08th week of 2016 patent applcation highlights part 34 |
Patent application number | Title | Published |
20160054149 | SYSTEM AND METHOD FOR TRACKING LINEAR POSITION AND ROTATION OF A PISTON - A system and method to determine linear and approximate rotational position of a reciprocating and rotating hydraulic cylinder. The system uses two magnetic rings offset a distance, each ring having a continuous arc of magnetic material terminating in a blind zone, where the blind zone produces a magnetic field substantially different from the continuous arc region. The magnetic fields are used to detect location and rotation by an magnetic sensor that interacts with the magnets and blind zone. | 2016-02-25 |
20160054150 | ROTATION DETECTOR - A rotation detection sensor is disposed to face an outer peripheral part of a signal rotor, and outputs a detection signal corresponding to a position of the outer peripheral part with the rotation of the signal rotor. The rotation detection sensor detects a rotation reference position with the detection of switching from projections to a missing tooth part on the basis of a gap to the signal rotor, and detects switching from the missing tooth part to the projections to output a rotation reference position signal indicative of position information on the rotation reference position at timing of the detection. An ECU receives the detection signal and the rotation reference position signal from the rotation detection sensor, and acquires the rotation reference position on the basis of the rotation reference position signal. | 2016-02-25 |
20160054151 | ENCODER SCALE AND METHOD OF MANUFACTURING THE SAME - An encoder scale for an electromagnetic induction linear encoder includes a substrate, an electroconductive layer exhibiting electroconductivity and provided to one surface of the substrate, and an electric conductor provided on the electroconductive layer. The electroconductive layer is wider than the electric conductor in a plan view of the substrate and is grounded. The electroconductive layer is formed on the entire one surface of the substrate except a guide surface, and glass is exposed on the guide surface. | 2016-02-25 |
20160054152 | DIAGNOSTIC DEVICE - A diagnostic device capable of accurately diagnosing the soundness of a resolver circuit is provided. A shifter receives excitation signal and excitation signal; shifts the level of excitation signal, excitation signal, or both; and performs level shifting such that a period of time that starts with one of two times in which, in the vicinity of the peak value of excitation signal, excitation signal and excitation signal are at the same value and ends with the other of the two times is less than a prescribed threshold. A trigger generation circuit generates a trigger during said period of time. A control unit determines whether there is an abnormality in the resolver circuit on the basis of the trigger. | 2016-02-25 |
20160054153 | INDUCTIVE SENSING SYSTEMS AND METHODS BASED ON MULTIPLE FREQUENCIES - A target detection system may include a power supply and an inductor capacitor (LC) tank circuit. The LC tank circuit may include a sensing coil, a first tank capacitor, and a second tank capacitor. Further, the LC tank circuit may alternate between the first tank capacitor and the second tank capacitor, and the power supply may power the LC tank circuit. The target detection system may further include measurement circuitry to measure a first decay characteristic of a first set of free oscillations from the first tank capacitor and a second decay characteristic of a second set of free oscillations from the second tank capacitor. Additionally, the target detection system may also include processing circuitry to compare the first decay characteristic to the second decay characteristic to determine a presence and a distance of a target. | 2016-02-25 |
20160054154 | ABSOLUTE POSITION ENCODER SCALE HAVING LAYERS IN A STACKED CONFIGURATION - An absolute position encoder scale includes first and second layers in a stacked configuration. A read head moves relative to spatial modulation patterns of first (top) and second (lower) signal layers along a measuring axis, and a sensing portion produces one or more scale sensing fields to sense the signal layers. A higher frequency scale sensing field may provide a first limited sensing depth to sense position relative to the top signal layer pattern, and a lower frequency field may provide a second deeper sensing depth to sense position relative to the lower signal layer pattern. In some embodiments, an isolation layer between the first and second layers may include a spatial modulation pattern that complements the first layer pattern, to nullify its signal effects when sensing position relative to the second layer pattern using the second sensing depth. | 2016-02-25 |
20160054155 | BAR GRAPH IMPLEMENTATION WITH A PADDLE-STYLE POINTER - A pointer device, an instrument cluster, and a display for an instrument cluster are described herein. The pointer device includes a pointer with a stem and paddle. The instrument cluster includes a technique to display a bar graph based interface with a mechanically driven pointer. The display allows for a dual representation employing multiple pointers, with one pointer dedicated to a dial-based display, and another pointer dedicated to a bar graph display. | 2016-02-25 |
20160054156 | ELECTRONIC CONTROL DEVICE FOR CONTROLLING SENSORS - An electronic control device ( | 2016-02-25 |
20160054157 | Chemical Metering System - A chemical metering system for providing efficient access and replacement of chemical metering devices. The chemical metering system generally includes a chemical injector, a first tube fluidly connected to the chemical injector, a second tube adapted to be fluidly connected to a chemical supply, a releasable tube coupling removably and fluidly connected to the first tube and the second tube, and a metering device is adapted for controlling a flowrate of liquid chemical into the chemical injector from the chemical supply. The metering device is accessible for repair or replacement by removing the releasable tube coupling from either the first tube or the second tube for efficient access and replacement of the metering device. | 2016-02-25 |
20160054158 | WATER DELUGE SYSTEM TESTING APPARATUS AND METHOD - The invention provides a method and apparatus for of performing a test on a deluge system. The method comprises providing a gas source in fluid communication with a deluge system. A plurality of fluid sensors is installed at a plurality of locations (e.g. nozzles) in the deluge system. The gas source is activated to cause gas to flow through the deluge system during a gas test period, and using the plurality of sensors, at least one fluid parameter during the gas test period is measured to provide a gas test data set. The first gas test data set is stored, transmitted and/or processed to derive information about the condition of the deluge system. | 2016-02-25 |
20160054159 | METHOD OF FORMING AN ICE RESISTANT PITOT TUBE - A method of forming a pitot tube includes forming a substantially cylindrical body portion including an outer surface, a tip portion having an inlet opening and an interior defining a flow passage, radially tapering the outer surface from the body portion toward the inlet opening, and disposing at least one electrical coil including one or more coil wraps along the flow passage of the pitot tube. | 2016-02-25 |
20160054160 | VACUUM-CAVITY-INSULATED FLOW SENSORS - A vacuum-cavity-insulated flow sensor and related fabrication method are described. The sensor comprises a porous silicon wall with numerous vacuum-pores which is created in a silicon substrate, a porous silicon membrane with numerous vacuum-pores which is surrounded and supported by the porous silicon wall, and a cavity with a vacuum-space which is disposed beneath the porous silicon membrane and surrounded by the porous silicon wall. The fabrication method includes porous silicon formation and silicon polishing in HF solution. | 2016-02-25 |
20160054161 | METHOD AND APPARATUS TO DETECT CONTAMINANTS IN PRESSURIZED FLUID FLOWS - Method and apparatus for the detection and measurement of contaminant concentration within pressurized fluid flows in real-time. The provided method and apparatus allow for real-time detection of black powder contaminants in pressurized gas flows by irradiating the flow with electromagnetic waves generated by hermetically-sealed electromagnetic wave radiators and measuring wave characteristics. An image is rendered of the spatial distribution of black powder within the pipe cross section, and mass flow of the contaminated gas is measured. | 2016-02-25 |
20160054162 | Methodologies and Apparatus for The Recognition of Production Tests Stability - A method for analyzing flow of a fluid through a flowmeter is provided. In an embodiment, the method includes receiving multiphase flowmeter data representative of a characteristic of a multiphase fluid flowing through a multiphase flowmeter and segmenting the multiphase flowmeter data into time blocks. The data in the time blocks can be analyzed using time-domain analysis or frequency-domain analysis to determine flow stability. The time-domain analysis can include analyzing time blocks in a time domain to determine whether measurement distribution in the multiphase flowmeter data of the analyzed time blocks represents stable flow of the multiphase fluid. The frequency-domain analysis can include converting the multiphase flowmeter data of the time blocks from a time domain to a frequency domain and identifying time blocks in which contribution of low-frequency components in the frequency domain is below a contribution threshold. Additional systems, devices, and methods are also disclosed. | 2016-02-25 |
20160054163 | TOOL FOR METERING SAUCE - A tool for metering sauce or other materials comprises a handle and a bowl positioned at a distal end of the handle for holding an amount of the sauce or other material. The bowl defines an open top bounded by a rim, and the bowl includes multiple posts extending from a bottom wall, such that a first predetermined volume is defined by filling the bowl to the rim, and a second predetermined volume is defined by filling the bowl such that upper surfaces of the multiple posts are visible. The bowl may further include two ribs extending from a side wall of the bowl, wherein a third predetermined volume is defined by orienting the tool on its side such that the two ribs effectively define a horizontal plane and filling the bowl up to the horizontal plane between the two ribs. | 2016-02-25 |
20160054164 | COMPENSATED FLUID LEVEL TRANSMITTER - A fluid level transmitter combination for placement on a tank having ≦2 tank apertures. At least one flange provides a first, second and third flange aperture over the tank aperture(s). A temperature sensor over the first flange aperture senses a temperature. A first pressure sensor over the second flange aperture senses a first pressure. A level transmitter extends through the third flange aperture for transmitting a pulse signal into the process fluid or at its surface and receiving a pulse echo or a second pressure sensor senses a second pressure. A processor is coupled to the level transceiver or to an output of the second pressure sensor that implements a compensated fluid level determination algorithm using the temperature, first pressure, and pulse echo or second pressure to generate a compensated fluid level measurement for the process fluid. A transmitter is coupled to an output of the processor. | 2016-02-25 |
20160054165 | LIQUID LEVEL MEASURING DEVICE - A liquid level measuring device comprises an inner-tube unit having an inner tube and at least one inner-tube coil surrounding the inner tube; an outer-tube unit having a plurality of outer tubes, each outer tube having a plurality of outer-tube coils disposed thereon, the outer tubes being stacked, the inner tube being arranged inside the outer tubes and being risen and fallen as a level of a liquid in the outer tubes varies; and a control unit electrically connecting to the respective outer-tube coils, the control unit transmitting a set of position coded signals to the outer-tube coils disposed on an individual outer tube, the control unit determining the liquid level according to an induced signal generated by the inner-tube coil. Said device has many advantages including low cost and modular design, and such a device is easily to be deployed. | 2016-02-25 |
20160054166 | Echo curve determination at a resolution that differs on area-by-area basis - To determine an echo curve using a fill level measurement device operating according to the FMCW principle, the echo curve is calculated from corresponding sampling values at a first resolution. After this, a particular portion of the echo curve is calculated at a second, higher resolution using the DTFT algorithm. This can reduce the complexity required for calculating the echo curve. | 2016-02-25 |
20160054167 | Measurement device control system for determining a topology of a surface of a bulk material - For determining the topology of a bulk material surface, a series of echo curves are detected in different primary radiation directions of the antenna. In the process, the primary radiation direction of the antenna is changed in such a way that all of the generated echo curves of the series of echo curves can be used for determining the topology of the bulk material surface. As a result, the measurement time can be reduced. | 2016-02-25 |
20160054168 | APPARATUS FOR SENSING FUEL LEVEL - Provided is an apparatus for sensing a fuel level, and more particularly, an apparatus for sensing a fuel level that is installed in a fuel tank of a vehicle to sense the fuel level. The apparatus for sensing a fuel level may improve reliability of the sensing of the level because a pipe is vertically installed in the fuel tank and an ultrasonic wave sensor is provided to a lower end of an interior of the pipe to measure the level of the fuel by an ultrasonic wave, and a filter is installed in a fuel inflow and outflow hole formed in the pipe and prevents an inflow of foreign materials into the pipe, thereby making it possible to more accurately sense the level of the fuel. | 2016-02-25 |
20160054169 | FLUID TANK - A fluid tank ( | 2016-02-25 |
20160054170 | Apparatus And Method For Volume And Mass Estimation Of A Multiphase Fluid Stored At Cryogenic Temperatures - An apparatus and method estimate fluid mass in a cryogenic tank that holds a multiphase fluid comprising a liquid and a vapor. The apparatus comprises a level sensor, a pressure sensor and a computer. The level sensor provides a parameter representative of a level of the liquid. The pressure sensor provides a pressure signal representative of vapor pressure inside the cryogenic tank. The computer is operatively connected with the level sensor and the pressure sensor to receive the parameter and the pressure signal, and is programmed to determine the level from inputs comprising the parameter, to calculate a first volume of the liquid from inputs comprising the level, and to calculate a first mass of the liquid from inputs comprising the first volume and the pressure signal. | 2016-02-25 |
20160054171 | DETECTING ROTOR ANOMALIES DURING TRANSIENT SPEED OPERATIONS - A computing system for detecting anomalies in a rotor during a transient speed operation is provided which includes a first computing device programmed to identify a baseline sample set including a plurality of baseline samples. The computing device collects a plurality of current vibration samples from at least one vibration sensor during the transient speed operation, including a first current vibration sample including a first rotational speed measurement of the rotor and a first vibration measurement. The computing device selects one or more baseline samples from the baseline sample set based at least in part on the first rotational speed. Each baseline sample includes a baseline vibration value. The computing device compares the first vibration measurement to one or more baseline vibration values of the selected one or more baseline samples. The computing device transmits an alert to a monitoring device based at least in part on the comparing. | 2016-02-25 |
20160054172 | IMAGE SENSOR FOR PRODUCING VIVID COLORS AND METHOD OF MANUFACTURING THE SAME - An image sensor and a method of manufacturing the same are provided. The image sensor includes a photoelectric conversion layer; a color filter disposed on the photoelectric conversion layer; a low refractive index layer disposed on the color filter; a beam splitter disposed within the low refractive index layer; and a lens layer disposed on the low refractive index layer and covering the beam splitter. The beam splitter extends in a diagonal direction of a pixel area of the color filter, in a plan view. | 2016-02-25 |
20160054173 | IMAGE SENSOR HAVING IMPROVED LIGHT UTILIZATION EFFICIENCY AND METHOD OF MANUFACTURING THE SAME - An image sensor including a color filter array layer, which includes a plurality of color filters transmitting light of different colors; and reflective partitioning walls, which define the color filters and have a lower refractive index than that of the color filters; a color separation device, which separates incident light into a plurality of colors, such that the plurality colors are incident on the plurality of color filters, respectively; and a sensor substrate, on which a plurality of light detection devices for respectively sensing light transmitted through the plurality of color filters are arranged in an array shape. | 2016-02-25 |
20160054174 | MINIMIZING GRAZING INCIDENCE REFLECTIONS FOR RELIABLE EUV POWER MEASUREMENTS - A light source includes a light generating chamber and a collector disposed in the light generating chamber. A target material generator configured to propel a quantity of target material toward an irradiation region is disposed in front of a reflective surface of the collector. A plurality of photodetector modules is disposed external to the light generating chamber, with each of the photodetector modules being directed toward the irradiation region. A plurality of tubes is disposed between a corresponding photodetector module and the irradiation region. Each tube has a centerline directed toward the irradiation region, and each tube has a roughened inner surface. The surface roughness of the roughened inner surface is sufficient to cause grazing incidences of light to be eliminated rather than to be reflected off the roughened inner surface. A method of generating light and a method of measuring light energy also are described. | 2016-02-25 |
20160054175 | Light Sensor Windows For Electronic Devices - An electronic device may be provided with light sensors. The electronic device may have an electronic device housing in which a display is mounted. The display may have a transparent layer such as a transparent display cover layer, a thin-film transistor layer, or a color filter layer. An opaque masking layer such as a layer of black ink may be used to cover an inner surface of the transparent layer in an inactive area of the display. Sensor window openings may be formed in the black ink layer. A layer of ink may be formed in each sensor window opening. Each layer of ink may have a diffuse reflectivity that is matched to that of the black ink. A diffuser layer such as a polymer coating layer with light-scattering particles may be coated on the inner surface of the layer of ink in a sensor window opening. | 2016-02-25 |
20160054176 | HIGH ENERGY LASER TARGET BOARD APPARATUS - A laser target board apparatus is provided for detecting spatial and temporal intensity distribution of high energy laser beams. The laser target board apparatus may include a panel having a plurality of openings and a plurality of optical rods placed therein. The laser target board apparatus may further have an optic fiber array positioned substantially parallel to and behind the panel and separated from the panel by a predetermined distance. At least one lens is configured to receive photons emitted from a second end of each optic fiber unit of the optic fiber array, and at least one camera is configured to detect the photons. A processor is configured to analyze temporal and spatial distribution of intensity of the received high energy laser beam based on data generated by the at least one camera. | 2016-02-25 |
20160054177 | Spectrometer With Active Beam Steering - A spectrometer includes a light source that emits a beam into a sample volume comprising an absorbing medium. Thereafter, at least one detector detects at least a portion of the beam emitted by the light source. It is later determined, based on the detected at least a portion of the beam and by a controller, that a position and/or an angle of the beam should be changed. The beam emitted by the light source is then actively steered by an actuation element under control of the controller. In addition, a concentration of the absorbing media can be quantified or otherwise calculated (using the controller or optionally a different processor that can be local or remote). The actuation element(s) can be coupled to one or more of the light source, a detector or detectors, and a reflector or reflectors intermediate the light source and the detector(s). | 2016-02-25 |
20160054178 | Spectrometer With Variable Beam Power and Shape - At least one light source is configured to emit at least one beam into a sample volume of an absorbing medium. In addition, at least one detector is positioned to detect at least a portion of the beam emitted by the at least one light source. Further, at least one beam modification element is positioned between the at least one detector and the at least one light source to selectively change at least one of (i) a power intensity of, or (ii) a shape of the beam emitted by the at least one light source as detected by the at least one detector. A control circuit is coupled to the beam modification element. Related apparatus methods, articles of manufacture, systems, and the like are described. | 2016-02-25 |
20160054179 | Spectrophotometer Comprising an Integrated Fabry-Perot Interferometer - An “integrated” Fabry-Perot interferometer, such as for use in a spectrophotometer, is fabricated by attaching two micro-machined semiconductor-on-insulator wafers to one another. One mirror is formed on each micro-machined wafer. One mirror is supported by a thermally insulated, suspended micro-platform. In some embodiments, interferometer cavity length is adjustable. Detectors are disposed at least partially within the micro-platform. In some embodiments, the interferometer, a light source, and other circuitry and components, such as wireless communications components, are contained in a sealed package that includes a sampling region, thereby providing an integrated spectrophotometer. The integrated spectrophotometer can be implanted, for example, in animal tissue environments, such as for analyzing various compounds in the blood. | 2016-02-25 |
20160054180 | APPARATUS AND METHOD FOR MEASURING THE CONCENTRATION OF TRACE GASES BY SCAR SPECTROSCOPY - The present invention relates to a ring-down spectrometry apparatus in absorption saturation condition, for measuring the concentration of a gas through a measurement of the spectrum of a molecular transition of said gas. The apparatus includes a laser source, an adjuster for varying the wavelength of said radiation emitted by said laser, and a resonant cavity. A photodetector is adapted to detect an electromagnetic radiation beam and is adapted to generate a decay signal. An electronic circuit receives the signal from the photodetector and is adapted to convert it to a processor. A processor is adapted to receive said decay signal from the photodetector and perform interpolation to obtain a concentration of said gas. | 2016-02-25 |
20160054181 | Device And Method For Thermal Analysis - A device for thermal analysis including: a pair of sample container assembly sets, having a sample container and a heat sink connected using a predetermined thermal resistance; a heating unit for equally heating the pair of sample container assembly sets; a temperature control for the heating unit; a weight measurement unit measuring difference between a sample and a reference material; while the heating unit is changed. | 2016-02-25 |
20160054182 | TEMPERATURE SENSOR - A temperature sensor includes a metal tube containing thermo-sensitive element and filled with an insulating filling material, and a housing to which the metal tube is fixed. The metal tube includes a small-diameter part and a large-diameter part. The distal end of the small-diameter part is located beyond a virtual line. The virtual line passes a center of a maximum virtual circle which is an inscribed circle that contacts at least three inner surfaces of the pipe in a cross-section perpendicular to an axial direction of the pipe, and is perpendicular to a center axis line of the metal tube. The whole of the small-diameter part and the part of the large-diameter part filled with the filling material are located within a center virtual circle which is coaxial with the maximum virtual circle and has an inner diameter of ⅔ of that of the maximum virtual circle. | 2016-02-25 |
20160054183 | SEMICONDUCTOR DEVICE - There is provided a semiconductor device which can provide desired output characteristics suitable to applications. A semiconductor device | 2016-02-25 |
20160054184 | INSTANT RESPONSE PRESSURE SENSOR - 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. | 2016-02-25 |
20160054185 | CORE-SHELL NANOFIBER TEXTILES FOR STRAIN SENSING, AND METHODS OF THEIR MANUFACTURE - This invention pertains to a low cost, low noise strain sensor based on a web of continuous core-shell nanofibers with conductive shell and mechanically robust core that can be attached or embedded on a variety objects for directional monitoring of static or dynamic changes in mechanical deformation and pressure. This is a low cost, highly sensitive strain sensor, with low noise and ease of integration for different applications from synthetic tactile skins, to vibrational and health monitoring. | 2016-02-25 |
20160054186 | METHOD AND APPARATUS FOR OPTICAL STRAIN SENSING - Mechanical parameters of an object subjected to a force or condition are measured. A curved portion of a multicore optical fiber is attached to the object, and the multicore optical fiber includes a center core and plural off-center cores. A distributed, optically-based sensing technique is used to obtain information at each of multiple points along the curved portion from multiple ones of the cores of the multicore optical fiber. A curvature associated with the fiber attached to the object is determined using the information obtained from multiple ones of the cores. Strain information is obtained for the center core without having to obtain strain information for the off-center cores. Mechanical parameters are determined based on the strain information obtained for the center core and the curvature information obtained from the multiple ones of the cores. | 2016-02-25 |
20160054187 | METHOD FOR PRODUCING A MAGNET UNIT FOR A SENSOR DEVICE OF A MOTOR VEHICLE, MAGNET UNIT, SENSOR DEVICE AND MOTOR VEHICLE - The invention relates to a method for producing a magnet unit ( | 2016-02-25 |
20160054188 | PHYSICAL QUANTITY SENSOR, PRESSURE SENSOR, ALTIMETER, ELECTRONIC APPARATUS, AND MOVING OBJECT - A physical quantity sensor includes a semiconductor substrate, a diaphragm section that is disposed on the semiconductor substrate and is flexurally deformed when receiving pressure, a sensor element that is disposed on the diaphragm section, an element-periphery structure member that is disposed on one surface side of the semiconductor substrate and forms a cavity section together with the diaphragm section, and a semiconductor circuit that is provided on the same surface side as the element-periphery structure member of the semiconductor substrate. | 2016-02-25 |
20160054189 | CAPACITIVE PRESSURE SENSORS - A capacitive pressure sensor is provided. The capacitive pressure sensor includes a substrate; and a first electrode formed in one surface of the substrate and vertical to the surface of the substrate. The capacitive pressure sensor also includes a second electrode with a portion facing the first sub-electrode, a portion facing the second sub-electrode and a portion formed in the other surface of the substrate. Further, the capacitive pressure sensor includes a first chamber between the first electrode and the second electrode and a second chamber formed in the second electrode. Further, the pressure sensor also includes a first sealing layer formed on the second electrode; and a second sealing layer formed on the other surface of the substrate. | 2016-02-25 |
20160054190 | PRESSURE TRANSMITTER WITH IMPULSE LINE PLUGGING DIAGNOSTIC - A pressure transmitter includes at least one impulse line for coupling a fluid pipe or tank to a pressure sensor that measures a process pressure of a process fluid, a temperature sensor measuring an ambient temperature, and a processor accessing baseline data for the process pressure and ambient temperature. The processor implements an automatic impulse line plugging diagnostic (ILPD) algorithm stored in memory. The processor runs the ILPD algorithm implementing utilizing process measurements including a process pressure from the pressure sensor and an ambient temperature from the temperature sensor, comparing a magnitude of the process pressure to a baseline pressure predicted from the baseline data corresponding to the ambient temperature, and uses results of the comparing to determine whether the impulse line is plugged. The comparing can involve comparing a process pressure change to a baseline pressure change predicted corresponding to an ambient temperature change. | 2016-02-25 |
20160054191 | Sintered body comprising a plurality of materials and pressure measuring instrument comprising such a sintered body - A sintered body comprises a first region which comprises a first material having a first effective coefficient of thermal expansion α | 2016-02-25 |
20160054192 | FREEZE PROOF PROTECTION OF PRESSURE SENSORS - A pressure sensor assembly for measuring the pressure of a first fluid. The assembly having a first housing including a pressure sensing device arranged therein. A diaphragm is arranged on a surface of the first housing and is configured to transmit a force exerted on a first side thereof to the pressure sensing device. A second housing is provided and attached to the first housing. The second housing may be arranged generally circumferentially around the diaphragm. A compressible element is provided and arranged within a compressible element space defined within the second housing. The compressible element is configured to transmit a force exerted thereon by the fluid to the first side of the diaphragm. | 2016-02-25 |
20160054193 | DRAINAGE APPARATUS - A drainage apparatus for a filter device may include a housing and a solenoid valve arranged in the housing. A non-return valve may be arranged downstream the solenoid valve. A pressure sensor may be arranged between the solenoid valve and the non-return valve. The pressure sensor may be configured for pressure sensing in a chamber disposed between the solenoid valve and the non-return valve. | 2016-02-25 |
20160054194 | METHOD OF INLINE INSPECTING AND/OR TESTING DEVICES AND APPARATUS TO PERFORM SUCH METHOD - Inspecting and/or testing of inline conveyed devices is performed in that a monitoring unit is applied to a device. The monitoring unit is removed in a removing area. Within the timespan the monitoring unit is applied to the device, the monitoring unit is operated in a standalone operating mode. During a timespan information about the device to which the monitoring unit is applied is collected in the monitoring unit. This timespan of collecting includes at least a part of the timespan during which the monitoring unit is operated in standalone mode. | 2016-02-25 |
20160054195 | SYSTEM AND METHODS FOR MEASURING OPHTHALMIC LENS - The system and methods are made to apply interferometry to ophthalmic applications. The system makes use of a low-coherence interferometer to obtain a plurality of measurements of a contacts lens. The system and methods characterizes the surface profile of both surfaces of a contact lens, a thickness profiles, and combines these measurements with an index information to reconstruct a complete model of the contact lens. | 2016-02-25 |
20160054196 | METHOD AND SYSTEM FOR DETERMINING THE SPATIAL STRUCTURE OF AN OBJECT - The spatial structure of an optical element is determined. The optical element has a first optically active surface and a second optically active surface. The optical element is arranged in a holding device. The position of a point (P) on the first optically active surface and the position of a point (P′) on the second optically active surface are referenced in a coordinate system fixed to the holding device. The topography of the first optically active surface is determined in a coordinate system referenced to the holding device by the position of point (P) and the spatial structure of the optical element is calculated from the topography of the first optically active surface and from a data set as to the topography of the second optically active surface. The data set is referenced to the fixed coordinate system of the holding device by the position of point (P′). | 2016-02-25 |
20160054197 | METHOD AND APPARATUS FOR PERFORMING INTERRELATION PROFILE ANALYSIS - A method of analyzing a polarization-maintaining (PM) optical fiber includes illuminating a side of the PM optical fiber, physically rotating the PM optical fiber and measuring light intensity of light transmitted through the PM optical fiber to obtain an image profile, mathematically shifting the image profile at incremental rotation angles, expanding the image profile at each rotational angle into a Fourier series profile, and determining points of symmetry of the PM optical fiber based on the Fourier series profiles. | 2016-02-25 |
20160054198 | ROLLING-BEARING TESTING DEVICE - A radial rolling-bearing testing device includes a housing, a lubricant reservoir provided inside the housing and configured so as to retain lubricant in which a portion of a radial rolling bearing is immersed, a rotary shaft which is supported so as to freely rotate inside the housing and which an inner ring of the radial rolling bearing is fitted outside, a rotational driving section which is configured so as to rotate the rotary shaft, a load applying section which has a pressurizing device and is configured so as to apply a load to the radial rolling bearing, and a vibration sensor configured so as to detect a vibration in the radial rolling bearing. The vibration sensor is provided on an outside of the housing, and between the pressurizing device and the radial rolling bearing in a direction in which the load applies. | 2016-02-25 |
20160054199 | PORTABLE EXTRICATION DEVICE AND METHOD OF USE - Embodiments of the invention relate to a system for producing collisions or near-collision situations between a collision body, in particular a vehicle, and a test object. The system comprises a fastening plate having a coupling mechanism, by means of which coupling mechanism the test object can be detachably coupled to the fastening plate, a drive belt which is fastened to the fastening plate, and a drive unit having a drive body for driving the drive belt. The drive unit, the drive belt, and the fastening plate can be placed directly on a floor in such a way that the drive body moves the drive belt and the fastening plate along the floor. The coupling mechanism can be controlled in such a way that the test object is coupled to the fastening plate and can be actively decoupled from the fastening plate from a predetermined operating paint before a collision between the collision body and the test object such that the test object is decoupled from the fastening plate during the collision between the collision body and the test object. | 2016-02-25 |
20160054200 | SHAPE INSPECTION DEVICE - A raised and depressed plate has a base surface, a raised surface, and a depressed surface. A mask processing section is configured to use mask data in which a given region and the remaining region in each of the base surface, the raised surface and the depressed surface are defined as a valid region and an invalid region, respectively, to extract measurement data of the valid regions from measurement data obtained from the sidewall surface of the master disk. A master data generation section is configured to generate master data representing a surface shape of the master disk, by using the measurement data of the valid regions. A user can check measurement accuracy of a shape inspection device by comparing shape values of the raised and depressed plate with the master data. | 2016-02-25 |
20160054201 | Sampling Device - Sampling devices are used to obtain samples of fluids to be analyzed and to determine the composition of the fluid in the sampled environment. A sampling apparatus with an inflatable sample bag used to collect and store liquid, air, vapor, and or gas samples by drawing the sample into the bag through an inlet, a sorbent tube, cassette, and/or other collection media is described. The means for extracting the sample and moving it into the sample bag comprises means for expanding the volume of a sample bag and creating a vacuum or reduced pressure within the sample bag. The means for expanding the include separating walls of a sample bag by use of gravity, pneumatic pressure, a biasing force, hydraulic force, for example or increasing the volume of a sample bag retaining container by such forces. Such sampling apparatuses do not require use of a sampling pump. | 2016-02-25 |
20160054202 | DIURNAL URINE COLLECTION SYSTEM - Collection systems for a liquid sample are described. In one embodiment, a collection system includes a first collection container, a second collection container, a funnel, and a diverter valve. The diverter valve is coupled to the first collection container, the second collection container, and the funnel. The diverter valve may have a first position configured to direct the liquid sample from the funnel into the first collection container, and a second position configured to direct the liquid sample from the funnel into the second collection container. | 2016-02-25 |
20160054203 | Method of Filling a Sample Chamber - There is described a method of filling a sample chamber with a particulate material, said method comprising the steps of: opening an inlet valve to allow only a portion of the particulate material into the sample chamber; drawing air through the particulate material from the base of the sample chamber; closing the inlet valve is closed and opening a flow control valve to apply compression to the particulate material for a set period of time; releasing the pressure; and repeating the steps until the sample chamber is full. | 2016-02-25 |
20160054204 | Automatic Re-Loading Air-Sampling and Pneumatic Transport System - Embodiments of the invention collect solid, vapor, and/or biological components of the air in air-sampling cartridges that are then transported to an off-site location by pneumatic pressure. Operation proceeds by first collecting a sample of air in an air-sampling cartridge in a sampling position, then rotating a wheel assembly to move the now-used sampling cartridge into a transport position while simultaneously moving an unused sampling cartridge into the sampling position, and finally using pneumatic pressure to push the used sampling cartridge in the transport position to an off-site location via a transport tube. The sampling operation can begin again while the transport operation is in still in progress. These operations can be pre-programmed locally or triggered by remote communication. Continued operation is possible due to a plurality of unused air-sampling cartridges retained in the wheel assembly. Since operations can be triggered remotely and air samples are autonomously transported off site, embodiments of this invention eliminate an unnecessary risk to human health that is created by other air-sampling devices, which require an operator to be present at a potentially hazardous sampling site to activate the device or retrieve air samples. Additionally, embodiments of the invention can be installed pre-emptively to eliminate the risk to human health that is created when an operator must deliver a portable air-sampling device to a potentially contaminated sampling site. Furthermore, embodiments of the invention allow rapid retrieval of air samples following sample collection, which can expedite analysis and identification of aerosols and consequently help minimize human exposure to potentially dangerous and life-threatening chemical and biological contaminants. | 2016-02-25 |
20160054205 | DYNAMIC METHOD OF OBTAINING A SAMPLE OF MATERIALS - A method of obtaining a sample of materials includes building a product through an additive manufacturing process. A capsule is formed with an internal chamber inside of the capsule. The capsule is formed during the building of the additive manufacturing product. A sample of powder is encapsulated inside the internal chamber as the capsule is built. The internal chamber is hermetically sealed from an exterior environment to retain the sample of powder in the internal chamber. | 2016-02-25 |
20160054206 | AQUEOUS COMPOSITIONS AND METHODS OF USING THE SAME FORHISTOPATHOLOGICAL EVALUATION OF TISSUE SAMPLES - Aqueous solutions that include: (A) an organic polyol having from 2 to 20 carbon atoms and having a flash point of at least 93° C.; (B) a base; (C) a surfactant; and (D) water, where the aqueous solution does not include an organic solvent having a flash point below 23° C. and a boiling point of at least 38° C. | 2016-02-25 |
20160054207 | Low Resource Sample Processor Containing Heat-Activated Surface Tension Valves - 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 whole cells as well as biomolecules including viruses, proteins, nucleic acids, carbohydrates and lipids. | 2016-02-25 |
20160054208 | IN SITU HEAT INDUCED ANTIGEN RECOVERY AND STAINING METHOD - An automated in situ heat induced antigen recovery and staining method and apparatus for treating a plurality of microscope slides. The process of heat induced antigen recovery and the process of staining the biological sample on the microscope slide are conducted in the same apparatus, wherein the microscope slides do not need to be physically removed from one apparatus to another. The reaction conditions for treating a slide can preferably be controlled independently, including the individualized application of reagents to each slide and the individualized treatment of each slide. | 2016-02-25 |
20160054209 | IN SITU HEAT INDUCED ANTIGEN RECOVERY AND STAINING METHOD - An automated in situ heat induced antigen recovery and staining method and apparatus for treating a plurality of microscope slides. The process of heat induced antigen recovery and the process of staining the biological sample on the microscope slide are conducted in the same apparatus, wherein the microscope slides do not need to be physically removed from one apparatus to another. The reaction conditions for treating a slide can preferably be controlled independently, including the individualized application of reagents to each slide and the individualized treatment of each slide. | 2016-02-25 |
20160054210 | IN SITU HEAT INDUCED ANTIGEN RECOVERY AND STAINING METHOD - An automated in situ heat induced antigen recovery and staining method and apparatus for treating a plurality of microscope slides. The process of heat induced antigen recovery and the process of staining the biological sample on the microscope slide are conducted in the same apparatus, wherein the microscope slides do not need to be physically removed from one apparatus to another. The reaction conditions for treating a slide can preferably be controlled independently, including the individualized application of reagents to each slide and the individualized treatment of each slide. | 2016-02-25 |
20160054211 | DEVICE AND METHOD FOR MEASURING TRUE TRIAXIAL CREEP OF GEOTECHNICAL ENGINEERING TEST BLOCK - Device and method for measuring true triaxial creep of a geotechnical engineering test block, including a supporting structure; the device includes four confining pressure-plates and upper-and-lower compression-plates forming an enclosed cavity for the test block; confining pressure-plates include two long confining pressure-plates and two short-confining pressure-plates, upper-and-lower compression-plates are rectangular top and bottom steel-plates, two L-shaped long confining pressure-plates bent towards the outer side lapped on two adjacent side faces of the bottom steel-plate, two L-shaped short-confining pressure-plates bent towards the outer side lapped on remaining two-side faces of the bottom steel-plate, and bottom ends of the short-confining pressure-plates are placed on the bottom steel-plate; top ends of long confining pressure-plates lapped on the top steel-plate, and top steel-plate leans against inner side faces of two short-confining pressure-plates; vertically pressure sensors corresponds to four confining pressure-plates and upper-and-lower compression-plates in the supporting structure, and grating shortrulers on pressure sensors. | 2016-02-25 |
20160054212 | A METHOD OF GENERATING A DRIVE SIGNAL FOR A VIBRATORY SENSOR | 2016-02-25 |
20160054213 | APPARATUS FOR MEASURING RHEOLOGICAL PARAMETERS AND METHODS FOR ITS OPERATION - An apparatus for measuring rheological parameters of a multi-phase fluid is provided. The apparatus includes a static chamber containing a multi-phase fluid having at least a first phase and a second phase. The apparatus also includes a rotor member submersed in the multiphase fluid in the static chamber. The rotor member includes a first set of threads formed on a first portion of the rotor member submersed in the first phase of the multi-phase fluid and a second set of threads formed on a second portion of the rotor member submersed in the second phase of the multi-phase fluid. | 2016-02-25 |
20160054214 | SYSTEM AND METHOD FOR ASSESSING RHEOLOGICAL PROPERTIES OF GREASE - A system for investigating rheological properties of grease, the system including grease sample preparation arrangement for preparing a grease sample with a predetermined quantity of grease, at least two sample holder plates for holding the grease sample by sandwiching the grease sample between the sample holder plates, wherein at least one of the sample holder plates is transparent, and a loading system for generating a predetermined force acting on the grease sample sandwiched between the sample holder plates by pressing on the sample holder plates such that a spot formed by the grease sample on the sample holder plates is expanded. The loading system can include at least one transparent portion enabling a continuous observation of the expansion of the spot while the predetermined force is acting on the grease sample. | 2016-02-25 |
20160054215 | GAS DETECTOR FOR USE WITH AN AIR SAMPLING PARTICLE DETECTION SYSTEM - An apparatus and methods for detecting the presence of gases is described. The gas detection apparatus includes, a housing adapted to be in fluid communication with a duct of a particle detection system, and at least one gas detector sensitive to a target species arranged in fluid communication with the housing to detect the presence of the target species in at least part of the air sample flowing in a duct. In one form the gas detection apparatus forms part of a system for detecting a condition in an environment that includes, a particle detector; a duct system in fluid communication with the environment and the particle detector and an aspirator to draw an air sample flow from the environment to the particle detector. | 2016-02-25 |
20160054216 | FIBER DELIVERY FOR LASER BOND INSPECTION - Methods, systems, and apparatuses are disclosed for fiber delivery of a laser pulse used in laser bond inspection. In one embodiment, a system for fiber delivery of a laser pulse for laser bond inspection comprises a laser operable to produce the laser pulse, one or more optical fibers, and an inspection head. | 2016-02-25 |
20160054217 | APPARATUS AND METHOD FOR OPTICALLY CHARACTERIZING MATERIALS - The present invention relates to a device for optical characterisation of a sample and/or of the material(s) of the same having an illumination unit that can be orientated to illuminate with incident light a sample spatial portion into which the sample can be introduced, a detection unit which is orientated or can be orientated to image the sample introduced into the sample spatial portion by receiving light reflected by the sample, and which is configured to detect at least two different, preferably orthogonal, polarization components in the reflected light, and an evaluation unit with which, in the imaging data recorded by the detection unit, those imaged surface elements (reflection elements) of the sample can be identified, and with which the detected different polarization components for these reflection elements can be evaluated for optical characterisation. | 2016-02-25 |
20160054218 | INTRALUMINAL PRESSURE DETECTION FOR DIVERTICULAR DISEASE - A pressure detection tablet is disclosed. The tablet is a capsule including a dye encapsulated within an inner coating, in which the inner coating is configured to rupture at a pressure equal to or greater than a pressure threshold. The tablet further includes an outer coating surrounding the capsule, in which the outer coating is configured to provide delivery of the capsule to a targeted site. The dye may be a non-metabolized, water soluble dye, such that a ruptured capsule releases the dye which can be visually detected in the urine. In some embodiments, the disclosure provides a method of making the tablet, using the tablet to detect peak pressure in the colon and reducing the risk of developing a colonic disorder. | 2016-02-25 |
20160054219 | Compact Size Explosives Detector with Ultra Fast Response and High Sensitivity and Method for Detecting Explosives - A system and methodology for semi-selective Infra-Red sampling and detection of explosive traces is described. The detection system combines the advanced Infra-Red sampling technique, capable to sample even non-volatile explosives in vapor mode with sensitive and interfering compounds extremely resistant analytical unit for reliable detection of all explosive compounds. All presented technology is designed to create ultra-miniature pocket-sized, ultra-fast detection system. | 2016-02-25 |
20160054220 | GAS DETECTOR, GAS DETECTION METHOD AND OPTICAL COMPONENT - A gas detector ( | 2016-02-25 |
20160054221 | METHOD AND SYSTEM FOR IMAGING A TARGET - A system for characterizing a bi-directional reflectance distribution function scattered light pattern of a portion of a sample is disclosed. The system can comprise a hemispherical member comprising an reflective inner surface; an entrance port operable to receive electromagnetic radiation from an electromagnetic radiation source; a first reflective optical element operable to receive at least a portion of the electromagnetic radiation and to direct the at least the portion of the electromagnetic radiation onto the portion of the sample to be characterized; a wide-angle lens operable receive the electromagnetic radiation that was specularly reflected and diffusely scattered from the portion of the sample onto the inner surface of the hemispherical member; and an imaging device operable to record intensity information imaged by the wide-angle lens to characterize the bi-directional reflectance distribution function scattered light pattern of the portion of the sample. | 2016-02-25 |
20160054222 | METHOD FOR ANALYZING ATYPICAL CELLS IN URINE, URINE ANALYZER, AND METHOD FOR ANALYZING ATYPICAL CELLS IN BODY FLUID - Disclosed is a method for analyzing atypical cells in urine including: mixing urine, a diluent containing a surfactant, and a nucleic acid staining reagent to prepare a measurement specimen; irradiating the measurement specimen with light to detect scattered light and fluorescence light emitted from cells whose nucleic acids are stained; and detecting atypical cells contained in the measurement specimen distinguishably from white blood cells depending on a first characteristic parameter based on the scattered light and a second characteristic parameter based on the fluorescence light. | 2016-02-25 |
20160054223 | METHOD FOR MEASURING ANALYTE - A method for measuring the presence or amount of at least one analyte in a sample mixture that includes capturing a first analyte on a first cavity arrangement structure having a plurality of cavities; capturing an impurity present in the sample mixture or a second analyte on a second cavity arrangement structure that has a plurality of cavities and that differs from the first cavity arrangement structure in at least one of cavity size and surface modification; and after these steps, irradiating the first cavity arrangement structure or the first and second cavity arrangement structures with electromagnetic radiation and detecting the characteristics of scattered electromagnetic radiation. | 2016-02-25 |
20160054224 | Mass Spectrometer Detector Using Optically Active Membrane - A detector suitable for mass spectroscopy uses a thin membrane that converts the kinetic energy of impinging molecules into corresponding photons, the latter detected with a suitable photosensor. The arrival of molecules at the membrane is detected by detection of the corresponding photons. | 2016-02-25 |
20160054225 | ULTRA DARK FIELD MICROSCOPE - A fluorescence microscope includes a nearly monochromatic light source, a Brewster angle wedge, and an optical system for irradiating a sample with a light beam from the light source and directing fluorescence light from said sample onto the Brewster angle wedge. Collection optics are provided for focusing a hyper-spectral, wide angle and dark field image of the sample from the Brewster angle wedge onto recording optics. | 2016-02-25 |
20160054226 | An image forming method of a fluorescent sample - A method of imaging a fluorescent sample includes the steps of: scanning fluorescent points of the sample using a scanner apparatus, thereby obtaining scanned fluorescent points; and imaging the scanned fluorescent points on a display, the scanning including the steps of predefining a scan field for the sample, which includes a set of scannable fluorescent points; and sequentially irradiating, at least one first subset of points of the set of points and at least one second subset of the set of points, which complements the first subset with respect to the set of points. The first and second subsets can be irradiated at different focal irradiation distances. | 2016-02-25 |
20160054227 | SURFACE-ENHANCED RAMAN SCATTERING UNIT AND RAMAN SPECTROSCOPIC ANALYSIS METHOD - A SERS unit | 2016-02-25 |
20160054228 | TOTAL NITROGEN MEASUREMENT APPARATUS - A total nitrogen measurement apparatus comprising an ultraviolet lamp comprising: a light emission section and a holding section for holding the light emission section, the holding section being formed of a material not including iron; a reaction vessel having a space where the light emission section is to be inserted and a sample water is to be contained around the light emission section for converting nitrogen compounds in the sample water contained in the reaction vessel into nitrate ions by oxidative decomposition using ultraviolet rays from the light emission section; and a measurement section configured to perform absorbance measurement on the sample water including the nitrate ions. | 2016-02-25 |
20160054229 | PAPER SENSING AND ANALYTIC SERVICE WORKFLOW METHODS AND SYSTEMS - This disclosure provides a workflow method and system associated with a paper-based sensor. Specifically, provided is a paper-based sensor workflow including printing of customized security sensing information and bio-reagents to produce a paper-based sensor, applying a test material, such as, but not limited to, blood, to the paper-based sensor, capturing an image of the paper-based sensor and performing a colorimetric process; and performing one or more analytics to produce results associated with the test material | 2016-02-25 |
20160054230 | ENZYMATIC METHOD FOR DETECTING POLYAROMATIC HYDROCARBONS - Polyaromatic hydrocarbons (PAH) from industrial waste and oil spills are a recurrent threat to food safety due to their stability and toxicity. Existing methods to establish the concentrations of PAH in environmental and food samples rely on expensive and laborious methodology. The teachings herein provide methods and kits for detecting the presence or absence of PAH. In certain embodiments, the quantity of PAH in a sample can be determined. | 2016-02-25 |
20160054231 | METHOD FOR THE QUALITY ASSESSMENT OF A COMPONENT PRODUCED BY MEANS OF AN ADDITIVE MANUFACTURING METHOD - The invention relates to a method for the quality assessment of a component produced by means of an additive manufacturing method. In the course of the method, it is checked first of all whether the component violates predetermined absolute limits in order to rule out the existence of serious malfunctions in the additive manufacturing process. Subsequently, a component-dependent targeting process is determined. On the basis of this targeting process, the limits for deviations are established and deviating actual values of the component are isolated and assessed by means of various parameters. | 2016-02-25 |
20160054232 | System and Method for Apodization in a Semiconductor Device Inspection System - An inspection system with selectable apodization includes a selectably configurable apodization device disposed along an optical pathway of an optical system. The apodization device includes one or more apodization elements operatively coupled to one or more actuation stages. The one or more actuation stages are configured to selectably actuate the one or more apodization elements along one or more directions. The inspection system includes a control system communicatively coupled to the one or more actuation stages. The control system is configured to selectably control an actuation state of at the one or more apodization elements so as to apply a selected apodization profile formed with the one or more apodization elements. | 2016-02-25 |
20160054233 | SYSTEM FOR DETECTING DEFECTS ON AN OBJECT - A system and method for detecting defects on an object including forming an image representing the object from signals relating to the object, constructing subdivisions of the image according to auto-adaptive resolutions, and calculating differentials between various subdivisions in order to detect an abnormal subdivision indicating incipient failure. | 2016-02-25 |
20160054234 | TEST CONTAINER FOR TESTING INSPECTION DEVICES - A test container for checking container inspection machines, which inspection machines are suitable for examining at least a first category of containers for the presence of foreign bodies, with a man body in which a liquid is disposed, with a mouth via which the liquid is able to be introduced into the container, with a first closure by means of which the container is closed, wherein a foreign body which can be detected by the inspection machine is disposed in the container is provided. The container and/or the liquid disposed therein has a detection means which can be detected by a user and/or by a detection device in order thus to distinguish the test container per se from another container of the category to be inspected. | 2016-02-25 |
20160054235 | SURFACE INSPECTION APPARATUS AND SURFACE INSPECTION METHOD - Provided are a surface inspection apparatus and a surface inspection method. More particularly, disclosed are a surface inspection apparatus and a surface inspection method to allow for inspection of a foreign material on non-uniformly colored diffusive surfaces containing a metal or polymer material or the like. | 2016-02-25 |
20160054236 | CRYOSTAT INSPECTION CAMERA ARRANGEMENT AND METHOD - A bung assembly for closing an opening in a turret of a cryostat has a camera housing and bung body that is mechanically dimensioned to fit the opening, and is provided with a sealing arrangement for forming a gas-tight seal between the bung body and the turret. | 2016-02-25 |
20160054237 | SYSTEM AND METHOD FOR OPTICAL INSPECTION OF ELECTRONIC CIRCUITS - An optical inspection system for an electronic circuit comprises sensors of images of the electronic circuit, at least two supports on which are intended to rest two parts of the electronic circuit and a device for modifying the position of each support, independently of one another. | 2016-02-25 |
20160054238 | DEVICE FOR NEAR FIELD AND FAR FIELD IMAGING IN THE MICROWAVE RANGE - A device for the imaging of an object to be studied, combines: a prism made from a material with no losses (non-absorbent) for radiation in the microwave range; a sample holder on a front face of the prism for receiving the object to be studied; and a mobile emitting antenna on a rear face of the prism in order to emit radiation in the microwave range. | 2016-02-25 |
20160054239 | HELICAL COMPUTED TOMOGRAPHY - An x-ray imaging system may include an x-ray generator, one or more radiation detectors, a rotary stage, a linear translation stage, a motion control system, and a data acquisition system. The rotary stage has an axis of rotation arranged perpendicular to an axis of an x-ray beam emitted by the x-ray generator. The linear translation stage may be configured to move the rotary stage linearly along an axis aligned with the axis of rotation of the rotary stage. The motion control system may synchronize rotational motion of the rotary stage and linear motion of the linear translation stage. The data acquisition system may comprise processors configured to receive user input parameters. The processors may configure, based at least in part on the user input parameters, the x-ray imaging system to acquire radiographs. The processors may generate a three-dimensional image from the radiographs. | 2016-02-25 |
20160054240 | METHOD OF ACQUIRING EBSP PATTERNS - The invention relates to a method of acquiring an Energy Backscattering Pattern image of a sample in a charged particle apparatus, the sample showing a flat surface, the charged particle apparatus equipped with an electron column for producing a finely focused electron beam, a position sensitive detector for detecting EBSP patterns, and a sample holder for holding and positioning the sample, the method comprising the steps of:
| 2016-02-25 |
20160054241 | PREPARATION OF SAMPLE-PELLETS BY PRESSING - A sample may be prepared for measurement by pressing, for example for XRF. In some cases, the sample may include a component that may mobilise on pressing. Such samples may be prepared by adding a binder to the sample. The binder includes an additive for binding the component that may mobilise and may include an additional component or components such as wax. The binder may be activated carbon, graphite or a mixture. The sample may be mixed using a mill, for example, and pressed into a pellet. Measurements may then be made on the pressed sample. | 2016-02-25 |
20160054242 | XRF Analyzer Communication - An x-ray fluorescence (XRF) analysis system | 2016-02-25 |
20160054243 | XRF Analyzer Activation Switch - The invention includes various electronic devices for avoiding or minimizing XRF analyzer user fatigue. In one embodiment, the XRF analyzer can include a finger sensor for activating an XRF analysis. In another embodiment, the XRF analyzer can include a finger tap switch for activating the XRF analysis. In another embodiment, the XRF analyzer can include a microphone for activating the XRF analysis by receipt of a verbal command. Additional benefits of some embodiments include improving XRF analysis safety and avoiding XRF analyzer theft. | 2016-02-25 |
20160054244 | FILM-FORMING AND ANALYSIS COMPOSITE APPARATUS, METHOD FOR CONTROLLING FILM-FORMING AND ANALYSIS COMPOSITE APPARATUS, AND VACUUM CHAMBER - A vacuum chamber is provided with a film-forming apparatus which film-forms an oxide semiconductor thin film by sputtering, an analysis apparatus which performs spectroscopic analysis with respect to a surface of the film-formed oxide semiconductor thin film, and a valve which splits an inner space of the vacuum chamber into a first space where the analysis apparatus is arranged and a second space where the film-forming apparatus is arranged and permits communication between the split first space and second space. | 2016-02-25 |
20160054245 | THERMOGRAPHY-BASED METHOD FOR DETECTING DEFECTS IN SEALS WITH CONDUCTIVE INNER-SEALS - The present disclosure provides a method for detecting thermal sealing defects of a container during its transportation along a process line. The method is particularly suitable for containers caped with a cap liner and sealed with an inner seal. The method makes use of a high frequency heat (e.g. by a high frequency heat induction unit) to cause eddy current in the inner seal after which there is sensing by an IR imager of radiation emitted from the conductive innerseal to generate sensed IR image data indicative of the sensed radiation. The sensing is characterized by at least one of (i) a time window of a sensing session of between 50 msec to 300 msec during which said container is being transported through the FOV; and (ii) a sensing range of a wavelength spectrum region from 2 μm to 6 μm. The IR data is then processed so as to generate output data indicative of the presence or absence of at least one defect in the sealing of the container by said innerseal. | 2016-02-25 |
20160054246 | A DEVICE FOR DETERMINING THE CHARACTERISTIC IMPEDANCE SPECTRUM OF A TOKEN - The present invention relates to a device for determining the characteristic impedance spectrum of a token such as a monetary coin, said device comprising:—a point impedance transducer having an inducing element for inducing an ultrasonic movement in the token and a sensing element for detecting the resistance of the token to that induced movement;—a closed system for housing said point impedance transducer; and processing means connected to the point impedance transducer for determining the characteristic impedance spectrum of said token. In particular, the present invention relates to testing whether a token or coin is genuine or a forgery, of sorting coins including from differing monetary systems and/or their denominations, and also providing a “fingerprint” for forged coins. | 2016-02-25 |
20160054247 | CHARACTERIZATION OF MATERIAL UNDER TEST (MUT) WITH ELECTROMAGNETIC IMPEDANCE SPECTROSCOPY - Methods of extracting complex impedance from selected subsurface volumes of a material under test (MUT) using various embodiments of electrode sensor pairs are provided. The electrode pairs can penetrate into a subsurface of the MUT, and operate below the surface of the MUT. Configurations of electrode pair sensors provide measured data of complex impedance of selected subsurface volumes of the MUT using electromagnetic spectrographic signals over a frequency range. The complex impedance characteristics of the subsurface volumes may be used to identify variations in the properties of the MUT, or be correlated to physical properties of the MUT. | 2016-02-25 |
20160054248 | Methods and Devices for Determining Sensing Device Usability - Methods and devices for determining sensing device usability, e.g., for self-monitoring and point of care devices. In one embodiment, the invention is to a method of determining device usability, comprising the steps of providing a device comprising a first electrical pad; a second electrical pad; and a humidity-responsive polymer layer contacting at least a portion of the first and second electrical pads; applying a potential across the first and second electrical pads; measuring an electrical property associated with the humidity-responsive polymer layer; and determining whether the measured electrical property associated with the humidity-responsive polymer layer has exceeded a humidity threshold level associated with the device usability. | 2016-02-25 |