Patent application number | Description | Published |
20110080737 | SHEET, LIGHT EMITTING DEVICE, AND METHOD FOR PRODUCING THE SHEET - A transparent sheet usable in the state where one of surfaces thereof is adjacent to a light emitting body, wherein the other surface of the sheet is divided into a plurality of tiny areas δ having such a size that a maximum circle among circles inscribed thereto has a diameter of 0.5 μm or greater and 3 μm or less with no gap; the tiny areas δ include a plurality of tiny areas δ | 04-07-2011 |
20110080738 | OPTICAL SHEET, LIGHT-EMITTING DEVICE, AND METHOD FOR MANUFACTURING OPTICAL SHEET - A surface of a transparent substrate | 04-07-2011 |
20110090697 | SHEET AND LIGHT EMITTING DEVICE - A light emitting device | 04-21-2011 |
20120063145 | SHEET AND LIGHT-EMITTING DEVICE - A transparent sheet for use with a light emitting body with one of surfaces of the transparent sheet being adjacent to the light emitting body, wherein the other surface of the sheet is divided into a plurality of minute regions δ, a largest inscribed circle of the minute regions δ having a diameter from 0.2 μm to 1.5 μm, each of the minute regions δ being adjoined by and surrounded by two or more other ones of the plurality of minute regions δ, the plurality of minute regions δ include a plurality of minute regions δ | 03-15-2012 |
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 |
20140124650 | IMAGING DEVICE - The imaging device disclosed herein includes: a plurality of photodetection sections | 05-08-2014 |
20140168485 | SOLID-STATE IMAGE SENSOR, IMAGE CAPTURE DEVICE AND SIGNAL PROCESSING METHOD - This solid-state image sensor | 06-19-2014 |
20140263968 | COLOR IMAGING DEVICE - An imaging apparatus | 09-18-2014 |
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 |
20140327783 | LIGHT-CONDENSING UNIT, SOLID-STATE IMAGE SENSOR, AND IMAGE CAPTURE DEVICE - A solid-state image sensor according to an embodiment of the present disclosure includes a photodetector array | 11-06-2014 |
20140333796 | SOLID-STATE IMAGING ELEMENT AND IMAGING DEVICE - This solid-state image sensor includes a dispersing element array which is arranged to face a photosensitive cell array and which includes a plurality of high-refractive-index transparent portions, a low-refractive-index transparent layer that fills a gap between the high-refractive-index transparent portions, and pairs of dispersing elements arranged to face multiple unit blocks of the photosensitive cell array. Each pair of dispersing elements is comprised of: a first dispersing element which includes one of the high-refractive-index transparent portions and which splits incoming light into two light rays representing first and second color components, respectively; and a second dispersing element which includes another one of the high-refractive-index transparent portions and which splits the incoming light into two light rays representing third and fourth color components, respectively. The first dispersing element makes the light ray representing the first color component incident on the first photosensitive cell and also makes the light ray representing the second color component incident on a pair of the second photosensitive cells which are adjacent to the first photosensitive cell. The second dispersing element makes the light ray representing the third color component incident on the third photosensitive cell and also makes the light ray representing the fourth color component incident on a pair of the fourth photosensitive cells which are adjacent to the third photosensitive cell. | 11-13-2014 |
Patent application number | Description | Published |
20100004616 | FASTENING TAB AND SIDE PANEL OF DISPOSABLE DIAPER AND DISPOSABLE DIAPER - There is provided a fastening tab or side panel for a disposable diaper (herein below sometimes referred to simply as a “fastening tab”) with an opening formed in the fastening tab or side panel base member or a notch on the terminal end of the fastening tab or side panel base member. When an invention fastening tab or side panel of an adult or baby disposable diaper (herein below sometimes referred to simply as a “diaper”) is pulled outward, the fastening tab or side panel in some embodiments can be pulled out by hooking the fastening tab or side panel at an opening (the “opening” formed by a discrete opening or a notch) with a finger. The opening helps the fastening tab to have good handleability on the diaper when the diaper is fixed to a user. A fastening tab having openings or notches, with the side having the notches being attached to the diaper such that the notch forms an “opening”, also distributes forces at the side of the diaper. When the fastening tab is pulled the resulting forces are distributed in at least two directions around the sides of the openings or notches. This improves the fit of the diaper around the waist and/or around the thighs. The opening(s) also improves the visibility of the location of the fastener attachment and increases comfort of the fastening tab. | 01-07-2010 |
20130093721 | TOUCH PANEL AND DISPLAY DEVICE INCLUDING THE SAME - A touch screen of a touch panel includes plural detection column wirings and plural detection row wirings that cross the detection column wirings. Dummy column wirings having a similar configuration to that of the detection column wirings are arrayed at further outer sides of outermost detection column wirings out of the plural detection column wirings. Dummy row wirings having a similar configuration to that of the detection row wirings are arrayed at further outer sides of outermost detection row wirings out of the plural detection row wirings. | 04-18-2013 |
20130194232 | TOUCH SCREEN, TOUCH PANEL, AND DISPLAY DEVICE INCLUDING THE SAME - In a touch screen, the number of dummy column block region patterns is made smaller than the number of plurality of detection block region patterns. The plurality of detection block region pattern are obtained as a result of dividing a crossing region where a column direction wire bunch and a row direction wire bunch cross each other. The dummy column block region patterns are obtained as a result of dividing a crossing region where a dummy column direction wire bunch and a row direction wire bunch cross each other. | 08-01-2013 |
20140022216 | TOUCH PANEL DEVICE AND DISPLAY METHOD - In a multi-functional mobile phone (smartphone), a touch panel is operated to input characters or the like. When an index finger of a user approaches an image key within a predetermined distance, an on-screen keyboard is enlarged with the image key as the center of enlargement such that the size of the image key becomes larger than a contact surface size of the index finger. Touch operation is performed on an enlarged on-screen keyboard displayed. | 01-23-2014 |
20140152916 | TOUCHSCREEN - A touchscreen of the present invention is covered by wiring patterns of a row-directional line and a column-directional line being upper and lower two layers. A step height that is produced by an upper electrode riding on a lower electrode when a floating electrode is provided at a region adjacent to the row-directional line and the column-directional line is suppressed. | 06-05-2014 |
20150116262 | TOUCH SCREEN, TOUCH PANEL, AND DISPLAY DEVICE EQUIPPED THEREWITH - In an intersecting region of a bundle of wirings in a column direction and a bundle of wirings in a row direction, a column wiring block region arranged with detection column wirings and first floating wirings and a row wiring block region arranged with detection row wirings and second floating wirings are disposed in a staggered manner. The bundle of wirings in the column direction includes a first compensation region arranged with the detection column wirings which connect between the detection column wirings in the column wiring block regions adjacent to each other in a diagonal direction. The bundle of wirings in the row direction includes a second compensation region arranged with the detection row wirings which electrically connect between the detection row wirings in the row wiring block regions adjacent to each other in a diagonal direction. | 04-30-2015 |
20150227237 | TOUCH SCREEN, TOUCH PANEL, DISPLAY, AND ELECTRONIC APPARATUS - A touch screen according to the present invention includes a transparent substrate, a first detection electrode formed on the transparent substrate, a second detection electrode disposed to sterically cross the first detection electrode via an interlayer insulating film, and a polarizing plate bonded to cover the second detection electrode. Each of the first detection electrode and the second detection electrode includes, as a repetition unit, thin wire electrodes that incline in different directions and cross each other. The thin wire electrodes are formed of a combination of a plurality of conductive thin wires extending in a direction inclined 10 degrees or less from a transmission axis direction or an absorption axis direction of the polarizing plate. | 08-13-2015 |
20150242013 | TOUCH SCREEN - A touch screen according to a disclosed embodiment may have a small cross capacitance between row-direction wiring and column-direction wiring, and a large change of the cross capacitance when the touch screen is touched by an indication body. A row-direction wiring includes a first portion and a second portion having a smaller wiring width than a wiring width of the first portion. A wiring width of the column-direction wiring is smaller than a length in a row direction of the second portion. The row-direction and column-direction wiring intersect in the second portion, and gaps are formed between the row-direction and column-direction wiring in planar view in an intersection portion. The touch screen further includes floating wiring that fills the gaps in planar view, and the floating wiring is formed in the same layer as the row-direction wiring or the column-direction wiring, and is insulated from both wirings. | 08-27-2015 |
20150378484 | DISPLAY APPARATUS - Detection column wires and detection row wires are formed by fine wires made of a light-reflective conductive material. The detection column wires are divided into a plurality of column-direction wire bundles each including a predetermined number of detection column wires electrically connected to one another. The detection row wires are divided into a plurality of row-direction wire bundles each including a predetermined number of detection row wires electrically connected to one another. Reflected light distribution patterns are further provided. The reflected light distribution patterns each include a curved portion that is curved when viewed from a direction perpendicular to a surface of a touch screen, are arranged so that normals to the curved portion are directed towards all directions, and are dispersed so that regions, of curved portions, in which normals are perpendicular to a longitudinal direction of pixels are not aligned with each other in the longitudinal direction of the pixels. | 12-31-2015 |
Patent application number | Description | Published |
20130140079 | CAPACITOR HOLDER - A capacitor holder comprising a body part formed in a shape into which a tip end of a capacitor can be fitted; and a lead part which is fixed to the body part and can be soldered to a predetermined fitting location. The body part has an opening through which the tip end of the capacitor is exposed, and an end surface abutment portion which abuts a tip end surface of the capacitor in a vicinity of a pressure valve, when the tip end of the capacitor is fitted into the body part. The lead part is fixed to the body part at a position opposite to the capacitor with respect to a reference plane, which is a plane includes the tip end surface of the capacitor abutting the end surface abutment portion. | 06-06-2013 |
20130206457 | SURFACE MOUNT CLIP - A surface mount clip including: a solder joint part in which a lower surface thereof is to be a solder joint surface to be soldered and connected to a conductor pattern on a printed circuit board; a pair of support parts connected to the solder joint part, and, when the solder joint part is soldered and connected to the printed circuit board, supported in a position above the printed circuit board at an interval between the pair of support parts, the interval allowing a conductive member other than the printed circuit board to be inserted therein; and a resilient contact part that is connected at least to one of the pair of support parts, is resiliently deformed and pressed by the conductive member, when the conductive member is inserted between the pair of support parts, and electrically connects the conductor pattern and the conductive member. | 08-15-2013 |
20130264098 | CONTACT AND BONDING STRUCTURE OF THE CONTACT - A contact capable of electrically connecting an electrically conductive portion provided on a plate-like member with an electrically conductive member different from the plate-like member. The contact includes a main body; a movable portion held by the main body so as to be reciprocal in directions of increasing and decreasing of a projecting amount thereof outwardly of the main body; and a biasing mechanism that biases the movable portion in such a direction that the projecting amount of the movable portion increases. The main body includes a tubular portion, a solder inflow suppressing portion, and a soldering portion. | 10-10-2013 |
20140187307 | GAME MACHINE - A game machine includes an operation device and a lighting control part, the operation device including: a translucent operation part that can be operated by a player; and a plurality of light sources configured to emit light through the operation part, and the lighting control part including: a first lighting control part configured to light the plurality of light sources at a time; and a second lighting control part configured to light the plurality of light sources at different times. | 07-03-2014 |
20140187321 | GAME MACHINE - A game machine includes an operation device configured to be operated by a player. The operation device includes: a translucent operation part; a light source board on which a light source is arranged to light up the operation part from an inside of the operation part, the light source board being provided in the operation part; a detection part configured to detect an operation being accepted by the operation part; and a transmission part configured to inform the detection part of that the operation has been accepted. | 07-03-2014 |
Patent application number | Description | Published |
20140093047 | X-ray Tube - An X-ray tube includes a radiopaque substrate including a window portion, an X-ray transmission window closing the window portion, an X-ray target provided at the window portion from an inner surface side of the substrate, a highly-evacuated container portion attached to the inner surface of the substrate, a cathode, a first control electrode and a second control electrode provided inside the container portion. A shielding electrode is provided at the inner surface of the substrate so as to surround the window portion. Electrons collide with the X-ray target to generate X-rays. Electrons reflected on the X-ray target between the shielding electrodes are absorbed by the shielding electrodes, so an inner surface of the container portion is not charged. The electron emission from the cathode is not affected by the reflected electrons, so a change in target current is small, and thus X-rays of substantially constant intensity can be radiated. | 04-03-2014 |
20150030131 | X-RAY IRRADIATION DEVICE AND X-RAY RADIATION SOURCE - An X-ray radiation device comprises a plurality of X-ray radiation units, each having an X-ray tube for generating an X-ray, a drive circuit for driving the X-ray tube, and a trunk line connected to the drive circuit, and a controller having a control circuit for controlling the X-ray radiation units. The trunk lines of the plurality of X-ray radiation units are connected in series to the control circuit so that the drive circuits of the plurality of X-ray radiation units are connected in parallel to the control circuit. Since the trunk lines of the plurality of X-ray radiation units are connected in series to the control circuit, the X-ray radiation units can be connected to each other and are not required to be connected one by one to the controller. This makes it possible to increase and decrease the number of units without complicating their wiring. | 01-29-2015 |
20150063548 | X-RAY RADIATION SOURCE - In an X-ray radiation source, a lid part is fastened to a main part with screws, so that an X-ray tube is secured to a housing while being pressed against an inner surface of the wall part a by a first circuit board. The X-ray tube can be secured stably within the housing by thus being held between the first circuit board and the wall part. The X-ray radiation source uses the first circuit board incorporated in the housing itself for pressing the X-ray tube. This makes it unnecessary to provide new members for pressing the X-ray tube and can prevent the device structure from becoming complicated. | 03-05-2015 |
20150348737 | X-RAY RADIATION SOURCE AND X-RAY TUBE - In an X-ray radiation source, a counter wall made of alkali-containing glass, out of walls of a housing of an X-ray tube, is sandwiched between a filament and an electric field control electrode to each of which a negative high voltage is applied. This configuration prevents an electric field from being generated in the counter wall and thus suppresses precipitation of alkali ions from the glass. Therefore, it prevents change in potential relationship between electrodes at different potentials such as the filament, grid, and target and enables stable operation to be maintained, without occurrence of a trouble of failure in maintaining a desired X-ray amount. | 12-03-2015 |
20150382440 | X-RAY RADIATION SOURCE - In an X-ray radiation source, a counter wall made of alkali-containing glass, out of walls of a housing of an X-ray tube, is arranged opposite to a high-voltage region VH of a power supply unit including a high-voltage generation module which generates a negative high voltage to be applied to a filament. This configuration prevents an electric field from being generated in the counter wall and thus suppresses precipitation of alkali ions from the glass. Therefore, it prevents change in potential relationship between electrodes at different potentials such as the filament, grid, and target and prevents occurrence of a trouble of failure in maintaining a desired X-ray amount, thus enabling stable operation to be maintained. | 12-31-2015 |