Patents Examined by Jeff Natalini
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Patent number: 9389265Abstract: A method and an apparatus are provided to reduce or eliminate interference signals that have been additively superimposed on a useful signal for locating a cable sheathing fault of a buried electrical cable. A correction unit includes a filter, a delay device and/or a DC component estimator. The correction unit automatically determines a transient interference signal and a DC offset voltage component that have been superimposed on the useful signal as received in an input signal of the correction unit, and then subtracts these determined interference signals from the input signal to provide the interference-free or interference-suppressed useful signal as the output.Type: GrantFiled: July 31, 2013Date of Patent: July 12, 2016Assignee: Hagenuk KMT Kabelmesstechnik GmbHInventors: Marco Stephan, Marco Kuettner, Rainer Purschwitz
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Patent number: 9389172Abstract: Non-invasive THz spectroscopic apparatus and methods are provided for measuring the average diffusion coefficients for a structure such as cork. The methods may be used to image the localized presence of water in the structure to produce time-dependent images of liquid propagation in the structure.Type: GrantFiled: October 28, 2011Date of Patent: July 12, 2016Assignee: New Jersey Institute of TechnologyInventor: John F. Federici
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Patent number: 9383286Abstract: An ionization gauge that measures pressure has an electron source that emits electrons, and an anode that defines an ionization space. The gauge also includes a collector electrode to collect ions formed by an impact between the electrons and a gas and to measure pressure based on the collected ions. The electron source is dynamically varied in emission current between a plurality of emission levels dependent on pressure and a second parameter other than pressure. The ionization gauge may also vary various operating parameters of the gauge components according to parameters stored in a non-volatile memory and selected by a user.Type: GrantFiled: December 24, 2014Date of Patent: July 5, 2016Assignee: MKS Instruments, Inc.Inventors: Larry K. Carmichael, Jesse A. Weber, John H. Henry, Michael N. Schott, Gerardo A. Brucker
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Patent number: 9377498Abstract: A system and a method for measuring leakage current in an electrical transmission network. The system contains a plurality of electric current measurement devices distributed along the electrical transmission network and at least one central controller. The current measurement devices measure the electric current substantially continuously or repeatedly and report to the central controller. The central controller performs analysis of the measurements of the electric current along the transmission network and calculates the leakage current.Type: GrantFiled: December 10, 2007Date of Patent: June 28, 2016Assignee: ELECTRICAL GRID MONITORING LTD.Inventor: Sabatino Nacson
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Patent number: 9362077Abstract: The present invention is directed to an electrical wiring device that includes a plurality of line terminals, a plurality of feed-through load terminals, and at least one set of receptacle load terminals. A circuit interrupter assembly includes a plurality of movable interconnection members. Each movable interconnection member includes a first interconnecting contact disposed on a first side thereof and a second interconnecting contact disposed on a second side thereof. The first interconnecting contact and the second interconnecting contact are offset from one another in a direction substantially orthogonal to a direction of movement. The movable interconnection members are movable in the direction of movement between a reset position wherein the line terminals, the feed-through load terminals and the receptacle load terminals are electrically connected, and a tripped position wherein the the various terminals are electrically disconnected.Type: GrantFiled: October 29, 2012Date of Patent: June 7, 2016Assignee: PASS & SEYMOUR, INC.Inventors: David A. Finlay, Sr., Bruce F. Macbeth, Kent R. Morgan, Patrick J. Murphy, Thomas N. Packard, Jeffrey C Richards, Gerald R. Savicki, Jr., Richard Weeks
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Patent number: 9360503Abstract: A method for determining a sampling time of a signal, the method including: determining a candidate sampling time of a signal for input to a sampling circuit; determining a resultant sampling time at which the sampling circuit samples the signal when input with the candidate sampling time; and determining a sampling time of the signal based on a noise shaping of a difference between the resultant sampling time and the candidate sampling time.Type: GrantFiled: August 8, 2013Date of Patent: June 7, 2016Assignee: INTEL DEUTSCHLAND GMBHInventors: Lajos Gazsi, Stefan Meier, Matthias Schoebinger
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Patent number: 9354264Abstract: A processing system for a transcapacitive sensing device comprises a plurality of sensor electrodes sectioned by a seam, a first sensor electrode integrated circuit, and a second sensor electrode integrated circuit. The plurality of sensor electrodes comprises a plurality of transmitter electrodes intersecting a plurality of receiver electrodes. The first sensor electrode integrated circuit is communicatively coupled to a first subset of the plurality of sensor electrodes. The second sensor electrode integrated circuit is communicatively coupled to a second subset of the plurality of sensor electrodes. The first sensor electrode integrated circuit and the second sensor electrode integrated circuit are configured to operate the plurality of sensor electrodes in synchrony to transmit with the plurality of transmitter electrodes a set of transmitter signals and receive with the plurality of receiver electrodes a set of responses corresponding to the set of transmitter signals.Type: GrantFiled: November 20, 2013Date of Patent: May 31, 2016Assignee: Synaptics IncorporatedInventors: Adam Schwartz, Kirk Hargreaves, Joseph Kurth Reynolds, Richard R. Schediwy
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Patent number: 9354276Abstract: Disclosed is an apparatus and method for detecting failure of a switching device in an inverter, the method including detecting a maximum value and a minimum value of a phase current inputted into a motor from synchronous angle information of the motor through a switching device in a predetermined leg of the inverter unit, and detecting failure of the switching device of the leg through an asymmetry ratio of the phase current.Type: GrantFiled: December 26, 2012Date of Patent: May 31, 2016Assignee: LSIS CO., LTD.Inventor: Gi Young Choi
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Patent number: 9341687Abstract: Systems and methods are provided for remotely identifying and classifying materials based on their respective complex permittivity features. Materials of interest to be identified in later inspections are cataloged according to their respective complex permittivity features by applying electromagnetic fields to them and determining their complex permittivity features. That library of features is used to compare field measurements taken during an inspection to determine the presence of a material of interest and to identify it.Type: GrantFiled: February 22, 2012Date of Patent: May 17, 2016Assignee: The MITRE CorporationInventors: Nicholas C. Donnangelo, Alexander V. Mamishev, Walter S. Kuklinski
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Patent number: 9323385Abstract: An embodiment of a method for detecting noise for a capacitance sensing panel may comprise generating an input signal based on a noise signal, performing a series of measurements for measuring capacitances from a capacitive sensor sensitive to the noise signal, and controlling timing for at least one of the subconversions based on the input signal.Type: GrantFiled: December 2, 2011Date of Patent: April 26, 2016Assignee: Parade Technologies, Ltd.Inventors: Hans Van Antwerpen, Scott Swindle, Aaron Hogan, Paul Kelleher
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Patent number: 9304155Abstract: A MEMS capacitive sensing interface includes a sense capacitor having a first terminal and a second terminal, and having associated therewith a first electrostatic force. Further included in the MEMS capacitive sensing interface is a feedback capacitor having a third terminal and a fourth terminal, the feedback capacitor having associated therewith a second electrostatic force. The second and the fourth terminals are coupled to a common mass, and a net electrostatic force includes the first and second electrostatic forces acting on the common mass. Further, a capacitance measurement circuit measures the sense capacitance and couples the first terminal and the third terminal. The capacitance measurement circuit, the sense capacitor, and the feedback capacitor define a feedback loop that substantially eliminates dependence of the net electrostatic force on a position of the common mass.Type: GrantFiled: December 19, 2012Date of Patent: April 5, 2016Assignee: INVENSENSE, INC.Inventors: Baris Cagdaser, Derek Shaeffer, Joseph Seeger
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Patent number: 9297633Abstract: An electronic ink cartridge includes, in a direction of a central axis within a cylindrical body, a core body extended out from a distal end of the cylindrical body, a coupling member disposed on a side of a proximal end of the cylindrical body, a coil housed between the core body and the coupling member and having a predetermined inductance, and a pressure sensitive element whose capacitance changes according to pressure applied to the core body. Two terminals of the coil are electrically connected respectively to two terminals of the pressure sensitive element to thereby form two terminals of a resonance circuit formed by the coil and the pressure sensitive element. A connecting terminal electrically connected to at least one of the two terminals of the resonance circuit is disposed on a proximal end surface side of the coupling member to be accessible thereon from outside.Type: GrantFiled: June 21, 2013Date of Patent: March 29, 2016Assignee: Wacom Co., Ltd.Inventor: Masayuki Obata
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Patent number: 9300357Abstract: Signals sent between a first device and a second device are split. A first user adjustable input signal equalization and gain compensates for losses to signals from the first device before the compensated signals are forwarded to the second device, a first analytic instrument and a second analytic instrument. A second user adjustable input signal equalization and gain compensates for losses to signals from the second device before the first compensated signals are forwarded to the first device, the first analytic instrument and the second analytic instrument.Type: GrantFiled: August 13, 2013Date of Patent: March 29, 2016Assignee: SeralTek, LLCInventor: Dale T Smith
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Patent number: 9293242Abstract: Provided is a voltage detection circuit, which can remove influence of error voltage caused by tiny amount of self-inductance existing in a shunt resistor, though in the resistor for large current usage, which is impossible to surface-mount on a voltage detection circuit board. The shunt resistor device comprises: a resistance body (11); a pair of main electrode (12) for flowing current to be monitored through the resistance body; a pair of detection terminal (13a) for detecting voltage caused in the resistance body; and a pair of wiring (23) each electrically connected to the detection terminal. And, a pair of voltage detection wiring consisting of the detection terminal (13a) and the wiring (23) is brought closer, at prescribed location, than distance between each of connection position of the pair of the detection terminal (13a) on the main electrode (12).Type: GrantFiled: July 20, 2012Date of Patent: March 22, 2016Assignee: KOA CORPORATIONInventors: Tadahiko Yoshioka, Koichi Hirasawa, Yoshinori Aruga
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Patent number: 9285398Abstract: A shield for protecting a current transducer from noise may include a first annular ring that may be disposed adjacent to a first side of a current sensor. The shield may also include a second annular ring that may be disposed adjacent to a second side of the current sensor opposite the first side, such that the first and second annular rings each include magnetically permeable material.Type: GrantFiled: June 27, 2013Date of Patent: March 15, 2016Assignee: General Electric CompanyInventor: Dan Tho Lu
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Patent number: 9285411Abstract: A system and method for identifying an electrical noise propagation path through an object, such as an automotive vehicle, from a source of periodic electrical noise. An electrical noise sensor is positioned at a selected area on the object which generates an output signal representative of the magnitude of the electrical noise. A trigger generator generates a trigger signal in synchronism with a source of periodic electrical noise and that trigger signal is connected as an input signal to measurement equipment connected to the sensor to initiate electrical noise reading by the sensor. A recorder then records the output from the sensor. The electrical noise sensor is moved to different areas on the object to determine the electrical noise propagation path.Type: GrantFiled: July 25, 2013Date of Patent: March 15, 2016Assignee: Hitachi, LtdInventors: Yoshiyuki Tsuchie, Hua Zeng, Masayoshi Takahashi, Hiroki Funato
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Patent number: 9285207Abstract: A method and system for measuring displacement of a structure is disclosed. The method and system comprise providing a first capacitance and providing a second capacitance. The first and second capacitances share a common terminal. The method and system further include determining a difference of the inverses of the value of the first and second capacitances when the structure is displaced. The first capacitance varies in inverse relation to the displacement of the structure.Type: GrantFiled: July 26, 2013Date of Patent: March 15, 2016Assignee: INVENSENSE, INC.Inventors: Baris Cagdaser, Du Chen, Hasan Akyol, Derek Shaeffer
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Patent number: 9279753Abstract: A microelectromechanical device for electromechanical testing a specimen having a nano-scale dimension is formed on a multi-layered semiconductor substrate (chip) and includes an electrothermal or electrostatic actuator for applying a displacement load (force) to the specimen, a load sensor for sensing the load (force) experienced by the specimen. The specimen is disposed between first and second movable shuttles of the actuator and load sensor, which shuttles comprise electrically insulating layers so as to electrically isolate the shuttles and specimen from the actuator and the load sensor on the substrate. A four-terminal Kelvin array is provided to provide specimen electrical characterization measurements and includes first and second outer terminals connected to a current source and to opposite end locations of the specimen and first and second inner terminals connected to a high input impedance voltage meter and to the specimen at other locations between the first and second outer terminals.Type: GrantFiled: March 27, 2012Date of Patent: March 8, 2016Assignee: Northwestern UniversityInventors: Horacio Dante Espinosa, Rodrigo A. Bernal Montoya
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Patent number: 9274159Abstract: A method for monitoring an electric power circuit configured to transfer a power signal to a torque module that is electrically isolated from a chassis ground includes injecting a common voltage component into a common mode voltage of electrical phases during operation and monitoring a negative-ground voltage and a positive-negative voltage of the electric power circuit. An AC line resistance is determined based upon the negative-ground voltage and the positive-negative voltage. Faults in electrical isolation between the electric power circuit and a chassis ground are detected based upon the AC line resistance.Type: GrantFiled: July 16, 2013Date of Patent: March 1, 2016Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventor: Konking (Michael) Wang
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Patent number: 9274083Abstract: In a fluid leak detector, a sensor film is utilized, which includes a central support film having on its top surface a first patterned, conductive electrode film and on its bottom surface a second patterned, conductive electrode film. Substantially round openings are patterned in the first conductive electrode film. The diameter of the openings is chosen on the basis of the droplet size ensued from the surface tension of the fluid to be measured, such that the forming drop of fluid fits completely into the opening. In the support film and in the second conductive electrode film, openings have been punched, whose center points are the same as the center points of the openings in the first electrode film. The diameter of the openings made in the support film and in the second electrode film is smaller than the diameter of the openings made in the first electrode film.Type: GrantFiled: April 16, 2013Date of Patent: March 1, 2016Assignee: NWD TECHNOLOGIES OYInventor: Jani Alatainio