Abstract: An apparatus for detecting a position of a control rod includes a control rod driving shaft having an outer circumferential surface on which position information is marked, a mirror configured to reflect the position information, and a detector configured to detect a position of the control rod driving shaft from the position information reflected from the mirror, when the control rod driving shaft moves vertically.

Abstract: The present invention suppresses variation in dot diameter. An inkjet printing apparatus performs control such that, in outward-way illumination intensity which is the illumination intensity of light to be radiated from an irradiating unit 11A onto ink ejected from a nozzle n on an outward way, and homeward-way illumination intensity which is the illumination intensity of light to be radiated from an irradiating unit 11B onto ink ejected from a nozzle n on a homeward way, the illumination intensity for which a time from when ink lands on a medium M to when the ink is irradiation with light is longer is higher than the illumination intensity for which the time is shorter, and the diameters of dots fall within a predetermined range.

Abstract: This disclosure is directed to producing an improved coloring effect, while suppressing smearing of a colorant in the inkjet textile printing. A fabric is printed by inkjet printing with a first liquid containing a dyeing assistant. Then, the fabric is further printed by inkjet printing with a second liquid containing a colorant and a water-soluble photo-curable resin. The second liquid applied on the fabric is then irradiated with light.

Abstract: An object is to suppress variation in dot diameter. As a solution, an irradiation control unit (50) performs control for selecting an irradiating element (E2) having a distance from a nozzle (n) to eject irradiation target ink, smaller than that of an irradiating element (E3) which has the maximum distance difference with respect to the distance between the nozzle (n) and an irradiating element (E1) selected as an irradiating element for ink ejected from the nozzle (n) on an outward way, as an irradiating element which is selected on a homeward way.

Abstract: The present disclosure relates to a semiconductor device package and a method for manufacturing the semiconductor device package. The semiconductor device package includes a substrate, a grounding element, a component, a package body and a conductive layer. The grounding element is disposed in the substrate and includes a connection surface exposed at a second portion of a lateral surface of the substrate. The component is disposed on a top surface of the substrate. The package body covers the component and the top surface of the substrate. A lateral surface of the package body is aligned with the lateral surface of the substrate. The conductive layer covers a top surface and the lateral surface of the package body, and further covers the second portion of the lateral surface of the substrate. A first portion of the lateral surface of the substrate is exposed from the conductive layer.

Abstract: A door assembly including a door outer panel, a door inner panel that is coupled to and positioned inboard of the door outer panel in a vehicle lateral direction, an door impact beam positioned between the door outer panel and the door inner panel, where the door impact beam extends in a vehicle longitudinal direction, and an engagement member coupled to the door impact beam, the engagement member including a shaft that extends through a hole defined by the door impact beam and that extends in the vehicle lateral direction toward the door inner panel.

Abstract: An automatic matching circuit includes a variable inductor disposed in order to perform impedance matching at a high frequency equal to or higher than 2 MHz between the output. impedance of a resonant type reception antenna 10 and the input impedance of a high frequency rectification circuit 11, to cause an inductance value to be variable by using an electronic part that electrically performs contact switching including continuous contact switching, a variable capacitor disposed in order to perform the impedance matching, to cause a capacitance value to be variable by using an electronic part that electrically performs contact switching including continuous contact switching, and a variable control circuit 1 to control the electronic parts, in the variable inductor and the variable capacitor, each of which electrically performs the contact switching including the continuous contact switching, in such a way as to perform the impedance matching.

Abstract: A resonant type transmission power supply device includes a pulse input circuit that inputs a pulse voltage to a transmission antenna at set intervals, a variable resonance frequency circuit that causes the resonance frequency of the transmission antenna to be variable and performs sweep detection of the resonance frequency when a pulse voltage is inputted, a frequency characteristic detecting circuit that detects a frequency characteristic of the transmission antenna when the sweep detection is performed, a foreign object detecting circuit that detects the presence or absence of a foreign object in an electromagnetic field generated from the transmission antenna on the basis of a detection result acquired by the frequency characteristic detecting circuit, and a power control circuit that reduces or stops the supply of electric power to the transmission antenna when a foreign object is detected.

Abstract: A resin composition is provided which is excellent in impact resistance, heat resistance, moldability, and chemical resistance and which is suitable, for example, as a molding material for a portable terminal housing. An aromatic polycarbonate composite resin composition contains, with respect to 100 parts by mass of a resin component formed of 60 to 90 parts by mass of an aromatic polycarbonate resin (A) and 10 to 40 parts by mass of a polyester resin (B), 3 to 20 parts by mass of a graft copolymer (C) formed by graft polymerization of a (meth)acrylic acid ester compound with a diene-based rubber and 0.005 to 0.1 parts by mass of a stabilizer (D). The graft copolymer (C) has a sulfur content of 100 to 1,500 ppm and an average particle diameter of 70 to 240 nm, and the stabilizer (D) is an organic phosphate compound represented by the following general formula (I). O?P(OH)m(OR)3-m??(I) R represents an alkyl group or an aryl group. m represents 0 to 2.

Abstract: An automated driving system and methods are disclosed. The automated driving system includes a perception system disposed on an autonomous vehicle. The automated driving system can detect an intersection including a yield scenario and identify a check point between the autonomous vehicle and the yield scenario. Prior to the autonomous vehicle reaching the check point, the automated driving system can send a command to one or more vehicle systems to control the autonomous vehicle to stop at the yield scenario. After the autonomous vehicle reaches the check point, the automated driving system can detect, using the perception system, information for the intersection. If the information indicates clear passage through the intersection for the autonomous vehicle, the automated driving system can send a command to the one or more vehicle systems to drive the autonomous vehicle through the intersection.

Abstract: A B-surface seat occupancy sensor unit (10) comprises a support plate (12) having a top surface (20) and a bottom surface, a plurality of spacer elements (14), which define an upper surface (18) of the unit. The top surface of the support plate is arranged recessed the upper surface. A first foam pad (22) is disposed between the spacer elements on the support plate. A recess (24) formed in the top surface of the support plate, underneath the first foam pad, accommodates a second foam pad (23) carrying a pressure-responsive membrane switch (26). The recess has a depth exceeding the total height of the pressure-responsive membrane switch and the second foam pad. The pressure-sensitive membrane switch projects laterally beyond opposite edges of the second foam pad.

Abstract: Device for supplying evaporated gas from a storage tank to a consumer at varying pressure and mass flow requirements, having: a high-pressure pump for the liquefied gas, the speed of which determines the mass flow of the pumped liquefied gas; an evaporator for the liquefied gas; a pressure-regulating valve for the evaporated gas, the outlet of which is connected to the consumer; a first regulator, the measured variable of which is the pressure of the evaporated gas and the manipulated variable of which acts on the pressure-regulating valve; a second regulator, the measured variable of which is the pressure of the gas and the manipulated variable of which acts on a rotational speed controller for the high-pressure pump; and means for combining the manipulated variable of the two regulators in such a manner that the manipulated variable of the first regulator additionally acts on the rotational speed controller.

Abstract: An interior door trim component for an automotive vehicle. The door trim component includes a main body having an exterior surface for facing the interior of the vehicle and a door pull configured to allow for pulling thereon and closing of the door of the vehicle. The door pull is spaced apart from the main body by a distance that allows the fingers of a vehicle occupant's hand to extend into the area between the door pull and the main body. A light emitting assembly is mounted adjacent to the door pull and is oriented to emitt light in a direction away from the door pull and toward the exterior surface of the main body.

Abstract: An adsorption-desorption material, in particular, crosslinked organo-amine polymeric materials having a weight average molecular weight of from about 500 to about 1×106, a total pore volume of from about 0.2 cubic centimeters per gram (cc/g) to about 2.0 cc/g, and an adsorption capacity of at least about 0.2 millimoles of CO2 adsorbed per gram of adsorption-desorption material, and linear organo-amine polymeric materials having a weight average molecular weight of from about 160 to about 1×106, a total pore volume of from about 0.2 cubic centimeters per gram (cc/g) to about 2.0 cc/g, and an adsorption capacity of at least about 0.2 millimoles of CO2 adsorbed per gram of adsorption-desorption material. This disclosure also relates in part to processes for preparing the crosslinked organo-amine materials and linear organo-amine materials.

Abstract: A chassis for a utility vehicle, in particular for semi-trailer vehicles, is comprised of: a front subassembly assigned to a front axle region of the utility vehicle, a rear subassembly assigned to a rear axle region of the utility vehicle, and a central subassembly which connects together the front subassembly and the rear subassembly.

Abstract: To enable long-term continuous operation by preventing blocking of a reaction pipe line disposed in a multi-pipe or double-walled-pipe heat exchanger, provided is a device for producing gas hydrate including a multi-pipe or double-walled-pipe device 1 for generating gas hydrate having a reaction pipe line 2 for flowing raw material water w and raw material gas g and a coolant circulation region 3 for circulating a coolant c and thereby cooling the reaction pipe line 2, wherein a coil spring 4 extending in the longitudinal direction of the reaction pipe line 2 is provided in the reaction pipe line 2.

Abstract: A computer storage medium has embodied thereon computer-readable instructions that, when executed, perform a method for identifying biometric markers within a vehicle. The method includes detecting a biometric marker of a driver within the vehicle and displaying data associated with the biometric marker to the driver.

Abstract: A hard-coated tool comprising a titanium carbonitride layer formed directly on a WC-based cemented carbide substrate by a chemical vapor deposition method; the titanium carbonitride layer having a composition comprising 74-81% by mass of titanium, 13-16% by mass of carbon and 6-10% by mass of nitrogen; the titanium carbonitride layer having a structure comprising columnar crystal grains having an average transverse cross section diameter of 0.01-0.22 ?m; a layer of W diffused from the substrate to the titanium carbonitride layer having an average thickness of 30-200 nm; and the titanium carbonitride layer having an X-ray diffraction peak of a (422) plane in a 2? range of 122.7-123.7°.

Abstract: Systems and methods for indicating the presence of a mobile device within a passenger cabin are provided. A method for indicating the presence of a mobile device within a passenger cabin of a vehicle includes linking a vehicle computing device with the mobile device, determining whether a vehicle ignition is off and whether a vehicle lock has been actuated. The method further includes generating an audible mobile device search signal that is played through a cabin and waiting to receive a response from the mobile device as to whether the mobile device detected the audible mobile device search signal. The method further includes determining whether the mobile device is within the passenger cabin based on whether a response was received from the mobile device and generating a first audible indication when the mobile device is within the passenger cabin.

Abstract: A catalytic material including particles formed of a catalytic core material having a thermally resistant porous shell coated over the catalytic core material. An oxygen storage material is dispersed within the thermally resistant porous shell. In an example, the oxygen storage material is ceria. The catalytic material can further include a catalytic support, wherein the particles are deposited on the catalytic support. The catalytic support can be a powdered oxide including a material selected from the group consisting of alumina, silica, zirconia, niobia, ceria, titania, and combinations thereof. The catalytic core can include an element selected from the group consisting of Pt, Pd, Rh, Co, Ni, Mn, Cu, Fe, Au, Ag, and combinations thereof. The porous shell can be selected from materials consisting of alumina, baria, ceria, magnesia, niobia, silica, titania, yttria, and combinations thereof.