Abstract: Systems and methods are disclosed for a pressure sensor device. The pressure sensor device includes a header that defines an interior cavity including one or more tether connecting regions. The header further defines an outer portion in communication with the interior cavity; the outer portion includes a plurality of through bores in communication with an exterior portion of the header for insertion of header pins through the header. The pressure sensor device includes a pressure sensor chip disposed within the interior cavity of the header. One or more anchoring tethers are attached to the corresponding one or more tether connecting regions. The pressure sensor chip is free to move within the interior cavity of the header, and the one or more anchoring tethers are in communication with the pressure sensor chip and are configured to limit movement of the pressure sensor chip within the header.

Abstract: The invention relates to a composition comprising an ionic liquid consisting in the combination of a pyrrolidinium cation and a nitrate anion and comprising a solvent selected from lactone solvents, carbonate solvents, nitrile solvents and mixtures thereof. The composition may be used as an electrolyte, for example, for such applications as energy storage devices.

Abstract: A multilayer ceramic capacitor includes a multilayer body that includes ceramic layers and inner conductor layers arranged in a stacking direction and that includes a first surface in which the inner conductor layers are exposed, and an outer electrode on the first surface of the multilayer body. The inner conductor layers contain Ni. The outer electrode includes a base layer that directly covers at least a portion of the first surface and is connected to the inner conductor layers. The base layer contains a metal and glass and includes a Ni diffusion portion connected to the inner conductor layers, the Ni diffusion portion containing Ni. A ratio of a diffusion depth of the Ni diffusion portion to a thickness of the base layer is smaller on two of the inner conductor layers that are located outermost than on other inner conductor layers.

Abstract: Aspects of the present disclosure relate to a pressure sensor header for use with a pressure-sensing device. The pressure sensor header can be used in high-temperature environments. A pressure sensor header of the present disclosure can include a header shell, a sealing header glass that is sealed to the header shell, one or more electrical connections electrically isolated from the header shell by the sealing header glass, and a plate for sealing to a pressure-sensing device to be incorporated onto the pressure sensor header. The plate may include one or more ribs that allow for sealing of the plate to the header shell. The pressure sensor header may include a ribbed insert for sealing to the header shell and plate.

Abstract: Thin-film pressure sensors are disclosed herein. Such sensors include one or more electrodes in contact with a sensing material. As the sensor deforms the capacitance of the sensor varies and is measurable either between two electrodes of the sensor, or between the one electrode of the sensor and an electrode formed by the surface to which the sensor is applied, such as skin. The sensing material can be an ionic material such as an ionic composite including an ionic liquid.

Abstract: Devices, methods, and systems for detecting refrigerant leak in a refrigeration system are described herein. One device includes a memory and a processor configured to execute executable instructions stored in the memory to detect fluctuations in a refrigerant level in a refrigerant tank of a refrigeration system, determine whether the detected fluctuations in the refrigerant level are abnormal, and determine whether a refrigerant leak is occurring in the refrigeration system based, at least in part, on whether the detected fluctuations in the refrigerant level are abnormal.

Abstract: A film capacitor is presented. The film capacitor includes a thermally conductive support. The thermally conductive support includes a core including a first end and a second end. The thermally conductive support further includes a protrusion extending from at least one of the first end and the second end of the core, where at least one of the core and the protrusion includes a phase change material. Further, the film capacitor also includes a plurality of films disposed on at least a portion of the thermally conductive support, where the plurality of films includes a plurality of electrode films and a dielectric film. Further, the thermally conductive support for the film capacitor and a method of forming the film capacitor are also presented.

Abstract: Disclosed is a solid electrolytic capacitor article including a lead frame having at least a pair of an anode terminal and a cathode terminal, a capacitor element which is connected to the anode terminal and the cathode terminal, and a silicone resin layer that coats the anode terminal, the cathode terminal, and the exterior surface of the capacitor element connected thereto.

Abstract: Methods and systems to improve a multilayer ceramic capacitor using additive manufacturing are disclosed. Layers of a capacitor may be modified from its traditional planar shape to a wavy structure. The wavy shape increases surface area within a fixed volume of the capacitor, thus increasing capacitance, and may comprise smooth and repetitive oscillations without the presence of voltage-degrading sharp corners. In addition, the ends of each conductive layer do not have sharp edges, such as comprising of a round corner. The one-dimensional wave pattern may run parallel to the width of the capacitor, or it may align in parallel to the length of the capacitor. In some embodiments, the wave pattern may be parallel to both the width and the length—in two dimensions—such that it forms an egg-crate shape. Further, the wavy structures may comprise of secondary or tertiary wavy structures to further increase surface area.

Abstract: A pressure transducer comprising a flexible member made of amorphous quartz and a crystalline quartz sensor are coupled together without an adhesive material. Instead, the amorphous quartz and the crystalline quartz sensor are coupled together at the molecular level. In some embodiments, the crystalline quartz sensor remains in compression or tension during the entire operating range of the pressure transducer. In one embodiment, the crystalline quartz sensor is pre-stressed in either compression or tension when the pressure transducer is exposed to atmospheric pressure. In one embodiment, pressure transducer is located in pressure stabilizing system.

Abstract: In an embodiment, a multilayer ceramic capacitor 10 is such that at least lead parts 14a of several first internal electrode layers 14 close to width-direction outer surfaces f3a, f4a of tapered part 11a are curved inward and the area of an exposed part of each curved lead part 14a is greater than the area of an exposed part of a lead part 14a free from curvature, while at least the lead parts 15a of several second internal electrode layers 15 close to width-direction outer surfaces f3a, f4a of the tapered part 11a are curved inward and the area of an exposed part of each curved lead part 15a is greater than the area of an exposed part of a lead part 15a free from curvature. The multilayer ceramic capacitor can mitigate separation of the first and second external electrodes from the capacitor body when mounted on a circuit board.

Abstract: Embodiments of the present disclosure may improve the accuracy of diagnosis in diagnosing whether an exhaust gas purification system having an SCR filter is faulty. It is determined that the exhaust gas purification system is faulty if the NOx removal rate with the SCR filter calculated using a measurement value of an NOx sensor is lower than or equal to a predetermined criterion removal rate. In the apparatus, a differential pressure change rate defined as the increase in a converted differential pressure value per unit increase in the filter PM deposition amount is calculated. The value of the criterion removal rate is set higher when the differential pressure change rate at the time when the measurement value of the NOx sensor is obtained is lower than a predetermined threshold than when the differential pressure change rate is higher than or equal to the predetermined threshold.

Abstract: Certain implementations of the disclosed technology include systems and methods for providing header assemblies for use with pressure sensors in high-temperature environments. Certain example implementations include a header assembly. The header assembly can include a header portion having a first side and a second side, the header portion including one or more bores extending through the header portion from the first side to the second side. In certain example implementations, one or more platinum header pins are disposed within and extending through the one or more bores of the header portion. In certain example implementations, the header assembly can include one or more brazing portions corresponding to the one or more platinum header pins. In certain example implementations, the platinum header pins are configured for electrical communication with corresponding electrodes of a leadless transducer element.

Abstract: The present invention provides for two types of wide operating temperature range electrolyte formulations that contain methyl butyrate (MB) and additives have been investigated and compared in Lithium-ion capacitors (LICs), which were consisted of hard carbon (HC)/stabilized lithium metal powder (SLMP) anodes and activated carbon (AC) cathodes. The electrolyte L1 that was 1M LiPF6 in ethylene carbonate (EC)+ethyl methyl carbonate (EMC)+MB (20:20:60 v/v %)+0.1M lithium bis(oxalato)borate (LiBOB) and electrolyte L2 that was 1M LiPF6 in EC+EMC+MB (20:20:60 v/v %)+0.1M lithium difluoro(oxalato)borate (LiDFOB) enabled the LICs to discharge at the temperature as low as ?40° C., which the conventional electrolyte LP30 that was 1 M LiPF6 in EC+dimethyl carbonate (DMC) (50:50 w/w %) could not achieve. At the low temperature of ?40° C., L2 held more than 64% of the discharge capacity at 30° C., while the L1 only had the discharge capacity retention of 30%.

Abstract: A temperature sensor integrated type semiconductor pressure sensor apparatus includes a temperature detection device, a lead wire covered with a lead wire protection material, and a terminal, which are integrated together by a thermoplastic resin. This can prevent the lead wire from being deformed in the assembly process, thereby simplifying the assembly process. Furthermore, the temperature detection device is exposed from the opening at the tip of the protrusion, which can secure enough temperature response. Furthermore, the temperature detection device, the lead wire and the lead wire protection material are covered with the thermoplastic resin, so they are protected from combustion gas component, oil contaminant and corrosion product included in intake air.

Abstract: A flip chip pressure sensor assembly. The flip chip pressure sensor assembly comprises a substrate; a pressure sensor die comprising a sensing diaphragm, the die having a top side and a bottom side that is reverse to the top side, where the top side of the die is electrically connected to the substrate by flip chip mounting technology; a cover defining an aperture disposed over the pressure sensor die, where the aperture defined by the cover aligns with the sensing diaphragm to provide a path for pressure to be transmitted through the aperture to the bottom side of the sensing diaphragm; and a gel disk disposed within the aperture in intimate contact with a bottom side of the sensing diaphragm, where the gel disk is domed above an outer shoulder of a rim defined by the cover.

Abstract: In an embodiment, an electric storage device 1 includes: an electric storage element 50 having a positive electrode and a negative electrode; a non-aqueous electrolytic solution constituted by a non-aqueous solvent primarily containing cyclic ester and cyclic carbonate ester, in which an electrolyte containing lithium salt is dissolved and to which a sulfonate ester derivative whose reduction potential is higher than that of the cyclic ester and cyclic carbonate ester is added; and an outer container 70 that stores the electric storage element 50 and non-aqueous electrolytic solution. The electric storage device can offer both good low-temperature characteristics and good high-temperature reliability.

Abstract: A method and apparatus for testing a blowout preventer, which includes a plurality of safety devices and an assembly of fluid control valves that are remotely actuatable to an open and closed position for controlling flow of drillings fluids into a well, includes a hydraulic power unit control valves to a test orientation. A hydrostatic test system supplies fluid under first and second test pressure and documents any pressure loss due to fluid leaks within a closed system.

Abstract: A improved process for preparing a conductive polymer dispersion is provided as is an improved method for making capacitors using the conductive polymer. The process includes providing a monomer solution and shearing the monomer solution with a rotor-stator mixing system comprising a perforated stator screen having perforations thereby forming droplets of said monomer. The droplets of monomer are then polymerized during shearing to form the conductive polymer dispersion.

Abstract: A manufacturing method for a multilayer capacitor includes alternately laminating dielectric layers and conductor layers including less than 50 included in a first arrangement and a second arrangement different from the first arrangement when viewed from a lamination direction to form a laminate in which at least one pair of the conductor layers adjacent to each other with the dielectric layer interposed therebetween are included in the first or second arrangement, pressing the laminate to stretch the conductor layers in a direction perpendicular or substantially perpendicular to the lamination direction, pressing the laminate to bend the conductor layers in the lamination direction, and forming first and second outer electrodes on laminate surfaces such that the first outer electrode is connected to the conductor layers included in the first arrangement and the second outer electrode is connected to the conductor layers included in the second arrangement.