Abstract: The particle measurement device includes: an acquiring unit configured to acquire pad surface shape data indicating a surface shape of an electrode pad including a probe needle mark where a probe needle has contacted; a roughness calculating unit configured to calculate volume of a recessed portion recessed from a pad reference surface and volume of a protruding portion protruding from the pad reference surface based on the pad surface shape data; and a particle quantity calculating unit configured to calculate a particle quantity from a volume difference between the volume of the recessed portion and the volume of the protruding portion.

Abstract: A control device includes a controller that executes determining a connection between a first unit that has a boarding space which allows a user to board and is provided with a predetermined facility and that is provided with a first path through which a fluid used in the predetermined facility passes and a second unit that is configured to be separated from and connected to the first unit and that has a drive device of a vehicle that is formed by being connected to the first unit, and supplying the fluid in the first path to a second unit side to absorb heat generated from the drive device.

Abstract: A high-density server includes a plurality of server enclosures, each of which includes an enclosure housing with a pair of module insertion/extraction parts, a pair of power source units, a plurality of cooling fans, and two pairs of server modules. Cooling fans are linearly aligned in a crosswise direction and positioned in proximity to the rear opening of the enclosure housing with upper rear openings and lower rear openings, while server modules are installed in module insertion/extraction parts inside the enclosure housing in an insertable/removable manner. Server modules have module trays for mounting electronic components and interface units. Interface units are retractively inserted into upper rear openings or lower rear openings in connection with power source units when server modules are moved in a lengthwise direction along module insertion/extraction parts inside the enclosure housing.

Abstract: An indicator detecting device that can limit input by an indicator to a partial region within a panel surface is provided. The indicator detecting device includes a sensor having a detecting region for detecting a finger. The sensor outputs an output signal corresponding to a position indicated by the finger in the detecting region. The indicator detecting device includes a position calculating processor that calculates a value indicating the position based on the output signal. The indicator detecting device includes a controller that performs signal processing corresponding to the position based on the calculated value. When a plurality of calculated values indicate that the finger has designated a region within the detecting region, the controller performs different processing of the calculated value indicating a position corresponding to the inside of the designated region than that indicating a position corresponding to the outside of the designated region.

Abstract: A power supply system includes two first power paths for supplying electric power to a first device, and two second power paths for supplying electric power to a second device. One of the first power paths is configured to be able to supply power to the second device, and one of the second power paths is configured to be able to supply power to the first device.

Abstract: An indicator detecting device that can limit input by an indicator to a partial region within a panel surface is provided. The indicator detecting device includes a sensor having a detecting region for detecting a finger. The sensor outputs an output signal corresponding to a position indicated by the finger in the detecting region. The indicator detecting device includes a position calculating processor that calculates a value indicating the position based on the output signal. The indicator detecting device includes a controller that performs signal processing corresponding to the position based on the calculated value. When a plurality of calculated values indicate that the finger has designated a region within the detecting region, the controller performs different processing of the calculated value indicating a position corresponding to the inside of the designated region than that indicating a position corresponding to the outside of the designated region.

Abstract: An indicator detecting device that can limit input by an indicator to a partial region within a panel surface is provided. The indicator detecting device includes a sensor having a detecting region for detecting a finger. The sensor outputs an output signal corresponding to a position indicated by the finger in the detecting region. The indicator detecting device includes a position calculating processor that calculates a value indicating the position based on the output signal. The indicator detecting device includes a controller that performs signal processing corresponding to the position based on the calculated value. When a plurality of calculated values indicate that the finger has designated a region within the detecting region, the controller performs different processing of the calculated value indicating a position corresponding to the inside of the designated region than that indicating a position corresponding to the outside of the designated region.

Abstract: A power supply system includes two first power paths for supplying electric power to a first device, and two second power paths for supplying electric power to a second device. One of the first power paths is configured to be able to supply power to the second device, and one of the second power paths is configured to be able to supply power to the first device.

Abstract: A high-density server includes a plurality of server enclosures, each of which includes an enclosure housing with a pair of module insertion/extraction parts, a pair of power source units, a plurality of cooling fans, and two pairs of server modules. Cooling fans are linearly aligned in a crosswise direction and positioned in proximity to the rear opening of the enclosure housing with upper rear openings and lower rear openings, while server modules are installed in module insertion/extraction parts inside the enclosure housing in an insertable/removable manner. Server modules have module trays for mounting electronic components and interface units. Interface units are retractively inserted into upper rear openings or lower rear openings in connection with power source units when server modules are moved in a lengthwise direction along module insertion/extraction parts inside the enclosure housing.

Abstract: A high-density server includes a plurality of server enclosures, each of which includes an enclosure housing with a pair of module insertion/extraction parts, a pair of power source units, a plurality of cooling fans, and two pairs of server modules. Cooling fans are linearly aligned in a crosswise direction and positioned in proximity to the rear opening of the enclosure housing with upper rear openings and lower rear openings, while server modules are installed in module insertion/extraction parts inside the enclosure housing in an insertable/removable manner. Server modules have module trays for mounting electronic components and interface units. Interface units are retractively inserted into upper rear openings or lower rear openings in connection with power source units when server modules are moved in a lengthwise direction along module insertion/extraction parts inside the enclosure housing.

Abstract: An indicator detecting device that can limit input by an indicator to a partial region within a panel surface is provided. The indicator detecting device includes a sensor having a detecting region for detecting a finger. The sensor outputs an output signal corresponding to a position indicated by the finger in the detecting region. The indicator detecting device includes a position calculating processor that calculates a value indicating the position based on the output signal. The indicator detecting device includes a controller that performs signal processing corresponding to the position based on the calculated value. When a plurality of calculated values indicate that the finger has designated a region within the detecting region, the controller performs different processing of the calculated value indicating a position corresponding to the inside of the designated region than that indicating a position corresponding to the outside of the designated region.

Abstract: A high-density server includes a plurality of server enclosures, each of which includes an enclosure frame with a pair of front decks and a rear opening, an enclosure element having a power supply unit, and a pair of server modules having module connectors. The enclosure element is positioned in the rear side of the enclosure frame. The module connector of the server module is detachably connected to the front connector of the power supply unit when the server module moves along the front deck in an insertable/removable manner inside the enclosure frame. A cooling fan is positioned in the front side of the server module relative to the rear opening of the enclosure frame. An external interface is attached to the rear end of the server module or installed in the enclosure element, thus preventing a mess in the front face of the server enclosure due to external wires.

Abstract: A fade state determination unit (5) determines that the target picture is in a fade state when a feature value A is equal to or larger than a threshold value TH_A. If the target picture has been determined to be in the fade state, a fade-in determination unit (6) determines that the target picture is of a fade-in type when a feature value B is equal to or larger than a threshold value TH_B1 and a feature value C is less than a threshold value TH_C. If the target picture has been determined to be in the fade state, a fade-out determination unit (7) determines that the target picture is of a fade-out type when the feature value B is less than a threshold value TH_B2 that is smaller than the threshold value TH_B1. A cross-fade determination unit (8) determines that the target picture is of a cross-fade type when the target picture has been determined to be in the fade state and be not of the fade-in type nor of the fade-out type.

Abstract: A display device includes a light source portion including a plurality of LEDs, and cover portions that cover the light source portion. Each cover portion includes an opposed portion and a side wall portion. The opposed portion includes a straight-through portion which allows light emitted from the light source portion to travel straightly, whereas the side wall portion includes a first scatter portion which scatters the light emitted from the light source portion. A portion of the light emitted from the light source portion to the straight-through portion leaves the cover portion to the outside without being scattered. A different portion of the light emitted to the straight-through portion repeats reflection inside the opposed portion, reaches the side wall portion, and is scattered in the first scatter portion.

Abstract: A display device includes a light source portion including a plurality of LEDs, and cover portions that cover the light source portion. Each cover portion includes an opposed portion and a side wall portion. The opposed portion includes a straight-through portion which allows light emitted from the light source portion to travel straightly, whereas the side wall portion includes a first scatter portion which scatters the light emitted from the light source portion. A portion of the light emitted from the light source portion to the straight-through portion leaves the cover portion to the outside without being scattered. A different portion of the light emitted to the straight-through portion repeats reflection inside the opposed portion, reaches the side wall portion, and is scattered in the first scatter portion.

Abstract: A fade state determination unit (5) determines that the target picture is in a fade state when a feature value A is equal to or larger than a threshold value TH_A. If the target picture has been determined to be in the fade state, a fade-in determination unit (6) determines that the target picture is of a fade-in type when a feature value B is equal to or larger than a threshold value TH_B1 and a feature value C is less than a threshold value TH_C. If the target picture has been determined to be in the fade state, a fade-out determination unit (7) determines that the target picture is of a fade-out type when the feature value B is less than a threshold value TH_B2 that is smaller than the threshold value TH_B1. A cross-fade determination unit (8) determines that the target picture is of a cross-fade type when the target picture has been determined to be in the fade state and be not of the fade-in type nor of the fade-out type.

Abstract: An exemplary aspect of the invention is a rack mounting position management system including a rack having a plurality of units, and a mounted device mounted in the rack. The rack includes, for each of the units, a signal output unit that outputs a signal having a different value for each of the units of the rack. The mounted device includes a signal acquisition unit that acquires the signal output from the signal output unit, and a control unit that discriminates a mounting position of the mounted device in the rack according to a value of the signal acquired by the signal acquisition unit.

Abstract: A high-density server includes a plurality of server enclosures, each of which includes an enclosure housing with a pair of module decks, a pair of power source units, a plurality of cooling fans, and two pairs of server modules. Cooling fans are linearly aligned and positioned in proximity to the rear opening of the enclosure housing with upper rear openings thereabove and lower rear openings therebelow, while server modules are installed in module decks inside the enclosure housing in an insertable/removable manner. Server modules have module trays for mounting electronic components and interface units. Interface units are retractively inserted into upper rear openings or lower rear openings in connection with power source units when server modules are moved in front-rear directions along module decks inside the enclosure housing. The server enclosure is equipped with a redundant power transmitter establishing redundant multiple connection between power source units and server modules.

Abstract: A high-density server includes a plurality of server enclosures, each of which includes an enclosure frame with a pair of front decks and a rear opening, an enclosure element having a power supply unit, and a pair of server modules having module connectors. The enclosure element is positioned in the rear side of the enclosure frame. The module connector of the server module is detachably connected to the front connector of the power supply unit when the server module moves along the front deck in an insertable/removable manner inside the enclosure frame. A cooling fan is positioned in the front side of the server module relative to the rear opening of the enclosure frame. An external interface is attached to the rear end of the server module or installed in the enclosure element, thus preventing a mess in the front face of the server enclosure due to external wires.

Abstract: In the context of an enclosure-housed engine in which an engine 10 is housed within an enclosure 2, the present invention is such that arranged in an intake chamber 8A, separate from one or more chambers where a radiator 18 and the engine are disposed, there is engine intake equipment comprising an air cleaner 22 and an intake silencer 23; the constitution being such that at least one wall face of said intake chamber is subjected to a cooling airstream, intake and exhaust of which are driven by a radiator fan; and the constitution being such that the radiator fan 19 is driven, regardless of whether or not engine coolant within the radiator is circulating, when outside air temperature is greater than or equal to a prescribed temperature.