Abstract: The present disclosure relates to microbolometer structures having top layers of amorphous silicon or vanadium oxide. In some examples, combinations of carbon nanotubes, nanoparticles, and/or thin films can be deposited atop the existing top layer of amorphous silicon or top layer of vanadium oxide of a microbolometer structure. Such configurations can increase the sensitivity of the microbolometers to less than 4 mK, less than 2 mK, and in some examples less than 1 mK.

Abstract: A temperature sensor comprising a sensor element that is arranged in a housing, is characterized in that the sensor element is totally enclosed with a thermally conductive material, preferably with a thermally conductive paste, inside the housing.

Abstract: A micromachined apparatus includes micromachined thermistor having first and second ends physically and thermally coupled to a substrate via first and second anchor structures to enable a temperature-dependent resistance of the micromachined thermistor to vary according to a time-varying temperature of the substrate. The micromachined thermistor has a length, from the first end to the second end, greater than a linear distance between the first and second anchor structures.

Abstract: An in-line fiber-optic temperature sensor is disclosed. In an implementation, the in-line fiber-optic temperature sensor includes an optically transmissive fiber, a reflector, a microstructured fiber defining a channel therein for receiving a fluid, and a Fabry-Perot cavity in fluid communication with the microstructured fiber. The microstructured fiber can be retained between the optically transmissive fiber and the reflector. The Fabry-Perot cavity defined by a material and configured to receive a gas having an index of refraction that changes in a known way with temperature and pressure changes in fluid communication with the channel of the microstructured fiber. The in-line fiber-optic temperature sensor also includes a chamber defined between the optically transmissive fiber and the microstructured fiber for connecting in fluid communication with a vacuum/pressure source for changing pressure.

Abstract: In one embodiment, a portable temperature sensing system includes a portable housing configured to be carried by a user, a microelectrical mechanical system (MEMS) thermal sensor assembly supported by the housing and including an array of thermal sensor elements, a memory including program instructions, and a processor operably connected to the memory and to the sensor, and configured to execute the program instructions to obtain signals from each of a selected set of thermal sensor elements of the array of thermal sensor elements, determine an average sensed temperature based upon the signals, and render data associated with the determined average sensed temperature.

Abstract: A conduit pressure sensor system and a process for non-intrusively determining the pressure within a conduit. In one example, the sensor system has a base section having an external surface and an internal region in fluid connection with the conduit. A strain sensor and a temperature sensor are positioned adjacent to the external surface of the base section.

Abstract: Input devices are provided. In accordance with an example embodiment, an input device includes an interface layer that flexes in response to pressure, a plurality of sense electrodes, a dielectric between the sense electrodes and the interface layer, and interconnecting circuitry. The dielectric compresses or expands in response to movement of the interface layer, and exhibits dielectric characteristics that vary based upon a state of compression of the dielectric. The interconnecting circuitry is to the sense electrodes and provides an output indicative of both the position of each sense electrode and an electric characteristic at each sense electrode that provides an indication of pressure applied to the dielectric adjacent the respective sense electrodes.

Abstract: A package having a recessed section, a sensor element arranged in the recessed section and having a piezoelectric material, a lid joined to the package and sealing the recessed section of the package are provided. The package has a first hollow portion which a part of the sensor element fits with, on an inner bottom surface of the recessed section. The lid has a second hollow portion which a part of the sensor element fits with.

Abstract: An instant response pressure sensor is disclosed. An embodiment shows no continuous gap is configured between a piezoresistor and neighboring element(s) in thickness direction. The instant response pressure sensor is able to respond immediately to an extremely small pressure applied thereupon in the early stage with an extremely small distance movement because the instant response pressure sensor without having an extra press journey to move before trigging.

Abstract: Provided is a contact force sensor of high sensitivity and high accuracy. This contact force sensor is fabricated by machining of a silicon semiconductor material. The contact force sensor is provided with a sensor configuration having a base part, and a contact force transmission part formed in a direction orthogonal to this base part. A stress-electricity conversion element for converting displacement of the contact force transmission part to an electrical signal, formed in the base part of the sensor configuration, is also provided.

Abstract: Fiber optic cables with improved performance for use in distributed sensing, for instance in distributed acoustic sensors, are disclosed. In one embodiment a fiber optic cable (210) comprises a core (208) and cladding (206) disposed within a buffer material (202) and surrounded by a jacket (204) and arranged so that the core is offset from the center of the cable. By offsetting the core from the center of the jacket any bending effects on the core can be maximised compared with the core being located at the center of the cable.

Abstract: A serial weak FBG interrogator is disclosed. The serial weak FBG interrogator may include a CW tunable laser or pulsed laser utilized as a laser source and an EDFA. The serial weak FBG interrogator may also be an interrogation of a single sensor system by utilization of a DFB laser which utilizes a single sensor, which may be an interferometer sensor, an extrinsic Fabry-Perot interferometer or a wavelength-modulated sensor. The serial weak FBG interrogator may also include a computer system or CSPU.

Abstract: A preload device has a receiving pocket for receiving a force sensor. A tool engagement section is spaced apart from the receiving pocket in the direction of the longitudinal axis. At least one elastically flexible section is non-detachably arranged between the receiving pocket and at least one of at least two force introduction plates. Elastic bending of the at least one elastically flexible section through the application of forces to at least one of the force introduction plates and to the tool engagement section effects a reduction in the height of a relaxed state of the preload device to facilitate insertion of the preload device in a recess in a machine part or between multiple machine parts or in a drum.

Abstract: The present application relates to the technical field of magnetic track brake, and in particular to a testing device for electromagnetic attraction force of a magnetic track brake, comprising a steel rail, a force measuring rail block, a guide groove, an elastic force measuring device and a pull machine, wherein the steel rail consists of segmented steel rails, the groove body of the guide groove is vertically provided between the segmented steel rails, the limiting plate is fixed on an inner wall of the groove body, the force measuring rail block and the elastic force measuring device are both located inside the groove body, and a bottom of the force measuring rail block is connected to the elastic force measuring device and the pull machine through an intermediate connection rod.

Abstract: A pressure sensing assembly (1), comprising: an elongate, axially extending tube (100), having a flexible tube wall (102) that encloses an inner pressure chamber (106); and at least one sensor unit (200), including: two tube wall fixation devices (210), connected to the tube wall (102) at respective axially spaced apart positions, and configured to fix respective diameters (D, d) of the tube wall at said positions; and a first strain sensing element (220), connected to the tube wall (102) at a first position axially in between said two tube wall devices (210), and configured to provide a first signal indicative of an axial elongation of the tube wall resulting from a change in axial curvature of the tube wall when a pressure differential between the inner pressure chamber (106) and an outside environment (108) of the tube is applied across the tube wall at said first position.

Abstract: A pressure indicator with a pressure-relief function is disclosed, which can release excessive pressure to the environment. The pressure indicator includes a transparent tube defining therein a first bore and a second bore, and a slider which can be forced by the medium supplied from an external pressure source to move along the first and second bores of the transparent tube. In particular, the first bore has a diameter greater than the second bore, and a tapered annular surface is provided between the first bore and the second bore of the transparent tube. When the pressure of the medium exceeds a predetermined pressure, the slider can be forced by the medium to reach the tapered annular surface, at which excessive medium can be released into the environment via an annular gap between the slider and the tapered annular surface.

Abstract: The invention relates to a pressure sensor including an electromagnetic resonator with waveguide having a dielectric material with a dielectric permittivity that varies with temperature. There is an excitation circuit configured to propagate an electromagnetic field through the resonator and a device for heating the resonator. There is also a device for detecting the electromagnetic resonant frequency of the resonator and a device for determining the pressure of the gas surrounding the sensor as a function of the detected resonant frequency of the resonator.

Abstract: Small profile apparatus for pressure and/or temperature sensing within a wellbore are provided. The apparatus may include optical sensing assemblies designed for inclusion in traditional or coiled production tubing deployments and suitable for use in high pressure, high temperature environments. One example assembly generally includes a housing having a divider for separating a first volume from a second volume inside the housing, a compressible element disposed in the first volume, wherein a first end of the compressible element is coupled to the divider and a second of the compressible element is sealed, and a large diameter optical waveguide disposed in an internal volume of the compressible element. The waveguide typically includes a first portion with a first grating and a second portion with a second grating, wherein the first portion has a greater outer diameter than the second portion.

Abstract: A system and a method detect contamination of a diaphragm in a capacitance diaphragm gauge wherein a contaminated diaphragm deflects less in the presence of pressure than an uncontaminated diaphragm. The system and method measure a base pressure. A DC voltage is applied between the diaphragm and a fixed electrode to cause the diaphragm to deflect to simulate an effective pressure. The system and method measure a combined pressure caused by the base pressure and the effective pressure. The system and method subtract the base pressure to determine the effective pressure caused by the static diaphragm deflection. If the measured effective pressure is less than an acceptable effective pressure, the system and method determine that the diaphragm is contaminated.

Abstract: A pressure gauge of which the presence or absence of a measurement error can be easily checked is provided. A pressure gauge includes: a piston; a first conversion mechanism converting a linear motion of the piston against an elastic force of a spring into a rotating motion about a first rotation shaft, the linear motion being caused by the pressure transmitted from a target to be measured; an index that is fixed to one end side of the first rotation shaft; a dial; momentum detecting means for detecting momentum indicating an amount of movement of the piston; and a pressure sensor measuring a pressure value or the pressure acting on the internal space of the cylinder. Determining means determines whether a difference between a first measurement value and a second measurement value exceeds a predetermined value, the first measurement, value being estimated from the momentum detected toy the momentum detecting means, the second measurement value being measured by the pressure sensor.

Abstract: A water leak sensor management method includes a water leak sensor being installed in a underground pipe. The method includes detecting an operation time of the water leak sensor through a timer in a sleep mode, changing the sleep mode into a standby mode in the operation time of the water leak sensor to detect a sensor measuring procedure, and performing an operation for a transceiving component of the water leak sensor and determining whether the water leak sensor receives an external command or changes the standby mode into an operation mode based on the sensor measuring procedure.

Abstract: A pressure-sensing hose assembly and method of its use are disclosed. In an example aspect, the pressure sensing hose assembly includes a hose assembly including a hose having first and second conductive layers and a circuit electrically connected to the first and second conductive layers of the hose assembly. The circuit generates an electrical response across the first and second conductive layers of the hose assembly. The pressure-sensing hose assembly further includes a computing system configured to receive the electrical response and estimate a pressure within the hose assembly based on the electrical response.

Abstract: Within examples, remotely controlled and thermally managed systems for actuation of components in a wind tunnel model are described. A wind tunnel test environment may provide ambient to cryogenic temperature conditions to reproduce aerodynamic flight Reynolds number conditions. Example systems comprise a modular test assembly mounted on a test component, and the test component includes at least one movable surface and is configured for placement in the wind tunnel. An actuator is included within the modular test assembly and coupled to the at least one movable surface of the test component, and a temperature sensor is included to provide temperature of an exterior of the modular test assembly. In addition, a controller is in communication with the actuator and the temperature sensor, and is configured to remotely cause the actuator to move the at least one movable surface through a range of motion.

Abstract: The invention relates to a method for diagnosing the malfunctioning of a device for adding an additive into a fuel for a vehicle comprising an internal combustion engine, said method including: a step of analyzing the fuel in order to determine a variation in the amount of additive in the fuel; a step of comparing the variation in the amount of additive, measured during the previous step, with a theoretical variation in said amount; a step of sending information when the difference between the measured variation and the theoretical variation exceeds a set value. The invention also relates to a system for adding an additive into fuel and for diagnosis for a vehicle comprising an internal combustion engine, which is intended for implementing said method.

Abstract: An apparatus for testing a side collision with a vehicle body connects between a side carriage for testing a side collision and a side structure which includes a roof rail part configured to be connected to an upper portion of the side carriage, a side sill part configured to be connected to a side lower part of the side carriage, and a pillar part configured to connect between the roof rail part and the side sill part and be connected to a pillar of the side carriage. The side carriage is connected to the side structure while forming a space between the side carriage and the side structure.

Abstract: A tire testing machine includes a test station in which spindles to attach a tire on which a barcode is installed are provided, and first and second belt conveyors that feed the tire into a center position of the spindles. In order to stably grasp a position of identifying information of the tire and stop rotation of the tire at an arbitrary desired angle, before applying a lubricant to a bead portion on an inner periphery of the tire conveyed to the first belt conveyors by means of the lubricator and feeding the tire into the test station, a controller grasps a position of the barcode on the tire based on a rotation angle relative to the direction connecting a position where the barcode is detected by a barcode scanner and the center of the tire.

Abstract: A method for characterizing spindle forces of a tire uniformity machine includes receiving a tire in an apparatus having an upper spindle and rim and a lower spindle and rim, wherein the rims capture the tire therebetween. A measurement data waveform is collected and an angular offset between the rims to define an engagement position is determined. The measurement data waveform is designated as a tire result waveform, and the measurement data waveform is appended to a collection of measurement data waveforms for each engagement position. Once the predetermined number of waveforms for the engagement position has been obtained, an average waveform for each engagement position is computed. A characterization waveform for each average waveform is then generated.

Abstract: A drive-over tire tread depth measurement system is configured with environmental protection components for preventing or impeding environmental contaminates from falling through openings in a vehicle support surface or cover plate onto underlying components such as sensor optical windows and adjacent surfaces. The environmental protection components may include air discharge assemblies, movable shields, guards, wipers or deflectors such as drip edges, water-accumulating textured surfaces, flow diverters, and selectively placed flanges or fixed guards which operate cooperatively to displace accumulated contaminates, debris, or liquids from the optical windows and adjacent sensor surfaces. A portion of the vehicle support surface or cover plate is removable to permit access to underlying components.

Abstract: A method of assessing a condition of a wheel on a vehicle is provided and includes driving the vehicle in a generally longitudinal direction; contactlessly determining a distance to a first location on the wheel; contactlessly determining a distance to a second location on the wheel at a second time that is later than the first time; determining an indication of a tire-wearing angle for the wheel based on the distance to the first location and the distance to the second location; and outputting the indication of the tire wearing angle for the wheel.

Abstract: A sampling assembly configured to be coupled to a sample source and facilitate aseptic sampling at one or more instances in time is provided. Further, the sampling assembly includes a first conduit having first and second ports, where the first port is configured to be coupled to the sample source. The sampling assembly also includes a plurality of sub-conduits having corresponding sub-ports, where each of the plurality of sub-conduits is operatively coupled to the first conduit at respective connector junctions. Also, each of the sub-ports is in fluidic communication with the first conduit. The sampling assembly also includes a plurality of sampling kits and one or more pumping devices. Further, each sampling kit is operatively coupled to a respective sub-port of a corresponding sub-conduit. Moreover, the one or more pumping devices are operatively and aseptically coupled to the second port of the first conduit.

Abstract: A gas monitoring and control system including a gas sampling chamber, sampling inlet and outlet valves, a pump and a controller. Sensors are disposed within the interior chamber that sense characteristics of a gas from a gas source and generate representative signals. The sampling inlet and outlet valves i) allow the gas into the gas sampling chamber while operating in a gas sampling state, and ii) allow ambient air into the gas sampling chamber while operating in a purge state. The pump i) causes the gas to flow through the gas sampling chamber while operating in the gas sampling state or ii) causes ambient air to flow through the gas sampling chamber while operating in the purge state. The controller causes the sampling inlet and outlet valves, and the pump to alternate operating in the gas sampling or purge state to selectively expose the sensors to the gas.

Abstract: The formulations, systems, and methods disclosed herein permit automated preparation of specimens (e.g., biological specimens) for examination. The disclosed formulations, systems, and methods provide fast, efficient, and highly uniform specimen processing using minimal quantities of fluids. The methods include at least a fixing phase for fixing a specimen to a substrate such as a microscope slide, a staining phase for staining the specimen, and a rinsing phase for rinsing the specimen. One or more of the fixing, staining, and rinsing phases include one or more agitation phases for distributing reagents evenly and uniformly across the specimen. The systems can be implemented as a standalone device or as a component in a larger system for preparing and examining specimens.

Abstract: A fixative solution, suitable for fixation of biological materials such as human or veterinary biological tissues, cells, organs and secretions as well as bacteria, viruses, yeasts, parasites and biotech products such as embalming articles. The fixative solution is not a dangerous product according to European standards, and it contains low concentration of aldehydes or heavy metals, rendering a product that cannot be considered dangerous. Even so, biological samples can be optimally preserved and fixed with this solution.

Abstract: Systems and methods are described for isolation, separation and detection of a molecular species using a low resource device for processing of samples. Methods include isolation, separation and detection of a molecular species for protein-protein, DNA-DNA and other chemical interactions.

Abstract: A method of entrapping chlorine dioxide gas, including the steps of using an aqueous solution containing an alkaline substance and an iodide and bringing air containing the chlorine dioxide gas into contact with the aqueous solution.

Abstract: The present disclosure provides an assembly for preparing a sample for analysis. The assembly comprises a hollow body comprising first opening, an outlet with a second opening, and a fluid pathway extending therebetween; a filter element operatively interposed in the fluid pathway; and a closure comprising a third opening and a chamber, the closure being slideably engaged with the outlet. The chamber and the outlet are dimensioned so that the outlet is sealingly engaged with the chamber. A method of using the assembly to detect a microorganism is also provided.

Abstract: When mounting a grip 10 on a cross head 73, a pin 62 and an adapter 50 are removed from a joint 40. Then, a boss 13 of the grip 10 is inserted into a hollow part 45 of the joint 40, and the pin 62 is inserted into a through-hole 14 formed in the boss 13 of the grip 10 and a hole part 42 formed in a tubular body 41 of the joint 40. When mounting a platen 30 on the cross head 73, the adapter 50 is mounted on the joint 40. In addition, the platen 30 is mounted on the adapter 50. Further, a set screw is inserted into a hole part 52 of the adapter 50.

Abstract: A particle characterization apparatus having first and second body parts, a light source, a sample cell and a detector. The light source illuminates dispersed particles within the sample cell with a light beam along an axis to produce scattered light. The sample cell has first and second walls. The walls have internal surfaces arranged to be in contact with the sample and an opposite external surface. The light beam passes through the external surface of the first wall, through the internal surface of the first wall, through the sample, through the internal surface of the second wall, and through the external surface of the second wall. The light source is fixed to the first body part, which engages with the first wall. The detector is fixed to the second body part, which engages with the second wall. The first and second body parts are separable to enable access to the internal surfaces of the walls for cleaning.

Abstract: A method for extracting shape information for particles with similar shape and corresponding system of a tandem differential mobility analyzer (DMA) and pulse field differential mobility analyzer (PFDMA) system, that executes at least generating a steady state aerosol concentration; passing aerosol flow from the aerosol concentration thru a bipolar charger to produce a known charge distribution; passing aerosol thru a DMA with set sheath and aerosol flows and a set voltage to generate a mono-mobility aerosol; passing mono-mobility aerosol thru a PFDMA system; and measuring mobility as a function of electric field by varying the duty cycle of the pulse in the PFDMA system. Alternatively, the method and system relate to separating particles with different shapes by adjusting the duty cycle of the pulse to reach a higher or lower electric field than in the DMA in which the mono-mobility aerosol was generated; and separating particles based on shape.

Abstract: An apparatus applicable to a storage container is provided and includes a filtering cartridge, a gas supply device and a particle counter. The filtering cartridge is configured to be disposed on the storage container. The filtering cartridge includes a flexible housing and a filter. The flexible housing has a first portion and a second portion opposite to the first portion. The flexible housing includes a gas inlet, a first gas outlet and a second gas outlet. The gas inlet is disposed on the first portion. The first gas outlet is disposed on the first portion. The second gas outlet is disposed on the second portion and connected to the storage container. The filter is disposed over the second gas outlet. The gas supply device is connected to the gas inlet, thereby purging gas into the flexible housing. The particle counter is connected to the first gas outlet.

Abstract: Described are techniques and systems for determining presence of airborne particles using one or more sensors on a user device. The airborne particles include, but are not limited to, smoke resulting from combustion, dust, fog, and so forth. In one implementation, an optical proximity sensor may be used to determine a distance to an object such as a ceiling. Smoke which collects on the ceiling reflects light that is detected by the proximity sensor and results in an apparent reduction in height. A notification of this change in height may be generated. In other implementations, other techniques may be used to detect airborne particles, such as images from a camera, dedicated particular sensors, and so forth. Information about airborne particles may aid user safety. For example, an alarm may be issued indicating a potential fire or unsafe level of pollution.

Abstract: A method includes measuring a leakage current through a particulate matter sample in a humidity chamber, the leakage current is measured as a relative humidity in the humidity chamber is incrementally increased, and plotting a logarithm of the measured leakage current as a function of the relative humidity. The plot of the logarithm of the measured leakage current as a function of the relative humidity has an inversion region, a low relative humidity region, and a high relative humidity region.

Abstract: An apparatus for collecting and integrating radiation is disclosed. In embodiments, the apparatus comprises a shell configured to at least partially surround a sample container having a liquid sample contained therein. The liquid sample can comprise one or more liquids. The shell includes one or more inner surfaces with suitable reflectance for causing radiation that is at least one of scattered, reflected, diffracted, refracted, or radiated from one or more particles within the liquid sample to be redirected within the shell until the radiation is received by a detector.

Abstract: The present invention, provides a flow cytometry apparatus for the detection of particles from a plurality of samples comprising: means for moving a plurality of samples comprising particles from a plurality of respective source wells into a fluid flow stream; means for introducing a separation gas between each of the plurality of samples in the fluid flow stream; and means for selectively analyzing each of the plurality of samples for the particles. The present invention also provides a flow cytometry method employing such an apparatus.

Abstract: An airborne or liquid particle sensor with a number of advanced features is disclosed. The sensor includes an output channel generating an electrical signal for a particle passing through the sensor, where the electrical signal includes information related to the pulse. The information is processed by the sensor to determine a value that indicates a more accurate particle mass for a sample period than the average mass.

Abstract: An environmental testing system for environmental testing with particulate matter, such as sand and dust, is disclosed. The testing system uses a feeder to feed precise amounts of particulate matter into an injector, which injects the particulate matter into the airflow leading to a test chamber with approximately the same velocity as the surrounding airflow. The feeder may be a loss-in-weight gravimetric feeder, and the injector may be a Venturi valve actuated by compressed air. The system also includes operator protection features, such as an exhaust fan that creates negative pressure when the door to the test chamber is opened, and when particulate matter is dumped into the system. A temperature control system heats and cools the airflow during tests, a pneumatic conveying system moves fluidized particulate matter into and out of the system, and a controller provides automatic control over the system.

Abstract: A corrosion protection performance degradation detection sensor includes a detection electrode that reacts with the corrosion inhibitor dissolved in the solvent and forms on a surface thereof an electrode surface film which inhibits corrosion, a counter electrode that is disposed so as to face the detection electrode, and an AC power supply that applies an AC voltage between the detection electrode and the counter electrode. A change in concentration of the corrosion inhibitor in the solvent is detected, on the basis of a change in impedance of the electrode surface film formed on the surface of the detection electrode.

Abstract: The present invention provides systems, devices, and methods for point-of-care and/or distributed testing services. The methods and devices of the invention are directed toward automatic detection of analytes in a bodily fluid. The components of the device can be modified to allow for more flexible and robust use with the disclosed methods for a variety of medical, laboratory, and other applications. The systems, devices, and methods of the present invention can allow for effective use of samples by improved sample preparation and analysis.

Abstract: Cuvette, comprising at least one measuring area on each one of two arms that are pivotally connected to each other such that from a swung-apart condition, they can be swung together into a measuring position in which the two measuring areas have a distance for positioning a sample between the measuring areas, and means for positioning the two arms in a measuring position in a cuvette shaft of an optical measuring device with a sample between the two measuring areas in a beam path of the optical measuring device that crosses the cuvette shaft.

Abstract: A sample cell filling device for filling a sample cell to be used remotely from a polarimeter is provided. The filling device includes a liquid-sealed housing, light source and a diffuser viewing screen. The housing has a recess for receiving the sample cell, the sample cell having first and second optical windows at the respective ends. A light source transmits light from one optical window to the other optical window. A diffuser viewing screen receives light exiting from the sample cell such that light from the viewing screen can be observed by a user to determine the quality of the sample fill.