Patents Examined by John M Royston
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Patent number: 11719540Abstract: A microelectromechanical system (MEMS) gyroscope sensor has a sensing mass and a quadrature error compensation control loop for applying a force to the sensing mass to cancel quadrature error. To detect fault, the quadrature error compensation control loop is opened and an additional force is applied to produce a physical displacement of the sensing mass. A quadrature error resulting from the physical displacement of the sensing mass in response to the applied additional force is sensed. The sensed quadrature error is compared to an expected value corresponding to the applied additional force and a fault alert is generated if the comparison is not satisfied.Type: GrantFiled: January 10, 2022Date of Patent: August 8, 2023Assignee: STMicroelectronics, Inc.Inventors: Yamu Hu, Deyou Fang, David McClure, Huantong Zhang, Naren K. Sahoo
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Patent number: 11703330Abstract: A dual-shell architecture and methods of fabrication of fused quartz resonators is disclosed. The architecture may include two encapsulated and concentric cavities using plasma-activated wafer bonding followed by the high-temperature glassblowing. The dual-shell architecture can provide a protective shield as well as a “fixed-fixed” anchor for the sensing element of the resonators. Structures can be instrumented to operate as a resonator, a gyroscope, or other vibratory sensor and for precision operation in a harsh environment. Methods for fabricating a dual-shell resonator structure can include pre-etching cavities on a cap wafer, pre-etching cavities on a device wafer, bonding the device wafer to a substrate wafer to form a substrate pair and aligning and bonding the cap wafer to the substrate pair to form a wafer stack with aligned cavities including a cap cavity and a device cavity. The wafer stack may be glassblown to form a dual-shell structure.Type: GrantFiled: March 31, 2020Date of Patent: July 18, 2023Assignee: The Regents of the University of CaliforniaInventors: Andrei M. Shkel, Mohammad H. Asadian Ardakani, Yusheng Wang
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Patent number: 11703487Abstract: A gas chromatography guard column assembly is disclosed including a guard column having an inlet and an outlet. The guard column is disposed in a coil having a column coil aspect ratio of less than 15. A gas chromatography system is disclosed including an oven cavity, a heater assembly, an inlet, a guard column, an analytical column, and a detector. The guard column is in fluid communication with the inlet and is disposed in a guard column coil. The analytical column is in fluid communication with the guard column and is disposed in an analytical column coil. The detector is in fluid communication with the analytical column. The analytical column coil has an analytical column coil central axis aligned with a central axis of the heater assembly, and the guard column coil has a guard column coil central axis remote from the central axis of the heater assembly.Type: GrantFiled: July 24, 2020Date of Patent: July 18, 2023Assignee: RESTEK CORPORATIONInventors: Michael A. Goss, Thomas E. Kane
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Patent number: 11702730Abstract: A strain gauge includes a flexible substrate and a functional layer formed of a metal, an alloy, or a metal compound, the functional layer being directly on one surface of the substrate. The strain gauge includes a resistor formed of a film that includes Cr, CrN, and Cr2N and that is formed with ?-Cr as a main component. The functional layer includes a function of promoting crystal growth of ?-Cr and forming an ?-Cr based film.Type: GrantFiled: September 6, 2022Date of Patent: July 18, 2023Assignee: MINEBEA MITSUMI Inc.Inventors: Toshiaki Asakawa, Yuta Aizawa, Shinya Toda, Shintaro Takata, Shinichi Niwa
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Patent number: 11686605Abstract: A tank fill control apparatus comprising: a tank-installed switch, including: a tubular body including an upper end, a lower end, and an annular mounting flange on an outer surface between the upper end and the lower end; a liquid level sensor including a detector, a float in and moveable along a length of the lower end and a rod connecting the float to the detector, the liquid level sensor configured to sense a liquid level relative to the lower end and further configured to generate a signal when at least a maximum selected liquid level is sensed; and a control unit in communication with the tank-installed switch including: a liquid level monitoring function for receiving the signal from the liquid level sensor; and a control function for generating at least one of (i) an alert signal indicating that the maximum selected liquid level is sensed and (ii) a valve control to modify a fill operation from a tank fill system.Type: GrantFiled: March 4, 2021Date of Patent: June 27, 2023Assignee: Tara Oilfield Services LTDInventor: Martin Sheridan
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Patent number: 11686660Abstract: A particle concentration analyzing system for testing particle concentrations in a fluid sample, such as engine emission particle concentration present in the exhaust of an engine. The particle concentration analyzing system includes a condensation particle counter having a saturation chamber, a condenser, and a laser optic particle counter. The analyzing system further includes a working fluid tank, a working fluid pump, and a sampling probe. The system provides a robust analysis system for a user to test vehicle emissions without being highly trained on the device, as the device is protected from misuse. A position sensitive sensor is used to ensure that the system is not damaged if the system is tipped over or placed in a position that would produce false results. Additional features include differential pressure sensors, a sealed and replaceable tamper resistant working fluid tank, a solvent recovery system, an anti-cheat device, and fluid purity sensors.Type: GrantFiled: June 6, 2019Date of Patent: June 27, 2023Assignee: SENSORS, INC.Inventors: David R. Booker, Douglas D. Booker, Simon P. Booker
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Patent number: 11686636Abstract: A method of checking belt tension of a belt extending between pulleys includes providing a reference indicator defining a reference position relative to the upper surface of the belt in an undeflected state. A force/probe assembly is provided and is operable to measure a force applied to the distal end. The distal end is positioned on the upper surface of the belt and a force is applied generally perpendicular thereto. The belt may be deflected a predetermined distance, as determined by a change in position of the assembly relative to the reference indicator, and the force is measured, or a force is applied until the force is equal to a predetermined force, and the deflection of the belt is determined by a change in position of the force/probe assembly. The belt tension is determined based on the force and distance during the deflecting step.Type: GrantFiled: February 24, 2021Date of Patent: June 27, 2023Assignee: RELIABILITY CONCEPTS LLCInventor: Michael A. Olszewski
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Patent number: 11629982Abstract: The present disclosure relates to a magnetic-inductive flowmeter for measuring flow velocity of a medium, comprising a measuring tube; an apparatus positioned toward a cross-section of the measuring tube for producing a magnetic field extending perpendicular to a longitudinal direction, wherein the apparatus includes a segment coupling the magnetic field into the medium, wherein the segment surrounds the measuring tube over a first angle; and an electrode system having at least two electrode pairs adapted to register a voltage induced in the medium, wherein a second angle defines a minimum circular sector in which the electrodes located on one side of the measuring tube are distributed, wherein first and second angles are so matched to one another that the flowmeter is insensitive to departures from a rotationally symmetric flow such that the flowmeter in a test measurement has a measurement error of flow velocity less than 1.0%.Type: GrantFiled: March 7, 2019Date of Patent: April 18, 2023Assignee: Endress+Hauser Flowtec AGInventor: Simon Mariager
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Patent number: 11630038Abstract: A method and system are described for processing tissues according to particular processing protocols that are established based on time-of-flight measurements as a processing fluid is diffused into a tissue sample. In one embodiment, measurement of the time it takes about 70% ethanol to diffuse into a tissue sample is used to predict the time it will take to diffuse other processing fluids into the same or similar tissue samples. Advantageously, the disclosed method and system can reduce overall processing times and help ensure that only samples that require similar processing conditions are batched together.Type: GrantFiled: June 13, 2019Date of Patent: April 18, 2023Assignee: Ventana Medical Systems, Inc.Inventors: Daniel Bauer, Michael Otter
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Patent number: 11598625Abstract: An apparatus for deformation measurement and a method for deformation measurement are provided. The apparatus includes a housing, a sample holder, a moving mechanism, a first heating device and a second heating device. The sample holder is in the housing. The moving mechanism is over the sample holder. The first heating device is on the moving mechanism. The second heating device is below the sample holder.Type: GrantFiled: August 31, 2020Date of Patent: March 7, 2023Assignee: ADVANCED SEMICONDUCTOR ENGINEERING, INC.Inventors: Hsuan-Yu Chen, Ming-Han Wang
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Patent number: 11585334Abstract: A vapor recovery system comprises a vapor recovery unit, environmental tank, control system, vent line, environmental tank line, main vapor recovery unit inlet line, and a discharge line. The vapor recovery unit comprises a vapor recovery vessel and a vapor recovery compressor comprising a motor. The main vapor recovery unit inlet line is fluidly connected to the vapor recovery vessel. The vent line comprises a valve adapted to regulate packing case vapor flow through the vent line to the main vapor recovery unit inlet line. The environmental tank line is fluidly connected to the main vapor recovery unit inlet line. The control system is adapted to monitor a vapor recovery vessel input pressure and control the vapor recovery compressor. The control system is further adapted to control a vapor recovery vessel output to the discharge line.Type: GrantFiled: October 20, 2020Date of Patent: February 21, 2023Inventor: Randy Swan
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Patent number: 11573197Abstract: A gas sensor includes a sensor element, a tubular body made of metal, and a sealing material. The sensor element has a surface. The tubular body has a through hole which is formed along the axial direction and through which the sensor element is inserted. The sealing material is placed inside the through hole and between the inner peripheral surface of the through hole and the sensor element. The sealing material covers a part of the surface of the sensor element. When the sensor element is viewed in cross section from a second direction perpendicular to a first direction corresponding to the longitudinal direction of the sensor element, the sealing material forms a first inclination angle of not less than 10° and not more than 80° with respect to the surface.Type: GrantFiled: February 10, 2021Date of Patent: February 7, 2023Assignee: NGK INSULATORS, LTD.Inventors: Shotaro Niizuma, Yusuke Watanabe, Toshihiro Hirakawa, Hayami Aota
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Patent number: 11567024Abstract: This disclosure relates generally to detection of concentration of micro and nano particles in a fluid environment. An acoustic transmitter array is selective coated with polymer and receiver array is deployed at a random location in a conduit. The acoustic transmitter array on the conduit is insonified at a predetermined frequency to obtain a plurality of reflected signals. A plurality of key features pertinent to the conduit are extracted from the plurality of reflected signals to obtain a plurality of acoustic signals. A correlation model is configured by inputting, at least one feature associated with the pre-processed acoustic signals. A known concentrations of nano and micro particles are trained with an artificial neural network algorithm and calibrated with ground truth data. The location of the transmitter array and receiver array and the correlation model are finalized for detecting concentration of the particular micro and nano particles in the fluid environment.Type: GrantFiled: December 13, 2019Date of Patent: January 31, 2023Assignee: TATA CONSULTANCY SERVICES LIMITEDInventors: Parijat Dilip Deshpande, Jayita Dutta, Beena Rai
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Patent number: 11567037Abstract: Sensors, methods, and computer program products for air bubble detection and fluid composition determinations are provided. An example sensor device for use with fluid flow systems includes a force pulse generator coupled with a fluid flow system that emits a force pulse and a force pulse sensor coupled with the fluid flow system. The force pulse sensor receives the force pulse emitted by the force pulse generator and determines the fluid flow system's transient response to the force pulse. Based upon the transient response, the force pulse sensor determines an operating condition of the fluid flow system. The operating condition may be indicative of the presence of an air bubble within the fluid flow system or may be indicative of a composition of a fluid within the fluid flow system. The force pulse sensor may further determine the amplitude and rate of decay of the transient response.Type: GrantFiled: December 14, 2020Date of Patent: January 31, 2023Assignee: HONEYWELL INTERNATIONAL INC.Inventors: Kuna Venkat Satya Rama Kishore, Kaligaselvi Lenin, Kumaran S. Narasimhan
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Patent number: 11567038Abstract: Described are an apparatus, computer program product, and associated methods for shaped waveform acoustic interrogation of substances and materials to determine one or more properties of the materials or substances. In some embodiments, a shaped waveform is formed by summing two or more different waveforms and an acoustic wave is generated according to the shaped waveform. The acoustic wave is transmitted by one or more transmitting transducers through the substance or material and received by one or more receiving transducers. The shaped waveform acoustic wave can have a duration or a period that is less than about 20 ?s and can comprise predetermined frequency content. Characteristics of the shaped waveform acoustic wave, as received at the receiving transducer(s), including characteristics such as amplitude, frequency, time of flight, etc., can be associated with said one or more properties of the substance or material to provide for real-time monitoring of these properties.Type: GrantFiled: September 28, 2020Date of Patent: January 31, 2023Assignee: TRIAD NATIONAL SECURITY, LLCInventors: Dipen N. Sinha, Cristian Pantea
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Patent number: 11561208Abstract: A thermoresistive gas sensor includes two identical, flat meshes that consist of a semiconductor material with a predetermined type of conductivity and that are interconnected in sections of an electric measuring bridge that are diametrically opposite one another, wherein each mesh of the two identical, flat meshes has mesh webs that extend parallel, adjacent to one another and that are connected electrically in parallel at the ends, where the mesh webs of the two meshes extend alternately adjacent to one another in a shared mesh plane horizontally across a window opening in a carrier plate.Type: GrantFiled: December 13, 2019Date of Patent: January 24, 2023Assignee: Siemens AktiengesellschaftInventors: Stefan Klehr, Günter Marcaux
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Patent number: 11554049Abstract: In some examples, a distributed acoustic detector system may include a frame structure and multiple acoustic detectors. The frame structure may be configured to be retained in a laser-based ophthalmo-logical surgical system aligned to an eye of a patient during therapeutic treatment of the eye of the patient with the laser-based ophthalmological surgical system. The acoustic detectors may be coupled to the frame structure and may be spaced apart from each other and electrically separated from each other.Type: GrantFiled: October 25, 2017Date of Patent: January 17, 2023Assignee: LUTRONIC VISION INC.Inventors: Dayan Ban, Mordehai Margalit, Taeho Ha
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Patent number: 11555755Abstract: There is provided a method of calibrating multiple chamber pressure sensors of a substrate processing system. The substrate processing system includes: multiple chambers; multiple chamber pressure sensors; multiple gas suppliers configured to supply a gas to an internal space of the multiple chambers; multiple exhausters connected to the internal spaces of the multiple chambers via multiple exhaust flow paths; and multiple first gas flow paths. The method includes: acquiring a third volume, which is a sum of a first volume and a second volume; acquiring a first pressure change rate of the internal space of a selected chamber; calculating a second pressure change rate of the internal space of the selected chamber; and calibrating the selected chamber pressure sensor such that a difference between the first pressure change rate and the second pressure change rate is within a preset range.Type: GrantFiled: March 9, 2021Date of Patent: January 17, 2023Assignee: TOKYO ELECTRON LIMITEDInventors: Risako Matsuda, Keita Shouji
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Patent number: 11548031Abstract: An array-type ultrasonic sensor includes a semiconductor substrate, a first sensing array, and a second sensing array. The first sensing array includes a plurality of first ultrasonic sensing units. Each of the first ultrasonic sensing units includes a first positive electrode and a first negative electrode. The first positive electrodes are connected in series with each other, and the first negative electrodes are connected in series with each other. The second sensing array includes a plurality of second ultrasonic sensing units. Each of the second ultrasonic sensing units includes a second positive electrode and a second negative electrode. The second positive electrodes are connected in series with each other, and the second negative electrodes are connected in series with each other. One of the first sensing array and the second sensing array is configured to transmit ultrasonic waves, and the other is configured to receive reflected ultrasonic waves.Type: GrantFiled: May 28, 2021Date of Patent: January 10, 2023Assignee: SONICMEMS (ZHENGZHOU) TECHNOLOGY CO., LTD.Inventors: Yi-Hsiang Chiu, Hung-Ping Lee
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Patent number: 11543335Abstract: A tensile test fixture for quick testing of materials with low transverse strength and relatively high longitudinal strength. After the tensile test fixture is loaded into a universal testing machine, such as a two-part load frame, a first test specimen is aligned and tensile tested. Alignment of the first test specimen ensures that all consecutive test specimens are aligned within the tensile test fixture without further alignment required.Type: GrantFiled: December 15, 2020Date of Patent: January 3, 2023Assignee: THE FLORIDA STATE UNIVERSITY RESEARCH FOUNDATION INCInventor: Raphael Kampmann