Patents Examined by Andre Allen
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Patent number: 9746390Abstract: Methods and apparatus for a microfused silicon strain gauge pressure sensor. A pressure sensor package includes a sense element configured to be exposed to a pressure environment, the sense element including at least one strain gauge, an electronics package disposed on a carrier and electrically coupled to the sense element, the carrier disposed on a port that includes the sense element, the port enabling a decoupling feature for sealing and parasitic sealing forces and a reduction of a port length, a housing disposed about the sense element and electronics package, and a connector joined to the housing and electrically connected to the electronics package, the connector including an external interface.Type: GrantFiled: February 26, 2015Date of Patent: August 29, 2017Assignee: SENSATA TECHNOLOGIES, INC.Inventors: Ernie Johannus Antonius Schoot Uiterkamp, Dedde Hedzer Wiersma, Frank Hendri Jacobs
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Patent number: 9739677Abstract: Exemplary embodiments of the present invention provide a differential pressure transducer that comprises first and second diaphragms of different configurations, i.e., different diameters and/or thicknesses. The pressure transducer provides more versatility over prior art designs as the diaphragms can be of different configurations yet still maintain substantially similar back pressures. Therefore, the errors commonly associated with back pressures are eliminated because the back pressures from the diaphragms ultimately cancel out in the sensor's differential pressure measurement.Type: GrantFiled: April 10, 2015Date of Patent: August 22, 2017Assignee: Kulite Semiconductor Products, Inc.Inventors: Anthony D. Kurtz, Lou DeRosa, Robert Gardner
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Patent number: 9732879Abstract: The present disclosure relates to monitoring the condition of fluid extraction components associated with a subsea hydrocarbon drilling and production operation and, in an embodiment described herein, more particularly provides a sensor assembly for monitoring the extraction component which is easily installable and locally powered. The sensor assembly, in one embodiment, is contained on a patch. The assembly comprises a sensor, a power supply, and a communication device, all located on the patch. The patch can be easily coupled to fluid extraction components, such as a valve associated with a blowout preventer stack. The patch can include a coupling material on one side of the patch allowing the patch to adhere to the fluid extraction components. The patch can further include a power generator, such as a piezoelectric generator, thereby allowing for the sensor assembly to be locally powered.Type: GrantFiled: September 10, 2015Date of Patent: August 15, 2017Assignee: Cameron International CorporationInventor: Andrew Jaffrey
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Patent number: 9733140Abstract: A double diaphragm type pressure sensor includes a metal container having a concave portion; a pressure sensor unit mounted on a bottom of the container; a metal diaphragm airtightly bonded to an opening portion of the concave portion of the container; a pressure transmission medium filling a space formed by the metal diaphragm and the concave portion of the container; and a metal terminal penetrating the bottom of the container and being electrically insulated from the container.Type: GrantFiled: May 11, 2015Date of Patent: August 15, 2017Assignee: FUJI ELECTRIC CO., LTD.Inventor: Kimihiro Ashino
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Patent number: 9733136Abstract: A textile pressure sensor for the capacitive measuring of a pressure distribution of objects of any shape, in particular body parts, on a surface is proposed, having a first structure (30a) which is conductive at least in regions and a second structure (30b) which is conductive at least in regions, wherein the first and the second structure which are conductive at least in regions are separated from each other by a dielectric intermediate element (48), and wherein conductive regions of the first structure (30a) form capacitors with opposite conductive regions of the second structure (30b). The textile pressure sensor is distinguished in that the first and/or the second structure (30a, 30b) which is conductive at least in regions is designed as a knitted fabric.Type: GrantFiled: February 15, 2013Date of Patent: August 15, 2017Inventor: Peter Seitz
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Patent number: 9732479Abstract: A method and an apparatus for rolling wheel deflection measurement are disclosed. The apparatus includes a rolling wheel to be moved along a measuring surface in a first direction; a frame extending essentially along the measuring surface in the first direction from at least the rolling wheel; four spaced apart range sensors; a scanner for scanning in a first time interval a number of lines using each of the range sensors, so as to get a corresponding number of virtual images, in which the pixel values represent distances; and a data processor adapted for comparing and matching the virtual images, so as to identify corresponding regions, and for calculating a deflection value using matched pixel values of virtual images from the virtual images based on the identification corresponding regions.Type: GrantFiled: June 14, 2012Date of Patent: August 15, 2017Assignee: DYNATEST INTERNATIONAL A/SInventor: Jakob Find Madsen
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Patent number: 9724897Abstract: A method is described. The method is a method for making a constraining ceramic assembly. The method includes applying at least one metallic electrode to a substrate. The method also includes applying a porous ceramic layer to the substrate to cover the metallic electrode. The method also includes sintering the substrate, the porous ceramic layer, and the metallic electrode together at a sintering temperature above a melting point of the metallic electrode.Type: GrantFiled: January 7, 2015Date of Patent: August 8, 2017Assignee: EmiSense Technologies, LLCInventors: Gangqiang Wang, Joseph Fitzpatrick, James John Steppan, Leta Yar-Li Woo, Brett Tamatea Henderson, Frank Bell
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Patent number: 9726562Abstract: A pressure sensor made of semiconductor material, the sensor comprising a box defining a housing under a secondary vacuum, at least one resonator received in the housing and suspended by flexible beams from at least one elastically deformable diaphragm closing the housing that also contains means for exciting the resonator in order to set the resonator into vibration and detector means for detecting a vibration frequency of the resonator. The detector means comprise at least a first suspended piezoresistive strain gauge having one end secured to one of the beams and one end secured to the diaphragm. The resonator and the first strain gauge are arranged to form zones of doping that are substantially identical in kind and in concentration.Type: GrantFiled: September 26, 2013Date of Patent: August 8, 2017Assignee: SAGEM DEFENSE SECURITEInventors: Jean-Christophe Riou, Guillaume Lehee
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Patent number: 9726563Abstract: A device member including a cavity, includes a base member, an interlayer, an upper layer, an opening portion, and a gas-permeable sealing layer. The base member includes a first semiconductor. The interlayer is formed on the base member and is non-conductive. The upper layer is formed on the interlayer and includes a second semiconductor. The opening portion is formed at the upper layer. The gas-permeable sealing layer is formed to seal the opening portion formed at the upper layer. The cavity is formed by removing the interlayer with an etching gas that penetrates through the sealing layer.Type: GrantFiled: June 18, 2013Date of Patent: August 8, 2017Assignees: THE UNIVERSITY OF TOKYO, KABUSHIKI KAISHA SAGINOMIYA SEISAKUSHOInventors: Hiroyuki Fujita, Hiroshi Toshiyoshi, Hiroyuki Mitsuya
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Patent number: 9726564Abstract: Systems, methods, and apparatuses provided herein relate to a controller for determining a pressure differential across a fluid filter by receiving inlet pressure data regarding a pressure of the fluid upstream of the filtering element, receiving outlet pressure data regarding a pressure of the fluid downstream of the filtering element, receiving engine speed data regarding a speed of the engine, receiving temperature data regarding a temperature of the fluid, and determining a pressure drop across the filtering element based on the inlet pressure data, the outlet pressure data, the engine speed data, and the temperature data.Type: GrantFiled: April 28, 2015Date of Patent: August 8, 2017Assignee: Cummins, Inc.Inventors: Jeffrey L. Oakes, Gabriel Moreno
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Patent number: 9726566Abstract: A vacuum pressure gauge is described herein. One apparatus includes an ion trap configured to trap antimatter therein in a vacuum chamber, and a controller configured to determine a lifetime of the antimatter trapped in the ion trap and determine a pressure in the vacuum chamber based, at least in part, on the determined lifetime of the antimatter.Type: GrantFiled: April 29, 2015Date of Patent: August 8, 2017Assignee: Honeywell International Inc.Inventor: Joshua Dorr
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Patent number: 9718671Abstract: A micro electro-mechanical system (MEMS) acoustic sensor is disclosed. The acoustic sensor comprises a backplate and a diaphragm. The acoustic sensor further comprises a flexible member and optional spacer member disposed between the backplate and the diaphragm resulting in a gap between the backplate and the diaphragm. The gap can vary in response to impinging pressure on the diaphragm based on the design of the flexible member and resulting in a variable capacitance between the backplate and the diaphragm. The change in the gap can result in a change in an electrical characteristic associated with the variable capacitance and can be converted to an electrical output signal corresponding to the impinging pressure on the diaphragm. The flexible member can be part of the backplate or diaphragm.Type: GrantFiled: March 9, 2015Date of Patent: August 1, 2017Assignee: INVENSENSE, INC.Inventors: Sushil Bharatan, Baris Cagdaser
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Patent number: 9719872Abstract: A pressure sensor includes a base having a high-pressure contact portion, and a diaphragm positioned over the base and having an external top surface opposite the base. The external top surface is defined within a closed perimeter and external side surfaces extend down from an entirety of the closed perimeter toward the base. A high-pressure contact portion of the diaphragm is aligned with and separated by a gap from the high-pressure contact portion of the base. A sensing element is coupled to the diaphragm and provides an output based on changes to the diaphragm. When a hydrostatic pressure load above a threshold value is applied to the entire external top surface and external side surfaces of the diaphragm, the hydrostatic pressure load causes the high-pressure contact portion of the diaphragm to contact the high-pressure contact portion of the base.Type: GrantFiled: September 29, 2015Date of Patent: August 1, 2017Assignee: Rosemount Inc.Inventors: Charles Ray Willcox, Jennifer Ann Blodgett, Mark George Romo
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Patent number: 9719878Abstract: An article to determine a sample condition includes a substrate; a reference optical cavity disposed on the substrate and comprising a reference cavity, the reference optical cavity being configured to support a reference optical resonance and to maintain an axial length of the reference cavity; and a sample optical cavity disposed on the substrate and comprising a sample cavity, the sample optical cavity being configured to support a sample optical resonance and to maintain an axial length of the sample cavity.Type: GrantFiled: March 20, 2015Date of Patent: August 1, 2017Assignee: THE UNITED STATES OF AMERICA, AS REPRESENTED BY THE SECRETARY OF COMMERCEInventors: Jay H. Hendricks, Gregory F. Strouse, Jacob E. Ricker, Douglas A. Olson, Gregory E. Scace, Jack A. Stone, Patrick F. Egan
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Patent number: 9719877Abstract: A system and method mitigate the effects of these external vibrations on a capacitance diaphragm gauge by sensing the motion of the diaphragm at the first natural frequency of the diaphragm of the CDG. The presence of the natural frequency signals superimposed on the pressure signal is determined by sensing variations in the output of a sensor at or near the known natural frequency of the diaphragm and filtering that known low frequency from the output. The filtered signal is used in a feedback circuit to impose electrostatic forces on the diaphragm. The imposed electrostatic forces oppose the motion created by the external vibration to suppress the effects of the vibration on the pressure measured by the CDG.Type: GrantFiled: February 28, 2015Date of Patent: August 1, 2017Assignee: Ferran Technology, Inc.Inventor: Robert J. Ferran
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Patent number: 9714879Abstract: Electrically conductive barriers for integrated circuits and integrated circuits and methods including the electrically conductive barriers. The integrated circuits include a semiconductor substrate, a semiconductor device supported by a device portion of the substrate, and a plurality of bond pads supported by a bond pad portion of the substrate. The integrated circuits also include an electrically conductive barrier that projects away from an intermediate portion of the substrate and is configured to decrease capacitive coupling between the device portion and the bond pad portion. The methods can include methods of manufacturing an integrated circuit. These methods include forming a semiconductor device, forming a plurality of bond pads, forming a plurality of electrically conductive regions, and forming an electrically conductive barrier. The methods also can include methods of operating an integrated circuit.Type: GrantFiled: August 21, 2015Date of Patent: July 25, 2017Assignee: NXP USA, INC.Inventors: Chad S. Dawson, Andrew C. McNeil, Jinbang Tang
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Patent number: 9709464Abstract: The present invention provides a drum of a wheel tester, which is characterized in that an outer surface of the drum has cyclic corrugations parallel to a cross section of the drum, wherein the cyclic corrugation in one cycle on the outer surface is composed of a concave arc and a convex arc, both of which are tangential in ends and equal in diameter, and one cycle is 30 to 50 mm in length and 1 to 1.5 mm in depth. The drum is easy to machine, reduced in cost, increased in friction force and suitable for simulating various road surfaces.Type: GrantFiled: February 9, 2016Date of Patent: July 18, 2017Assignee: CITIC Dicastal CO., LTDInventors: Chunhai Liu, Shide Li, Zhigao Yin, Qiang Liu, Hongwei Sheng, Yiwu Du, Yongning Wang, Zhihua Zhu, Changhai Li
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Patent number: 9708797Abstract: A method of in-line inspection of integrity of a pipeline includes identifying a first prospective cluster related to at least a first feature of the pipeline and a second prospective cluster related to at least a second feature of the pipeline. The method includes calculating an effective area using Length Adaptive Pressure Assessment (LAPA) techniques. The effective area corresponds to a lower calculated burst pressure than surrounding areas of the pipeline. LAPA techniques are used to determine if the first prospective cluster interacts with the second prospective cluster. The method includes combining the first and the second prospective cluster when the effective area includes the first and the second prospective cluster to form a resultant cluster. The method further includes generating an indication of an attribute of the resultant cluster.Type: GrantFiled: March 6, 2015Date of Patent: July 18, 2017Assignee: General Electric CompanyInventor: Steven Farnie
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Patent number: 9709396Abstract: An air deployable drifter buoy assembly is provided. The air deployable drifter buoy assembly includes an air deployment tube in compliance with NATO A-Size packaging specifications and a foldable drifter buoy. In a first mode of operation the foldable drifter buoy is accommodated in the air deployment tube in a folded manner and in a second mode of operation the foldable drifter buoy is deployed in an unfolded manner with the foldable drifter buoy being in compliance with Davis CODE Drifter specifications.Type: GrantFiled: September 25, 2015Date of Patent: July 18, 2017Assignee: METOCEAN TELEMATICS LIMITEDInventors: Anthony Chedrawy, Vincent Wilson, Andrew Lowery, Adam Widdis
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Patent number: 9702790Abstract: A wheel service machine and a method for servicing a wheel, such as a tire changer or a wheel balancer for a vehicle wheel, comprises a rotary mounting including a shaft to which the wheel is mounted, a frame work for carrying at least the rotary mounting, and a sensing device mounted to the frame work, for determining geometrical dimensions of the wheel, or parts of the wheel. The sensing device comprises a carrier element and a first sensing unit for sensing the wheel and a computing device for determining the geometrical dimensions of the wheel based on the data received from the sensing device, the first sensing unit being mounted on the carrier element. The wheel service machine further comprises a drive element for enabling a pivotal movement of the sensing device, wherein the drive element is a micro stepper motor.Type: GrantFiled: July 24, 2015Date of Patent: July 11, 2017Assignee: SNAP-ON EQUIPMENT SRL A UNICO SOCIOInventors: Gianluca Cavalli, Francesco Braghiroli, Marco Tralli