48th week of 2017 patent applcation highlights part 37 |
Patent application number | Title | Published |
20170343423 | TEMPERATURE SENSOR ASSEMBLIES AND METHODS FOR COUPLING A THERMISTOR TO A CABLE - According to some aspects of the present disclosure, a temperature sensor assembly includes a thermistor including a first lead and a second lead, and a nonconductive separator defining at least two channels, with the first lead positioned in a first one of the channels and the second lead positioned in a second one of the channels to electrically isolate the first lead from the second lead. The assembly also includes a cable including a first conductor wire and a second conductor wire, with the first conductor wire coupled to the first lead and the second conductor wire coupled to the second lead, and a tube at least partially enclosing the thermistor, the nonconductive separator, and at least a portion of the cable. Methods for connecting thermistors to cables are also disclosed. | 2017-11-30 |
20170343424 | NON-CONTACT TEMPERATURE MEASUREMENT BY DUAL-WAVELENGTH SHIFT IN BREWSTER'S ANGLE - Embodiments disclosed herein relate to a thermal processing chamber having a substrate monitoring system. In one embodiment, a temperature monitoring system is disclosed herein. The temperature monitoring system includes a housing and a window defining an interior volume. The temperature monitoring system further includes two or more light sources, a camera, and a polarizer. The two or more light sources are disposed in the interior volume, beneath the window. A first light source of the two or more light sources has a first wavelength. A second light source of the two or more light sources has a second wavelength. A camera is disposed opposite the two or more light sources. The camera to captures a plurality of frames of two or more light beams received from the two or more light sources. The polarizer disposed in an optical path of the two or more light beams. | 2017-11-30 |
20170343425 | INDICATOR FOR THE QUALITY OF A PRODUCT - Poster quality of codified standards for medical, food or industrial product which consist of chemical material that Influenced by surrounding factors such as temperature, humidity and expiration, where the ratio of the chemical material of the poster is adjusted depending on the product type and the extent of its vulnerability to these factors. The change of poster color indicates of exceed standards. | 2017-11-30 |
20170343426 | SENSOR UNIT, APPARATUS WITH SENSOR UNIT AND ASSEMBLING METHOD OF SENSOR UNIT - A sensor unit includes a sensor, a coupler, and a body. The coupler is connected to the sensor. The sensor is to be connected to an outside of the sensor unit via the coupler. The body supports the sensor and the coupler. The body is to be attached to an equipment from an outside of the equipment which includes an object to be detected by the sensor. The body includes an external appearance to distinguish the sensor unit from an another sensor unit which has an another sensor different from the sensor. | 2017-11-30 |
20170343427 | DYNAMIC SENSOR ACCURACY SETTING THRESHOLD - Apparatuses are presented. The apparatus includes a sensor configured with an adjustable accuracy setting to measure a physical parameter and a controller configured to adjust the accuracy setting based on a threshold, and to adjust the threshold based on the physical parameter measured by the sensor. Another apparatus includes a sensor configured with a plurality of sensor accuracy settings to measure a physical parameter of a circuit in a plurality of operating regions. The plurality of operating regions is based on ranges of the physical parameter measured by the sensor. Each of the plurality of sensor accuracy settings corresponds to one of the plurality of operating regions. A controller is configured to adjust one of the ranges of the physical parameter for one of the plurality of operating regions, in response to a change of an operating condition of the circuit. | 2017-11-30 |
20170343428 | PRESSURE DETECTION STRUCTURE AND TERMINAL DEVICE - The present application discloses a pressure detection structure and a terminal device. The pressure detection structure includes a cover, a display screen, a pressure sensor and a middle frame, the display screen and the cover being sequentially stacked in the middle frame from bottom to top; wherein: the pressure sensor is fixed to the display screen; the display screen includes a lower glass layer, an LED light emitting layer and an upper glass layer which are sequentially stacked from bottom to top; and the pressure sensor is positioned beneath the lower glass layer. Thus, the tolerance to be controlled mainly lies in the thickness of the gap layer inside the display screen, and the flatness of the pressure sensor. Hence, the assembling tolerance is reduced, and the stability, reliability and consistency of pressure detection by the terminal device are improved. | 2017-11-30 |
20170343429 | STRESS SENSING DEVICE - A stress sensing device for a robot, a medical device, or a toy, for example, includes a substrate, a support structure, and stress sensing components. Each sensing component of the four disclosed stress sensing components comprises a first electrode, a piezoelectric material layer, and a second electrode. Each first electrode comprises a two-ended body, and a hinge structure located at each end of the body. The body is arcuate, and the configuration of the four sensing components arranged in a cross formation enables sensing in three dimensions of stress applied. | 2017-11-30 |
20170343430 | MINIATURIZED LOAD SENSOR DEVICE HAVING LOW SENSITIVITY TO THERMO-MECHANICAL PACKAGING STRESS, IN PARTICULAR FORCE AND PRESSURE SENSOR - A load-sensing device is arranged in a package forming a chamber. The package has a deformable substrate configured, in use, to be deformed by an external force. A sensor unit is positioned in direct contact with the deformable substrate and is configured to detect deformations of the deformable substrate. An elastic element within of the chamber is arranged to act between the package and the sensor unit to generate, on the sensor unit, a force keeping the sensor unit in contact with the deformable substrate. The deformable substrate may be a base of the package, and the elastic element may be a metal lamina arranged between the lid of the package and the sensor unit. The sensor unit may be a semiconductor die integrating piezoresistors. | 2017-11-30 |
20170343431 | MULTI-AXIS PIEZORESISTIVE FORCE SENSOR - A microelectromechanical system (MEMS) sensor device comprising at least one microelectromechanical system sensor to characterize intracellular dynamics and behavior of a living biological cell so as to quantitatively measure the mechanical strength thereof. The microelectromechanical system sensor being responsive to mechanical force changes during said cell's contraction, migration, proliferation and differentiation. | 2017-11-30 |
20170343432 | LOAD DETECTION APPARATUS - A load detection apparatus includes a load input portion having a input surface, and an output surface; a flexure element including on annular portion including a contacting portion configured to make contact with at least a part of the output surface, and a support portion; a set of sensors disposed on a reverse surface opposite to a surface provided with the contacting portion in the annular portion, each of the set of sensors being configured to detect distortion corresponding to an input load; a set of calculation portions configured to calculate a set of magnitudes of the load by use of respective detection results obtained by the set of sensors; and an abnormality determination portion configured to determine whether the set of sensors and the set of calculation portions have no abnormality, by comparing the set of magnitudes of the load with each other. | 2017-11-30 |
20170343433 | Optic Fibres and Fibre Optic Sensing - Fiber optic cables with improved performance for use in distributed sensing, for instance in distributed acoustic sensors, are disclosed. In one embodiment a fiber optic cable ( | 2017-11-30 |
20170343434 | SYSTEM & METHOD FOR MEASURING SUSPENSION TENSION - A system for determining tension in a suspended rope includes an acceleration measuring device for measuring the acceleration of rope movement and an adapter for attaching the acceleration measuring device to the suspended rope. The system optionally includes a user device communicatively coupled to the acceleration measuring device. The user device computes rope tension based on the measured acceleration. The acceleration measuring device and user device can be combined into a single smart device. Examples of the system can accurately determine the tension in ropes used to suspend an elevator cabin, allowing a field technician to tighten the ropes to equal tension and to determine the weight of the cabin. In turn, a smoother and more secure operation of the elevator can be achieved. | 2017-11-30 |
20170343435 | COUPLING LOAD MEASUREMENT METHOD AND DEVICE - The coupling load measurement method allows to measure load between a first driving shaft and a second driven shaft connected by a hub coupled both with the first shaft and with the second shaft by at least one flexible coupling element coupled to the hub and to the first shaft and/or to the second shaft; the method comprises, during operation of the shafts, a measurement step of measuring a distance variation respect to a reference distance between a first flange of the hub and a second flange of the flexible coupling element and the step of using the measured distance variation for calculating the load. | 2017-11-30 |
20170343436 | MULTI-ANGLE PRESSURE SENSING DEVICE - A device able to sense pressure from multiple directions includes a substrate and an elastic member comprising a bottom end and a touch end. The bottom end is arranged on the substrate, and the touch end is configured to receive an external force. A group of pressure detecting units are arranged on the touch end, each pressure detecting unit is a curved shape and comprises a first end and a second end, the first end being fixed on the substrate, and the second end is fixed with the elastic member. Distances between each first end and the bottom end are same, and a first signal processing unit is electrically connected with the at least two detecting units. | 2017-11-30 |
20170343437 | PRESSURE SENSOR - A pressure sensor outputting an electrical signal upon a fluid pressure in a target space includes a diaphragm having a pressure receiving surface disposed in the target space for receiving a fluid pressure, and a back surface on a back side of the pressure receiving surface, an inner member disposed to face the back surface and a diaphragm supporting portion connected to the diaphragm. The diaphragm includes a center portion disposed to face the inner member and is distorted as a concave shape toward the detecting direction because of the heat transmitted to the pressure receiving surface and the distortion of the center portion as a concave shape toward the detecting direction. A contacting portion provided on a connecting portion between the center portion and the outside portion is in contact with the inner member. | 2017-11-30 |
20170343438 | DIFFERENTIAL PRESSURE SENSOR FULL OVERPRESSURE PROTECTION DEVICE - A pressure sensor die assembly for a differential pressure sensor comprises a base substrate including a first overpressure stop structure on a first surface, and a diaphragm structure coupled to the first surface. The diaphragm structure comprises a first side with a cavity section that includes a first cavity and a second cavity surrounding the first cavity, and a second side opposite from the first side. A pressure sensing diaphragm portion is defined by the first cavity and is located over the first overpressure stop structure. An overpressure diaphragm portion is defined by the second cavity. A top cap coupled to the second side of the diaphragm structure includes a second overpressure stop structure. The overpressure stop structures are each sized to support substantially all of a strained area of the pressure sensing diaphragm portion at an increasing overpressure on the first or second sides of the diaphragm structure. | 2017-11-30 |
20170343439 | Pressure Transducer and Method for Operating Same - Pressure transducer for determining a pressure variable, comprising at least a pressure sensor with a measuring membrane and resistance elements integrated in the measuring membrane, wherein the pressure sensor is arranged between a first and a second counter body, such that a pressure chamber forms between the measuring membrane and the first counter body, which pressure chamber can be subjected to a first pressure; wherein the side of the measuring membrane facing towards the second counter body can be subjected to a second pressure, and a displacement of the measuring membrane dependent upon the first and second pressures set; wherein the pressure-dependent displacement of the measuring membrane can be detected by the resistance elements and, via a bridge voltage of a bridge circuit formed with the resistance elements, a pressure variable can be determined; wherein the measuring membrane has a membrane electrode and the second counter body has at least one counter body electrode on the side facing towards the measuring membrane, such that the membrane electrode and the counter body electrode form a capacitance, wherein, on the basis of the capacitance, at least one additional piece of information can be determined and/or at least one additional function of the pressure transducer can be performed. | 2017-11-30 |
20170343440 | PRESSURE MEASUREMENT CELL - A pressure measurement cell is disclosed including a base body, substantially cylindrical at least in sections, a measuring membrane joined to the base body in a pressure-tight manner along a perimeter joint to form a measurement chamber between the base body and the measuring membrane, and a joining material that joins the perimeter joint between the base body and the measuring membrane. The base body and/or the measuring membrane have/has a stepped recess into which the joining material is at least partially disposed, the stepped recess structured to yield a minimum distance between the base body and the measuring membrane. | 2017-11-30 |
20170343441 | AIR PRESSURE SENSING SYSTEM AND AIR PRESSURE SENSING METHOD - An air pressure sensing system including a first sensing unit and a second sensing unit is provided. The first sensing unit includes a substrate, a diaphragm, and a supporting member. The substrate has a cavity connected with an exterior environment. The diaphragm is movably and deformably disposed at the substrate and suspended in the cavity. An electrostatic force is provided to the substrate and the diaphragm to move the diaphragm, such that a portion of the base, the supporting member and the diaphragm are contacted with each other and a closed space is formed therebetween in the cavity. The closed space and the exterior environment are divided by the diaphragm, and the diaphragm is deformed due to an air pressure difference between the closed space and the exterior environment. An air pressure sensing method is also provided. | 2017-11-30 |
20170343442 | PRESSURE SENSING DEVICE HAVING TEMPERATURE SENSOR - Disclosed is a pressure detecting device having a temperature sensor, the device including: a housing having a first chamber, a second chamber, and a port part having a fluid guide tube that guides a pressure transmitting fluid to the second chamber; a lead frame coupled to the housing and configured for being connected to an external device; a circuit substrate electrically connected to the lead frame and including a first surface and a second surface; a pressure detecting element provided on the second surface of the circuit substrate and generating an electrical signal according to a pressure change; a tube coupled to the port part, whereby a first end of the tube is open and provided inside the first chamber; and a temperature detecting element provided inside the tube and transmitting an electrical signal generated according to a temperature change to the circuit substrate. | 2017-11-30 |
20170343443 | SYSTEMS AND METHODS FOR SWITCHED MULTI-TRANSDUCER PRESSURE SENSORS AND COMPENSATION THEREOF - Systems and methods are disclosed for a switched, multiple range sensor system including multiple transducers. In one embodiment, a method is provided that includes receiving and measuring at a first transducer and a second transducer, a pressure to generate a respective first and second pressure signal; amplifying the first and second pressure signals with corresponding first and second fixed-gain amplifier to generate first and second amplified pressure signals; selecting for monitoring, the first or second amplified pressure signal; converting the selected amplified pressure signal to an intermediate digital pressure signal; measuring, at a thermal sensor associated with the selected amplified pressure signal, a temperature; compensating, based on the measured temperature, the intermediate digital pressure signal to generate a compensated digital pressure output signal; and outputting the compensated digital pressure output signal. | 2017-11-30 |
20170343444 | PRESSURE MEASURING SENSOR - The present invention proposes a sensor, comprising a first element, a second element having a circular portion, the first element being configured to hold the circular portion of the second element against the first element at a holding angle less than 360 degrees. | 2017-11-30 |
20170343445 | TORQUE ESTIMATING DEVICE OF GAS COMPRESSOR - A torque estimating device of a gas compressor includes a reference torque characteristic storage unit that stores a reference torque characteristic of the gas compressor as a torque characteristic of the gas compressor in a specific operation state, a torque setting unit that sets a torque corresponding to an input speed of rotation of the gas compressor and pressure of a refrigerant discharged from the gas compressor, on the basis of the reference torque characteristic stored in the reference torque characteristic storage unit, and a torque correcting unit that sets a torque at startup of the gas compressor among the torques set by the torque setting unit, by correcting the torque set by the torque setting unit, in accordance with the speed of rotation and an elapsed time from startup. | 2017-11-30 |
20170343446 | PRESSURE MONITOR OPTIMIZATION OF FLUID PATH UTILIZATION - A device comprising a pressure monitor and a control means that receives a signal representing measured pressure at the pressure monitor and controls the controllable elements of a fluid system is utilized to monitor a fluid system for error conditions, to optimize operations and to diagnose the fluid system. By following a testing protocol that selectively enables parts of the system, the control means narrows the list of possible falling components. Comparing the measured pressure against normal pressures allows the device to identify error conditions. Determining the volume of fluid being transported and controlling the duration of the flow optimizes operation of the fluid system. | 2017-11-30 |
20170343447 | SEALED BLADDER ASSEMBLY AND METHOD - A bladder assembly including a body, a bladder received in the body, the bladder defining an internal volume and including an annular sealing bead, the sealing bead defining an opening into the internal volume, and a sealing member including a shaft having a first end and a second end, and an engagement portion connected proximate the second end, the sealing member being partially received within the internal volume and being moveable between at least a first position, wherein the engagement portion is spaced from the sealing bead, and a second position, wherein the sealing bead is compressed between the engagement portion and the body. | 2017-11-30 |
20170343448 | METHOD FOR TESTING A SEAL OF A SEALED BEARING CAVITY - The method for testing the integrity of a seal of a cavity in an engine includes providing a sealed test tank external to the cavity, the test tank having an internal volume that is particularly selected, as described herein. A pressure differential is generated between the test tank and the cavity, by creating an initial test pressure within the test tank that is different than an ambient pressure inside the cavity. Gas flow between the test tank and the cavity is then permitted, and a change in pressure within the test tank is measured, as is a test time required for the pressure inside the test tank to reach a reference pressure. The measured test time is compared with a predetermined reference time, and the integrity of the seal may be confirmed when the test time is greater than or equal to the reference time. | 2017-11-30 |
20170343449 | TEST DEVICE AND METHOD FOR TESTING A MIRROR - A test appliance and a method for testing a mirror, e.g., a mirror of a microlithographic projection exposure apparatus. The test appliance has a computer-generated hologram (CGH), and a test can be carried out on at least a portion of the mirror by way of an interferometric superposition of a test wave that is directed onto the mirror by this computer-generated hologram and a reference wave. Here, the computer-generated hologram (CGH) ( | 2017-11-30 |
20170343450 | DEVICES, SYSTEMS AND METHODS FOR USE IN FIBER MEASUREMENTS, SUCH AS MULTI-MODE FIBER GEOMETRY MEASUREMENTS - A method for testing optical fibers includes using an optical testing instrument to measure a characteristic, such as clad non-circularity, of an optical fiber at a multiple angles of rotation of an optical fiber around its optical axis. From the measurements data points indicative of measured values of the characteristic at the respective angles of rotation are generated. A model is created of the optical fiber having the characteristic as a variable parameter, and from the model a functional relationship between an expected measured value of the characteristic and the angle of rotation and the variable parameter is generated. By varying the parameter a fit of the functional relationship to the data points is made according to one or more predetermined criteria, such as least-squares fit. The value of the characteristic can be found based on the fit. Instrumental parameters, such as fiber misalignment and cleave angle, can also be ascertained by the method. | 2017-11-30 |
20170343451 | Abnormality Diagnosis Device, Bearing, Rotation Device, Industrial Machine and Vehicle - There is provided an abnormality diagnosis device, a bearing, a rotation device, an industrial machine, and a vehicle, which are able to discover abnormality early and also set a diagnosis threshold relatively easily. A differential value between an initial frequency component and an actual measurement frequency component is calculated, the differential value is compared to the diagnosis threshold, and abnormality diagnosis for an abnormality diagnosis target is carried out based on the comparison result, where the initial frequency component is a feature frequency component of abnormality of the abnormality diagnosis target in the rotation device, which is extracted from an initial vibration value measured at initial measurement timing while the axle is rotating at setting rotation speed during an operation of the rotation device, and the actual measurement frequency component is a feature frequency component extracted from an actual measurement vibration value measured at actual measurement timing that is the initial measurement timing or later while the axle is rotating at the setting rotation speed during the operation of the rotation device. | 2017-11-30 |
20170343452 | TIRE FAULT PORTION PREDICTION SYSTEM AND TIRE FAULT PORTION PREDICTION METHOD - The tire fault portion prediction system of this disclosure comprises: a tire running parameter measurement unit, a state characteristic value measurement unit, a degree of fatigue characteristic value calculation unit, and a tire fault portion prediction unit for predicting fault portions of a tire based on a degree of fatigue characteristic value of at least one of the tire constituent members and the tire running parameter. The tire fault portion prediction method of this disclosure comprises: measuring a tire running parameter, measuring state characteristic values, calculating degree of fatigue characteristic values, and predicting fault portions of a tire based on a degree of fatigue characteristic value of at least one of the tire constituent members and the tire running parameter. | 2017-11-30 |
20170343453 | APPARATUS FOR HOLDING A TIRE IN A TIRE BALANCING MACHINE - An apparatus ( | 2017-11-30 |
20170343454 | SMEAR PREPARING APPARATUS AND SMEAR PREPARING METHOD - A smear preparing apparatus according to one or more embodiments includes: a first transporter that transports a storage tool in a first direction, the storage tool capable of holding microscope slides side by side in the first direction; a slide transfer unit that transfers a microscope slide having a stained sample to the storage tool transported by the first transporter; and a second transporter that is adjacent to the first transporter and that transports the storage tool housing the microscope slide transferred by the slide transfer unit, in a second direction opposite to the first direction. | 2017-11-30 |
20170343455 | Methods Of Reducing Viscosity Of Biological Samples - The present disclosure provides methods for reducing the viscosity of a cell lysate or tissue lysate by: contacting the cell lysate or tissue lysate with a compressible and open-cell foam filter having a pore size from about 0.65 mm to about 1.22 mm, compressing the filter to recover the lysate absorbed in the filter, and collecting the filtered lysate; and also provides kits therefor. | 2017-11-30 |
20170343456 | DETERMINING DEVICE AND DETERMINING METHOD - The purpose of the present invention is to provide a determining device and a determining method to determine whether an inspected jet nozzle is defective by inspecting the jet nozzle for injecting a jet stream with long ground penetrating distance at a stage before installing in a construction site where a large diameter jet grouting method is used. To achieve this purpose, with this invention, in which a nozzle to be inspected is mounted onto an outlet port, a jet stream is ejected from a jet stream generating device, and measurement data measured by a pressure sensing unit when the jet stream impacts the pressure sensing unit is processed with a controlling device (for example, a computer), a nozzle to be inspected is determined to be a non-defective product if a first ratio is no less than a first prescribed value, a second ratio is no less than a second prescribed value, and a third ratio is no less than a third prescribed value. | 2017-11-30 |
20170343457 | MEASURING ARRANGEMENT AND METHOD FOR MEASURING THE DENSITY OF FLOWABLE MEDIA - A measuring arrangement ( | 2017-11-30 |
20170343458 | CONTROLLING A VIBRATION OF A VIBRATORY SENSOR BASED ON A PHASE ERROR - A method of controlling a vibration of a vibratory element based on a phase error is provided. The method includes vibrating the vibratory element with a drive signal, receiving a vibration signal from the vibratory element, measuring a phase difference between the drive signal and the vibration signal, determining a phase error between a target phase difference and the measured phase difference, and calculating one or more vibration control terms with the determined phase error. | 2017-11-30 |
20170343459 | Vibronic Sensor - A vibronic sensor for determining and/or monitoring at least one process variable of a medium in a container. The sensor at least comprising: a unit which can oscillate mechanically; a driving/receiving unit; and an electronic unit. The driving/receiving unit is designed to excite, by means of an electrical excitation signal, mechanical oscillations in the unit which can oscillate mechanically and is designed to receive the mechanical oscillations of the unit which can oscillate mechanically, and to convert them into an electrical receiving signal. The electronic unit is designed to generate the excitation signal on the basis of the receiving signal and to determine the at least one process variable from the receiving signal; The electronic unit comprises at least one adaptive filter; and the electronic unit is designed to set the filter characteristic of the adaptive filter in such a way that there is a target phase shift between the excitation signal and the receiving signal. | 2017-11-30 |
20170343460 | Particle Emission Tomography - The present invention provides autoradiography methods and systems for imaging via the detection of alpha particles, beta particles, or other charged particles. Embodiments of the methods and systems provide high-resolution 3D imaging of the distribution of a radioactive probe, such as a radiopharmaceutical, on a tissue sample. Embodiments of the present methods and systems provide imaging of tissue samples by reconstruction of a 3D distribution of a source of particles, such as a radiopharmaceutical. Embodiments of the methods and systems provide tomographic methods including microtomography, macrotomography, cryomicrotomography and cryomacrotomography. | 2017-11-30 |
20170343461 | APPARATUS FOR TESTING A FILTER - A preferred form of the invention is directed to a system and method used to test filters. The system preferably includes a base unit and a probe operably associated with the base unit. The probe is configured to be deployed adjacent the filter being tested while the filter is located in an operating position. The probe is further configured to allow an operator to vary the mode of operation of the base unit from the probe. The system is configured to automatically exhaust any residual test sample from the base unit and the probe when the system changes between testing a sample upstream and downstream of the filter. The system further includes noise suppression on at least one of the upstream test sample and downstream test sample. The system further is configured to detect when the probe is connected to the base unit. | 2017-11-30 |
20170343462 | EXHAUST GAS ANALYSIS SYSTEM, RECORDING MEDIUM RECORDED WITH PROGRAM FOR EXHAUST GAS ANALYSIS SYSTEM, AND EXHAUST GAS ANALYZING METHOD - An exhaust gas analysis system is adapted to include an exhaust gas circulation line through which exhaust gas flows, an exhaust gas collection line adapted to collect the exhaust gas from the exhaust gas circulation line and introduce the collected exhaust gas into an exhaust gas analysis device, a continuous analysis line adapted to, separately from the diluted exhaust gas collection line, collect the exhaust gas from the exhaust gas circulation line for continuous analysis, a continuous analyzer provided in the continuous analysis line, and an information processing unit adapted to, on the basis of an analysis result by the continuous analyzer at the time of the collection into the exhaust gas analysis device, determine whether a measurement result of the exhaust gas introduced into the exhaust gas analysis device falls within a preset range, or determine a measurement range used to measure the exhaust gas introduced into the exhaust gas analysis device. | 2017-11-30 |
20170343463 | PARTICULATE DETECTION SYSTEM - In a particulate detection system ( | 2017-11-30 |
20170343464 | SYSTEM AND METHOD FOR ASSESSING QUANTITIES OR SIZES OF LIPOPROTEIN PARTICLES FROM LIPOPROTEIN PARTICLE COMPOSITIONS - This application discloses methods for assessing quantities of spherical or substantially spherical lipoprotein particles or portions thereof present in a biological sample based on the measurement of free cholesterol and/or phospholipid content in the lipoprotein particles. Methods of treating a subject at increased risk for cardiovascular disease and/or cardiodiabetes are also disclosed. | 2017-11-30 |
20170343465 | APPARATUS AND METHOD FOR DISPENSING PARTICLES IN FREE-FLYING DROPS ALIGNED USING AN ACOUSTIC FIELD - An apparatus for dispensing particles in free-flying liquid drops includes a fluid chamber fluidically coupled to a nozzle, a sound source configured to generate, in the fluid chamber, an acoustic field by which particles in a liquid in the fluid chamber may be aligned in an arrangement, and a drop-on-demand mechanism configured to, at a selected point in time, selectively dispense from the nozzle an individual liquid drop containing one or several particles. | 2017-11-30 |
20170343466 | MULTIPLEX BEAD ARRAY ASSAY - The present disclosure relates to a system, method, and kit for particle detection and analysis. Devices disclosed herein may include at least an optical source, a fludic chip containing a multiplex bead array, and a detection module, wherein the sample flows within the fludic chip past a detection window, where the cells or particles are imaged by an image acquisition and analysis module that may include an optical detector. The image acquisition and analysis module counts the labeled particles and software allows for analysis of bead population. | 2017-11-30 |
20170343467 | MULTIPLE FLOW CHANNEL PARTICLE ANALYSIS SYSTEM - A microfluidic multiple channel particle analysis system which allows particles from a plurality of particle sources to be independently simultaneously entrained in a corresponding plurality of fluid streams for analysis and sorting into particle subpopulations based upon one or more particle characteristics. | 2017-11-30 |
20170343468 | Modular Sand and Dust Environmental Testing System - A portable environmental testing system for environmental testing with particulate matter, such as sand and dust, is disclosed. The components of the system are largely contained within a modular container, such as an intermodal shipping container. The testing system uses a feeder to feed precise amounts of particulate matter into an injector, which injects the particulate matter into an airflow that leads to a nozzle assembly. The airflow itself is generated by a compressed air system. The material input station, for inputting particulate matter, includes operator protection features, like a negative draw fan. The system may be provided with wheels and a tow bar. | 2017-11-30 |
20170343469 | SPECIAL PURPOSE CUVETTE ASSEMBLY AND METHOD FOR OPTICAL MICROSCOPY OF NANOPARTICLES IN LIQUIDS - The system and cuvette insert is disclosed where the insert has a top surface that includes a first and second vertical channel opening. A first vertical channel extends downwardly from the first vertical channel opening and a second vertical channel extending from the second vertical channel opening. The insert also has a side wall into which the viewing chamber is formed. The viewing chamber has an upper viewing chamber wall and a lower viewing chamber wall. These walls define the viewing chamber and may be substantially parallel to the floor of the cuvette into which the insert is inserted. At the end of the viewing chamber is a reflecting wall. The viewing chamber has two ends, with one end in fluid connection with the first vertical channel and the other end in fluid connection with the second vertical channel. The fluid connection between the viewing chamber and the first vertical channel may also include a first lateral channel. Likewise the fluid connection between the viewing chamber and the second vertical channel may include a second lateral channel. | 2017-11-30 |
20170343470 | WEARABLE DEVICE FOR TESTING BIOLOGICAL INFORMATION OF USER AND TESTING SYSTEM HAVING THE SAME - A wearable device includes a testing portion, the testing portion includes receiving space, a bottom surface defining an opening, an opposite top surface, and a first side surface defining a slot. A white light source is received in the receiving space. A wearable portion of the device is secured to the testing portion and the wearable portion can be placed around a terminal device comprising a camera. The opening faces the camera when the wearable portion is around the terminal device, allowing the camera to capture a standard image of the white light, and capture a wet image of a test paper imbued with user bio-matter when the test paper is inserted into the slot. A biological information of the user, as an indicator of health, is calculated according to a color comparison between the wet image and the standard image. | 2017-11-30 |
20170343471 | ANALYZING REFLECTANCE BASED COLOR CHANGES IN SENSING APPLICATIONS - Systems and methods are provided for identification of a detection event relevant in applications focused on real-time or near real-time reporting in a continuous monitoring application. A controller collects data from a plurality of sensors and compares recent data to background data to determine whether an event has occurred. A system in accordance with an embodiment of the present disclosure is considered to have detected an event of interest when at least a specified minimum number of sensors report a detection event at the same time. | 2017-11-30 |
20170343472 | SPECIFIC BROMINE-BASED FLAME RETARDANT DETERMINATION METHOD AND DETERMINATION APPARATUS - A resin is irradiated with an infrared ray, and a reflected ray from the resin irradiated with the infrared ray is received. In a reflection or absorption spectrum obtained by the reflected ray, a difference of a reflection intensity in a spectrum between a first wave number band of 1340 cm | 2017-11-30 |
20170343473 | Self-Calibrating Optical Detector - The present disclosure includes systems and methods for calibration of an optical sensor package, including setting an initial detection threshold of a detector, gradually increasing a power level of a signal generator that is in communication with a detector to cause a detected power at the detector to exceed the initial detection threshold, storing in a memory a first power level of the signal generator at which the detected power at the detector exceeds the initial detection threshold, and adjusting the initial detection threshold of the detector to an adjusted detection threshold to include a detection buffer amount within the adjusted detection threshold. | 2017-11-30 |
20170343474 | A PORTABLE IN-VITRO DIAGNOSTIC DETECTOR AND APPARATUS - A portable in-vitro (PIV) diagnostic detector operable to perform a fluorescence assay on a sample in one or more detection chambers of a cartridge is provided. The PIV diagnostic detector comprises a first optical module which includes (i) an LED light source for emitting substantially monochromatic light to illuminate a detection zone associated with at least one detection chamber; (ii) an excitation filter interposed between said light source and said detection zone; (iii) a light detector operable to detect fluorescent light emitted by an excited fluorescent label associated with the sample and to measure an intensity of the fluoresced light; and (iv) an emission filter interposed between said light detector and said detection zone. The (PIV) diagnostic detector further comprises a microprocessor operable to process the measured intensity of the fluoresced light to determine whether an analyte is present in the sample; wherein the first optical module is configured such that a longitudinal axis of the light source extends at an oblique angle with respect to a longitudinal axis of the light detector. | 2017-11-30 |
20170343475 | FLUORESCENT IMAGE ANALYZER, ANALYZING METHOD, AND PRETREATMENT EVALUATION METHOD - A fluorescence image analyzer, analyzing method, and pretreatment evaluation method capable of determining with high accuracy whether a sample is positive or negative are provided. A pretreatment part | 2017-11-30 |
20170343476 | IMAGING SYSTEM WITH OBLIQUE ILLUMINATION - The present disclosure provides an imaging system, including methods and apparatus, with oblique illumination. In an exemplary method of imaging, a sample may be illuminated obliquely with excitation light generated by only a subset of a plurality of light sources mounted to an annular frame. An image may be detected, with the image formed with photoluminescence induced in the sample by the excitation light and received from a central opening of the annular frame. | 2017-11-30 |
20170343477 | Systems and Methods for 4-D Hyperspectral Imaging - Systems and methods for hyperspectral imaging are described. In one implementation, a hyperspectral imaging system includes a sample holder configured to hold a sample, an illumination system, and a detection system. The illumination system includes a light source configured to emit excitation light having one or more wavelengths, and a first set of optical elements that include a first spatial light modulator (SLM), at least one lens, and at least one dispersive element. The illumination system is configured to structure the excitation light into a predetermined two-dimensional pattern at a conjugate plane of a focal plane in the sample, spectrally disperse the structured excitation light in a first lateral direction, and illuminate the sample in an excitation pattern with the one or more wavelengths dispersed in the first lateral direction. | 2017-11-30 |
20170343478 | OPTICAL EMISSION SPECTROSCOPE WITH A PIVOTABLY MOUNTED INDUCTIVELY COUPLED PLASMA SOURCE - An optical emission spectrometry instrument may comprise an inductively coupled plasma generator (ICP) with an electromagnetic coil having input and ground connectors. The electromagnetic coil may be mounted to a mounting disk, and the input connector may be coupled to a power output of a radio frequency power source, and the ground connector may be connected to the mounting disk. A spectro-chemical source may be used for sample excitation. The spectro-chemical source and the ICP may have a longitudinal axis. An optical system may be included for viewing the spectro-chemical source with a fixed view axis. The electromagnetic coil may be mounted pivotably around one of its connectors so that the orientation of the ICP can be altered from a first orientation of its longitudinal axis to a second orientation of its longitudinal axis, and vice versa. | 2017-11-30 |
20170343479 | APPARATUS AND METHOD FOR PERFORMING NUCLEIC ACID ANALYSIS - The present invention relates to optical confinements, methods of preparing and methods of using them for analyzing molecules and/or monitoring chemical reactions. The apparatus and methods embodied in the present invention are particularly useful for high-throughput and low-cost single-molecular analysis. | 2017-11-30 |
20170343480 | STRIP MODULE AND METHOD FOR ACQUIRING INFORMATION OF A SAMPLE - A method for measuring blood glucose levels by a portable terminal using a strip module is provided. The strip module includes a dye pad having a color that changes in response to a sample applied to the dye pad. The strip module also includes a transparent strip having a first side and a second side. The first side is opposite the second side. The dye pad is mounted on the first side of the transparent strip, and the transparent strip reflects light provided from a light source of a portable terminal located adjacent to the second side and transmits the light to the dye pad. | 2017-11-30 |
20170343481 | METHODS AND SYSTEMS FOR CRACK DETECTION - Systems and methods suitable for capable of autonomous crack detection in surfaces by analyzing video of the surface. The systems and methods include the capability to produce a video of the surfaces, the capability to analyze individual frames of the video to obtain surface texture feature data for areas of the surfaces depicted in each of the individual frames, the capability to analyze the surface texture feature data to detect surface texture features in the areas of the surfaces depicted in each of the individual frames, the capability of tracking the motion of the detected surface texture features in the individual frames to produce tracking data, and the capability of using the tracking data to filter non-crack surface texture features from the detected surface texture features in the individual frames. | 2017-11-30 |
20170343482 | INSPECTION APPARATUS AND INSPECTION METHOD FOR INSPECTION OF THE SURFACE APPEARANCE OF A FLAT ITEM THAT REPRESENTS A TEST SPECIMEN - Reflective or embossed regions are supposed to be illuminated as uniformly as possible over the greatest possible angle range for optical inspection using in one aspect an apparatus for inspection having a passive lighting body spotlighted by a spotlight light source, which body illuminates a test region, as well as at least one optical sensor directed at the test region. The lighting body is configured to be partially transmissible, and the optical sensor is disposed, with reference to the test region, optically beyond the lighting body, detecting the test region through the lighting body, and/or the spotlight light source is directed at the lighting body and the lighting body extends continuously over at least 120° in a section plane that stands perpendicular to the surface of the flat items to be tested or inspected. | 2017-11-30 |
20170343483 | DEVICE AND METHOD FOR CONTINUOUSLY INSPECTING CONTAINERS - The present disclosure provides an inspection device for continuously inspecting fed containers, in particular bottles, said inspection device comprising a feed device configured to feed containers thereto in succession, at least one inspection unit, configured to inspect the fed containers, a discharge conveying device configured to discharge the inspected containers, and a throughput station for the containers, which is arranged between the feed conveying device and the discharge conveying device, wherein the throughput station comprises a conveyor arrangement with an individual drive and a plurality of conveying units, which are movable by means of the individual drive individually and independently of one another, the conveyor arrangement being configured to convey the containers from the feed conveying device to the discharge conveying device. | 2017-11-30 |
20170343484 | APPARATUS AND METHOD FOR MEASURING FLOWABLE SUBSTANCE AND ARRANGEMENT AND METHOD FOR CONTROLLING SOLID CONTENT OF FLOWABLE SUBSTANCE - An apparatus for measuring flowable substance which has at least three microwave sensor elements arranged at separate locations in a measurement chamber in contact with the flowable substance. The sensor elements operate as at least two transmitter-receiver pairs, which transmit and receive microwave radiation via at last two paths of different lengths, through layers of dirt on the sensor elements and the flowable substance for eliminating an effect of dirt layers on the sensor elements from the measurement result. A signal processing unit has a controller which is configured to control feed of at least one substance which has an effect on the measured value of the flowable substance to the chamber on the basis of the measured value of the desired property of the flowable substance. | 2017-11-30 |
20170343485 | RETRIEVAL OF P-BAND SOIL REFLECTIVITY FROM SIGNALS OF OPPORTUNITY - A system and method for determining moisture content of soil, comprising providing bistatic radar configuration to measure soil reflectivity in UHF and S-band, cross-correlating between Sky-viewed and Earth-viewed signals and reflected signals in order to isolate the reflected signals, and correlating the isolated reflectesd signal to moisture content of the soil. | 2017-11-30 |
20170343486 | RADIATION PHASE-CONTRAST IMAGING DEVICE - Provided is a radiation phase-contrast imaging device capable of assuredly detecting a self-image and precisely imaging the internal structure of an object. According to the configuration of the present invention, the longitudinal direction of a detection surface of a flat panel detector is inclined with respect to the extending direction of an absorber in a phase grating. This causes variations in the position (phase) of a projected stripe pattern of a self-image at different positions on the detection surface. This is therefore expected to produce the same effects as those obtainable when a plurality of self-images are obtained by performing imaging a plurality of times in such a manner that the position of the projected self-images on the detection surface varies. This alone, however, results in a single self-image phase for a specific region of the object. Therefore, according to the present invention, it is configured such that imaging is performed while changing the relative position of the imaging system and the object. | 2017-11-30 |
20170343487 | X-RAY COMPUTED TOMOGRAPHY GAUGE - A method of making a gauge for verifying or calibrating an x-ray computed tomography device positions a first plurality of objects on a first substrate, and a second plurality of objects on a second substrate. The method also certifies the positions of both the first plurality of objects on the first substrate, and the second plurality of objects on the second substrate. After certifying both the first and second plurality of objects, the method couples the first substrate with the second substrate. | 2017-11-30 |
20170343488 | THREE-DIMENSIONAL IMAGE RECONSTRUCTION USING TRANSMISSION AND SCATTER RADIOGRAPHY METHODS - A method for image reconstruction includes irradiating an object with a beam of radiation from a radiation source, measuring an attenuated portion of the beam, estimating a density of the object, determining a predicted attenuated portion of the beam using the density estimate, and iteratively adjusting the density estimate of the object. The predicted attenuated portion and the measured attenuated portion are compared to determine a signal difference. The density estimate of each portion of the object is adjusted by scaling the density estimate using the average signal differences of rays that intersect the portion of the object. The density estimate may be repeatedly adjusted until a difference between consecutive density estimates is below a selected threshold or a predetermined number of adjustments have been completed. The attenuated portion of the beam may include a scattered portion and a transmitted portion. | 2017-11-30 |
20170343489 | INTEGRATED, PORTABLE SAMPLE ANALYSIS SYSTEM AND METHOD - An integrated portable sample analysis system includes a portable case including an interior panel and a spectrometer subsystem. The spectrometer subsystem includes a flip top spectrometer sample cell including first and second members each including a window aligned with each other when the first and second members are coupled together defining a predefined spacing between the windows when the first and second members are coupled together, the first and second members decoupled for manually placing a fluid sample on a the window. An analyzer behind the interior panel receives the flip top spectrometer sample cell therein when the first and second members are coupled together for analyzing the fluid sample located between the windows by directing radiation through the windows and the fluid sample. The flip top spectrometer sample cell is configured to be withdrawn out of the analyzer for cleaning of the windows. The integrated portable sample analysis system also includes a viscometer subsystem including a flip top sample viscometer cell. The flip top sample viscometer cell includes a first plate including a rail configured to constrain a fluid sample manually presented thereto between its edges by surface tension, and a second plate including a surface spaced from the rail by a predefined gap for constraining fluid to the rail by surface tension when the rail is inclined by gravity and pulls the fluid along the rail. An analysis unit is behind the interior panel receiving the flip top viscometer sample cell therein when the first and second plates are coupled together for defining the viscosity of the sample flowing along said rail, and the flip top viscometer sample cell is configured to be withdrawn out of the analysis unit for cleaning of the rail. A processing subsystem is associated with the portable case and responsive to the spectrometer subsystem and the viscometer subsystem and configured to process outputs of the spectrometer subsystem and the viscometer subsystem and to provide a report concerning the sample, its physical properties, and its viscosity. | 2017-11-30 |
20170343490 | TWO-DIMENSIONAL X-RAY DETECTOR POSITION CALIBRATION AND CORRECTION WITH DIFFRACTION PATTERN - A method of determining the spatial orientation of a two-dimensional detector in an X-ray diffractometry system, and calibrating the detector position in response thereto, uses diffraction patterns from a powder sample collected at a plurality of detector swing angles. The overlapping of the detected patterns indicates relative errors in the detector orientation. In particular, intersection points between the different diffraction patterns may be located, and their relative locations may be used to identify errors. Such errors may be in the detector position, or they may be errors in different rotational directions, such as roll, pitch or yaw. Determination and correction of the detector orientation using this method may be part of a calibration routine for the diffractometry system. Roll error may also be determined using a single measurement with the detector at a swing angle perpendicular to the X-ray beam. | 2017-11-30 |
20170343491 | Method and Apparatus for Determining Lattice Parameters of a Strained III-V Semiconductor Layer - A multi-layer arrangement of III-V semiconductor layers includes a strained III-V semiconductor layer having a concentration of a constituent element which effects intensity of a conductive channel formed in the multi-layer arrangement. Lattice parameters of the strained III-V semiconductor layer are determined by generating a first scan in a Qx direction for a chosen reflection in reciprocal space based on diffracted X-Ray beam intensity measurements in the Qx direction. A second scan is generated in a Qz direction for the chosen reflection in the reciprocal space based on diffracted X-Ray beam intensity measurements in the Qz direction. The second scan is aligned with a diffracted X-Ray peak in the first scan which identifies the strained III-V semiconductor layer. The degree of strain of the strained III-V semiconductor layer is determined based on the first scan and the concentration of the constituent element based on the second scan. | 2017-11-30 |
20170343492 | Crystalline Phase Identification Method, Crystalline Phase Identification Device, and X-Ray Diffraction Measurement System - A crystalline phase contained in a sample is identified, from X-ray diffraction data of the sample which contain data of a plurality of ring-shaped diffraction patterns, using a database in which are registered data related to peak positions and peak intensity ratios of X-ray diffraction patterns for a plurality of crystalline phases. Peak positions and peak intensities for a plurality of the diffraction patterns are detected from the X-ray diffraction data (step | 2017-11-30 |
20170343493 | A METHOD OF GENERATING A FINGERPRINT FOR A GEMSTONE USING X-RAY IMAGING - The present invention provides a method of generating a fingerprint for a gemstone ( | 2017-11-30 |
20170343494 | Talbot Imaging Apparatus - A Talbot imaging apparatus includes a radiation source, a plurality of gratings, a capturing control unit, a radiation detector, a setting unit and an irradiation control unit. The radiation source irradiates radiation. The capturing control unit relatively shifts the plurality of gratings and performs control of capturing a plurality of Moire images of a subject to generate a reconstructed image. The radiation detector acquires a captured Moire image. The setting unit sets a capturing condition for capturing a second and further Moire images by making a capturing result of a first Moire image be a reference, or sets a capturing condition for the plurality of Moire images by making another Moire image captured before capturing the plurality of Moire images be a reference. The irradiation control unit controls irradiation of radiation from the radiation source based on the capturing condition set by the setting unit. | 2017-11-30 |
20170343495 | X-Ray Analysis of Drilling Fluid - A measurement head for making X-ray measurements on drilling fluid includes an inner pipe ( | 2017-11-30 |
20170343496 | AUTHENTICATING AN ARTICLE - A method of authenticating an article, the method comprising: reading a label associated with the article, the label comprising article fingerprint information; retrieving, in dependence on the article fingerprint information, an article fingerprint, the fingerprint describing the resonance response of the article to an excitation signal; applying an excitation signal to the article; receiving the resonance response of the article to the excitation signal; comparing the resonance response to the fingerprint; and determining in dependence on the comparison whether the article is authentic. | 2017-11-30 |
20170343497 | Estimating Downhole Fluid Volumes Using Multi-Dimensional Nuclear Magnetic Resonance Measurements - Downhole fluid volumes of a geological formation may be estimated using nuclear magnetic resonance (NMR) measurements, even in organic shale reservoirs. Multi-dimensional NMR measurements, such as two-dimensional NMR measurements and/or, in some cases, one or more well-logging measurements relating to total organic carbon may be used to estimate downhole fluid volumes of hydrocarbons such as bitumen, light hydrocarbon, kerogen, and/or water. Having identified the fluid volumes in this manner or any other suitable manner from the NMR measurements, a reservoir producibility index (RPI) may be generated. The downhole fluid volumes and/or the RPI may be output on a well log to enable an operator to make operational and strategic decisions for well production. | 2017-11-30 |
20170343498 | EMBEDDED TEMPERATURE CONTROL SYSTEM FOR A BIOSENSOR - A biosensor with a heater embedded therein is provided. A semiconductor substrate comprises a source region and a drain region. The heater is under the semiconductor substrate. A sensing well is over the semiconductor substrate, laterally between the source region and the drain region. A sensing layer lines the sensing well. A method for manufacturing the biosensor is also provided. | 2017-11-30 |
20170343499 | ENVIRONMENTAL SENSOR AND METHOD FOR MEASURING AND PREDICTING ENVIRONMENTAL PARAMETERS - An environmental sensor and an environmental parameter measurement and prediction method, the environmental sensor comprising: a sensing element configured to sense an instant sensing characteristic value, so as to apply sending; an integrated circuit used for continuously obtaining the instant sensing characteristic value and an instant clock signal and obtaining via calculation an instant environmental parameter, so as to apply storing and outputting. A physical and chemical properties function corresponding to the sensing element is provided for the integrated circuit. Under a prediction model, the integrated circuit utilizes the physical and chemical properties function to conduct prediction calculation to obtain an actual environmental parameter, so as to apply storing and sending according to a current instant environmental parameter and an instant clock signal and at least one set of pre-stored instant environmental parameter and instant clock signal. | 2017-11-30 |
20170343500 | MICRO-HOTPLATE DEVICES WITH RING STRUCTURES - We disclose a micro-hotplate comprising a substrate comprising an etched portion and a substrate portion and a dielectric region over the substrate. The dielectric region comprises first and second portions. The first portion is adjacent to the etched portion of the substrate and the second portion is adjacent to the substrate portion of the substrate. The micro-hotplate further comprises a heater formed in the dielectric region, and a ring structure formed within and/or over the dielectric region such that the ring structure is coupled with the first and second portions of the dielectric region. | 2017-11-30 |
20170343501 | BENZENE SENSORS USING METAL OXIDES AND ASSOCIATED METHODS - In an embodiment, a method for fabrication of VOC sensor comprises dissolving one or more metal precursors in a reagent to form a solution, adding a reducing agent to precipitate a metal oxide compound, subjecting the solution to acoustic energy, recovering a nanoscale metal oxide, and forming a sensing layer in a chemo-resistance sensor using the nanoscale metal oxide. | 2017-11-30 |
20170343502 | ENVIRONMENT SENSOR SYSTEM - We disclose herein an environmental sensor system comprising an environmental sensor comprising a first heater and a second heater in which the first heater is configured to consume a lower power compared to the second heater. The system also comprises a controller coupled with the environmental sensor. The controller is configured to detect if a measured value of a targeted environmental parameter is present. The controller is configured to switch on at least one of the first and second heaters based on the presence and/or result of the measured value of the targeted environmental parameter. | 2017-11-30 |
20170343503 | Sensor for Measuring the Carbon Dioxide Concentration in a Gas Mixture, and Method for Manufacture Thereof - A sensor is configured to measure the carbon dioxide concentration in a gas mixture. The sensor has a dielectric layer arranged between a layer-like first electrode and a layer-like second electrode. The second electrode is a composite electrode that has at least one carbonate and/or one phosphate as first material and at least one metal as second material. This sensor can be manufactured by a method comprising applying a layer-like first electrode to a substrate, applying a dielectric layer to the first electrode, and applying a layer-like second electrode to the dielectric layer. The second electrode is applied as a composite electrode that has at least one carbonate and/or one phosphate as first material and has at least one second material that has an electrical conductivity of more than 10-2 S/m. | 2017-11-30 |
20170343504 | GATING SYSTEM AND METHOD FOR BIOSENSOR TEST STRIPS - A system is disclosed, the system comprises a diagnostic test strip having a diagnostic end and a meter contacting end, the meter contacting end having at least one identifying feature that distinguishes the meter contacting end from the diagnostic end; a diagnostic meter configured to read information from the meter contacting end of the test strip when the meter contacting end of the test strip is fully inserted in to the meter; and a port in the meter, the port having a gating mechanism configured to identify the meter contacting end and allow the test strip to be fully inserted into the meter only after the gating mechanism identifies the meter contacting end of the test strip as a proper end for insertion. | 2017-11-30 |
20170343505 | GAS SENSOR ELEMENT - A gas sensor element includes a main body having a solid electrolyte body on which a measurement gas-side electrode and a reference gas-side electrode are provided, a trap layer covering an outer peripheral surface of the main body to trap poisoning substances contained in a measurement gas, and a waterproof protective layer covering an outer peripheral surface of the trap layer. In the protective layer, there is formed at least one measurement gas introduction port for introducing the measurement gas to the measurement gas-side electrode via the trap layer. | 2017-11-30 |
20170343506 | STRUCTURES AND MANUFACTURE METHOD OF ELECTROCHEMICAL UNITS - A structure of an electrochemical unit includes a substrate, a first metal layer disposed on the substrate, and an array of electrochemical cells disposed on the first metal layer. The array of the electrochemical cells includes a plurality of electrochemical cells. Each of the electrochemical cells includes the first metal layer disposed on the substrate, a first electrode disposed on the first metal layer, a polymer layer disposed on the substrate and adjacent to the first metal layer and the first electrode. A second metal layer is disposed on the polymer layer, and a second electrode is disposed on the second metal layer. A pore is constituted between the polymer layers of every the two electrochemical cells. A cavity located above the first electrode is defined between every the two electrochemical cells, wherein the cavity is communicated with the pore. | 2017-11-30 |
20170343507 | GAS SENSOR DEVICE INCLUDING GAS SENSORS AND SWITCHES, GAS SENSOR MODULE, AND GAS DETECTION METHOD - A gas sensor device includes gas sensors and switches. The switches are connected to the respective gas sensors in series. The gas sensors each include: a first conductive layer; a second conductive layer; a metal oxide layer disposed between the first conductive layer and the second conductive layer; and an insulation layer covering the first conductive layer, the second conductive layer, and the metal oxide layer and having an opening from which a portion of the second conductive layer is exposed. The resistance of the gas sensor is decreased when a gas containing a hydrogen atom comes into contact with the second conductive layer. | 2017-11-30 |
20170343508 | ORGANIC THIN FILM TRANSISTORS AND THE USE THEREOF IN SENSING APPLICATIONS - The present invention relates to organic thin film transistors and the preparation and use thereof in sensing applications, and in particular in glucose sensing applications. | 2017-11-30 |
20170343509 | NANOCHANNEL ARRAYS AND THEIR PREPARATION AND USE FOR HIGH THROUGHPUT MACROMOLECULAR ANALYSIS - Nanochannel arrays that enable high-throughput macromolecular analysis are disclosed. Also disclosed are methods of preparing nanochannel arrays and nanofluidic chips. Methods of analyzing macromolecules, such as entire strands of genomic DNA, are also disclosed, as well as systems for carrying out these methods. | 2017-11-30 |
20170343510 | FIELD ASYMMETRIC ION MOBILITY SPECTROMETER AND METHOD FOR SEPARATING MIXTURE USING THE SAME - The present invention provides a field asymmetric ion mobility spectrometer for selectively separating at least one kind of material from a mixture containing two or more kinds of materials. A filter included in the spectrometry comprises first—four plate-like electrodes each having a principal plane parallel to a direction from an ionizer toward a filter. The second plate-like electrode is located between the first plate-like electrode and the third plate-like electrode. The third plate-like electrode is located between the second plate-like electrode and the fourth plate-like electrode. The third and fourth plate-like electrodes are electrically connected to the first and second plate-like electrodes, respectively. An interspace is formed between two adjacent plate-like electrodes. The present invention provides a field asymmetric ion mobility spectrometer having high separation ability. | 2017-11-30 |
20170343511 | PARTICULATE SENSOR - A particulate sensor can reduce the amount of floating ions discharged from the interior of a gas introduction pipe to the outside through a gas discharge opening, without providing an auxiliary electrode member which applies to the floating ions a repulsive force toward the gas introduction pipe to thereby assist the collection of the floating ions by the gas introduction pipe. The particulate sensor has an collection member which is connected to a gas introduction pipe to thereby be maintained at a collection potential and is disposed in the interior of the gas introduction pipe to be located between a forward end of the discharge electrode member and a gas discharge opening such that the forward end of the discharge electrode member cannot be visually recognized from the outside of the gas introduction pipe through the gas discharge opening. | 2017-11-30 |
20170343512 | A METHOD AND A DETECTION DEVICE FOR EVALUATING THE DISTRIBUTION, DENSITY AND ORIENTATION OF FERROMAGNETIC, ELECTRICALLY CONDUCTIVE FIBRES IN A COMPOSITE MATERIAL - A method and a device for evaluating the distribution and orientation of ferromagnetic, electrically conductive fibres in a composite material are disclosed. The principle consists in repeatable evaluation of the density of ferromagnetic, electrically conductive fibres at the measured location, and such evaluation is performed within a guaranteed scatter range of the measured data and at a guaranteed accuracy rate. A device to perform the method comprises a C, U or E-shaped ferromagnetic core ( | 2017-11-30 |
20170343513 | ACOUSTIC MONITORING DEVICE FOR FUEL QUALITY - Within the scope of the invention, a device for monitoring the quality of a fuel stored in a fuel tank has been developed. The main field of application is diesel-operated vehicles. The fuel is therefore preferably diesel fuel. The device is defined by the fact that means for determining the boiling point of the fuel are provided. Furthermore, a method for monitoring the quality of a fuel stored in a fuel tank has also been developed within the scope of the invention. The main field of application is diesel-operated vehicles. The fuel is therefore preferably diesel fuel. The method is defined by the fact that the boiling point of the fuel or a deviation of this boiling point from a normal value is measured. During the analysis of real injection pumps which have failed it has been detected that an excessively low boiling point of the fuel can cause the fuel to outgas. As a result, bubbles in which the necessary lubrication is no longer provided locally form in the injection pump. Furthermore, the lubricating effect is dependent on the fuel having a certain minimum viscosity. A low boiling point is also correlated with a low viscosity. Therefore, overall, the boiling point (initial boiling point, IBP) is a particularly good indicator especially of those deviations from standard values for the fuel which entail particularly costly damage. | 2017-11-30 |
20170343514 | PIPING INSPECTION SYSTEM, PIPING INSPECTION DEVICE, PIPING INSPECTION METHOD, AND RECORDING MEDIUM - Degradation of a pipe can be easily detected. A piping inspection system | 2017-11-30 |
20170343515 | APPARATUS AND METHOD FOR OBTAINING OBJECT INFORMATION AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An object information obtaining apparatus includes a signal processing unit configured to obtain weighted optical characteristic information about an object on the basis of feature information about the object obtained by elastography measurement or B-mode image measurement using an elastic wave signal acquired by transmission and reception of elastic waves to and from the object. | 2017-11-30 |
20170343516 | METHOD FOR EVALUATING STATE OF MEMBER - Provided is a member state evaluation method that makes more highly accurate instantaneous understanding of various states of a member to be tested possible without reliance on the shape of the member, the testing environment, or the skill level of the tester. The member state evaluation method is provided with: a state evaluation database construction step for constructing a state evaluation database by determining a plurality of vibration points and measurement points for each analysis model, carrying out vibration at the vibration points, measuring the acoustic signal generated by the vibration at the measurement points, carrying out frequency analysis, and thereby obtaining, as state evaluation data, frequency distribution data acquired for each vibration point and each measurement point that includes the natural frequencies for each of a plurality of modes; an actual measurement state evaluation data acquisition step for acquiring, as actual measurement state evaluation data, frequency distribution data for the member to be tested that includes the natural frequencies of each of the plurality of modes; and a state evaluation step for evaluating the member to be tested by comparing the acquired actual measurement state evaluation data and all the state evaluation data of the state evaluation database. | 2017-11-30 |
20170343517 | MICRO-DEVICE FOR DETECTING VOLATILE ORGANIC COMPOUNDS, AND METHOD FOR DETECTING AT LEAST ONE VOLATILE ORGANIC COMPOUND CONTAINED IN A GAS SAMPLE - This invention relates to a micro-device for detecting volatile compounds comprising:
| 2017-11-30 |
20170343518 | SAMPLE INJECTION WITH FLUIDIC CONNECTION BETWEEN FLUID DRIVE UNIT AND SAMPLE ACCOMMODATION VOLUME - An injector, for injecting a fluidic sample into a flow path between a fluid drive and a sample separation unit, includes a sample accommodation volume, a sample drive, and a fluidic valve switchable to selectively couple the volume with the flow path or decouple the volume from the flow path. In an injection switching state, the fluid drive, the separation unit and the sample drive are coupled by the valve so that fluid driven by the sample drive and flowing from the volume to the separation unit and further fluid driven by the fluid drive and flowing from the fluid drive to the separation unit are combined at a fluidic connection upstream of the separation unit. A control unit controls a pressure of the fluid and/or the further fluid during injecting. | 2017-11-30 |
20170343519 | LIQUID CHROMATOGRAPH - A liquid chromatograph includes: a concentration column for capturing a target component; an analysis column for separating the target component from other components; first passage-switching units for switching between the state of forming a passage through which a sample-introduction mobile phase containing the liquid sample is fed to the concentration column, and the state of forming a passage through which an eluant for eluting the target component captured in the concentration column is fed to the concentration column; a storage unit for storing the eluant; and a second passage-switching unit for switching between the state of forming a passage through which an analysis mobile phase is fed to the analysis column and a passage through which the eluant from the concentration column is fed to the storage unit, and the state of forming a passage through which analysis mobile phase is fed to the analysis column via the storage unit. | 2017-11-30 |
20170343520 | BRANCHING OFF FLUIDIC SAMPLE WITH LOW INFLUENCE ON SOURCE FLOW PATH - A sample management device which comprises a source flow path in which a fluidic sample can flow, a volume flow adjustment unit configured to adjust a volume flow of the fluidic sample to be branched off from the source flow path at a fluidic coupling point, and a fluidic valve fluidically coupled with the source flow path and with the volume flow adjustment unit, wherein the fluidic valve is switchable into a branch off state in which the fluidic coupling point is established within the source flow path to branch off an adjustable volume of the fluidic sample from the source flow path via the fluidic coupling point while a flow of the fluidic sample in the source flow path continues. | 2017-11-30 |
20170343521 | APPARATUS AND METHOD FOR GENERATING OLFACTORY INFORMATION - An apparatus and method for generating olfactory information. The apparatus for generating olfactory information generates olfactory information that can be shared between a real world and at least one virtual world. The apparatus for generating olfactory information includes a sensor and a processor. The sensor recognizes a real-world odor, and acquires the original data of the result of the detection of the real-world odor. The processor acquires representative data including the evaluation of the quantitative numerical value of the real-world odor by analyzing the original data, and generates real-world olfactory information including both the original data and the representative data. | 2017-11-30 |
20170343522 | GAS DETECTION DEVICE - A gas detection device includes a substrate having a main surface and a movable film structure located on, and including a portion thereof spaced from, the main surface of the substrate. The portion of the movable film structure located over and spaced from the substrate includes a first film formed of an insulating material, a patterned second film which deforms as a result of absorbing or adsorbing a predetermined gas, and a patterned third film comprising a resistive heater, at least a portion of the movable film structure spaced from the substrate being movable with respect to the substrate. From the perspective of a direction perpendicular to the main surface of the substrate, at least a portion of a pattern of the second film overlaps at least a portion of a pattern of the third film. | 2017-11-30 |