Abstract: An inlet conduit (32) connects to aerosol source (100) of an initial particle concentration. A first flow path having particle counter (62) connects to inlet conduit (32). A second flow path (36) connects to the inlet conduit (32) and branches to form third flow path (38) and fourth flow path (40) which meet at junction (50). A flow restrictor (42) is positioned in the third flow path (38). Filter (44) and a flow meter (46) are connected in the fourth flow path. An outlet path (52) connects to the junction (50). A low particle counter (54), a second filter (56) and a second flow meter (58) are positioned in the outlet path. The system can accurately perform a traceable measurement of the dilution factor of an aerosol particle concentration traceable to national standards and allows for traceable measurements of aerosol concentrations below the dynamic range of a given particle counter.

Abstract: A capacitance fuel volume measuring apparatus for a fuel cell is disclosed. The apparatus utilizes two electrode boards disposed in a fuel tank and an elastic element to perform calculation of the fuel volume in the fuel tank. The apparatus includes a structure disposed in the fuel tank and a control unit. The structure in the fuel tank includes two electrode boards and an elastic element, which maintains the liquid level of the fuel in a level and transmits essential data corresponding to the distance between the two electrode boards to the control unit for calculation such that the control unit may obtain the volume of the fuel in the fuel tank.

Abstract: A knock detection module for an engine comprises a statistics storage module and a processing module. The statistics storage module stores M times N vibration profiles corresponding to M zones of operation of the engine and N cylinders of the engine, wherein M and N are integers greater than one. The processing module determines in which one of the M zones the engine is operating and determines whether knock has occurred for one of the N cylinders by comparing measured vibration data with a selected one of the vibration profiles corresponding to the one of the M zones and the one of the N cylinders.

Abstract: An apparatus for measuring a volume of liquid within a vessel is described. The apparatus includes a plurality of devices each having electrical properties that are dependent on a temperature of the device, a constant current source coupled to the plurality of devices, and a unit configured to output a signal based on an amount of voltage at by the plurality of devices. The amount of voltage is based on a number of the plurality of devices immersed in the liquid, and a number of the plurality of devices not immersed in the liquid.

Abstract: A process and a test structure for testing the hermeticity of bond connections are described. Points are provided on the wafer pair to be connected, at which hermetically closed cavities are additionally formed upon the connection of the wafers, e.g., as they are customary in microelectromechanical systems (MEMS). A pressure sensor structure and a structure are located in these cavities by means of which the internal pressure of the cavity can be changed from the outside, such as metal webs with narrowed cross-section which are built up in accordance with the principle of a fuse and, upon the generation of a current flow, melt or evaporate via the electrodes that lead towards the outside of the cavity. The chronological change of the changed internal pressure is tracked in a measuring fashion.

Abstract: Disclosed herein is a method that relates to determining water content of a solid insulation at a specific location within a transformer. The method comprising, determining a temperature of the solid insulation at a specific location, calculating a relative moisture saturation of the oil at the specific location, calculating the ultimate water content in the solid insulation at the specific location, and calculating an actual water content in the solid insulation at the specific location.

Abstract: A sensor having a mass that moves relative to a structure is disclosed. A spring mechanism applies a restoring force to the mass when the mass moves from an equilibrium position with respect to the structure. A first code scale is attached to the mass and viewed by a first imaging system that is fixed with respect to the structure. The first imaging system forms images of the first code scale that are used by a controller to provide an indication of the relative position of the mass with respect to the structure. The mass can be located in a sealed chamber in the structure that has a transparent liquid through which the mass moves. The first imaging can view the first code scale from outside the chamber through a transparent window in the chamber.

Abstract: A system and method for determining “real time” air leakage from a duct involves an airflow meter for taking airflow measurements at the inlet and at the outlet of the duct. Also included is a base fan that operates in three different modes to simultaneously vary an enclosure pressure at the inlet and outlet. This is done while a duct fan, inside the duct, is operated to continuously move air through the duct. A comparison of airflow measurements at the inlet, or at the outlet, under the three base fan operational modes will respectively identify whether leaks are present in the duct, upstream or downstream from the duct fan.

Abstract: A system for sampling air and collecting particles entrained in the air comprising a receiving surface, a liquid input that directs liquid to the receiving surface and produces a liquid surface, an air input that directs the air so that the air with particles entrained in the air impact the liquid surface, and an electrostatic contact connected to the liquid that imparts an electric charge to the liquid. The particles potentially including bioagents become captured in the liquid by the air with particles entrained in the air impacting the liquid surface. Collection efficiency is improved by the electrostatic contact electrically charging the liquid. The effects of impaction and adhesion due to electrically charging the liquid allows a unique combination in a particle capture medium that has a low fluid consumption rate while maintaining high efficiency.

Abstract: A system for sampling air and collecting particles potentially including bioagents entrained in the air for detection. The system comprises collecting a sample of the air with the particles entrained in the air, directing the sample to a receiving surface, directing a liquid to the receiving surface thereby producing a liquid surface, wherein the particles potentially including bioagents become captured in the liquid, and heating the liquid wherein the particles potentially including bioagents become heated to lysis the bioagents.

Abstract: Trace gas leak detectors and methods for trace gas leak detection of large leaks at relatively high test pressures are provided. A trace gas leak detector includes a test port to receive a sample containing a trace gas, the test port connected to a test line, a mass spectrometer to detect the trace gas, a high vacuum pump having an inlet port coupled to the inlet of the mass spectrometer, and a forepump having a main inlet, at least one intermediate inlet and an exhaust. The main inlet of the forepump is coupled to the exhaust port of the high vacuum pump. The intermediate inlet is controllably connected to the test line. The forepump is selected from the group consisting of a scroll vacuum pump and a screw vacuum pump.

Abstract: A newborn dummy used in a dynamic test comprises a head, a spine member including a neck member connected to the head, a trunk mounted on said spine member at a lower part of the neck member and provided so as to cover the spine member and spaced apart from the spine member. An abdomen pressure sensor is provided close to the spine member at a part corresponding to an abdomen in the trunk so as to be spaced apart from the trunk.

Abstract: A method of and apparatus for measuring a level of a liquid stored under pressure in a reservoir ensure that the level is measured precisely even when a carrier gas is bubbled through the liquid. A tube extends in the reservoir such that a lower end of the tube is immersed in the liquid and that the liquid occupies a portion of the tube, and a first gas that is insoluble in the liquid is sealed in the upper portion of the tube. A detecting unit detects changes in density of the insoluble gas as the level of the liquid changes. The apparatus is employed in a deposition apparatus where the liquid is used to produce a source gas for forming a layer on a substrate. A carrier gas, bubbled through the liquid in the reservoir, transports gas produced from the liquid to a process chamber in which the deposition process takes place.

Abstract: An apparatus for measuring volume of a lower extremity includes a substantially elastic sock body with a leg end, a toe end, and a length between the leg end and the toe end. The sock body may be dimensioned to substantially snugly receive a lower extremity. A measurement thread is attached to the sock body in a manner that causes the measurement thread to wrap around the lower extremity in multiple coils along the length of the sock body. The apparatus also includes a measurement gauge that measures at least one attribute of the measurement thread that corresponds to sock volume. In one embodiment, the measurement thread is substantially inelastic and has a fixed end, and the measurement gauge measures length of the measurement thread between the fixed end and the measurement gauge. Other embodiments are described and claimed.

Abstract: A biological specimen collection and transfer system, comprises a biological sample container configured for storing a biological fluid sample, and a fluid level regulator configured to determine a fluid level in the biological sample container and to dispense a fluid into the container if the determined fluid level is less than a desired fluid level. A method of regulating a fluid level of a biological fluid sample in a container during a process of transferring biological matter in the fluid sample to a specimen slide, the method comprises monitoring a pressure of an interior chamber of a specimen filter, the chamber coupled to a vacuum source and having one end submerged in the fluid sample, determining a fluid level of the fluid sample in the container based on a detected change in pressure of the specimen filter chamber, and adding a liquid to the container if the determined fluid level is less than a desired fluid level.

Abstract: A technique that is usable with a well includes disposing a distributed temperature sensor in a conduit that traverses a region of the well. The region contains at least two different well fluid layers. The technique includes circulating a fluid through the conduit and using the distributed temperature sensor to observe at least one temperature versus depth profile of the fluid. Based on the observation, the depth of a boundary of at least one of the well fluid layers is determined.

Abstract: A method of determining the position of a blockage (192, 392) in a passage (15, 313) having a first end and a second end. The method comprises blowing a sealing device (200) into the passage to form a seal adjacent the blockage (192, 392), then blowing a gas into the passage from the first end, making at least one measurement concerning the gas blown into the passage from the first end and determining a distance D between the first end and the sealing device using the at least one measurement.

Abstract: The acceleration measurement system has a first thermal cell optimized in sensitivity and a second thermal cell optimized in passband, which cells are connected to inputs of a servo-control loop including an amplifier presenting gain that varies as a function of input signal frequency.

Abstract: The angular velocity sensor includes a container, a sensing element in the container and a viscous fluid between the container and the sensing element. The sensing element is supported by the viscous fluid such as an ER fluid or an MR fluid. The angular velocity sensor detects acceleration of the body in which the angular velocity sensor is installed. The angular velocity sensor controls the viscosity of the viscous fluid depending on the acceleration of a body, by changing a voltage applied to the viscous fluid.

Abstract: A carrier tube is provided for sensors or samplers for use in metal or cryolite melts. The carrier tube has on its exterior surface longitudinal grooves and/or planar surfaces extending in the longitudinal direction of the tube.