| 09th week of 2016 patent applcation highlights part 38 |
| Patent application number | Title | Published |
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| 20160061626 | Methods, Systems and Devices for Generating Real-Time Activity Data Updates to Display Devices - Methods, systems and devices are provided for displaying monitored activity data in substantial real-time on a screen of a computing device. One example method includes capturing motion data associated with activity of a user via an activity tracking device. The motion data is quantified into a plurality of metrics associated with the activity of the user. The method includes connecting the activity tracking device with a computing device over a wireless data connection, and sending motion data from the activity tracking device to the computing device for display of one or more of the plurality of metrics on a graphical user interface of the computing device. At least one of the plurality of metrics displayed on the graphical user interface is shown to change in substantial real-time based on the motion data. | 2016-03-03 |
| 20160061627 | SENSOR OFFSET CALIBRATION USING MAP INFORMATION - Systems, processes, and techniques for calibrating an onboard sensor of a vehicle are presented here. The vehicle has a control system that is capable of performing at least some of the tasks related to the calibration procedure. An exemplary methodology collects vehicle status data and obtains navigation map data during operation of the vehicle. A current calibration factor is calculated for the onboard sensor, based on the collected vehicle status data and the obtained navigation map data. More specifically, the vehicle status and navigation map data can be used to determine when the current conditions are suitable for performing calibration. When the current conditions are satisfactory, the calibration factor is calculated. Thereafter, the onboard sensor can be calibrated in response to the current calibration factor. | 2016-03-03 |
| 20160061628 | APPARATUS AND METHOD FOR CORRECTING GYRO SENSOR - There is provided an apparatus for correcting a gyro sensor, including: a driving circuit using a driving displacement signal from the gyro sensor and a reference voltage to output a demodulated signal; a correction circuit determining whether a duty ratio of the demodulated signal is distorted and performing a correction to converge the duty ratio of the demodulated signal to a preset target value if it is determined that the duty ratio of the demodulated signal is distorted; and a sensing circuit performing a demodulation process of a sensing signal from the gyro sensor using the demodulated signal to output a gyro signal, whereby it is possible to accurately detect the gyro signal so as to assure reliability of the gyro sensor. | 2016-03-03 |
| 20160061629 | Acoustic Interface Device - A system is provided including an acoustic interface device, configured for coupling to a transducer and to a specimen, the acoustic interface device comprising a material composition having a shear wave attenuation coefficient a | 2016-03-03 |
| 20160061630 | OFF AXIS SENSOR SYSTEM - An angle sensor device includes first and second magnet tracks, a sensor component, and a control unit. The first and second magnet tracks are fixed to a rotatable object and are configured to generate a non-homogenous field. The rotatable object is configured to rotate about a rotation axis and the non-homogenous field has a smaller gradient of magnitude along a rotational direction than a perpendicular direction, which is perpendicular to the rotational direction. The sensor component is positioned off-axis and is configured to measure a magnetic field including the non-homogenous field and provide magnetic field measurements. The control unit is configured to determine angular information from the magnetic field measurements. | 2016-03-03 |
| 20160061631 | Method for Detecting Abnormality of Resolver, Angle Detection Device, Motor, and Transportation Device - There are provided a method for detecting an abnormality of a resolver, an angle detection device, a motor, and a transportation device, by which the abnormality can be detected promptly without the necessity of any complicated operations. There is provided a circuit configured to switch between a sine wave and a direct current voltage to be supplied, as an excitation signal of a resolver ( | 2016-03-03 |
| 20160061632 | NON-CONTACT SENSING MODULE AND METHOD OF MANUFACTURING THE SAME - A non-contact sensing module includes a coil printed circuit board in which a reference pattern coil may be formed at an upper surface and in which a sensing pattern coil may be formed at a lower surface and that has a mounting hole at the center, and a main printed circuit board that may be coupled to the mounting hole and that may be vertically disposed at an upper surface of the coil printed circuit board and that may be electrically connected to the reference pattern coil and the sensing pattern coil. | 2016-03-03 |
| 20160061633 | STARTUP CIRCUIT, CAPACITIVE SENSOR AMPLIFICATION DEVICE HAVING STARTUP CIRCUIT, AND STARTUP METHOD FOR AMPLIFICATION DEVICE - In accordance with a startup circuit, a capacitive sensor amplification device having the startup circuit, and a startup method for the amplification device, a startup time can be shortened by connecting the high impedance resistor of an amplifier to a predetermined voltage source during startup. The capacitive sensor amplification device includes an amplification unit for amplifying a signal input to the amplification device; and a startup circuit for improving a startup time of the amplification unit, wherein the startup circuit includes a comparator for receiving an output of the amplification unit as a first comparison signal, receiving a preset reference voltage as a second comparison signal, comparing the comparison signals with each other, and outputting a comparison result; and a switch for selecting and outputting one of a first voltage and a second voltage depending on the output of the comparator. | 2016-03-03 |
| 20160061634 | INJECTION-MOLDED CIRCUIT CARRIER - An injection-molded circuit carrier is provided that has an outside and an underside and an inner base region and a frame. The frame has an inside and a cover surface, so that the inner base region is enclosed in the manner of a frame, and multiple printed conductors are provided, which are spaced a distance apart. The printed conductors are guided at least partially from the inside to the underside via the cover surface and via the outside so that at least two metal surfaces are formed on the underside, which are each electrically connected to a printed conductor and are spaced a distance apart. The metal surfaces are designed to be significantly wider than the printed conductors for the purpose of forming a capacitive sensor. | 2016-03-03 |
| 20160061635 | MAGNETIC POLE POSITION DETECTION DEVICE OF PERMANENT MAGNET-TYPE SYNCHRONOUS MOTOR - A magnetic pole position detection device of a permanent magnet-type synchronous motor detects, through a current draw-in operation, an amount of deviation between an origin of a magnetic pole position of a permanent magnet that makes up a rotor of a permanent magnet-type synchronous motor, and an origin of an output signal of a magnetic pole position sensor, and correcting the output signal of the magnetic pole position sensor on the basis of the amount of deviation, to thereby detect a true magnetic pole position. The detection device computes a phase current I | 2016-03-03 |
| 20160061636 | Dynamic Range Control for Optical Encoders - Embodiments of the present disclosure provide a method and system for dynamically controlling a current that is applied to a light source of an optical encoder. | 2016-03-03 |
| 20160061637 | INTEGRATED ANGLE SENSING DEVICE - A sensor arrangement includes a sensor element and a magnet module. The sensor element is configured to measure a magnetic field and is positioned within a shaft. The shaft is configured to shield the magnet module and the sensor element. The magnet module is configured to generate the magnetic field. The sensor element is at least partially positioned within the shaft. | 2016-03-03 |
| 20160061638 | FITTING FOR POSITIONING A PROBE IN A HOT GAS PATH OF A GAS TURBINE ENGINE - A fitting for positioning a probe in a hot gas path within a casing of a gas turbine engine is disclosed herein. The fitting may include a main body attachable to the casing opposite the hot gas path. The main body may include an internal bore and one or more cooling holes in communication with the internal bore. A compliant seal may be positionable within the internal bore. In addition, a follower may be positionable within the internal bore adjacent to the compliant seal. Moreover, the fitting may include a fastener configured to mate with the main body. In this manner, the follower may deform the compliant seal about the probe within the main body to secure and seal the probe within the main body. | 2016-03-03 |
| 20160061639 | Messanordnung mit einem Tragerelement und einem Sensor - A measuring arrangement comprising: a support element having a longitudinal axis, wherein a sensor is arranged on the support element for ascertaining a process variable of a gaseous or liquid fluid; and the sensor, wherein the sensor has a fluid duct, and wherein the support element has a fluid duct. The characterized in that the support element has for connection of the fluid duct of the support element with the fluid duct of the sensor at least one connection element, which extends perpendicular to the longitudinal axis of the support element and into the fluid duct of the sensor. | 2016-03-03 |
| 20160061640 | FLUID-FLOW MONITOR - An electronic device that monitors flow of a fluid in a vessel (such as a pipe) is described. This electronic device may be mounted on an exterior of the vessel using a mounting mechanism. For example, the mounting mechanism may be attached to the vessel using a clamp, and an impedance-matching material may provide mechanical coupling to the vessel. Moreover, during operation a sensor mechanism in the electronic device may measure flow of the fluid, and an integrated circuit in the electronic device may analyze the flow measurements. In particular, the sensor mechanism may measure flow using non-invasive techniques (e.g., using an ultrasound transducer, an acoustic sensor or a vibration sensor) without contact with the fluid. The sensor mechanism may also facilitate the analysis by determining an orientation of the sensor mechanism relative to a reference direction and/or a cross-sectional area of the flow. | 2016-03-03 |
| 20160061641 | FLOW METER HAVING A BACKGROUND PATTERN WITH FIRST AND SECOND PORTIONS - A flow meter includes a first image sensor, a background pattern, and at least one processor. The first image sensor has a first field of view and is positioned to view a drip chamber within the first field of view. The background pattern is positioned within the field of view of the first image sensor, and the background pattern includes first and second portions. The processor is operatively coupled to the first image sensor and configured to: receive a first image from the first image sensor, and estimate at least one parameter of liquid within the drip chamber in accordance with a distortion of the background pattern caused by the liquid as indicated by the first image. | 2016-03-03 |
| 20160061642 | Flow Sensor and Method for Producing Resin Structure - The purpose of the present invention is to provide a flow sensor that makes it possible to detect temperature abnormalities that the flow sensor has been exposed to and the time history of the flow sensor in a high-temperature environment from an externally visible cover material and that uses a cover material for which the laser welding quality can be guaranteed through visual inspection when the sensor is delivered as a product and even if the sensor is used in an abnormal state. A flow sensor provided with a housing, a cover, a circuit chamber that houses a wiring portion sealed between the housing and the cover, and an auxiliary passage through which the liquid to be sensed flows, wherein: a joint portion formed on the housing and a joint portion formed on the inner surface of the cover are joined together through the laser welding; the main material of the cover is a crystalline resin; the cover includes an amorphous alloy; and the cover is made to have a natural color. | 2016-03-03 |
| 20160061643 | METHOD OF SENSING VOLUME OF LOOSE MATERIAL - A system for determining a volume of loose material within a container comprises a support arm mountable above the container, an array of one or more sensors mounted to the support arm, wherein each of the one or more sensors is configured to determine a discrete distance measurement between the array and a surface of the loose material or a surface of the container, and at least one processor in communication with the array of one or more sensors, the processor configured to estimate a volume of the loose material in the container from discrete distance measurements determined by the one or more sensors of the array. | 2016-03-03 |
| 20160061644 | LIQUID SURFACE DETECTION METHOD AND DEVICE, AND IMMUNOASSAY ANALYZER - Disclosed are liquid surface detection methods and devices, and immunoassay analyzers. By changing the power source input of a signal drive circuit, an effective voltage of a drive signal applied by the signal drive circuit on a liquid dispensing probe is a negative voltage, so that the liquid dispensing probe is protected as the cathode in an electrolytic cell formed between the liquid dispensing probe and the cleaning fluid, and is prevented from being corroded by the cleaning fluid and rusting. Moreover, the intrinsic detection flexibility and performance of the liquid surface detection device can be ensured, and the requirements on the material and process of the liquid dispensing probe are not high, thereby effectively controlling the cost. | 2016-03-03 |
| 20160061645 | ULTRASONIC LIQUID LEVEL SENSING SYSTEMS - An ultrasonic probe having ultrasonic sensors (e.g., piezoelectric crystals) for measuring the level of liquid within a sealed container and having features that make the probe more reliable and enable more precise liquid level readings as the container nears an empty state. Embodiments include spacing the ultrasonic sensors more closely at the lower end of the probe, offsetting the sensors to enable tighter vertical spacing, matched pairs of sensors for redundancy, and a downward facing sensor located at the lower end of the probe to decrease the minimum liquid level that can be accurately measured by the probe. A sump may also be provided to further decrease the minimum liquid level that can be accurately measured by the probe. | 2016-03-03 |
| 20160061646 | METHOD OF CALIBRATING A LEVEL SENSOR - A method of calibrating a level sensor is provided. The level sensor includes a tube, a lower part of which communicates with a liquid volume, an upper part not being filled with the liquid; and a device for measuring a level of the free surface of the liquid along the tube. The method includes placing the upper part of the inner space at a predetermined pressure; computing a theoretical level of the surface of the liquid; acquiring the measured level measured by the measuring device; comparing the theoretical level and the measured level; and repeating the steps for computing a theoretical level, acquiring a measured level and comparing the theoretical and measured levels after placing the upper part of the inner space at least at a second predetermined pressure. | 2016-03-03 |
| 20160061647 | WEIGHING AND TRACKING DEVICE - A weighing and tracking device detachably joins with a container, such as luggage, for weighing and tracking. The capacity of the device to weigh the container helps determine weight compliance during travel. The capacity of the device to remain joined with the container enables tracking the container both indoors and outdoors. An elongated housing is sized to rest under a handle or slot in the container and enable lifting the container for weighing. A cap overlays the housing for protection. A central region is substantially where the weighing function occurs. A depression in the central region receives the handle to provide a balanced support for the container. A centered scale positions directly beneath the depression to absorb the weight of the container. A tracking unit uses GPS to track the container indoors or outdoors. This can be monitored on a communication device through a downloadable app. | 2016-03-03 |
| 20160061648 | FOLDABLE SCALE - The miniaturized pocket sized foldable scale is of a thin material/substrate, and a utilization of the same. The scale has an embedded/plugged in electronic circuit with WI-FI capability, and tactile sensors, which change of conductance when put under pressure/load is a linear function converted into weight. | 2016-03-03 |
| 20160061649 | METHOD AND APPARATUS FOR DETERMINING IF A SHIPMENT UNDERGOES EXCESSIVE VIBRATION - A method and apparatus for determining when a shipment undergoes excessive vibration or bouncing is provided herein. During operation, a device such as an accelerometer, Piezoelectric, or vibration sensor, will monitor an acceleration/vibration experienced by a shipment. The device will also monitor an acceleration/vibration experienced by the shipping container housing/holding the shipment. If the acceleration or vibration of the shipment exceeds the acceleration or vibration of the shipping container by a predetermined amount, a warning will be given so that the situation can be mitigated. | 2016-03-03 |
| 20160061650 | Probe for an Optoacoustic Imaging Device - A probe for an optoacoustic imaging device has an irradiator and a detector. The irradiator includes a light-emitting semiconductor element light source that irradiates a tested object with light. The detector detects an optoacoustic wave generated in the tested object as a result. The irradiator is removably fitted to the detector. | 2016-03-03 |
| 20160061651 | Measuring Device - A measuring device is applied to an active damping system, the active damping system including a damper having a plurality of sensors and a plurality of actuators, the damper being arranged on an object to be subjected to damping. The measuring device includes: a transmission characteristic storage unit configured to store a plurality of transmission characteristics calculated from driving signals and vibration state signals; a damping performance setting unit configured to set damping performance including the amount of vibration reduction required of the active damping system and a frequency of vibration; and a damper configuration calculator configured to calculate how many the number of the sensors and actuators for the damper is increased or decreased on the basis of the transmission characteristics and the damping performance, with the increase or decrease being necessary in order that the damping performance set in the damping performance setting unit is satisfied. | 2016-03-03 |
| 20160061652 | METHOD AND SYSTEM FOR SEARCHING FOR RESONANT FREQUENCY OF TRANSDUCER - A system for searching for a resonant frequency of a transducer, comprising: an initializing unit ( | 2016-03-03 |
| 20160061653 | ELECTRONIC DEVICE, OPTICAL MODULE AND MANUFACTURING PROCESS THEREOF - The present disclosure relates to an optical module, including: a carrier, a emitter, a detector and an encapsulant. The carrier has a first surface. The emitter is disposed above the first surface. The detector is disposed above the first surface. The encapsulant is disposed on the first surface and exposes at least a portion of the emitter. | 2016-03-03 |
| 20160061654 | CALIBRATION OF MICROSCOPY SYSTEMS - Approaches are disclosed for calibrating a plurality of imaging devices, such as microscopes. In certain implementations, a calibration plate is employed that include a variety of calibration features. Imaging devices calibrated in accordance with the present approaches may be used to generate images having consistent attributes, such as brightness, regardless of which imaging device is employed. | 2016-03-03 |
| 20160061655 | MEASUREMENT SYSTEM - A measurement system, comprising: a first light source that generates first light and irradiates an object with the first light, at least one of an intensity, a polarization state, and a wavelength being modulated with a first period in the first light; a second light source that generates second light, at least one of an intensity, a polarization state, and a wavelength being modulated with a second period in the second light; a first optical system that mixes light from the object based on the first light with the second light; a nonlinear optical crystal that generates third light from the mixed light by sum-frequency generation phenomenon, the third light having a frequency equivalent to a sum of a frequency of the light from the object based on the first light and a frequency of the second light; and a photodetector that measures an intensity of the third light. | 2016-03-03 |
| 20160061656 | MEASUREMENT DEVICE - A complex amplitude information measurement apparatus ( | 2016-03-03 |
| 20160061657 | Ultraviolet Monitoring Device - Monitoring a user's exposure to ultraviolet radiation, including determining the amount of radiation to which the user is exposed from different directions, respectively. | 2016-03-03 |
| 20160061658 | LIGHT RECEIVING CIRCUIT AND LIGHT COUPLING DEVICE - A light receiving circuit includes a light receiving element, a first transistor that includes a control terminal which is connected to the light receiving element through a first node, a first terminal and a second terminal, a first load circuit that is connected between a power supply potential and a second node connected to the second terminal, and outputs a voltage signal to a third node, wherein the voltage signal is based on a current signal in the light receiving element, a first feedback resistor that is connected between the first node and the third node, a first limiter circuit that is connected in parallel with the first feedback resistor, and limits an increase of voltage at both ends of the first feedback resistor, and a first circuit that is connected between the second node and the reference potential, includes a second transistor which is diode-connected. | 2016-03-03 |
| 20160061659 | Integrated Digital Discriminator For a Silicon Photomultiplier - Apparatuses and methods are provided that minimize the effects of dark-current pulses. For example, in one embodiment of the invention, a method is provided where a first pixel is struck (i.e., a primary pixel). Pixels struck within a fixed time frame after the primary pixel is struck are referred to as secondary pixels. After a short fixed time frame has expired, the number of primary and secondary pixels is added. If the count exceeds a threshold, the primary pixel was activated by the first (or early) photon from a true gamma event. If the threshold is not met then it is likely the primary pixel generated a dark pulse that should be ignored. | 2016-03-03 |
| 20160061660 | MINIATURE SPECTROMETER AND APPARATUS EMPLOYING SAME - A miniature spectrometer and a miniature spectrometer module employing the same are disclosed. The disclosed miniature spectrometer includes: a band-pass filter which is configured to transmit input light in a surface plasmon mode and which has an array of waveguides which are configured to output a plurality of different transmission wavelength bands; an in-coupler configured to couple the transmitted input light to a first end of the array of waveguides; and an array of optical detectors configured to detect respective lights which are output from a second end of the array of waveguides. | 2016-03-03 |
| 20160061661 | SPECTROSCOPIC IMAGE ACQUIRING APPARATUS AND SPECTROSCOPIC IMAGE ACQUIRING METHOD - A spectroscopic camera is provided with a wavelength variable interference filter including a pair of reflection films and an electrostatic actuator for changing a size of a gap between the reflection films; an imaging unit including a plurality of imaging pixels; and a filter control unit for controlling the electrostatic actuator based on light-received wavelength data in which a control amount for receiving light of a target wavelength is recorded with respect to each of the imaging pixels of the imaging unit. An acquisition order of the target wavelength emitted from the wavelength variable interference filter is set for each of the imaging pixels, and the acquisition order is set in a descending order of the driving amount of a gap, and thus a value for emitting the light of the target wavelength in the set acquisition order is recorded as the light-received wavelength data. | 2016-03-03 |
| 20160061662 | SPECTROSCOPIC ANALYSIS DEVICE, SPECTROSCOPIC ANALYSIS METHOD AND PROGRAM FOR SPECTROSCOPIC ANALYSIS DEVICE - A stray light ratio computation unit computes the stray light ratio at a specified wavelength based on the quantity of light at the specified wavelength computed by light quantity computation unit in a state where there is no sample having absorption in the light path and the quantity of light at the specified wavelength computed by light quantity computation unit when the light is transmitted through a sample having absorption at the specified wavelength. Stray light quantity computation unit computes the quantity of stray light at each wavelength through computations using the stray light ratio at the specified wavelength and different unique values for each wavelength (for example, different coefficients for each wavelength, stored in coefficient storage unit). | 2016-03-03 |
| 20160061663 | PORTABLE ANALYTICAL EQUIPMENT - Portable analytical equipment, systems, methods, and techniques related thereto is disclosed. Portable analytical equipment can comprise a controller and a probe. The probe can interrogate a sample and receive a response to the interrogation. The controller can select and/or initiate an analysis related to interrogating the sample via the probe. The analysis can be selected from a portfolio of analyses stored on the controller. The controller can analyze the response to the interrogation based on reference data stored on the controller. The controller can determine an indication based on the analyzing the response for presentation via a low-power interface, which can comprise an LED or electrophoretic element. The controller can further be connected to an external device, e.g., a smartphone or remote PC, to present collected data and the analyzing of the response to the interrogation. The disclosed subject matter can be employed in hand-held analytical equipment, e.g., a hand-held Raman spectrometer. | 2016-03-03 |
| 20160061664 | METHOD FOR IMAGING 1-D NANOMATERIALS - A method for imaging one dimension nanomaterials is provided. Firstly, one dimension nanomaterials sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the one dimensional nanomaterials sample is immersed in the liquid. Thirdly, the one dimensional nanomaterials sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the one dimensional nanomaterials sample. Fifthly, spectra of the one dimensional nanomaterials sample are measured to obtain chirality of the one dimensional nanomaterials sample. | 2016-03-03 |
| 20160061665 | Wide-Area Real-Time Method for Detecting Foreign Fluids on Water Surfaces - A method using Infrared Imaging Polarimetry for detecting the presence of foreign fluids on water comprises estimating an expected polarization response for a foreign fluid desired to be detected. Oil from an oil spill is one such foreign fluid. An optimal position of a polarimeter to take images of the water's surface is determined from the expected polarization response. The polarimeter is positioned at the optimal position and records raw image data of the water's surface to obtain polarized images of the area. The polarized images are corrected, and IR and polarization data products are computed. The IR and polarization data products are converted to multi-dimensional data set to form multi-dimensional imagery. Contrast algorithms are applied to the multi-dimensional imagery to form enhanced contrast images, from which foreign fluids can be automatically detected. | 2016-03-03 |
| 20160061666 | EXTENDED INFRARED IMAGING SYSTEM - An apparatus having: one or more infrared imagers capable of detecting light having wavelengths of 8-10 microns and 20-22 microns and a window transparent to light having wavelengths of 8-10 microns and 20-22 microns. | 2016-03-03 |
| 20160061667 | HIGH ACCURACY, COMPACT ON-CHIP TEMPERATURE SENSOR - Embodiments of a temperature sensing apparatus are disclosed. The apparatus may include a voltage generator and circuitry. The voltage generator may generate a first voltage level and a second voltage level dependent on an operating temperature. In response to a given change in the operating temperature, the first and second voltage levels may change, with the second voltage level changing by a different amount than the first voltage level. The voltage generator may generate a third voltage level. The circuitry may measure the first voltage level, the second voltage level, and the third voltage level, and may calculate the operating temperature dependent on a ratio of a difference between the first voltage level and the second voltage level and the third voltage level. | 2016-03-03 |
| 20160061668 | TEMPERATURE DISTRIBUTION PREDICTION METHOD AND AIR CONDITIONING MANAGEMENT SYSTEM - A temperature distribution prediction method of predicting a predetermined temperature distribution in an air conditioning system, the air conditioning system including an air conditioner for supplying temperature-adjusted air into a room where racks in which electronic apparatuses are accommodated are installed; and air blowers for transferring the air supplied from the air conditioner to an intake side of the racks, the method includes: measuring the temperature distribution for actual conditions varying the operating situations of the air blowers; and predicting the temperature distribution for conditions of non-measurement for the air blowers based on the measured values. | 2016-03-03 |
| 20160061669 | Monitoring System for Motor Vehicles - A monitoring system for motor vehicles has a number of sensors, which are arranged on control and/or actuation devices of the motor vehicle, which have a core and an outer envelope covering the same to some extent. The sensors are embedded between the core and the outer envelope thereof and deliver an output signal when a force is exerted onto the outer envelope. The sensors are formed by a sensor unit, which can be stretched or clamped onto the core, with a first foil with a first conducting trace pattern and with a second foil, arranged thereabove, with a second conducting trace pattern. The conducting trace patterns are arranged on mutually facing surfaces of the two foils and the mutually facing surfaces of the foil are connected to one another via spacer elements in such a manner that the foils are elastically biased away from one another and a contact between the first and second conducting trace patterns can be produced by exerting a force onto at least one of the foils. | 2016-03-03 |
| 20160061670 | LOAD DETECTOR - A load detecting device has a deformable body, a strain detection element disposed on the deformable body, and an adhesive layer located between the deformable body and the strain detection element and fixing the strain detection element to the deformable body. The adhesive layer is formed of a glass adhesive. The load detecting device has high productivity. | 2016-03-03 |
| 20160061671 | SYSTEM AND METHOD FOR SELECTING PATH ACCORDING TO SELECTION CONDITIONS - An optical element stress aberration calculation system and method, where a stress distribution is obtained through a stress analysis and a light tracking technologies, and then a stress distribution generated by incident lights with different viewing angles is calculated, so that a stress aberration error is reduced. | 2016-03-03 |
| 20160061672 | INTERFEROMETRIC OPTICAL FIBER SENSOR SYSTEM AND INTERFEROMETRIC OPTICAL FIBER SENSOR HEAD - An interferometric optical fiber sensor system comprises a light source, a first coupler optically connected to the light source, a first optical path for inputting measurement light, a second optical path for inputting reference light, a second coupler for combining the first and second optical paths together, a photodetector for measuring modulation of the measurement light and the reference light, and a coil for modulating with a stress exerted thereon the measurement light and the reference light. The first optical path has an optical length equal to that of the second optical path. The first optical path has a first delay line, while the second optical path has a second delay line. The coil is disposed between the first delay line and the second coupler and between the second delay line and the first coupler. | 2016-03-03 |
| 20160061673 | LOW-HEIGHT SENSOR FOR MEASURING TORQUE ANGLE - A sensor for measuring a torque angle. The sensor includes a magnet, a first stator, a second stator, a first collector, a second collector, and a magnetic sensing element. The first stator includes a first horizontal ring section located on a first plane, and a plurality of first teeth extended from the first horizontal ring section, the plurality of teeth located on a second plane. The second stator includes a second horizontal ring section located on the second plane, and a plurality of second teeth extended from the second horizontal ring section, the plurality of second teeth located on the second plane. The first collector is located proximate the first horizontal ring section and the second collector is located proximate the second horizontal ring section. The magnetic sensing element is magnetically coupled to the first collector the second collector. | 2016-03-03 |
| 20160061674 | Magnetoelastic torque sensor system for drive train, drive train, method of measuring torque in a drive train, method of operating a drive train and method of manufacturing a primary sensor unit - A magnetoelastic torque sensor system ( | 2016-03-03 |
| 20160061675 | SYSTEM FOR REPRODUCING A DRY FRICTION TORQUE - A system for reproducing a dry friction torque applied to an actuator on a valve of a hydraulic line including a disc coupled to a power transmission shaft; a disc brake including a caliper mounted on a frame and plates adapted to be put into contact with the disc; and an electric actuator configured to control the force of application of the plates onto the disc so as to apply a controlled resistive torque to the power transmission shaft, is provided. | 2016-03-03 |
| 20160061676 | Load Sensor for Tensioning Assembly - A load sensor assembly integrally formed with a tensioning assembly or alternatively an inline load sensor assembly that is removably attachable to a line of a tensioning assembly to thereby provide for a relatively more reliable, efficient, and precise determination of a load, is disclosed herein. | 2016-03-03 |
| 20160061677 | VARIOUS STRESS FREE SENSOR PACKAGES USING WAFER LEVEL SUPPORTING DIE AND AIR GAP TECHNIQUE - Sensor packages and manners of formation are described. In an embodiment, a sensor package includes a supporting die characterized by a recess area and a support anchor protruding above the recess area. A sensor die is bonded to the support anchor such that an air gap exists between the sensor die and the recess area. The sensor die includes a sensor positioned directly above the air gap. | 2016-03-03 |
| 20160061678 | FLUID PRESSURE SENSOR - This fluid pressure sensor includes a coil the self inductance of which varies as a function of the pressure of a fluid inside the flexible pipe. This coil includes a turn including:
| 2016-03-03 |
| 20160061679 | PRESSURE SENSOR INCLUDING DEFORMABLE PRESSURE VESSEL(S) - Techniques are described herein that perform pressure sensing using pressure sensor(s) that include deformable pressure vessel(s). A pressure vessel is an object that has a cross section that defines a void. A deformable pressure vessel is a pressure vessel that has at least one curved portion that is configured to structurally deform (e.g., bend, shear, elongate, etc.) based on a pressure difference between a cavity pressure in a cavity in which at least a portion of the pressure vessel is suspended and a vessel pressure in the pressure vessel. | 2016-03-03 |
| 20160061680 | SYSTEM FOR DETECTING A PRESSURE DIFFERENCE BETWEEN THE INTERIOR AND THE EXTERIOR OF AN AIRCRAFT - A system to detect a pressure difference between the interior of a cabin of an aircraft and the exterior of the aircraft. The system includes a window arrangement having a first windowpane with a first surface and an opposite second surface and is adapted to be mounted in an aircraft such that the first surface of the first windowpane faces the exterior of the aircraft and is subjected to ambient outside atmospheric pressure and the second surface faces the cabin interior, and a pressure sensor including a first pressure port. The first windowpane includes a first air passage opening extending between the first and second surfaces of the first windowpane, and the pressure sensor is sealingly connected to the first air passage opening such that the first pressure port of the pressure sensor is subjected to pressure acting on the first surface of the first windowpane. | 2016-03-03 |
| 20160061681 | MODULE FOR SENSING DYNAMIC CONTACT PRESSURE OF TIRE AND TIRE TESTING APPARATUS USING THE SAME - The present invention relates to a device for testing static characteristics and a dynamic contact pressure of a tire and, more specifically, to a module for sensing a dynamic contact pressure of a tire, which is installed on a road surface, measures a tire contact pressure and a deformation amount generated between a tire and the road surface in the course of actually driving a vehicle, to predict and analyze wearing performance of the tire, control stability (cornering), braking performance, rotation resistance, and the like, and includes a plurality of cameras capable of close-up imaging to make a distance between a contact plate and a camera narrow to lower an overall height, thereby simplifying a configuration and easily moving, and a tire testing apparatus using the same. | 2016-03-03 |
| 20160061682 | APPARATUS FOR DRY SIDE MOUNTING A CRASH PRESSURE SENSOR - A crash pressure sensor assembly includes a housing and an inlet arm extending from the housing, the inlet arm having a through bore. The housing is secured to a dividing panel so that a main portion of the housing is located on a first side of the dividing panel and the inlet arm extends through to a second side of the dividing panel. A pressure sensor is located in the housing so as to be on the first side of the dividing panel. The pressure sensor senses air pressure on the second side of the dividing panel via the through bore of the inlet arm and provides an electrical signal indicative of the sensed pressure. An electrical connector provides an electrical connection to the pressure sensor within the housing. | 2016-03-03 |
| 20160061683 | PRESSURE SENSOR - A variable member is connected to a rod-shaped member and connected to a tube portion to ensure airtightness within a housing, and deforms when the rod-shaped member is displaced relative to the housing along an axial direction. A position of the connection between the tube portion and the variable member in the axial direction is a position shifted from a rear end of a gap toward a front side by a predetermined length or a position at the front side with respect to the position shifted by the predetermined length. The predetermined length is a length which is 50% of a length of the gap in the axial direction. | 2016-03-03 |
| 20160061684 | CONTROL SYSTEM, PRESSURE DETECTION SYSTEM, METHODS AND PROGRAMS THEREFOR - A multiple channel control system, pressure detection system, a method and a program are provided. A pressure detection system may include first and second pressure transducers having a common pressure source as an input. The first pressure transducer is a different type than the second pressure transducer. The system also includes a storage device configured to store a look up table having a calibrated relationship between temperature and pressure for the second pressure transducer. The system also includes a processor configured to periodically update the look up table based on pressure detected by the first pressure transducer when a condition is met. | 2016-03-03 |
| 20160061685 | GAS INTERNAL COMBUSTION ENGINE GAS LEAK CHECKING DEVICE AND METHOD FOR SAME - An object of the present invention is to provide a gas leakage checking device and a method for the same, for checking fuel-gas leakage of safety shutoff valves simply and securely by measuring a pressure in a fuel supply pipe. The gas-leakage checking device | 2016-03-03 |
| 20160061686 | VIBRATION EXCITATION SYSTEM FOR AIRCRAFT AND AIRCRAFT - The present invention provides a vibration excitation system which allows a vibration exciter to be easily mounted on/removed from a wing. The present invention is a vibration excitation system for an aircraft which imparts vibration to a main wing of an aircraft subjected to a test flight, for evaluation of vibration resistance to flutter. A vibration exciter which generates vibration is removably mounted on the main wing through a fixing structure. It is preferable that the fixing structure transmit the vibration of the vibration exciter as a shearing force to a front spar and a rear spar of the main wing. | 2016-03-03 |
| 20160061687 | SCALABLE FRAMEWORK FOR MANAGING CIVIL STRUCTURE MONITORING DEVICES - A device receives information, associated with civil structures, that includes temperature information associated with the civil structures, pressure information associated with the civil structures, stress information associated with the civil structures, vibration information associated with the civil structures, or displacement information associated with the civil structures. The device performs an analysis of the information associated with the civil structures via one or more analytics techniques, and generates analysis information based on the analysis of the information associated with the civil structures. The analysis information identifies a potential issue with at least one of the civil structures, and the device provides the analysis information for display. | 2016-03-03 |
| 20160061688 | FATIGUE TESTING OF A TEST SPECIMEN - The invention pertains to a combination of a test rig and test specimen for performing a fatigue test, wherein the test specimen is non-axisymmetric and comprises:—a central element,—a first branch element, which has a longitudinal axis that extends at an angle to the longitudinal axis of the central element,—a joint connecting the first branch element to the central element, which has an in plane bending resonance frequency with an associated in plane bending mode shape, and an out of plane bending resonance frequency with an associated out of plane bending mode shape, wherein the in plane bending resonance frequency and the out of plane bending frequency are substantially the same, wherein the first node of the in plane bending mode shape and the first node of the out of plane bending mode shape are substantially at the same position at the first branch element and wherein the test rig comprises:—a support for supporting the test specimen,—an excitator for subjecting the test specimen to forced vibration at an excitation frequency. | 2016-03-03 |
| 20160061689 | IN-LINE INSPECTION OF OPHTHALMIC DEVICE WITH AUTO-ALIGNMENT SYSTEM AND INTERFEROMETER - Disclosed are in-line apparatuses, systems and methods for measuring a physical characteristic of a constant supply of an ophthalmic device, the apparatuses including: an interferometer; an automatic alignment system that positions the interferometer or ophthalmic device; and a central processing unit in communication with the automatic alignment system and receiving measurements from the interferometer. The in-line apparatus measures the desired physical dimensions of the ophthalmic device in real time. In-line systems, apparatuses and methods for measuring a physical characteristic of an ophthalmic device can include: a camera imaging an actual position of a feature of the ophthalmic device; a vibration resistant interferometer projecting a surface measurement beam having a wavelength that transmits through a beam splitter onto the ophthalmic device; and an automatic alignment system positioning the interferometer and the camera. | 2016-03-03 |
| 20160061690 | NON-CONTACT METHOD OF MEASURING INSERTION LOSS IN OPTICAL FIBER CONNECTORS USING ACTIVE ALIGNMENT - A non-contact method of measuring an insertion loss of a device-under-test (DUT) connector is disclosed. The method includes arranging the DUT connector and a reference connector so that their respective ferrule ends are confronting and spaced apart. The method also includes moving the reference and DUT connectors closer together while measuring the insertion loss and while also actively maintaining alignment of the first and second ferrules using a position measurement system. The insertion loss for the DUT connector is obtained by estimating a value for the insertion loss at a position where the end faces of the reference and connector ferrules would come into contact. | 2016-03-03 |
| 20160061691 | METHOD AND DEVICE FOR DIAGNOSING THE FUNCTION OF AN EXHAUST GAS SENSOR - A method for diagnosing the function of an exhaust gas sensor in an exhaust gas. The function is evaluated here according to whether during a heating phase an operating temperature of the exhaust gas sensor has been reached for a predefined time period. It is taken into account here whether during the heating phase sufficient heating power has been available to carry out a successful heating phase. | 2016-03-03 |
| 20160061692 | ROLLER TESTING STATION FOR MOTOR VEHICLES - The technical design relates to a roller testing station ( | 2016-03-03 |
| 20160061693 | NORMALIZED INDICES FOR FEEDBACK CONTROL LOOPS - A feedback controller for generating and using a normalized performance index for a feedback control loop is shown and described. The feedback controller is configured to generate an input for a control process, identify an error signal representing a difference between a setpoint and a feedback signal from the control process, compute a first exponentially-weighted moving average (EWMA) of a first function of the error signal and a second EWMA of a second function of the error signal, and to generate a normalized performance index using the first EWMA and the second EWMA. | 2016-03-03 |
| 20160061694 | CUSTOMIZED QUALITY CONTROLS FOR ANALYTICAL ASSAYS - Solid beads each containing a selected quantity of analyte are combined and a liquid base matrix that contains attributes of a biological fluid that is to be assayed, together constitute a kit from which a laboratory technician can, at the point of use, prepare a liquid control for a particular analyte, and preferably a series of such controls at different levels of the same analyte customized for a particular assay. | 2016-03-03 |
| 20160061695 | METHOD AND APPARATUS FOR INSPECTING PROCESS SOLUTION, AND SAMPLE PREPARATION APPARATUS IN INSPECTION - A method for inspecting a process solution is provided. In this method, a process solution is disposed on a surface of a substrate. A liquid of the process solution is removed to form an inspection sample by a spinning method. The surface of the substrate of the inspection sample is inspected by the surface inspection device to identify whether a residue of the process solution is left on the surface of the substrate after removing the liquid of the process solution. Further, an apparatus for inspecting a process solution and a sample preparation apparatus in inspection are also provided herein. | 2016-03-03 |
| 20160061696 | METHOD OF REMOVING FLOATATION LIQUID - A method of removing a floatation liquid from between a microscope slide and a paraffin embedded biological specimen including position the microscope slide with the paraffin embedded biological specimen floated thereon onto a slide support element. The slide support element is rotated to cause the microscope slide and the paraffin embedded biological specimen to move in a way that causes the floatation liquid disposed between the microscope slide and the paraffin embedded biological specimen to be removed from between the microscope slide and the paraffin embedded biological specimen. | 2016-03-03 |
| 20160061697 | Method and Apparatus for Pipette Tip Columns - An apparatus and method of using a pipette with pipette tip columns were developed in which a pipette is operated with the pipette tip columns inserted into the wells of a microplate. In this configuration the pipette is free standing and is essentially perpendicular to the microplate. The pipette is hand-held when transferring between positions, e.g., between operation steps that take place in different rows of wells. | 2016-03-03 |
| 20160061698 | METHOD OF COLLECTING OF RARE CELLS FROM THE ENCLOSED FILTERS SYSTEM - The methods of rare cells collection from enclosed micro filter system are provided. This invention includes surface treatment of the filter, application of cells dissociation reagent, shaking/vibration and back/side flush systems. | 2016-03-03 |
| 20160061699 | METHOD FOR ANALYSING A FRACTURE FACE OF A PART OF A TURBINE ENGINE - Process for analysing a fracture or crack surface of a TiAl turbomachine part, comprising at least one of the steps consisting in: a) marking on the surface the position and the orientation of cleavage facets, so as to identify a region of fracture or crack initiation and to determine the direction of propagation of this fracture or crack, b) examining the surface and detecting the regions with the presence of equiaxed grains and/or lamellar grains, so as to evaluate the temperature at which the fracture or crack has taken place, and c) comparing the heat tintings of the surface with those of samples from a heat tinting colour chart so as to evaluate the speed of propagation of the fracture or crack. | 2016-03-03 |
| 20160061700 | APPARATUS AND METHOD FOR TESTING CUSHIONING COMPONENTS - An apparatus for testing a cushioning component for a body part includes a jig that has a three-dimensional anatomical shape. A base is configured to support the cushioning component. An actuator is operatively connected to at least one of the jig and the base and is activatable to move said one of the jig and the base toward and away from the other of the jig and the base to repeatedly contact the cushioning component and the jig with one another. An electronic controller has a processor that executes a stored algorithm. The algorithm has a test condition substantially equivalent to an expected in-use condition of the cushioning component. The electronic controller activates the actuator to move the jig and/or the base according to the algorithm. A method of testing a cushioning component is implemented. | 2016-03-03 |
| 20160061701 | METHOD AND APPARATUS FOR TESTING GEL-BASED LOST CIRCULATION MATERIALS - A compression test rig apparatus for determining a mechanical characterization of a gel-based LCM test sample comprising an LCM test cell configured to contain the gel-based LCM test sample, the LCM test cell comprising a cylinder wall defining a cell space volume configured to hold the gel-based LCM test sample, and a floor defining an extrusion hole configured to extrude the gel-based LCM test sample to create an extruded gel; an extruded gel collector configured to receive the extruded gel from the extrusion hole as an extruded gel volume; a perforated disc comprising perforations, wherein the perforated disc is configured to allow the gel-based LCM test sample to pass through the perforations; and a flat foot disc piston in flush contact with the cylinder wall, the flat foot disc piston configured to compress the gel-based LCM test sample at a displacement speed to produce compression data. | 2016-03-03 |
| 20160061702 | SUPPORTING APPARATUS AND TORSION TEST MEASURING DEVICE USING SAME - A supporting apparatus includes a supporting assembly including a fixed member, a mounting member fixed to the fixed member and a lifting assembly. The mounting member includes a mounting portion having a first side, a second side opposite and parallel to the first side, and a top side coupling the first side with the second side. The lifting assembly includes a support member slidably attached to the first side of the mounting portion, a lifting member slidably attached to the second side of the mounting portion, at least one fixed pulley attached to the top side of the mounting portion, a connecting member arranged on the at least one fixed pulley, and coupling the support member with the lifting member, and one or more weight elements attachable to the lifting member. | 2016-03-03 |
| 20160061703 | Wear Testing Machine - To simulate various rolling and sliding conditions, a wear testing machine can include a load roller arrangement having at least a first load roller, a second load roller, and a third load roller arranged in a triangular layout. A test roller can be disposed between and in simultaneous contact with the first, second, and third load rollers along at least three points of contact. The load rollers and the test roller can be configured to rotate with respect to each other at a same rotational speed or at different rotational speeds. In an embodiment, the wear testing machine can introduce lubricant to the points of contact between the three load rollers and the test roller. | 2016-03-03 |
| 20160061704 | Raw Material Fluid Density Detector - This invention is related to an optical-analysis-type raw material fluid density detector including a detector main body and a light oscillation unit and a light detection unit that are provided on the upper surface or the under surface of the detector main body, in which the detector main body has at least one recess formed in the upper surface and the under surface, a fluid flow path connecting a fluid inlet of the detector main body to the recess, a fluid flow path connecting the recesses to each other, and a fluid flow path connecting the recess to a fluid outlet of the detector main body; the light oscillation unit is disposed in the recess that is closest to the inlet; and light detection units are disposed in the remaining recesses. | 2016-03-03 |
| 20160061705 | FUEL DENSITY DETECTION DEVICE - A pulsation detection unit detects, as an actual characteristic, a pulsation frequency of a pressure pulsation, which is caused in fuel pressure, or a physical quantity corresponding to the pulsation frequency, according to a sensor signal from a pressure sensor. The pressure sensor detects a fuel pressure of fuel supplied to a fuel injection valve, which is equipped to an internal combustion engine. A storage unit stores, as a reference characteristic, a reference frequency of a predetermined reference pulsation or a physical quantity corresponding to the reference frequency. A density detection unit detects a fuel density according to a quantity of deviation between the reference characteristic, which is stored in the storage unit, and the actual characteristic, which is detected with the pulsation detection unit. | 2016-03-03 |
| 20160061706 | NETWORK MANAGEABLE ADVANCED GAS SENSOR APPARATUS AND METHOD - Mechanical, electronic, algorithmic, and computer network facets are combined to create a highly integrated advanced gas sensor. A sensor is integrated into switchgear housings. These sensors integrated into high voltage switchgear products, deployed by electric utility end users in replacement and expansion cycles, function to detect and mitigate atmospheric pollution caused by leaking SF | 2016-03-03 |
| 20160061707 | VERIFICATION OF A METER SENSOR FOR A VIBRATORY METER - A vibratory meter and method for verification of a vibratory sensor is provided. The method includes measuring a plurality of temperatures using a temperature sensor and measuring a plurality of sensor time periods using the sensor assembly. An average temperature and an average sensor time period are determined. The average sensor time period is compensated using the average temperature, generating a compensated sensor time period. The compensated sensor time period is compared to a reference sensor time period. The results are indicated. In further embodiments, a standard deviation of the plurality of temperatures or the plurality of sensor time periods are compared to a limit and sensor stability is indicated. In further embodiments, a difference between measured density and a reference density of a fluid is compensated using the altitude and the average temperature. | 2016-03-03 |
| 20160061708 | VIBRATORY SENSOR AND METHOD OF VARYING VIBRATION IN A VIBRATORY SENSOR - A vibratory sensor ( | 2016-03-03 |
| 20160061709 | DETECTION SYSTEM FOR DETERMINING FILTERING EFFECTIVENESS OF AIRBORNE MOLECULAR CONTAMINATION - A novel filter effectiveness detection method for AMCs (Airborne Molecular Contaminations) is provided herein, which is on-line, economical and applicable for diverse AMCs, using gas-to-particle conversion with soft X-ray irradiation radiation. In one embodiment, this method was conducted through AMC filter evaluations comparing two granular activated carbons (GACs), which are widely used AMC filter media, challenged with sulfur dioxide (SO | 2016-03-03 |
| 20160061710 | APPARATUS FOR CELL OBSERVATION AND METHOD FOR CELL COLLECTION USING THE SAME - An apparatus for cell observation and a method for cell collection using the same are disclosed. The apparatus for cell selection comprises a first substrate having an opening; and a second substrate having a photoresist unit disposed on a surface thereof, wherein the photoresist unit comprises at least one notch and defines a space which is interconnected with the notch and corresponds to the opening of the first substrate. | 2016-03-03 |
| 20160061711 | APPARATUS AND METHODS FOR CELLULAR ANALYSIS - Disclosed are apparatus and methods for analyzing bodily fluids, such as blood samples, using an integrated hematology analyzer and flow cytometer system. Under the present approach, an integrated system may operate as a closed fluidic system or an open fluidic system, and may selectively perform automated hematologic protocols, flow cytometer protocols, and custom protocols. Such apparatus may, for example, identify and enumerate multiple cell types in whole blood based on cellular morphology, analyze cellular immunoassays using antibodies labeled to cells, and also detect low abundant analytes in whole blood as well as serum and other bodily fluids not attached to cells using bead-based immunoassay methods. The system may include a fluid handling system to control sample flow, an optical transducer that includes a flow cell, optical detectors for light scatter and/or fluorescence, and also an illumination source. | 2016-03-03 |
| 20160061712 | METHOD AND APPARATUS FOR MONITORING BIOFOULING ACTIVITY - A method and apparatus for use in monitoring biofouling activity by determining a variety of different velocity rates of fluid via a biofouling monitor assembly. The biofouling monitor assembly beneficially provides a significant means for monitoring biofilm activity of macroscopic organisms and microscopic organisms across a variety of substrates or surfaces within an internal monitoring assembly of the present invention. | 2016-03-03 |
| 20160061713 | METHOD OF EVALUATING OPERATIONAL FEEL OF SUBSTRATE AND SUBSTRATE - A method of evaluating an operational feel of a substrate includes a step of preparing a substrate having a first surface; a step of measuring a plurality of kinetic friction coefficients μ (μ | 2016-03-03 |
| 20160061714 | SAMPLE ANALYZER AND METHOD FOR REPLACING LIGHT SOURCE UNIT - Disclosed is a sample analyzer including: a transport apparatus configured to transport a sample rack holding a sample container; and a measurement apparatus body configured to measure a sample in the sample container held in the sample rack transported by the transport apparatus, wherein the transport apparatus includes a light source holding unit configured to detachably hold a light source unit, and the measurement apparatus body includes a detection unit configured to detect, via an analysis specimen containing the sample, light emitted from the light source unit held in the light source holding unit. | 2016-03-03 |
| 20160061715 | Photoacoustic Imager - This photoacoustic imager is configured to decide the width of a pulse on the basis of a detection sound wave frequency band of a detection portion and to decide the number of pulses in one cycle on the basis of the bandwidth of a detection sound wave frequency of the detection portion. | 2016-03-03 |
| 20160061716 | PHASE SEPARATION OBSERVATION METHOD, PHASE SEPARATION OBSERVATION APPARATUS, ANNEALING APPARATUS, AND PRODUCING METHOD FOR SUBSTRATE - A phase separation observation method according to one embodiment includes determining a progress degree of phase separation of a self-assembly material layer. The progress degree is determined based on the birefringence amount of an observation object. The observation object includes a substrate, and a self-assembly material layer formed on the substrate. | 2016-03-03 |
| 20160061717 | MICROSCOPE WITH SPECTROSCOPIC CAPABILITY - Technologies are generally described for determination of a spectral profile of a sample. A microscope with spectroscopic capability may include a multitude of light sources, one or more photo detectors, and an analysis module. The microscope may be a table-top microscope or a hand-held microscope, for example. The light sources may be configured to illuminate at least one portion of the sample, the photo detectors may be configured to detect returned light from the sample in response to the illumination, and the analysis module may be configured to analyze the detected light to determine a spectral profile of the sample. In some examples, the spectral profile of the sample may be compared to a spectral profile of a reference sample to evaluate the sample, where the sample may be evaluated to determine an identity, a quality, an authenticity, a composition, a density, a reflectivity, and/or an amount of the sample. | 2016-03-03 |
| 20160061718 | METHOD AND DEVICE FOR CHIRALITY ASSIGNMENT OF CARBON NANOTUBE - A method for assigning chirality of carbon nanotube is provided. Firstly, carbon nanotube sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the carbon nanotube sample is immersed in the liquid. Thirdly, the carbon nanotube sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the carbon nanotube sample. Fifthly, spectra of the carbon nanotube sample are measured to obtain chirality of the carbon nanotube sample. | 2016-03-03 |
| 20160061719 | Method for Characterising a Product by Means of Topological Spectral Analysis - The invention relates to a method for characterising a target product, including the steps of: (a) forming a bank of spectral data comprising samples; (b) having measured characteristics and spectra; (c) performing a spectral analysis of the target product and comparing the spectrum obtained with the spectral data in the data bank; (d) identifying the “near neighbour” points of the target product; and (e) performing a topological calculation of the characteristic of the target product as a function of the corresponding characteristics of the near neighbour points, based on a weighting linked to the inverse of the distance between the target product and the near neighbour points. | 2016-03-03 |
| 20160061720 | Method for Characterising a Product by Means of Topological Spectral Analysis - The invention relates to a method for generating and optimising a bank of spectral data that can be used in a method for characterising a target product by means of topological spectral analysis based on a limited number of available standards, the method consisting of a first step of performing the same spectral analysis on the standards, and, from the spectra obtained, forming a bank of spectral data A at multiple wavelengths and/or wavelength ranges. | 2016-03-03 |
| 20160061721 | SYSTEM AND METHOD FOR DISSOLVED GAS ANALYSIS - A method implemented on a processor includes emitting a light beam from a light source to a component in an absorption cell, wherein the light beam comprises a plurality of wavelength beams. The method further includes generating a plurality of response signals due to the presence of the component, corresponding to the plurality of wavelength beams of the light beam. The method also includes detecting the plurality of response signals by a photo detector coupled to the absorption cell. The method includes determining a concentration of the component based on the plurality of response signals. | 2016-03-03 |
| 20160061722 | METHOD FOR DETECTING RESISTANCE OF A PHOTO RESIST LAYER - The present disclosure provides a method for detecting resistance of a photo resist layer. The method includes: providing a silicon wafer and measuring a refractive index of a surface of the silicon wafer as an initial refractive index of the surface of the silicon wafer; forming photo resist layers with different thicknesses on the surface of the silicon wafer; performing ion-implantation on the photo resist layers by predetermined amounts; peeling off the photo resist layers from the surface of the silicon wafer; and testing the refractive indexes of different areas on the surface of the silicon wafer after the ion-implantation, on which the photo resist layers with different thicknesses are located and determining the resistance of the photo resist layers with different thicknesses in contrast to the initial refractive index before the ion-implantation. | 2016-03-03 |
| 20160061723 | FOCUSED BEAM SCATTEROMETRY APPARATUS AND METHOD - The capacity to measure nanoscale features rapidly and accurately is of central importance for the monitoring of manufacturing processes in the production of computer integrated circuits. It is known that far-field scattered light requires a priori sample information in order to reconstruct nanoscale information such as is required in semiconductor metrology. Parameters of interest include, for example, trench depth, duty cycle, wall angle and oxide layer thickness. We describe a scatterometry apparatus and method that uses unconventional polarization states in the pupil of a high NA objective lens, and refer to this as focused beam scatterometry, in which the illumination consists of a focused field with a suitably tailored, spatially-varying polarization distribution. We describe how four or more parameters can be measured and distinguished with an accuracy consistent with the needs laid out in the semiconductor roadmap. | 2016-03-03 |
| 20160061724 | OPTICAL OBSERVATION APPARATUS AND OPTICAL OBSERVATION METHOD - Optical observation apparatus includes: light source emitting broadband light; image fiber with first and second end faces, wherein end faces of plural cores are two-dimensionally arrayed in first and second end faces; imaging optical system provided on first end face side of image fiber, causing light from first end face to be imaged on imaging plane; and axial aberration optical system provided on second end face side of image fiber, having an axial chromatic aberration on optical axis, and causing light from second end face toward object to be observed to be converged. Image fiber takes light from light source from first end face, and transmits light to second end face, and takes light, reflected and scattered by a surface of object, converged by axial aberration optical system, and focused for each plural core on second end face, from second end face and transmits light to first end face. | 2016-03-03 |
| 20160061725 | DEVICE FOR OPTICAL COHERENCE TOMOGRAPHY - A device for optical coherence tomography (OCT) is provided. The device includes a light source for generating a sample beam incident on a matter and a reference beam for creating interference with the sample beam; a spatial light modulator enabling a plurality of ramp patterns for controlling an incident angle of the sample beam; and a diffraction grating for transmitting only a first diffraction component of the reference beam; whereby an image of the matter within a medium is captured by generating an interference image formed by the interference between the sample beam and the reference beam. | 2016-03-03 |
