Patents Examined by Rose M. Miller
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Patent number: 11181441Abstract: A sensor system that detects a vibration of a rotating part with a high accuracy even in a case in which a sensor is additionally attached is provided. The invention is directed to a sensor system includes a board that is installed in a rotating part of a cut processing machine; a plurality of acceleration sensors mounted on the board, and a signal processing unit (arithmetic operation). The signal processing unit detects a translational acceleration accompanying moving of the rotating part and a centrifugal acceleration accompanying rotation of the rotating part on the basis of acceleration data detected by each of the acceleration sensors.Type: GrantFiled: November 16, 2018Date of Patent: November 23, 2021Assignee: Hitachi, Ltd.Inventors: Keiji Watanabe, Hiroaki Hasegawa, Hisanori Matsumoto, Daisuke Ryuzaki
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Patent number: 11169047Abstract: A method of determining a noise or vibration response of a vehicle subassembly may include transmitting, via a controller, an input torque control signal to a first motor of a test apparatus. The first motor is mountable on a test fixture of the test apparatus and is configured to be coupled to the vehicle subassembly. The input torque control signal causes the first motor to provide an input torque characterized as a third derivative Gaussian function. The method further includes receiving a response of the vehicle subassembly to the input torque, and executing a control action with respect to the vehicle subassembly, via the controller, based on the response.Type: GrantFiled: January 28, 2020Date of Patent: November 9, 2021Assignee: GM Global Technology Operations LLCInventors: Nicholas L. Ladocsi, Jonathan M. Pisaro
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Patent number: 11163046Abstract: Methods and apparatus for reducing a transient glitch in ultrasound applications are disclosed. An example apparatus includes a transducer to (A) output a signal during a transmit phase and (B) receive a reflected signal corresponding to the signal during a receive phase; a receiver switch coupled to the transducer at a first node, the receiver switch to (A) open during the transmit phase and (B) close during the receive phase; and a clamp coupled to the transducer at the first node, the clamp to provide a high impedance during the transmit phase and the receive phase and provide a low impedance during a transient phase.Type: GrantFiled: April 27, 2020Date of Patent: November 2, 2021Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Ravikumar Pattipaka, Raja Sekhar Kanakamedala, Aravind Miriyala, Vajeed Nimran P A, Sandeep Kesrimal Oswal
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Patent number: 11156531Abstract: A sensor package for sensing vibration is described. The sensor package includes a carrier and a piezoelectric module coupled to the carrier. A wireless vibration sensor is further coupled to the carrier at a distance from the piezoelectric module. The sensor package further includes one or more conductive paths coupling the piezoelectric module to the wireless vibration sensor. The sensor package may be disposed on a bearing housing of a rail vehicle. The sensor package may also be utilized in marine, land and aviation applications.Type: GrantFiled: August 6, 2018Date of Patent: October 26, 2021Assignee: HARSCO TECHNOLOGIES LLCInventors: Syed Reza Sami, Michael Petersen
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Patent number: 11156588Abstract: A container for nuclear and/or hazardous material including a container body and lid made of metal in which the body and lid are welded together to form a sealed container. Scannable elements are spatially distributed on the lid and adapted to be scanned with an ultrasonic scanner. One or more of the scannable elements is an inclined surface element, each inclined surface element being inclined relative to the axis of the lid. Upon scanning the scannable elements, the ultrasonic scanner produces a first scan signal. The first scan signal is based upon which of the scannable elements are inclined surface elements, and includes an identification code. A second scan signal is obtained by scanning a signature surface element in a weld zone between the body and lid. The lid may be identified/authenticated using a third signal derived from the intersection of the first and second scan signals.Type: GrantFiled: April 18, 2017Date of Patent: October 26, 2021Assignee: The European Atomic Energy Community (EURATOM), Represented by The European CommissionInventor: François Littmann
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Patent number: 11150160Abstract: A vibration test apparatus for vibrating a payload. The vibration test apparatus includes an inductive position sensor assembly which has a first member attached to a displaceable armature and a second member attached to a shaker frame. The inductive position sensor assembly is configured to generate at least one control signal indicative of an axial position of the armature based on a displacement dependent electromagnetic coupling between the first member and the second member.Type: GrantFiled: January 23, 2017Date of Patent: October 19, 2021Assignee: BRUEL & KJAER VTS LIMITEDInventors: Tim Bidwell, Nicholas John Claydon
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Patent number: 11143629Abstract: Apparatuses, systems, and methods are presented for calibrating an inspection system, particularly a Laser Bond Inspection (LBI) system that identifies a strength of a test structure. The disclosed calibration system comprises a calibration panel, a surface motion sensor, and a processing circuit. The surface motion sensor senses a compression wave generated in the calibration panel responsive to a laser pulse applied by a LBI head to the calibration panel. The processing circuit outputs a calibration result for the laser inspection system responsive to one or more characteristics of the sensed compression wave. The calibration system provides significantly faster calibration results, and thus may be implemented more frequently to improve the accuracy and repeatability of the inspection system.Type: GrantFiled: January 11, 2019Date of Patent: October 12, 2021Assignee: THE BOEING COMPANYInventors: Alan F. Stewart, Marc Joel Piehl
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Patent number: 11137333Abstract: A soot sensor system and a method of sensing soot in a vehicle soot sensor system. The soot sensor system and method includes providing a soot sensor having at least one trace of conductive material in a continuous loop on a surface of a substrate, applying an alternating current (AC) input voltage to the at least one trace of conductive material to establish an AC sense current through the at least one trace of conductive material, and generating, using a peak detector, a peak detector output voltage representative of a peak value of the AC sense current and of an amount of soot accumulated on the soot sensor.Type: GrantFiled: August 6, 2019Date of Patent: October 5, 2021Assignee: STANDARD MOTOR PRODUCTS, INC.Inventors: Kayvan Hedayat, John Hart, Eric Matson, Mark Wilson, Norman Poirier
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Patent number: 11131603Abstract: A mechanically functional component having at least one sensor arranged to convert one or more physical magnitudes to electrical sensor signals. The sensor includes an electroactive composite deposited directly onto the mechanically functional component and at least one conductive electrode deposited directly on a part of the electroactive composite.Type: GrantFiled: June 27, 2018Date of Patent: September 28, 2021Assignee: Aktiebolaget SKFInventor: Yoann Hebrard
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Patent number: 11105712Abstract: A method for fault diagnosis of a bearing includes detecting, using an oil debris monitor (ODM) sensor, ODM data corresponding to an amount of debris flowing downstream from the bearing. The method also includes detecting, using a vibration sensor, vibration data corresponding to vibration of the bearing during use. The method also includes determining, by a controller, a vibration stage flag corresponding to a severity of damage of the bearing based on the vibration data. The method also includes determining, by the controller, a severity level of the damage of the bearing based on a combination of the vibration stage flag and the ODM data. The method also includes outputting, by an output device, the severity level.Type: GrantFiled: April 6, 2018Date of Patent: August 31, 2021Assignee: Raytheon Technologies CorporationInventors: Yan Chen, Danbing Seto, Sheridon Everette Haye, Allan J. Volponi, Zaffir A. Chaudhry, Gregory S. Hagen, Lichu Zhao, Robert H. Luppold
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Patent number: 11092526Abstract: An object of the present invention is to provide a durometer enabling a contact portion in contact with an object to perform smooth piston motion. The durometer includes a main body unit including a movable unit pressed continuously against an object to be measured, a first sensor outputting acceleration information corresponding to an acceleration of movement of a contact part of the object to be measured in contact with the movable unit in a pressing direction, a second sensor outputting reactive force information corresponding to a reactive force at the contact part of the object to be measured in contact with the movable unit, a motor, a crank mechanism driven by the motor and causing the main body unit and the movable unit to perform piston motion, and at least one buffering member disposed on a periphery of the main body unit.Type: GrantFiled: March 2, 2020Date of Patent: August 17, 2021Assignee: MAXELL, LTD.Inventors: Akihiko Kandori, Yuko Sano, Yuhua Zhang, Shigemitsu Ando, Mitsunobu Watanabe, MItsuo Okimoto
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Patent number: 11085815Abstract: An apparatus externally detects the presence of a fault or malfunction in a gas turbine using the sound of air passing through vanes. The apparatus includes a sound sensor configured to sense a sound; a signal converter configured to convert the sensed sound into a digital signal; a data processor configured to perform a sound quality evaluation by analyzing a sound quality of the digital signal; and a display configured to display a result of the sound quality evaluation. The gas turbine includes a compressor housed in a compressor casing in which an inlet guide vane (IGV) assembly and a variable guide vane (VGV) assembly are installed. The sound sensor includes a plurality of microphones are installed outside the compressor casing at positions adjacent to at least one of a vane of the IGV assembly and a vane of the VGV assembly.Type: GrantFiled: January 7, 2019Date of Patent: August 10, 2021Inventor: Sangjo Kim
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Patent number: 11065399Abstract: A nebulizer has an aperture plate, a mounting, an actuator, and an aperture plate drive circuit (2-4). A controller measures an electrical drive parameter at each of a plurality of measuring points, each measuring point having a drive frequency; and based on the values of the parameter at the measuring points makes a determination of optimum drive frequency and also an end-of-dose prediction. The controller performs a short scan at regular sub-second intervals at which drive current is measured at two measuring points with different drive frequencies. According to drive parameter measurements at these points the controller determines if a full scan sweeping across a larger number of measuring points should be performed. The full scan provides the optimum drive frequency for the device and also an end of dose indication.Type: GrantFiled: September 16, 2019Date of Patent: July 20, 2021Assignee: STAMFORD DEVICES LIMITEDInventors: Joseph Grehan, Niall Smith
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Patent number: 11067543Abstract: A method for determining a parameter of a material of interest which includes: directing, using a radio frequency (RF) source, RF energy into a region of interest, the region of interest comprising the material, a known reference and a boundary between the material and the known reference; detecting, using an acoustic receiver, at least one thermoacoustic multi-polar signal generated in response to the RF energy; and determining, by the one or more processors, a parameter of the material as a function of the at least one thermoacoustic multi-polar signal and a transmitted power correction factor, wherein the transmitted power correction factor is based on an estimated thickness of the known reference and an attenuation coefficient of the known reference.Type: GrantFiled: October 3, 2019Date of Patent: July 20, 2021Assignee: ENDRA Life Sciences Inc.Inventor: Jang Hwan Cho
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Patent number: 11054339Abstract: A machine bearing disposed on a rotatable member, such as may be present on a vehicle, is described. A method for monitoring a state of health of the machine bearing includes monitoring, via a microphone, an acoustic signal, and coincidently determining a rotational speed of the rotatable member associated with the machine bearing. The sound spectrum is correlated to the rotational speed of the rotating member, and a time-frequency analysis is executed to determine a sound spectrum. The sound spectrum is transformed to a residual spectrum. A first feature associated with a first frequency band and a second feature associated with a second frequency band are extracted from the residual spectrum. The state of health associated with the machine bearing is detected based upon the first and second features, and is communicated to a second controller.Type: GrantFiled: November 13, 2018Date of Patent: July 6, 2021Assignee: GM Global Technology Operations LLCInventors: Jianshe Feng, Xinyu Du, Mutasim Salman, Kevin A. Cansiani
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Patent number: 11041829Abstract: A method for measuring fracture characteristics of adhesive polymeric material comprises: (i) bonding a sample to a rigid substrate; (ii) cooling the sample from a first temperature to a second temperature such that thermally-induced stresses are generated within the sample, wherein the thermally-induced stresses generate an inward-growing three-dimensional spiral crack within the sample; (iii) detecting, by three or more AE piezoelectric sensors, mechanical transient waves generated during development of the inward-growing three-dimensional spiral crack within the sample and determining the accurate 3D geometry of the spiral using source location technique; (iv) visualizing the two-dimensional spiral cracking pattern deposited on a surface of the rigid substrate and measuring the precise width of the crack; (v) determining, using the detected mechanical waves and the visualized deposited sample, AE-based fracture characteristics of the sample; and (vi) reporting the determined one or more fracture characteriType: GrantFiled: February 1, 2019Date of Patent: June 22, 2021Assignee: Clarkson UniversityInventor: Behzad Behnia
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Patent number: 11008190Abstract: A method for monitoring a machine element in a paper finishing machine (10). The machine element mounted for rotation machine elements (16-19) equipped with a sensor assembly (24) measuring force or pressure, and a counter-pair (15, 20, 33, 44) for said machine element. The machine element is made to rotate against the counter-pair, a measurement signal (25) is generated between the machine element and the counter-pair with the sensor assembly, and recording a reference cross-directional profile (21) of force or pressure generated. Condition monitoring (38) of vibration with the reference profile is by comparison of current signals with the reference so as to detect periodic variation (39.1, 39.2) in the cross-directional pressure profile, and producing visual information (37) from the analysis for monitoring. The invention also relates to a corresponding system, a rotating machine element for the method or the system, and a computer program product.Type: GrantFiled: February 24, 2017Date of Patent: May 18, 2021Assignee: VALMET TECHNOLOGIES OYInventors: Tatu Pitkänen, Heikki Kettunen, Todd Vandenheuvel
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Patent number: 11002711Abstract: According to one embodiment, a detection system includes a base member, a plurality of sensors, and one or more processors. The plurality of sensors are provided on the base member, and detect an elastic wave from a test object of a plurality of test objects. The elastic wave propagates through a connecting member among a plurality of connecting members that connect the test objects with the base member. The connecting members each have a thickness smaller than a wavelength of the elastic wave. The one or more processors detect an abnormality of the test objects based on the detected elastic wave.Type: GrantFiled: February 25, 2019Date of Patent: May 11, 2021Assignees: KABUSHIKI KAISHA TOSHIBA, TOSHIBA INFRASTRUCTURE SYSTEMS & SOLUTIONS CORPORATIONInventors: Takashi Usui, Yasuo Yoshii, Kazuo Watabe
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Patent number: 10996139Abstract: A health and condition monitoring system of an elastomeric component comprising an actuator, a sensor, and a processing unit. The sensor and the actuator need to be attached directly or indirectly to the elastomeric component. The actuator induces an impulse, or possibly a chirp, into the elastomeric component. The sensor senses the response, the impulse response function. The processing unit analyzes the impulse response function and determines a health and condition indicator. This is repeated and when enough indicators have been determined, then a health and condition marker can be determined, covering if the elastomeric component is in a start period of usage, in a main usage period or in a final period of usage.Type: GrantFiled: September 11, 2018Date of Patent: May 4, 2021Assignee: AKTIEBOLAGET SKFInventors: Anthony C. Bohm, Arun Menon
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Patent number: 10996101Abstract: A distributed acoustic sensing (DAS) system based on space-division multiplexing with multi-core fiber (MCF) is proposed. It relates to a technical field of distributed optical fiber sensing. The present invention maintains the advantage of single-ended measurement in the standard DAS system, and realizes the intensity accumulation of the Rayleigh backscattering light within each core of the MCF, which can greatly improve the strain resolution of DAS systems. Moreover, the introduction of optical switch can make different code sequences transmit in the different core of the MCF simultaneously, which can make the single-pulse response with coding gain demodulated without sacrificing the frequency responding bandwidth. Furthermore, the utilization of space-division multiplexing can make multiple pulses with precious time delay transmit in the MCF simultaneously, which can greatly improve the frequency responding bandwidth of DAS system.Type: GrantFiled: March 1, 2019Date of Patent: May 4, 2021Assignee: University of Electronic Science and Technology of ChinaInventors: Yunjiang Rao, Yun Fu