOR ENCODING ORIGINAL IMAGE DATA - According to one embodiment an image encoder encodes original image data using reference image data stored in a frame memory. The image encoder includes a controller, a memory, a motion controller, and a motion compensation module. The controller generates control information including a starting point coordinate and an ending point coordinate of a necessary area in the reference image data stored in the frame memory. The memory includes a storage area in which at least part of the reference image data is stored. The motion controller determines whether the necessary area is a transfer-necessary area or a transfer-unnecessary area based on the control information, and transfers the reference image data of the transfer-necessary area from the frame memory to the storage area. The motion compensation module generates prediction image data using the reference image data stored in the storage area. | 10-18-2012 |