06th week of 2016 patent applcation highlights part 34 |
Patent application number | Title | Published |
20160041010 | MAGNETIC POSITION DETECTION DEVICE AND MAGNETIC POSITION DETECTION METHOD - A magnetized scale ( | 2016-02-11 |
20160041011 | STEPPER MOTOR WITH ELECTROMAGNETIC ARRANGEMENTS - An instrument cluster assembly with electromagnetic arrangements is disclosed and includes at least one gauge. The gauge includes a dial having a linear slot and a pointer assembly disposed in the slot. A linear motor configured to move the pointer assembly. A controller generates a signal to the linear motor in response to a vehicle operating condition to move the pointer assembly. | 2016-02-11 |
20160041012 | STEPPER MOTOR ASSEMBLY HAVING OPPOSITE SHAFTS - A stepper motor assembly, for use in an instrument panel in some applications, has a first rotor, a second rotor, a set of first electromagnets, and a set of second electromagnets. Each electromagnet is disposed adjacent to one of the first and second rotors and is configured to generate a magnetic field to rotate the respective rotor. The first rotor is configured to rotate a first shaft, wherein the first shaft extends from a first side of the stepper motor assembly. The second rotor is configured to rotate a second shaft, wherein the second shaft extends from a second side of the stepper motor assembly. The second side is opposite the first side. The first and second shafts are rotatable independently about a single shaft axis. | 2016-02-11 |
20160041013 | METHOD OF POWER-SAVING IN MEMS SENSOR APPLICATIONS - Method including detecting low user dynamics by a first MEMS sensor is provided. A first sensor determines sampling rate value corresponding to the low user dynamics. The first sensor sampling rate value is less than a second sensor sampling rate value corresponding to high user dynamics. A sampling rate of a second MEMS sensor is adjusted to the first sensor sampling rate value. | 2016-02-11 |
20160041014 | SENSOR DEVICE, MEASUREMENT SYSTEM, AND MEASUREMENT METHOD - A controller switches a measurement unit from a non-measurement state to a measurement state to start measurement processing of the measurement target physical amount when a trigger condition having a lowest variation level for a steady state is satisfied in plural trigger conditions set according to a trigger physical amount detected by a trigger detector, and the controller interrupts currently-performed measurement processing to start measurement processing corresponding to a trigger condition having a higher variation level when the trigger condition having the variation level for the steady state higher than that of the trigger condition corresponding to the currently-performed measurement processing is satisfied during performance of the measurement processing. | 2016-02-11 |
20160041015 | SENSOR FOR MONITORING RHEOLOGICALLY COMPLEX FLOWS - Flow sensors, systems, and methods for continuous in situ monitoring of a rheologically complex fluid flow within a vessel, such as particulate and multiphase media for ascertaining certain fluid flow parameters, such as flow rate, dynamic viscosity, fluid density, fluid temperature, particle density and particle mass, from flow sensor measurements. The system involves a fluid flow sensor having a body member with internalized strain gauges configured to measure the deformation of certain segments of the body member. Based, at least in part, on these deformation measurements, the system is used to compute the fluid flow parameters. | 2016-02-11 |
20160041016 | Verfahren und Wirbelstromungsmessgerat Zur Bestimmung des Massenstromverhaltnisse einermhrphasigen Stromung - A vortex flow measuring device as well as a method for determining by means of a vortex, flow measuring a device, which has a bluff body protruding into the flowing medium and a vortex sensor, the mass flow ratio (x) of an at least at times two- or multiphase medium flowing in a measuring tube and having a gaseous first phase flowing with a first mass flow rate {dot over (m)} | 2016-02-11 |
20160041017 | Ultrasonic Flowmeter with Internal Surface Coating and Method - An ultrasonic flowmeter includes a meter body including a flow passage having wetted surfaces through which fluid flow is to be measured. The flowmeter includes a non-stick coating adhered to the wetted surfaces of the meter body. The flowmeter includes a first transducer and at least a second transducer arranged around the flow passage to transmit and receive ultrasonic energy. The flowmeter includes an electronic unit designed to generate and receive electronic signals from the transducers and to process the signals in order to compute information related to the fluid flow rate through the passage. A method for measuring fluid flow with an ultrasonic flowmeter. A method of making an ultrasonic flowmeter. | 2016-02-11 |
20160041018 | Me wandler vom Vibrationstyp sowie damit gebildetes Me system - The measuring transducer comprises a measuring tube having an inlet-side tube end and an outlet-side tube end, a tube wall having a predetermined wall thickness and a lumen surrounded by the tube wall and extending between the first and second tube end, a support element, which with a support end is mechanically connected with the tube end and with a support end is mechanically connected with the tube end, as well as, laterally spaced from the measuring tube, a support element, which with a support end is mechanically connected with the support end and with a support end is mechanically connected with the support end. The measuring tube of the measuring transducer is adapted to guide a flowing medium in its lumen and during that to be caused to oscillate about a static resting position for producing Coriolis forces. The measuring transducer comprises an oscillation exciter as well as at least one oscillation sensor. The measuring transducer has a wanted mode having a resonant frequency, in which the measuring tube can execute wanted oscillations around its static resting position suitable for producing Coriolis forces and having a wanted frequency corresponding to the resonant frequency of the wanted mode. The oscillation exciter is, furthermore, adapted to excite the wanted oscillations of the measuring tube, and the oscillation sensor, of which one sensor component is placed externally on the measuring tube and one sensor component is placed on the support element, is adapted to register movements of the measuring tube relative to the support element and to convert such into an oscillatory signal representing oscillations of the measuring tube. | 2016-02-11 |
20160041019 | FLUID CONTROL SYSTEM - A fluid-flow detection system comprises a flow sensor configured to measure a flow rate of a fluid within a conduit, an energy harvester coupled to the flow sensor, and a wireless communications module coupled to the energy harvester such that the energy harvester is configured to generate electrical energy derived from the fluid flow, the wireless communications module is configured to transmit a wireless signal associated with the measured flow rate, and the wireless communications module transmits the wireless signal when energized by the energy harvester. | 2016-02-11 |
20160041020 | FLOW METER - A flow meter for a fluid, said flow meter including at least two channels which each comprise a floor, a ceiling and two walls, wherein at least one of the channels is a measuring channel in which a measuring device is arranged, wherein the flow meter includes a channel unit which realizes the channels, wherein the channel unit consists of at least one first component and at least one second component which are fitted into one another and in the joined state complement one another thus forming the channels. | 2016-02-11 |
20160041021 | CAPACITIVE LIQUID LEVEL DETECTION DEVICE - Provided is a capacitive liquid level detection device capable of determining liquid level and liquid quality. This detection device comprises a plurality of electrode pairs disposed at different positions in a height direction in a tank for storing liquid; a measuring instrument for acquiring values equivalent to capacitance between respective electrode pairs of the plurality of electrode pairs; a storage part for storing a plurality of threshold values determined based on values equivalent to capacitance between one of the electrode pairs in the presence of the air or a plurality of kinds of liquids; and a determination part comparing the values equivalent to capacitance between the respective electrode pairs with each of the threshold values, and the determination part determines for determining liquid level corresponding to liquid quality based on the comparison result. | 2016-02-11 |
20160041022 | FLUID LEVEL AND VOLUME MEASURING SYSTEMS AND METHODS OF MAKING AND USING THE SAME - Magnetic field response sensors for use in measuring the volume of a fluid, the type of fluid and/or any contaminants within a fluid container or tank. Fluid containers having sensors systems including two or more sensors for use in measuring fluids and methods of using the same. | 2016-02-11 |
20160041023 | RADER LEVEL GAUGE - A radar level gauge using electromagnetic signals is provided, which includes a connection arrangement for connecting a transmitter receiver circuit board and an antenna unit with one another, with which the horizontal size of the radar level gauge may be reduced and reflection and transmission losses may be suppressed as well. The transmitter receiver circuit board | 2016-02-11 |
20160041024 | THROUGH-WALL TANK ULTRASONIC TRANSDUCER - Technology is described for tank coupled to an ultrasonic sensor subassembly where the combination of the tank and ultrasonic sensor subassembly for an ultrasonic sensor. In an embodiment, ultrasonic sensor subassembly is configured to form an ultrasonic sensor upon coupling to a tank having a tank wall. The ultrasonic sensor subassembly includes a sensor subassembly housing, a planar piezoelectric element located within the sensor subassembly housing, and a circuitry electrically connected to the planar piezoelectric element, where the planar piezoelectric element includes a surface coupled to the tank wall such that the tank wall forms a matching layer of an ultrasonic sensor, and the circuitry configured to produce a signal to drive the planar piezoelectric element to generate a sound wave, and receive an indication of a detected echo from the planar piezoelectric element. Various other methods and systems are also disclosed. | 2016-02-11 |
20160041025 | REMOVABLE MAGNETOSTRICTIVE PROBE WITH AUTOMATIC CALIBRATION - A magnetostrictive sensing instrument comprises a probe including a tube having a near end and a distal end. A magnetostrictive wire is in the tube. An adaptor at the tube near end includes a probe circuit comprising a drive circuit for the magnetostrictive wire, a pickup sensor, a preamplifier and a memory circuit storing calibration parameters for the probe. An instrument housing includes a control circuit. A connector is operatively disposed between the instrument housing and the adaptor and comprises electrical conductors for connecting the control circuit to the probe circuit. | 2016-02-11 |
20160041026 | Method of determining pump flow in twin screw positive displacement pumps - Techniques are provided for tuning a twin screw positive displacement pump having a signal processor with a signal processor to receive signaling containing information about actual pump performance data for actual rated conditions captured during a tuning function related to the operation of a twin screw positive displacement pump; and determine corrected pump performance data to operate the rotary positive displacement pump by compensating pump performance data being used for operating the twin screw positive displacement pump based at least partly on the actual pump performance data for the actual rated conditions captured during the tuning function. The corrected pump performance data includes corrected published pump performance data having a corrected published rated power and slip factor, and the actual pump performance data contains information about actual power, specific gravity and viscosity related to the operation of the twin screw positive displacement pump and received from a pump controller or controlling device, including a variable frequency drive. | 2016-02-11 |
20160041027 | WEIGHING DEVICE FOR A PLOT COMBINE HARVESTER - The invention relates to a weighing device for a plot combine harvester, comprising a weighing container guided vertically adjustably on a frame in the manner of a parallel linkage, said weighing container being supported relative to a frame by way of a weighing cell assembly having a weighing cell articulated in the vertical direction between the frame and the weighing container. In order to provide advantageous design conditions, it is proposed that the weighing container is mounted on the frame in the manner of a parallel linkage via leaf springs clamped at both ends. | 2016-02-11 |
20160041028 | VEHICLE WHEEL SPEED-BASED DETERMINATION OR ESTIMATION OF A LOAD WEIGHT OF A LOAD CARRIED BY A COMMERCIAL VEHICLE - A method for determining or estimating a load weight of a load ( | 2016-02-11 |
20160041029 | IMAGE MODULE PACKAGE AND MANUFACTURING METHOD THEREOF - There is provided an image module package including a substrate, a photo sensor chip, a molded transparent layer and a glass filter. The substrate has an upper surface. The photo sensor chip is attached to the upper surface of the substrate and electrically connected to the substrate. The molded transparent layer covers the photo sensor chip and a part of the upper surface of the substrate, wherein a top surface of the molded transparent layer is formed with a receptacle opposite to the photo sensor chip. The glass filter is accommodated in the receptacle. | 2016-02-11 |
20160041030 | TUNABLE PHOTOCAPACITIVE OPTICAL RADIATION SENSOR ENABLED RADIO TRANSMITTER AND APPLICATIONS THEREOF - A sensor system, device and method for generating a wireless signal in response to a sensed illumination. A sensor is disclosed having: a photosensitive element; a device that converts a sensed illumination detected by the photosensitive element into a corresponding impedance response; and a wireless signal generator that generates a wireless output based on a characteristic of the corresponding impedance response, wherein the wireless output correlates to the sensed illumination. | 2016-02-11 |
20160041031 | SYSTEMS AND METHODS FOR CONTROLLING THE OPTICAL PATH LENGTH BETWEEN A LASER AND AN OPTICAL CAVITY - Systems and methods for controlling the optical path length between a feedback enabled laser and a cavity, and hence the optical feedback phase. A phasor element, positioned along an optical path between the laser and the cavity coupling mirror, includes a gas medium within a volume defined by the phasor element. The phasor element is configured to adjust or control an optical path length of the laser light between the laser and the cavity coupling mirror by adjusting or controlling a density of the gas medium within the phasor volume. | 2016-02-11 |
20160041032 | SPECTROSCOPY APPARATUS AND METHOD - There is presented a spectroscopic apparatus and method wherein an input light source that inputs pump light to a photon pair source. The photon pair source converts pump photons into signal and idler photon pairs. The photon pair source is, in some of examples described herein, tuneable so that the wavelength of the signal and idler photons can be changed by application of a tuning means. At least one of the signal and idler photons is made incident upon a medium under test. A heralding detection apparatus is used to detect any signal and idler photons output from the spectroscopy apparatus, wherein at least one of the photons of the pair has interacted with or been operated upon by the medium under test. | 2016-02-11 |
20160041033 | AIRBORNE HYPERSPECTRAL SCANNING SYSTEM WITH REFLECTIVE TELECENTRIC RELAY - An airborne hyperspectral scanning system with a reflective telecentric relay including a system housing fore-optics, mounted in the housing, an imaging spectrometer mounted in the housing, the imaging spectrometer comprising a spectrometer slit, the spectrometer slit having an exit side and an entrance side, a focal plane array, a fold mirror, and at least three spectrometer mirrors, ordered sequentially, and in optical alignment with each other, and a reflective telecentric relay, mounted in the housing between the fore-optics and the imaging spectrometer, the reflective telecentric relay comprising a collimator module, a scanning mirror module, and an objective module, the objective module being situated to receive intermediate image from the fore-optics and reflect a collimated beam to the scanning mirror image between the collimator module and the objective module, wherein the objective module is situated to form a telecentric image at the entrance of the spectrometer slit. | 2016-02-11 |
20160041034 | COLOR MEASURING APPARATUS, IMAGE FORMING APPARATUS AND COLOR MEASURING METHOD - A color measurement device includes a light source for illuminating an object with light; a dispersing portion for spectrally dispersing light emitted and reflected by the object; a light receptor for receiving the light dispersed by the dispersing portion; and a controller for effecting color measurement based on a result of light reception of the light receptor from the object which is an image formed on a recording material; wherein the emitted light has a first intensity of light in a first wavelength range and a second intensity lower than the first intensity in a second wavelength range, and wherein the controller deduces a value relating to color measurement for the second wavelength range on the basis of a result of light reception of the light receptor for the first wavelength range. | 2016-02-11 |
20160041035 | SYSTEM AND METHOD OF ESTIMATING SPECTRAL CONTRIBUTIONS IN AMBIENT LIGHT AND CORRECTING FIELD OF VIEW ERRORS - The present disclosure describes systems, methods, and devices for estimating spectral contributions in ambient light. The present disclosure also describes systems, methods, and devices for compensating for field of view errors resulting from the user, contextual structures (e.g., buildings, trees, fixtures, or geological formations), atmospheric effects (e.g., ozone coverage, smog, fog, haze, or clouds), device structures, and/or device orientation/tilt relative to a light source being measured (e.g., sun, indoor/outdoor light emitter, or an at least partially reflective surface). The present disclosure also describes systems, methods, and devices for estimating spectral contributions in light or color measurements and accounting for field of view errors to obtain a refined estimate. | 2016-02-11 |
20160041036 | METHOD OF NON-CONTACT CONTROL USING A POLARIZING PEN AND SYSTEM INCORPORATING SAME - There are disclosed a method and a system for non-contact control in a form of a polarization marker, a receiving device, and a microprocessor. In the polarization marker, beams are polarized with a customized cylinder polarizer, pass through a system of lenses and reflectors and are emitted into space, wherein the direction of the polarization vectors is axially symmetrical about the virtual axis of the polarization marker. The receiving device located in the working plane identifies the direction and position in space of the polarization marker in relation to the receiver, the results being interpreted by the microprocessor into control commands The receiving device consists of polarimeters spaced at a predetermined distance. The polarimeters identify the direction of the polarization vectors of incident beams from the polarization marker. Based on the data obtained from each polarimeter, the microprocessor calculates the direction and angles of site of the polarization marker. | 2016-02-11 |
20160041037 | TEMPERATURE CONTROL FOR GaN BASED MATERIALS - A method of in-situ temperature measurement for a wafer treatment reactor such as a chemical vapor deposition reactor desirably includes the steps of heating the reactor until the reactor reaches a wafer treatment temperature and rotating a wafer support element within the reactor about a rotational axis. The method desirably further includes, while the wafer support element is rotating about the rotational axis, obtaining first operating temperature measurements using a first operating pyrometer that receives radiation from a first portion of the wafer support element, and obtaining first wafer temperature measurements using a wafer temperature measurement device that receives radiation from at least one wafer, the wafer temperature measurement device located at a first position. | 2016-02-11 |
20160041038 | NON-CONTACT THERMAL SENSOR MODULE - Compact thermal sensor modules, which in some implementations can be manufactured in wafer-level fabrication processes, include features composed of or coated with a low-emissivity material to reduce or prevent detection by a sensor of radiation emitted by other parts of the module. For example, spacers that separate an optics substrate and a sensor package from one another can be composed of or coated with such a low emissivity material. In some cases, the low emissivity material has an emissivity of no more than 0.1. | 2016-02-11 |
20160041039 | SENSOR CALIBRATION METHOD, COMPUTER PROGRAM AND COMPUTER READABLE MEDIUM - The invention relates to a method for the calibration of sensors of the type that comprises a plurality of sensor elements, such as focal plane arrays, FPAs, for detecting infrared radiation, IR-FPA, the calibration being performed at least two temperatures. According to the invention, the sensor's dynamic range is divided into a plurality of intervals ( | 2016-02-11 |
20160041040 | PROTECTIVE TUBE DEVICE FOR PROTECTING A TEMPERATURE SENSOR AGAINST CONTACT WITH A FLUID - A protective tube device can protect a temperature sensor against contact with a fluid, and has a distal end containing the temperature sensor and has an outer wall provided for contact with the fluid, and a proximal end which is connected to the temperature sensor by electric lines and is intended for arrangement outside the fluid, wherein, on the outer wall of the distal end, an elastic membrane closes off a resultantly defined pressure transmission fluid reservoir in a fluid-impermeable manner, the pressure transmission fluid reservoir being connected fluidically by a fluid channel running within the protective tube device to a pressure sensor arranged in the proximal end. | 2016-02-11 |
20160041041 | TEMPERATURE SENSOR - A temperature sensor includes a sheath member having an insulative holding member which contains an oxygen supplying substance and is formed in such a manner that the oxygen supplying substance is exposed when viewed from an opening on the distal end side of a sheath tube. Since the insulative holding member releases oxygen from the distal end side of the sheath member, a decrease in oxygen concentration around a thermistor element can be suppressed. Thus, it is possible to suppress a change in the characteristics of the thermistor element due to reduction action, and to suppress decrease in temperature detection accuracy. Since the oxygen supplying substance is contained in the insulative holding member, compared with a configuration where a pellet is disposed on the distal end side of the thermistor element, delay in heat conduction is less likely to occur, and a decrease in temperature detection response can be suppressed. | 2016-02-11 |
20160041042 | SEMICONDUCTOR DEVICE INCLUDING A TEMPERATURE SENSOR CIRCUIT - A semiconductor device including a temperature sensor includes a pull up circuit, a pull down circuit, a first additional current path, and a second additional current path. The pull up circuit is configured to generate a pull up current that contributes to generation of a first output current. The pull down circuit is operably coupled to the pull up circuit at an output node and configured to generate a pull down current that contributes to generation of a second output current. The first additional current path, when enabled, is configured to combine a first additional current with the pull up current to comprise the first output current. The second additional current path, when enabled, is configured to combine a second additional current with the pull down current to comprise the second output current. Respective enablement of the first additional current path and the second additional current path is complementary. | 2016-02-11 |
20160041043 | Apparatus and Method for Sterilization and Organization of a Tamper Resistant Lock and Receptacle - A multicompartment envelope or sterilization receptacle for receiving and storing medical instruments includes an adhesive flap for sealing multiple compartments within a single envelope. Individual compartments within the multicompartment enveloped can be opened while still keeping the seal of other compartments, thus keeping unused instruments sterilized. The multicompartment envelope or sterilization receptacle has an aperture for insertion of a heat-deforming color changing sterilization indicator device, where, after exposure to extreme heat, the sterilization indicator device deforms and cannot thereafter be inserted or removed from an aperture of a sterilization receptacle fitted for an unsterilized sterilization indicator device. Thus, the practitioner is assured of sterilized instruments in a sterilization receptacle, when an intact, color changed sterilization indicator device is within the aperture of the sterilization receptacle. Several multicompartment envelopes can further be organized within a binder by procedure or instrument type. | 2016-02-11 |
20160041044 | TEMPERATURE MEASUREMENT HEAD STRUCTURE AND CLINICAL THERMOMETER - A temperature measurement head structure comprises a shell ( | 2016-02-11 |
20160041045 | ADAPTIVE HEAT FLOW CALORIMETER - Apparatus and methods are provided for providing flexible and repairable testing capabilities for systems that generate or absorb heat such as energy storage systems. One embodiment can include a temperature bath structure adapted to contain and maintain a fluid bath at a predetermined temperature, an outer containment structure adapted to insert into the temperature bath structure, heat sinks, thermal sensor assemblies, and an internal containment structure where the thermal sensor assemblies and heat sinks removeably attach to different sections of the inner containment structure so as to measure heat flow into or out of the inner containment structure's different sections. Embodiments of the invention enable rapid insertion/removal of samples as well as replacement of sections of the system including embodiments or parts of thermal sensor assemblies as well as enabling separate thermal measurements associated with different sections of a sample under test within the inner containment structure. | 2016-02-11 |
20160041046 | INTEGRATED ELECTRONIC DEVICE FOR MONITORING PRESSURE WITHIN A SOLID STRUCTURE - The integrated electronic device detects the pressure related to a force applied in a predetermined direction within a solid structure. The device includes an integrated element that is substantially orthogonal to the direction of application of the force. First and second conductive elements are configured to face an operating surface. A measure module includes first and second measurement terminals which are electrically connected to the first and second conductive elements, respectively. A detecting element is arranged in the predetermined direction such that the operating surface is sandwiched between the first and second conductive elements and this detecting element. An insulating layer galvanically insulates the first and second conductive elements. A layer of dielectric material is sandwiched between the detecting element and the insulating layer, and is elastically deformable following the application of the force to change an electromagnetic coupling between the detecting element and the first and second conductive elements. | 2016-02-11 |
20160041047 | PIEZOELECTRIC ACOUSTIC RESONATOR BASED SENSOR - A piezoelectric acoustic resonator based sensor is presented herein. A device can include an array of piezoelectric transducers and an array of cavities that has been attached to the array of piezoelectric transducers to form an array of resonators. A resonator of the array of resonators can be associated with a first frequency response corresponding to a first determination that the resonator has been touched, and a second frequency response corresponding to a second determination that the resonator has not been touched. The array of piezoelectric transducers can include a piezoelectric material; a first set of electrodes that has been formed a first side of the piezoelectric material; and a second set of electrodes that has been formed on second side of the piezoelectric material. | 2016-02-11 |
20160041048 | Detecting a State of a Wearable Device - An example method includes detecting a signal that represents a strain of a frame of a wearable computing device and causing the wearable computing device to perform a function based on the detected signal. The method may also include generating a representation of the detected signal, comparing the representation of the signal to a threshold value, and causing the wearable computing device to perform a function based on the comparison to the threshold value. An example wearable computing device and an example non-transitory computer readable medium related to the example method are also disclosed herein. | 2016-02-11 |
20160041049 | FORCE SENSOR - A cylindrical annular detector is disposed at the periphery of the columnar body fixed at a central part of the upper surface of a supporting substrate. A space between the columnar body and the annular detector is connected by a thin flexible connection member (diaphrapm). A washer-shaped insulation substrate is disposed on the upper surface of the supporting substrate, individual fixed electrodes are formed on the upper surface thereof, and they constitute capacitive elements together with a displacement electrode which is composed of the lower surface of the annular detector. Upon exertion of an external force on the annular detector, the flexible connection member deflects to cause displacement, which is detected as change in capacitance value of the capacitive element. | 2016-02-11 |
20160041050 | Testing apparatus, systems and methods for statically determining free play of aircraft control surfaces - Testing apparatus, systems and methods are provided to obtain measurements pertaining to aircraft control surfaces mounted to stationary aircraft structures for displacements about a hinge axis. A support structure and an actuator carried by the support structure may be provided, the support structure including attachment assemblies for positionally fixing the testing apparatus to the stationary aircraft structure. The actuator carried by the support structure includes a rectilinearly movable actuator shaft which contacts the aircraft control surface when the support structure is positionally mounted to the stationary aircraft structure. Actuation of the actuator will thereby cause the actuator shaft to apply a load to the movable aircraft control surface to cause deflection thereof about the hinge axis. | 2016-02-11 |
20160041051 | METHOD AND APPARATUS FOR DETERMINING AND DISPLAYING FORCE APPLIED BY CYCLIST - A method and apparatus for determining a power phase and other force-related performance of a bicyclist while riding a bicycle. Sensors measure a force applied by the bicyclist to the left and right pedals. The measurement data is analyzed to determine the power phase performance by correlating the force applied by the bicyclist to the left and right pedals with corresponding angles of the left and right cranks. A series of changes in the power phase performance during the ride is recorded. A series of changes in the geographic location of the bicyclist and/or a series of changes in one or more performance metrics while riding the bicycle may also be recorded. The series of changes in the bicyclist's power phase performance, the geographic location, and the performance metrics may be correlated, graphically communicated in real-time or post-ride, and used to improve the bicyclist's performance. | 2016-02-11 |
20160041052 | System And Method For Analysing Vapour Pressure - An apparatus for measuring the vapour pressure of a liquid hydrocarbon sample is disclosed. The apparatus comprises a sealed chamber ( | 2016-02-11 |
20160041053 | SENSOR CO-LOCATED WITH AN ELECTRONIC CIRCUIT - This disclosure provides example methods, devices, and systems for a sensor co-located with an electronic circuit. In one embodiment, a sensor assembly may comprise a semiconductor device configured to include a sensor having a sensing element, an electronic circuit and wherein the sensing element and the electronic circuit are hermetically sealed in the same sensor assembly; and wherein the sensor assembly is capable of outputting an environmental condition signal associated with an environmental condition measured by the sensor. | 2016-02-11 |
20160041054 | Mechanische Stabilisierung und elektrische sowie hydraulische Adaptierung eines Silizium Chips durch Keramiken - A pressure difference sensor includes a pressure difference measuring cell, which has a measuring cell platform with pressure contactable measuring chambers in its interior, a first mounting surface and a second mounting surface. The mounting surfaces have a variable separation under pressure loading of the measuring chambers. A first reinforcement element with a first planar reinforcement area and a second reinforcement element with a second planar reinforcement area. A deflection of the mounting surfaces due to a pressure loading of the measuring chambers is lessened by the reinforcement elements, wherein especially at least 50% of an effective stiffness K=1/(dx/dp) of the reinforcement elements connected by the pressure difference measuring cell is provided only by these connections of the reinforcement element with the measuring cell platform without additional connections between the reinforcement elements in a parallel branch, wherein x is the separation between the first mounting surface and the second mounting surface having the greatest pressure dependence dx/dp. | 2016-02-11 |
20160041055 | SMALL FORM FACTOR PRESSURE SENSOR - A small form factor Microfused Silicon Strain gage (MSG) sensor incorporates an offset spring and feed-in features. A pressure sensor includes a spring having first and second coiled sections offset by a coiled center section in a middle that is used to make offset contact between two electrical contact pads. | 2016-02-11 |
20160041056 | SELF-HEATED PRESSURE SENSOR ASSEMBLIES - The present invention provides a self-heated pressure sensor assembly and method of utilizing the same. The self-heated pressure sensor assembly regulates and maintains the temperature of the pressure sensor, regardless of the external temperature environment, without an external heater as in prior art embodiments. Exemplary embodiments of the pressure sensor assembly incorporate a resistance heater that is built into the sensing chip of the pressure sensor assembly. The pressure sensor assembly also utilizes the resistance of the pressure sensing elements to monitor the temperature of the assembly, which works alongside the resistance heater to maintain a stable temperature within the pressure sensor assembly. | 2016-02-11 |
20160041057 | KNOCKING SENSOR - Provided is a knocking sensor with a support member, a piezoelectric element, a pair of electrode parts, a resistor and a case. The resistor has a resistor body formed with a metal film and connected in parallel to the pair of electrode parts. The resistor also has an outer coating film applied to cover the metal film. The outer coating film is formed of a resin material having a higher thermal deformation temperature than that of a resin material of the case. | 2016-02-11 |
20160041058 | SYSTEM AND METHOD TO ADJUST A FORCE ZERO REFERENCE - A system and method of adjusting a zero reference may comprise retracting ram of an actuator coupled to a load cell from a first position to a second position. The system and method may comprise reporting a measurement by a load cell, in response to the actuator being in a second position. The system and method may comprise calculating a force being measured by t the load cell. The system and method may comprise creating a zero reference offset value based on the calculation, in response to the force calculation resulting in a non-zero force calculation. The system and method may comprise adjusting a zero reference value of the load cell by the zero reference offset value. | 2016-02-11 |
20160041059 | SELF-LOCKING MODULAR PRESSURE CONTROLLER/CALIBRATION - A pressure controller/calibrator has multiple modules. Each module has a stage, an elongated rail fixed to chassis of the controller or the module, and resilient guides fixed to the other of the stage or the chassis. In one embodiment the rail has a proximate end at an edge of the chassis and a distal end inside the chassis. The distal end is of the rail wider than its proximate end. Between the two ends the rail has concave contours that cooperate with convex springs in the stage to hold the stage at a desired location in the chassis. | 2016-02-11 |
20160041060 | Pressure Testing Apparatus - A pipe pressure testing apparatus for failure testing a section of an elongated pipe is provided. The apparatus includes a plurality of spherical bodies disposed within and filling the section of elongated pipe and leaving a void space within the section of elongated pipe. A first end cap is attached to and seals a first end of the elongated pipe. A second end cap is attached to and seals a second of the elongated pipe. And a test fluid line is in fluid communication with the void space to fill the void space with a testing fluid. | 2016-02-11 |
20160041061 | ENGINE VENTILATION SYSTEM DIAGNOSTICS USING PRESSURE MEASUREMENT - A system comprising an engine including a chamber; an air intake coupled to the engine; a pressure sensor disposed in fluid communication with the air intake and disposed between the air intake and the chamber; and a processor configured to determine a breach in a ventilation system of the chamber in response to the pressure sensor. | 2016-02-11 |
20160041062 | LEAK INDICATOR - The present invention concerns a liquid leakage detection apparatus. The apparatus includes a sample cavity, a housing with an opening and a housing contact face, an indicator body with an indicator body contact face, and a expansion element cavity between said housing contact face and said indicator body contact face. A liquid sensitive, expandable element is located in the expansion element cavity and a liquid path extends between the liquid collecting portion and the expansion element cavity. | 2016-02-11 |
20160041063 | LIGHT SPOT CENTROID POSITION ACQUISITION METHOD FOR WAVEFRONT SENSOR, WAVEFRONT MEASUREMENT METHOD, WAVEFRONT MEASUREMENT APPARATUS AND STORAGE MEDIUM STORING LIGHT SPOT CENTROID POSITION ACQUISITION PROGRAM - The method enables acquiring centroid positions of light spots formed on an optical detector by multiple microlenses arranged mutually coplanarly in a wavefront sensor. The method includes a first step of estimating, by using known centroid positions or known intensity peak positions of first and second light spots respectively formed by first and second microlenses in the multiple microlenses, a position of a third light spot formed by a third microlens, a second step of setting, by using the estimated position of the third light spot, a calculation target area for a centroid position of the third light spot on the optical detector, and a third step of calculating the centroid position of the third light spot in the calculation target area. | 2016-02-11 |
20160041064 | Aberration Computing Device, Aberration Computing Method, Image Processor, Image Processing Method, and Electron Microscope - An aberration computing device ( | 2016-02-11 |
20160041065 | TESTING FIBER ARRANGEMENT IN MULTI-FIBER CABLES - There is provided a method and a system for identifying or verifying the fiber arrangement and/or the cable type of multi-fiber array cables (such as MPO cables) which employs an OTDR acquisition device at the near end of the MPO cable, a loopback device at the far end and an array of signatures detectable by the OTDR, either at the far or the near end. The loopback device allows performing bidirectional OTDR measurements with a single OTDR acquisition device (without moving it from one end to the other) and the signature array provides fiber arrangement/cable type identification or verification. | 2016-02-11 |
20160041066 | METHOD FOR MONITORING TEMPERATURE OF CLUTCH ASSEMBLY - A method of monitoring a temperature of a clutch assembly of a machine is disclosed. The method includes determining a set of energy input parameters pertaining to the clutch assembly by one or more sensors. The method further includes determining a power output based on the lubricating oil temperature and the speed of the engine. The method includes determining a power input based on the pressure applied on the actuator and the clutch relative speed. The method further includes determining temperature at a surface of the reaction plate of the clutch assembly based on mathematical relationship between the power input and the power output. The method includes comparing the temperature at the surface of the reaction plate of the clutch assembly with a predefined temperature range. The method further includes creating an event, when the temperature at the surface of the reaction plate is greater than the predefined temperature range. | 2016-02-11 |
20160041067 | Hybrid Servo Actuator for Crash Test - Provided is a hybrid servo actuator for a crash test, and more particularly, a hybrid servo actuator for a crash test in which an operating part including a piston and a rod, a chamber supplying an air pressure to the operating part, and a controller controlling a movement of the operating part are integrally formed, thereby increasing a moving speed in a stroke direction of the operating part more than in a general hydraulic cylinder and pneumatic cylinder. The actuator includes an oil pressure cushion type cushion part provided therein to absorb a shock generated by a shock of an operating part even at the time of a malfunction of the operating part and discharge an oil pressure generated by the shock to the outside and thus is used semi-permanently. | 2016-02-11 |
20160041068 | Wireless Collection and Analysis of Machine Data - A sensor unit is configured as a single body, removably mounted in its entirety to a test point location on a machine so machine vibrations propagate into the single body. Within are an accelerometer, circuit board, wireless interface, signal processor, and battery. The sensor unit transmits sensor data wirelessly in real time to a data collection unit. A technician with data collection unit in hand goes from machine to machine, along a route of multiple test point locations on multiple machines, mounting and dismounting the sensor unit and collecting machine vibration data. The sensor unit is configured to reduce frequency response impacts of the mass and volume of the circuit board, wireless interface, signal processor, and battery on dynamic behavior of the sensor unit with respect to machine vibrations to achieve a frequency response rating comparable to a wired sensor. | 2016-02-11 |
20160041069 | Service Method Of Gas Appliances - A service method of gas appliances includes: Detecting the gas appliances at the client ends to generate detecting signals. Transmitting the detecting signals to a service end. Identifying which client end the detecting signals come from. Examining the detecting signals to find whether the gas appliance has an abnormal condition; and informing the client end when the abnormal condition is found. After all, the service end may monitor the gas appliances at the client end, and inform the client for repair when the gas appliance has detected an abnormal signal or has damaged parts. | 2016-02-11 |
20160041070 | Automatic Rotating-Machine Fault Diagnosis With Confidence Level Indication - Automatic fault diagnosis is performed on vibration data sensed from a machine. A set of faults to screen for is identified from the machine configuration. For each fault there are characteristic symptoms. For each characteristic symptom, there is a corresponding indication used to diagnose the symptom. The indications are based on analyses of the current vibration data. The diagnosed symptoms have weights assigned according to a Bayesian network, and are used to derive a Bayesian probability for the fault. A fault having a Bayesian probability exceeding a threshold value is identified as being present in the machine. For each fault a confidence level is derived. The confidence level for a first fault is based on a similarity between characteristic symptoms for the first fault and characteristic symptoms for each one of the other faults being screened. | 2016-02-11 |
20160041071 | ROBOTIC END EFFECTOR FOR FROZEN ALIQUOTTER AND METHODS OF TAKING A FROZEN ALIQUOT FROM BIOLOGICAL SAMPLES - A robotic end effector for collecting frozen aliquots from an array of frozen samples in a plurality of containers has a coring bit for taking frozen sample cores from the frozen samples and a frozen sample core extraction system adapted to extract frozen sample cores from the frozen samples. A fill level detection system is adapted to detect the positions of the surfaces of the frozen samples. A processor is adapted to receive signals from the fill level detection system and use the signals and information concerning operation of the frozen sample core extraction system to determine at least one of the following: (a) the amount of material contained in a frozen sample core obtained by the coring bit; and (b) the number of frozen sample cores needed from a particular frozen sample to obtain a predetermined amount of material from that frozen sample. | 2016-02-11 |
20160041072 | SAMPLE INJECTION DEVICE FOR FLOW-TYPE ANALYSIS DEVICE, FLOW-TYPE ANALYSIS DEVICE, AND MEASUREMENT METHOD FOR HEMOGLOBIN COMPONENT - Provided is a sample injection device for flow-type analysis including a cylindrical needle ( | 2016-02-11 |
20160041073 | PASSIVE DIFFUSION SAMPLER - A passive diffusion sampler and kit that includes a passive diffusion sample bag comprising a regenerated cellulose membrane to allow for sampling of a broad spectrum of contaminants and VOCs. The sample bag is disposed in a rigid housing which protects the bag from tearing and also allows the housing to be inverted to suspend the bag upside down and provide a user access to a fluid outlet means on the bag for withdrawing a sample from the bag without agitating the sample. | 2016-02-11 |
20160041074 | CONTAMINANT MONITORING AND AIR FILTRATION SYSTEM - Devices, methods and systems for monitoring, sampling, and filtering or sanitizing the air of an environment are provided. Devices and methods including air filtering units with smart features including connectivity and reporting features are provided wherein a unit is provided to communicate with a system. Based on detected values related to air contamination and particulates entrained in the air, the system and methods are capable of performing various functions including reporting and remediation functions. | 2016-02-11 |
20160041075 | FILTER DEVICE AND MEASURING APPARATUS - A filter device through which a fluid containing a target substance and a coarse substance larger than the target substance is passed to selectively collect the target substance from the fluid. The filter device includes a prefilter that removes the coarse substance and a collection filter that collects the target substance. The prefilter and the collection filter are arranged in series such that the fluid passes through the prefilter and then through the collection filter. The prefilter includes a cavity arrangement structure having a pair of opposing main surfaces and a plurality of cavities extending through both main surfaces. | 2016-02-11 |
20160041077 | APPARATUS, SYSTEM, AND METHOD FOR COLLECTING A TARGET MATERIAL - This disclosure is directed to an apparatus, system and method for retrieving a target material from a sample. A fraction-density-altering solution may be added to a vessel that contains the sample to change the density of a first fraction of the sample without changing the density of the target material or the density of any other sample fraction. A collector may be inserted into the vessel to funnel the target material from the sample into the collector or into a processing receptacle included in the collector. In one implementation, the collector may include a cannula which extends into a chamber to hold the processing receptacle at a first end of the collector and a funnel at a second end that that is in fluid communication with the cannula. In another implementation, the processing receptacle may be inserted into a bore within the collector. | 2016-02-11 |
20160041078 | APPARATUS FOR DETECTING PARTICLES - A particle detection apparatus is disclosed, the apparatus including a detector configured to detect particles in an inflowing solution using a first signal applied to a first electrode, the first signal including a direct current (DC) voltage and an alternating current (AC) voltage; and a signal processor configured to provide the first signal to the detector and to detect a second signal measured by a second electrode. | 2016-02-11 |
20160041079 | APPARATUS AND METHODOLOGY FOR MEASURING PROPERTIES OF MICROPOROUS MATERIAL AT MULTIPLE SCALES - A method for characterizing properties of a sample that employs a test apparatus including an isolated sample cell and pressure sensor where the isolated sample cell is loaded with the sample and gaseous test fluid to perform a number of different tests to derive properties of the sample. The tests can be performed over different parameters, such as different applied pressures of the test fluid to derive parameters related to apparent gas permeability of the sample as a function of applied pressure, different gaseous test fluids to characterize dependence of permeability of the sample on mean free molecular path or pressure, with both adsorptive and non-adsorptive test gases to characterize at least one property related to adsorptive interaction between the adsorptive test gas and the sample, and with samples of varying saturation levels to derive a measure of at least one property of the subsamples at corresponding saturation levels. | 2016-02-11 |
20160041080 | A METHOD OF ELECTRICALLY MEASURING THE ELECTRICAL PROPERTIES OF INDIVIDUAL PARTICLES FLOWING IN A LIQUID - A method of electrically measuring the electrical properties of individual particles flowing in a liquid, which method comprises: (i) providing apparatus ( | 2016-02-11 |
20160041081 | APPARATUS FOR ELECTRICALLY MEASURING INDIVIDUAL PARTICLES FLOWING IN A LIQUID - Apparatus ( | 2016-02-11 |
20160041082 | CELL SORTER SYSTEM AND METHOD - Provided herein are improved cell sorter systems and methods. Such systems and methods provide a self-stabilizing sorter jet to automate calibration, and address the issue of drift in cell sorting systems. The systems and methods presented make it possible to determine and set the charge delay interval automatically with circuitry in the cell sorter. These circuits can set, monitor, and adjust the time delay continuously, allowing for a completely automatic, autonomous, turn-key, self-stabilizing sorter jet. | 2016-02-11 |
20160041083 | HEMATOLOGY SYSTEMS AND METHODS - Aspects and embodiments of the instant disclosure provide a particle and/or intracellular organelle alignment agent for a particle analyzer used to analyze particles contained in a sample. An exemplary particle and/or intracellular organelle alignment agent includes an aqueous solution, a viscosity modifier, and/or a buffer. Embodiments also encompass systems, compositions, and methods for analyzing a sample containing particles. Particles such as blood cells can be categorized and counted by a digital image processor. A digital microscope camera can be directed, for example using certain focusing techniques, into a flowcell defining a symmetrically narrowing flowpath in which the sample stream flows in a ribbon flattened by flow and viscosity parameters between layers of sheath fluid. Blood cell images can be collected and analyzed using dynamic range extension processes and systems. | 2016-02-11 |
20160041084 | SENSOR ARRANGEMENT WITH MULTIPLE SENSORS FOR WEATHERING APPARATUS - The sensor device ( | 2016-02-11 |
20160041085 | CORROSION MONITORING APPARATUS AND METHODS - A method for passively monitoring corrosive factors in an environment includes locating an apparatus in an environment. The apparatus includes at least one corrosion classification coupon and a temperature and humidity logging device. The apparatus is maintained in the environment for a period of time and then removed from the environment. The at least one corrosion classification coupon and the temperature and humidity logging device are analyzed to determine whether one or more of corrosive gases, temperature changes or humidity changes were present in the environment during the period of time. The temperature and humidity logging device may be an electronic temperature and humidity logging device. The analysis may be performed by an off-site vendor. | 2016-02-11 |
20160041086 | LUBRICATION CONTROL SYSTEM AND RELATED METHOD OF USE - A system for measuring and optionally controlling the COF of moving surfaces. The system may include a component that rides on the moving surface and a controller that measures the drag force between the component and the moving surface. The system may include a linkage to hold the component so that it does not move with the moving surface and a load cell to measure the force between the component and the moving surface. The load cell may be oriented transversely to the drag force. The system may control a lubrication system based on the measurements. The system may include a component that is urged into the moving surface by a normal force, and may include one load cell to measure the tangential force and another to measure the normal force. A controller may compare the measured tangential and normal forces to obtain a representation of the COF. | 2016-02-11 |
20160041087 | ANALYSIS AND PURGING OF MATERIALS IN MANUFACTURING PROCESSES - Various systems and methods of analyzing one or more properties of a sample are provided. The system includes a self-contained purging device having a sample holder and one or more analyzers for analyzing one or more properties of the sample. The purging device is configured to remove sample contained within the sample holder when an analysis is complete. In one embodiment the purging device is configured via an air pump having a tube in fluid communication with an air inlet of the sample holder, wherein the air pump is configured to deliver pressurized air to the air inlet and thereby purge the sample. The pressurized air is localized ambient air, and substantially free of contaminants. Methods and other systems are also described and illustrated. | 2016-02-11 |
20160041088 | STATE DETERMINING METHOD, STATE IMPARTING SYSTEM, AND STATE DETERMINING PROGRAM - A state determination method is provided that is capable of determining at least one of the state of degradation of oil in a machine and the state of breakage of the machine with higher accuracy than conventional methods. A state determination method for determining the state of degradation of lubricating oil in a speed reducer and the state of breakage of the speed reducer is characterized by: transmitting white light emitted by a white LED through the lubricating oil, causing an RGB sensor to detect the color of the light transmitted through the lubricating oil by the white LED, and calculating the brightness of the color detected by the RGB sensor (S | 2016-02-11 |
20160041089 | SYSTEMS AND METHODS UTILIZING LONG WAVELENGTH ELECTROMAGNETIC RADIATION FOR FEATURE DEFINITION - Methods that include directing an incident beam towards a substrate, the substrate having one or more features formed thereon wherein the incident beam has a wavelength from about 10 μm to about 10 mm, and the incident beam interacts with the substrate to form a modulated beam; varying one or more characteristics of the incident beam while directed towards the substrate; detecting the modulated beam while varying the one or more characteristics of the incident beam to collect a spectrum; and determining at least one spatial metric of the at least one feature based on the collected spectrum. | 2016-02-11 |
20160041090 | METHOD FOR MANUFACTURING FILM, FILM-MANUFACTURING PROCESS MONITOR DEVICE, AND METHOD FOR INSPECTING FILM - A film production method that includes inspecting the film is provided. The inspection includes a spectrum acquisition step and a physical-quantity calculation step. In the spectrum acquisition step, a film that is moved in direction A is irradiated with broadband light in a near infrared region, and diffuse reflected light emitted from the film is received by a light receiving unit, so that a spectrum of the diffuse reflected light is acquired by a spectrum acquisition unit of an analysis unit. In the physical-quantity calculation step, a physical quantity of the film is calculated from the acquired spectrum of the diffuse reflected light. Since the physical quantity can be determined by acquiring the spectrum, the characteristics of the film can be easily determined. In addition, a plurality of pieces of information can be acquired from the spectrum. Therefore, the characteristics of the film can be more accurately determined. | 2016-02-11 |
20160041091 | OSCILLATION ELEMENT, OSCILLATOR, AND IMAGING APPARATUS USING THE SAME - An oscillation element includes an antenna for oscillation configured to oscillate electromagnetic waves, and multiple negative resistance elements electrically connected to the antenna in parallel, and the multiple negative resistance elements are disposed in only a place where the phases of electromagnetic waves oscillated therefrom are the common phase or opposite phase. | 2016-02-11 |
20160041092 | METHOD AND APPARATUS FOR INSPECTING DEFECTS - In optical dark field defect inspection, the present invention provides including: condensing laser emitted from a light source in a line shape; reflecting the laser, with a mirror; irradiating the reflected laser via an objective lens to a sample placed on a table from a vertical direction; condensing reflected scattered light from the sample with the objective lens; shielding diffraction light occurred from a periodical pattern formed on the sample, in the reflected scattered light from the sample and scattered light occurred from the mirror, with a spatial filter; receiving the reflected scattered light from the sample, not shielded with the spatial filter, with an imaging lens, and forming an image of the reflected scattered light; detecting the image of the reflected scattered light; and processing a detection signal obtained by detecting the image of the reflected scattered light and detecting a defect on the sample. | 2016-02-11 |
20160041093 | METAMATERIAL AND BIOLOGICAL AND CHEMICAL DETECTING SYSTEM - A metamaterial is suitable for receiving a detecting wave. The detecting wave interacts with the metamaterial. The metamaterial includes a substrate and at least one unit cell placed on the substrate. The size of the unit cell is at least less than ⅓ of the wavelength of the detecting wave. A biological and chemical detecting system using the metamaterial is also disclosed. | 2016-02-11 |
20160041094 | LENS-FREE IMAGING SYSTEM AND METHOD FOR DETECTING PARTICLES IN SAMPLE DEPOSITED ON IMAGE SENSOR - A lens-free imaging system for detecting particles in a sample deposited on image sensor includes a fluidic chamber for holding a sample and an image sensor for imaging the sample, wherein the image sensor has a light receiving surface and a plurality of photosensitive pixels disposed underneath the light receiving surface, and wherein the fluidic chamber formed at least in part by the light receiving surface. A method for detecting particles of interest in a sample deposited on an image sensor, through lens-free imaging using the image sensor, includes (ii) generating an image of the sample, deposited on a light receiving surface of the image sensor, by illuminating the sample, and (ii) detecting the particles of interest in the image. | 2016-02-11 |
20160041095 | OPTICAL SYSTEM AND ASSAY CHIP FOR PROBING, DETECTING AND ANALYZING MOLECULE - Apparatus and methods for analyzing single molecule and performing nucleic acid sequencing. An apparatus can include an assay chip that includes multiple pixels with sample wells configured to receive a sample, which, when excited, emits emission energy; at least one element for directing the emission energy in a particular direction; and a light path along which the emission energy travels from the sample well toward a sensor. The apparatus also includes an instrument that interfaces with the assay chip. The instrument includes an excitation light source for exciting the sample in each sample well; a plurality of sensors corresponding the sample wells. Each sensor may detect emission energy from a sample in a respective sample well. The instrument includes at least one optical element that directs the emission energy from each sample well towards a respective sensor of the plurality of sensors. | 2016-02-11 |
20160041096 | WAVEGUIDE GRATING STRUCTURE AND OPTICAL MEASUREMENT ARRANGEMENT - The present invention describes (bio)chemo-functional waveguide grating structures consisting of at least one (bio)chemo-functional waveguide grating structure unit or at least one (bio)chemo-functional sensor location with beam guidance permitting light beam separation, as well as detection methods for parallel analysis which are marking-free or based on marking. | 2016-02-11 |
20160041097 | BLOOD ANALYZING METHOD AND BLOOD ANALYZER - A blood analyzing method comprises irradiating light on a measurement sample prepared using fluorescent dye so as to produce a difference in fluorescence intensity between reticulocytes and mature red blood cells in a blood sample, detecting scattered light and fluorescent light given off from blood cells in the measurement sample, and obtaining fluorescence data related to the fluorescent light and scattered light data related to the scattered light for each blood cell, determining the possibility of the presence of | 2016-02-11 |
20160041098 | FLUORESCENCE VIEWING DEVICE AND FLUORESCENCE VIEWING METHOD - A fluorescence viewing device is configured to take a difference between one of an image of a first frame and an image of a second frame output from an imaging device and the other of the first frame image and the second frame image stored in an image storage means, whereby clear observed images can be obtained without influence of background light. In the fluorescence viewing device, an exposure time of a fluorescence image acquisition period and an exposure time of a background image acquisition period are different from each other. Since ON/OFF durations of excitation light also become asymmetric according to the asymmetry of the exposure times, the device can reduce user's feeling of strangeness due to blinking of the excitation light. | 2016-02-11 |
20160041099 | LIGHT SHEET FLUORESCENCE AND DIFFERENTIAL INTERFERENCE CONTRAST MICROSCOPE - One or more excitation optical beams are scanned or otherwise directed to a specimen volume to establish a light sheet. Fluorescence from a specimen portion in the light sheet is collected and used to form an image. An interference contrast image of the same or an adjacent specimen portion is obtained by directing an interference contrast optical beam to the specimen so as to be substantially perpendicular to the light sheet. A common imaging device can be used to capture both images, and the resulting image permits correlation of fluorescence image features with specimen structure. | 2016-02-11 |
20160041100 | VITAL STAIN - A vital stain for observation under multiphoton laser microscopy, the vital stain comprising one or more edible dye compounds. | 2016-02-11 |
20160041101 | METHOD AND DEVICE FOR DETECTING AND IDENTIFYING NOT EASILY VOLATILIZED SUBSTANCES IN A GAS PHASE BY MEANS OF SURFACE-ENHANCED VIBRATION SPECTROSCOPY - The invention relates to identifying not easily volatilized substances, in particular hazardous material, in a gas phase. A measurement cell and gas supply installations connected to the measurement cell are heated, and a plasmonic surface arranged in the measurement cell is temperature-controlled such that the plasmonic surface has a lower temperature than the measurement cell and the gas supply installations. The gas phase is guided through the gas supply installations into the measurement cell such that the gas phase reaches the plasmonic surface. Substances adsorbed out of the gas phase on the plasmonic surface are analyzed by an optical process. Surface-enhanced Raman spectroscopy or surface-enhanced infrared spectroscopy may be used. Selectivity can be increased by combining both methods. Selectivity can be additionally increased by using a gas detector, preferably an ion-mobility spectrometer. Thus the false alarm rate is reduced without a loss of time. | 2016-02-11 |
20160041102 | POLY(METHYL METHACRYLATE)-SUPPORTED POLYDIACETYLENE FILMS AS COLORIMETRIC AND/OR FLUORESCENT DETECTORS - Colorimetric and/or fluorescent detectors, which include a polydiacetylene (PDA) film deposited on a polymethylmetacrylate (PMMA) substrate. There are also colorimetric and/or fluorescent detectors which have a solid organic matrix comprising one or more PDAs deposited on the PMMA substrate, wherein the PDA includes polymerized units of one or more diacetylene monomers, and wherein the matrix further comprises at least one recognition element of an analyte. There are also methods for detecting analytes using this detector, uses thereof and a methods for its preparation. | 2016-02-11 |
20160041103 | LAB-ON-A-CHIP FOR ALKALINITY ANALYSIS - Described is a lab-on-a-chip device and a method of employing a lab-on-a-chip device for determining the concentration of species present in the water. | 2016-02-11 |
20160041104 | Reader Devices for Optical and Electrochemical Test Devices - This invention relates generally to devices and methods for performing optical and electrochemical assays and, more particularly, to devices having optical and electrochemical detectors and to methods of performing optical and electrochemical assays using such devices. The present invention is particularly useful for performing immunoassays and/or electrochemical assays at the point-of-care. | 2016-02-11 |
20160041105 | Optical Sensor - An optical sensor for monitoring an environmental condition, the optical sensor comprising a perfluorosulfonate ionomer membrane comprising a solution, wherein the solution comprises a transition metal-free dye component, wherein exposure of the optical sensor to a specific environmental condition produces a color shift on the optical sensor. | 2016-02-11 |
20160041106 | GEMSTONE VIEWER - An apparatus for viewing images of a gemstone is described. The apparatus comprises a support structure for supporting the gemstone at an observation position. An illumination structure comprises a plurality of directional light sources directed towards the observation position so as to illuminate the gemstone. The support structure and illumination structure are relatively rotatable relative to one another about a rotation axis. An imaging device is arranged to obtain images of the gemstone at the observation position at a variety of relative rotational positions between the illumination structure and support structure: the imaging device has an imaging axis passing through the observation position. The support structure is arranged so that the gemstone can be placed at the observation position in such a way that the normal to a selected facet of the gemstone is within a range of tilt angles from the rotation axis. The arrangement of directional light sources is such that, for any tilt angle within the range, at least one of the directional light sources will be specularly reflected from the selected facet into the imaging device for at least one rotational position of the support structure. | 2016-02-11 |
20160041107 | Method For Monitoring The Operational State Of A Surface Inspection System For Detecting Defects On The Surface Of Semiconductor Wafers - The operational state of a surface inspection system for detecting defects on the surface of semiconductor wafers is monitored by: | 2016-02-11 |
20160041108 | SURFACE INSPECTION APPARATUS, METHOD FOR INSPECTING SURFACE, EXPOSURE SYSTEM, AND METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - A surface inspection apparatus includes: a detection unit configured to detect a first detection signal according to a first diffracted light beam and a second detection signal according to a second diffracted light beam; a storage unit which is configured to store a first reference data and a second reference data; and a determination unit which is configured to determine a processing condition of the pattern in the substrate as an inspection object substrate, based on consistency between the first detection signal and the first reference data, and consistency between the second detection signal and the second reference data. | 2016-02-11 |
20160041109 | DETECTOR APPARATUS AND X-RAY IMAGING APPARATUS INCLUDING THE SAME - An X-ray detector apparatus which includes a detector panel and a support to support the detector panel. The support is tiltably provided in a rear surface of the detector panel so that the detector panel is erected on a surface by the support. | 2016-02-11 |
20160041110 | X-RAY TRANSMISSION INSPECTION APPARATUS AND EXTRANEOUS SUBSTANCE DETECTING METHOD - An X-ray transmission inspection apparatus is provided with: an X-ray source configured to irradiate a sample with an X-ray; a sample moving mechanism configured to continuously move the sample in a specific direction during irradiation with the X-ray from the X-ray source; a TDI sensor disposed at a side opposite to the X-ray source with the sample interposed therebetween and configured to detect the X-ray transmitted by the sample; and a polycapillary disposed between the X-ray source and the sample and configured to convert the X-ray radially emitted from the X-ray source into a parallel X-ray parallel to a thickness direction of the sample. | 2016-02-11 |