By Spark Or Arc Discharge Patents (Class 324/536)
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Patent number: 7960977Abstract: A method, device and computer program product for determining the change in insulating ability of the insulation provided between two objects of an inductively operating element, where at least one of the objects is a winding. The device includes an analyzing unit, which obtains a first frequency spectrum associated with a frequency response to a signal of varying frequency, where the signal of varying frequency can be applied to a first object of the inductively operating element and the frequency response is obtainable from a second object of the inductively operating element, compares the obtained first frequency spectrum with a second reference frequency spectrum, detects a peak in the obtained first frequency spectrum that does not appear in the second reference frequency spectrum, analyzes the shape of the detected peak, and determines the change in insulating ability based on the analyzed shape.Type: GrantFiled: October 14, 2010Date of Patent: June 14, 2011Assignee: ABB Research Ltd.Inventor: Uno Gafvert
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Patent number: 7952360Abstract: A method and system for detecting defects in a wire or wire harness includes a pair of sensors wrapped around the wire or harness, a data acquisition device for monitoring pulses in the signal produced by the sensors around the wires, and a diagnostics engine. The diagnostics engine includes an analysis module to determine features of the signals captured by the data acquisition device and a decision module for determining whether the pulse represents a defect in the wire, and the location of the defect. The system operates passively and can be used to monitor the wires while they are in use for carrying signals or current and does not require disconnecting the wires to be monitored.Type: GrantFiled: March 14, 2007Date of Patent: May 31, 2011Assignee: General Electric CompanyInventor: Meena Ganesh
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Patent number: 7940055Abstract: An apparatus including a monitoring unit, a number of sensor units, a number of cables, and a number of thermoelectric generators. The number of sensor units is capable of making measurements at a number of locations on a number of power lines for a number of loads. The number of cables connects the monitoring unit to the number of sensor units. The number of thermoelectric generators is capable of generating power for at least one of the monitoring unit and the number of sensor units. The monitoring unit is capable of receiving measurements from the number of sensor units through the number of cables. The monitoring unit is capable of determining whether an arc fault has occurred from the measurements received through the number of cables.Type: GrantFiled: February 25, 2009Date of Patent: May 10, 2011Assignee: The Boeing CompanyInventors: Daniel Nelson Harres, William David Hodges
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Patent number: 7925458Abstract: A method and apparatus are provided for detecting the occurrence of arcing of a conductor by monitoring the current on an AC power line.Type: GrantFiled: February 15, 2008Date of Patent: April 12, 2011Assignee: Leviton Manufacturing Co., Inc.Inventors: David Kolker, Roger M. Bradley, Ross Mernyk
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Publication number: 20110057662Abstract: An arc detector for detecting undesired arcs. The arc detector includes: an antenna for receiving an electromagnetic signal representing an arc; and a discriminator for analysing a signal from the antenna, the discriminator including a spectrum analyser arranged to detect whether the signal represents a normal arc or an undesired arc. The discriminator is arranged to detect whether the signal represents a normal arc or an undesired arc by comparing signal levels at frequencies of a spectrum of the signal corresponding to at least one partial reference spectrum, and determining the arc to be a normal arc if a deviation from the reference spectrum is less than a threshold deviation. A corresponding method is also presented.Type: ApplicationFiled: October 21, 2010Publication date: March 10, 2011Inventors: Thomas Eriksson, Stefan Halen, Jonas Hedberg
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Patent number: 7863905Abstract: There is provided a method that includes (a) acquiring a first spectral component of a single noise pulse on a power line, and a second spectral component of the single noise pulse, (b) determining that the single noise pulse is synchronous with a power voltage on the power line, (c) determining a first magnitude of the first spectral component, (d) determining a second magnitude of the second spectral component, and (e) determining a condition of the power line from the first and second magnitudes. There is also provided a system that employs the method.Type: GrantFiled: March 25, 2009Date of Patent: January 4, 2011Assignee: Ambient CorporationInventor: Yehuda Cern
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Publication number: 20100328824Abstract: An arc flash detector includes a light sensor, a light attenuating filter in communication with the light sensor, a housing disposed to support the light attenuating filter and the light sensor, and a logic circuit in communication with the light sensor. The logic circuit is disposed to receive an output of the light sensor and disposed to produce an output signal responsive to a predetermined intensity of light received by the light sensor. The light attenuating filter is disposed to reduce the intensity of light received by the light sensor. The housing is also disposed to retain the light sensor and the light attenuating filter at a fixed orientation.Type: ApplicationFiled: June 30, 2009Publication date: December 30, 2010Applicant: GENERAL ELECTRIC COMPANYInventor: George William Roscoe
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Publication number: 20100259275Abstract: A device for detecting and locating at least one electric discharge in equipment insulated by fluid contained in an electrically-conductive housing. The equipment includes a plurality of grounding lines connected between the housing and ground. The device includes a plurality of Rogowski coil type current detectors and a mechanism synchronously comparing signals delivered by the current detectors. The coil of each detector is placed around a respective one of the lines. Each detector delivers a signal representative of current flowing in the line, with occurrence of an electric discharge giving rise to a sudden variation in the current, and with electric discharge being located within an inside zone of the housing situated in proximity of the line that is surrounded by the detector that was first to deliver the sudden variation of current.Type: ApplicationFiled: December 1, 2008Publication date: October 14, 2010Applicant: AREVA T & D SASInventors: Wolfgang Grieshaber, Alain Fanget
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Patent number: 7795878Abstract: Systems and methods for determining the dimensions of insulating coating sections applied to a conductive component are disclosed. The method includes providing a specimen having an insulating coating section of a first surface area and a first thickness. The method further includes conducting a test of the specimen for propagating brush discharges. If the specimen exhibits propagating brush discharges, the method further includes reducing at least one of the first surface area and the first thickness to produce at least one of a second surface area or a second thickness, or reducing a first maximum distance that any portion of the insulating coating may extend from an adjacent static dissipative feature to produced a second maximum distance. In additional embodiments, insulating coating patterns may be established on the component based on at least one of the dimensions of the second surface area, the second thickness, or the second maximum distance.Type: GrantFiled: October 22, 2007Date of Patent: September 14, 2010Assignee: The Boeing CompanyInventors: Aaron T. Purdy, Theresa N. Ward, J. Sidney Clements, Michael G. Anderson, Julie K. Bennett
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Patent number: 7782063Abstract: The present invention includes an antenna for measuring an electromagnetic wave radiated from a device to be measured stemming from partial discharge and having sensitivity at least in the UHF band; a filter for extracting a TEM mode component from a measured time waveform; and a measurement device body including a processing section adapted to obtain a second order integral value of the time waveform having undergone the filter processing and obtain a discharge charge quantity from the value. The present invention also comprises an electromagnetic wave radiation simulating apparatus for inputting a pseudo discharge signal to the device to be measured and previously obtaining the relation between the second order integral value and the discharge charge quantity, the processing section obtains the discharge charge quantity from the second order integral value with reference to the previously obtained relation between the second order integral value and the discharge charge quantity.Type: GrantFiled: October 13, 2006Date of Patent: August 24, 2010Assignee: Kyushu Institute of TechnologyInventors: Shinya Ohtsuka, Masayuki Hikita, Takashi Teshima, Yuji Hayashi
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Publication number: 20100201370Abstract: An arc detection system for a plasma generation system includes a radio frequency (RF) sensor that generates first and second signals based on a respective electrical properties of (RF) power that is in communication with a plasma chamber. A correlation module generates an arc detect signal based on the first and second signals. The arc detect signal indicates whether an arc is occurring in the plasma chamber and is employed to vary an aspect of the RF power to extinguish the arc.Type: ApplicationFiled: March 19, 2010Publication date: August 12, 2010Applicant: MKS INSTRUMENTS, INC.Inventors: David J. Coumou, Riad E. El-Choueiry
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Publication number: 20100201371Abstract: An arc detection system includes a radio frequency (RF) signal probe that senses a RF signal at an input of a RF plasma chamber and that generates a signal based on at least one of the voltage, current, and power of the RF signal. A signal analyzer receives the signal, monitors the signal for frequency components that have a frequency greater than or equal to a fundamental frequency of the RF signal, and generates an output signal based on the frequency components. The output signal indicates that an arc is occurring in the RF plasma chamber.Type: ApplicationFiled: April 21, 2010Publication date: August 12, 2010Applicant: MKS INSTRUMENTS, INC.Inventors: John Valcore, Yufeng Han, Jonathan Smyka, Salvatore Polizzo, Aaron T. Radomski
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Patent number: 7768269Abstract: A method of responding to voltage or current transients during processing of a wafer in a plasma reactor at each of plural RF power applicators and at the wafer support surface. For each process step and for each of the power applicators and the wafer support surface, the method includes determining an arc detection threshold lying above a noise level. The method further includes comparing each transient with the threshold determined for the corresponding power applicator or wafer support surface, and issuing an arc detect flag if the transient exceeds the threshold.Type: GrantFiled: August 15, 2007Date of Patent: August 3, 2010Assignee: Applied Materials, Inc.Inventors: John Pipitone, Ryan Nunn-Gage
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Publication number: 20100176816Abstract: A method of detecting partial corona discharge in a targeted circuit of an electrical apparatus, comprises the steps of: wrapping a Rogowski coil around a leg of the targeted circuit to produce a Rogowski coil signal that represents electrical current rate of change in the leg of the targeted circuit; coupling the Rogowski coil signal to a three-dimensional display device that may represent the dimension of time, the dimension of amplitude as a function of a time, and the dimension of duration of amplitude as a function of time in successive periods of that have a preselected duration; monitoring the display device to detect deviations of the duration of amplitude as a function of time from a normal waveform in the leg of the targeted circuit; and correlating ones of the detected deviations of the duration of amplitude as a function of time from a normal waveform that exceed a preselected deviation level as indicative of partial corona discharge within the targeted circuit.Type: ApplicationFiled: January 15, 2009Publication date: July 15, 2010Inventors: John Horowy, Neal D. Clements
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Patent number: 7750646Abstract: A detector system for precursively identifying an electrical arcing event is provided. The system may include a transmission channel for transmitting a radio frequency signal to a zone where an arcing event may occur. The system may further include a reception channel for receiving a radio frequency signal resulting from an interaction of the transmitted radio frequency signal and an electric field which forms at the zone as a precursor to an arcing event. A pre-arc identification circuit may be coupled to process the resulting radio frequency signal. The identification circuit may be configured to generate a signal indicative of a pre-arc condition based on at least one parameter of the resulting radio frequency signal.Type: GrantFiled: January 10, 2008Date of Patent: July 6, 2010Assignee: General Electric CompanyInventors: Sandip Maity, Ayan Banerjee
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Patent number: 7750645Abstract: A method for processing a semiconductor wafer in a plasma reactor comprises sensing transient voltages or currents on a conductor coupled to the wafer and providing a first comparator for comparing the transient voltages or currents with a threshold level stored in the comparator. The method further includes transmitting from the comparator an arc flag signal whenever a transient voltage or current is sensed that exceeds the threshold level, and deactivating the power generator in response to the arc flag signal.Type: GrantFiled: August 15, 2007Date of Patent: July 6, 2010Assignee: Applied Materials, Inc.Inventors: John Pipitone, Ryan Nunn-Gage
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Patent number: 7750644Abstract: A plasma reactor system for processing a wafer in which respective comparators are coupled to the respective RF transient sensors which are coupled in turn to respective RF power application points. The comparators have respective comparison thresholds. The system further includes a controller programmed to updating the respective thresholds of the comparators with respective updated thresholds for different ones of the steps of the process recipe.Type: GrantFiled: August 15, 2007Date of Patent: July 6, 2010Assignee: Applied Materials, Inc.Inventors: John Pipitone, Ryan Nunn-Gage
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Patent number: 7746082Abstract: The present invention provides a high-performance partial discharge detection device which is user-friendly and compact and which allows detection of the electromagnetic waves caused by partial discharge, over a wide bandwidth with a simple constitution and a favorable S/N ratio. The waveguide antenna which receives electromagnetic waves that leak from the insulating spacer is attached to the outer circumferential face of the insulating spacer. The waveguide antenna is constituted by a waveguide portion and a coaxial cable connector which is installed on the waveguide portion. The waveguide portion has a metal short-circuit plate provided at one end thereof, and an opening formed at the other end thereof, which covers part of the outer circumferential face of the insulating spacer.Type: GrantFiled: December 3, 2007Date of Patent: June 29, 2010Assignee: Kabushiki Kaisha ToshibaInventors: Shiro Maruyama, Takaaki Sakakibara, Toshihiro Hoshino
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Patent number: 7737702Abstract: Wafer level arc detection is provided in a plasma reactor using an RF transient sensor sensing voltage at an electrostatic chucking electrode, the RF sensor being coupled to a threshold comparator, and a system controller responsive to the threshold comparator.Type: GrantFiled: August 15, 2007Date of Patent: June 15, 2010Assignee: Applied Materials, Inc.Inventor: John Pipitone
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Patent number: 7733095Abstract: Wafer level arc detection is provided in a plasma reactor using an RF transient sensor coupled to a threshold comparator, and a system controller responsive to the threshold comparator.Type: GrantFiled: August 15, 2007Date of Patent: June 8, 2010Assignee: Applied Materials, Inc.Inventors: John Pipitone, John C. Forster
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Patent number: 7728602Abstract: An arc detection system includes a radio frequency (RF) signal probe that senses a RF signal at an input of a RF plasma chamber and that generates a signal based on at least one of the voltage, current, and power of the RF signal. A signal analyzer receives the signal, monitors the signal for frequency components that have a frequency greater than or equal to a fundamental frequency of the RF signal, and generates an output signal based on the frequency components. The output signal indicates that an arc is occurring in the RF plasma chamber.Type: GrantFiled: February 16, 2007Date of Patent: June 1, 2010Assignee: MKS Instruments, Inc.Inventors: John Valcore, Yufeng Han, Jonathan Smyka, Salvatore Polizzo, Aaron T. Radomski
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Publication number: 20100116127Abstract: A system includes an electrostatic precipitator, an electromagnetic sensor and a processor to locate spark locations. The electromagnetic sensor is used at various locations of the electrostatic precipitator to obtain data and process the same for locating sparks in electrostatic precipitators.Type: ApplicationFiled: November 12, 2008Publication date: May 13, 2010Applicant: GENERAL ELECTRIC COMPANYInventors: Sudhanshu Rai, Vinay Bhaskar Jammu, Rahul Srinivas Prabhu
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Publication number: 20100079148Abstract: Disclosed is a UHF partial discharge and its location measuring device for high-voltage power devices. The measuring device includes a partial discharge sensor, an external noise sensor, an analogue-digital converter, a peak detector, a partial discharge signal processor, an arrival time detector, a discharge location processor, and a display unit.Type: ApplicationFiled: December 29, 2008Publication date: April 1, 2010Applicant: KOREA ELECTRIC POWER CORPORATIONInventors: Ki-Jun Park, Sun-Geun Goo, Jin-Yul Yoon, Ki-Son Han, Hyung-Jun Ju
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Publication number: 20100060290Abstract: A diagnostic instrument distinguishes primary arcs from other electrical discharges in an electric power system based on pulse time density of radio frequency noise caused by the discharges. The instrument counts a maximum number of noise pulses in any small time window over a period, and identifies the discharges as primary arcs if the pulse time density is in a range characteristics of primary arcs.Type: ApplicationFiled: September 4, 2009Publication date: March 11, 2010Inventors: John D. Sanderson, Forrest S. Seitz, Jack C. Talmadge
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Patent number: 7652566Abstract: Apparatus includes an arc wave generator for testing an arc fault circuit interrupter (AFCI) for use in a test system for testing whether or not an arc fault circuit interrupter (AFCI) is operating normally, in which a false arc is generated for use in testing the arc fault circuit interrupter (AFCI). The arc wave generator includes a rectifier which receives a commercial power source as an input source and rectifies alternating-current voltage of the commercial power source to generate a rectified signal. A drop resistor drops the voltage of the rectified signal to generate a voltage-dropped signal. A mono-stable multivibrator adjusts a voltage level and a pulse width of the voltage-dropped signal and generates a pulse signal which is used to generate a false arc for testing the arc fault circuit interrupter (AFCI). Thus, a false arc is generated with a simple circuit to accurately test the actions of the arc fault circuit interrupter (AFCI).Type: GrantFiled: October 1, 2007Date of Patent: January 26, 2010Assignee: Hetko, Inc.Inventors: Jun Bae Lee, Shin Yon Jo
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Publication number: 20100013494Abstract: A marker pulse discriminator monitor that enables filtering of partial discharge pulses for monitoring the condition of a generator in a power plant system. The monitor detects partial discharge pulses emanating from the generator and includes a plurality of first modules connected to respective isophase buses adjacent to the generator. Each of the first modules generate a marker pulse in response to a partial discharge pulse. The monitor also includes an analyzer unit connected to the isophase buses adjacent to a step-up transformer. The analyzer unit receives each partial discharge pulse and each marker pulse and determines a differential value corresponding to a difference between a time of arrival of a partial discharge pulse and a time of arrival of a corresponding marker pulse to identify partial discharge pulses originating at the generator and to identify the isophase bus associated with the corresponding partial discharge pulse.Type: ApplicationFiled: July 16, 2008Publication date: January 21, 2010Applicant: SIEMENS POWER GENERATION, INC.Inventor: Michael Twerdochlib
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Publication number: 20090302862Abstract: Electrical generators used for power generation typically operate at high voltage. The High operating voltage results in a severe electrical stress environment for the generator conductor insulation system. The high electrical stress cal lead to a phenomena such as corona, partial discharge and arcing that can cause damage to the insulation and conductors. Disclosed is a novel method and system of detecting partial discharge activity within an electric generator. The method employs at least two Rogowski loops non-contactingly surrounding individual iso-phase bus conductors, where the loops are wired in differential mode to detect fast moving electrical pulses indicative of partial discharge.Type: ApplicationFiled: June 4, 2008Publication date: December 10, 2009Applicant: SIEMENS POWER GENERATION, INC.Inventor: Michael Twerdochlib
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Patent number: 7627400Abstract: A method and device for detecting an electrical arcing phenomenon operate to measure an electric current and an electric voltage on an electric cable. The measurements are filtered and the filtered measurements are digitized to produce two digitized data segments. Each of the two segments is subjected to a number of functions to produce a form vector. The membership class of the form vector is determined, and the presence or absence of an electric arcing phenomenon is determined from the membership class.Type: GrantFiled: September 28, 2005Date of Patent: December 1, 2009Assignee: AIRBUS FranceInventors: Michel Dutoya, Gilles Mazeau, Christophe Vlacich
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Publication number: 20090284265Abstract: An arc detecting device includes: a detector for acquiring time series data concerning a characteristic quantity, such as a voltage or a current in a circuit, targeted for detecting an arc; a basic data generator for generating basic data made of a plurality of frequency components, through frequency analysis from the acquired time series data; a data processor for statistically processing the generated basic data, thereby converting the basic data to an evaluation value highly correlative to an occurrence of the arc; and an arc judging unit for judging the occurrence of the arc, if the evaluation value exceeds a predetermined arc judgment threshold value. In this manner, the arc detecting device that is capable of effectively detecting the arc in a direct-current power supply circuit is provided.Type: ApplicationFiled: May 8, 2009Publication date: November 19, 2009Applicant: SINFONIA TECHNOLOGY CO., LTD.Inventors: Yoshito OHTA, Hirotaka ISODA
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Publication number: 20090212786Abstract: The present disclosure relates to an impedance-based arc detector for CT scanners and method of use and diagnosis therewith, and more specifically, to a two- or three-way conductive probe detector system and associated signal processing unit to distinguish the location of arc faults on a CT scanner at either the high-voltage cable of an x-ray tube, an anode connected to the x-ray tube, a cathode also connected to the x-ray tube, a high-voltage well, or a power distribution unit of the tube.Type: ApplicationFiled: February 20, 2009Publication date: August 27, 2009Inventor: William E. Brach
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Patent number: 7579843Abstract: Methods and apparatus for analyzing electrical insulation of an electrical machine are provided. The method includes receiving a first signal that includes a plurality of partial discharge pulses from the electrical machine and a plurality of noise pulses, receiving other signals that includes information relative to at least one process parameter associated with the electrical machine, determining the plurality of partial discharge pulses from the plurality of noise pulses, identifying characteristics of the plurality of partial discharge pulses relating to the location and character of partial discharges in the electrical machine, and determining a condition of the electrical insulation using the identified characteristics and the received information relative to at least one process parameter.Type: GrantFiled: October 13, 2006Date of Patent: August 25, 2009Assignee: General Electric CompanyInventors: Abdelkrim Younsi, Sameh Ramadan Salem
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Publication number: 20090207535Abstract: An arc fault detector, as a stand alone device or in combination with a circuit interrupting device such as a ground fault interrupter (GFCI), protects from potentially dangerous arc fault conditions. The device utilizes a line side or load side series connected inductance having an air or magnetic core to generate the derivative di/dt signal of the arc current in the conductor. The derivative signal is fed to an arc fault detector where it is analyzed for the presence of arcing. The device can have two series connected inductors inductively coupled to each other such that the signal from one inductor is inductively coupled into the other inductor for coupling to the arc fault detector.Type: ApplicationFiled: April 13, 2009Publication date: August 20, 2009Applicant: LEVITON MANUFACTURING COMPANY, INC.Inventors: Ross Mernyk, Roger M. Bradley
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Publication number: 20090177420Abstract: In order to detect, localize and interpret a partial discharge occurring in a partial discharge site along an electrical equipment, two measurement probes and a synchronization probe are installed along the electrical equipment. The measurement probes detect pulses travelling in the electrical equipment while the synchronization probe detects a phase angle in the electrical equipment and is usable for calibration purposes. A control unit receives the signals sensed by the probes and conditions them. Digital processings applied on the conditioned signals, involving their correlation, a time-frequency distribution and a form factor estimation, allows establishing a diagnosis indicating a detection of a partial discharge and its localization along the electrical equipment.Type: ApplicationFiled: May 18, 2006Publication date: July 9, 2009Inventors: Daniel Fournier, Bruno Cantin, Jean-Marc Bourgeois, Francois Léonard, Yvan Roy
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Publication number: 20090161272Abstract: A system for identifying an arcing event in electrical distribution systems is provided. The system comprises a sensor configured to detect ultraviolet light and to generate a signal indicative of the arcing event propagating from the electrical distribution system. A processor coupled to the sensor and configured to analyze an ultraviolet light characteristic from the signal and generate an arc fault signal. A protective device configured to receive the arc fault signal and to mitigate the arcing event in the electrical distribution system.Type: ApplicationFiled: December 21, 2007Publication date: June 25, 2009Applicant: General Electric CompanyInventors: Thangavelu Asokan, Robert J. Caggiano, Satyanarayana Murthy Ungarala, George William Roscoe
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Publication number: 20090154033Abstract: In all electrical circuits, various arcing conditions can arise, however, there are primary ones are series arcing (low current arcing), and, parallel arcing (high current arcing). An arc fault circuit interrupter (“AFCI”) that protects for both series and parallel arcing is called a combination type. An AFCI is a device that controls the effects of electrical arcing by opening a circuit through a tripping mechanism that isolates the load from the supply line upon detection of an arcing condition. In this invention, this arc fault is detected by a Hall-Effect sensor (“HES”), a HES integrated circuit, and microprocessor. When circuit fluctuation starts, the microprocessor logs this from its first occurrence then compares it to a pre-determined threshold time to determine an arcing condition. Continued fluctuation beyond this threshold time is considered an arcing condition for safety the microprocessor then executes a command to activate the tripping mechanism.Type: ApplicationFiled: December 14, 2007Publication date: June 18, 2009Inventor: Wendell E. Tomimbang
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Publication number: 20090146666Abstract: The present invention comprises an antenna adapted to measure an electromagnetic wave radiated from a device to be measured stemming from partial discharge and having sensitivity at least in the UHF band; a filter for extracting a TEM mode component from a measured time waveform; and a measurement device body including a processing section adapted to obtain a second order integral value of the time waveform having undergone the filter processing and obtain a discharge charge quantity from the value. The present invention also comprises an electromagnetic wave radiation simulating apparatus for inputting a pseudo discharge signal to the device to be measured and previously obtaining the relation between the second order integral value and the discharge charge quantity, wherein the processing section obtains the discharge charge quantity from the second order integral value with reference to the previously obtained relation between the second order integral value and the discharge charge quantity.Type: ApplicationFiled: October 13, 2006Publication date: June 11, 2009Inventors: Shinya Ohtsuka, Masayuki Hikita, Takashi Teshima, Yuji Hayashi
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Patent number: 7538557Abstract: Circuit tester apparatuses for identifying arc fault and/or ground fault current leakage on an electrical circuit. The circuit tester apparatuses may have two or three pairs of tester lead wires for connection to the electrical circuit. The tester lead wires are mounted in a housing and are connected in series.Type: GrantFiled: October 30, 2007Date of Patent: May 26, 2009Inventor: Jeffrey L. DeHaven
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Patent number: 7535234Abstract: An arc fault detector, as a stand alone device or in combination with a circuit interrupting device such as a ground fault interrupter (GFCI), protects from potentially dangerous arc fault conditions. The device utilizes a line side or load side series connected inductance having an air or magnetic core to generate the derivative di/dt signal of the arc current in the conductor. The derivative signal is fed to an arc fault detector where it is analyzed for the presence of arcing. The device can have two series connected inductors inductively coupled to each other such that the signal from one inductor is inductively coupled into the other inductor for coupling to the arc fault detector.Type: GrantFiled: April 23, 2007Date of Patent: May 19, 2009Assignee: Leviton Manufacturing Co., Inc.Inventors: Ross Mernyk, Roger M. Bradley
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Patent number: 7532012Abstract: There is provided a method that includes (a) determining a characteristic of a fundamental spectral component of a spectrum of a power spectrum of noise on a power line, and (b) determining a condition of the power line based on the characteristic.Type: GrantFiled: October 20, 2006Date of Patent: May 12, 2009Assignee: Ambient CorporationInventor: Yehuda Cern
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Publication number: 20090102489Abstract: A distributed sensing system for detecting partial electric discharge along the length of an extended object or objects. An optical fiber having a cladding integrated with luminescent material and a silica core of less than 500 micro-meters in diameter with a first reflective end deployed in proximity to test objects. A photo detector is positioned at the second end of the optical sensing fiber and receives and measures both a direct emission light from an electric partial discharge event and the reflected emission light from the reflection end of the optical sensing fiber. The measured signals and their arrival times are used to determine the location and magnitude of a partial electrical discharge.Type: ApplicationFiled: October 22, 2008Publication date: April 23, 2009Inventors: Chung Lee, Kent Kalar
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Patent number: 7521915Abstract: An apparatus adapted to detect a particle present on a bevel of a wafer. The apparatus includes a substrate support and a sensor housing adapted to receive an edge of the wafer. The sensor housing includes one or more probe electrodes and one or more position sensors. The apparatus also includes a translatable stage coupled to the sensor housing. The translatable stage is adapted to control the distance between the bevel of the wafer and the one or more position sensors. The apparatus further includes electrical circuitry electrically coupled to the substrate support and the one or more probe electrodes and adapted to generate an electric field between the bevel of the wafer and the one or more probe electrodes, detection circuitry electrically coupled to the electrical circuitry, and a processor adapted to process electrical signals and thereby detect the particle present on the bevel of the wafer.Type: GrantFiled: April 25, 2006Date of Patent: April 21, 2009Assignee: Sokudo Co., Ltd.Inventors: Harald Herchen, Christopher L. Beaudry
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Patent number: 7514936Abstract: Method and apparatus for detecting or suppressing electrical arcing or other abnormal change in the electrical impedance of a load connected to a power source. Preferably the load is a plasma chamber used for manufacturing electronic components such as semiconductors and flat panel displays. Arcing is detected by monitoring one or more sensors. Each sensor either responds to a characteristic of the electrical power being supplied by an electrical power source to the plasma or is coupled to the plasma chamber so as to respond to an electromagnetic condition within the chamber. Arcing is suppressed by reducing the power output for a brief period. Then the power source increases its power output, preferably to its original value. If the arcing resumes, the power source repeats the steps of reducing and then restoring the power output.Type: GrantFiled: October 27, 2007Date of Patent: April 7, 2009Assignee: Applied Materials, Inc.Inventors: Suhail Anwar, Remegio Manacio, Chung-Hee Park, Dong-Kil Yim, Soo Young Choi
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Patent number: 7514934Abstract: A circuit for measuring DC bias voltage occurring in an ungrounded electrode of a plasma processing apparatus, includes: a first terminal connected between the ungrounded electrode and the RF power source; a second terminal for determining a value of the DC bias voltage; a first resistance connected between the first terminal and the second terminal; a second resistance connected between the second terminal and a ground; and a condenser disposed in parallel to the second resistance between the second terminal and the ground. The sum of the first resistance value and the second resistance value is about 50 M? or greater.Type: GrantFiled: September 22, 2005Date of Patent: April 7, 2009Assignee: ASM Japan K.K.Inventors: Mitsutoshi Shuto, Yasuaki Suzuki
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Patent number: 7514935Abstract: A system and method for managing power delivered to a processing chamber is described. In one embodiment power is delivered to the processing chamber with a power cable, the power cable storing energy and including a first and second conductors, the first conductor having a first voltage polarity relative to the second conductor. The voltage polarity of the first conductor is reversed relative to the second conductor and at least a portion of the stored energy in the power cable is provided to the plasma chamber while the polarity of the first power cable is reversed.Type: GrantFiled: September 13, 2006Date of Patent: April 7, 2009Assignee: Advanced Energy Industries, Inc.Inventor: Joshua Brian Pankratz
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Publication number: 20090079436Abstract: According to the features discussed herein, through a single generalized arc-fault detection algorithm, various types of series and/or parallel arc faults can be detected without any nuisance trip for either AC or DC Electric Power Systems. Running Discrete Fourier Series (RDFS) formulation for nuisance-free operation and cost-effective implementation is developed. Unlike other methods which require numerous source and load-side current and voltage measurements, only source side current is required. An arc detector may include a first detector to monitor variations of a magnitude of a fundamental component of a current, and a second detector to monitor an overload condition based in an i2t calculation.Type: ApplicationFiled: September 21, 2007Publication date: March 26, 2009Inventors: HASSAN ALI KOJORI, Yang Ye
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Patent number: 7498817Abstract: A method of nondestructive noncontact tightness testing of inner structure of articles based on gas discharge visualization includes the steps of providing a film for imaging on a dielectric plate and an electrode, the dielectric plate disposed on the electrode, and polarizing the dielectric plate by applying a series of high voltages pulses across the dielectric to provide a preliminary polarized dielectric plate. After the polarizing step, an article to be tested which has a multi-layer casing including an outer metallic layer is arranged on the film. The article is then subjected to a high voltage pulsed electric field by applying a high voltage electrical pulse between the electrode and the outer metallic layer and the electrode, wherein the pulsed electric field is combined with an electric field associated with the preliminary polarized dielectric plate triggers a gas discharge process. An image of the film is obtained on the film of an inner structure of the article based on the gas discharge process.Type: GrantFiled: July 23, 2004Date of Patent: March 3, 2009Assignee: Emerize CorporationInventors: Volodymyr Redko, Elena Shembel, Peter Novak
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Patent number: 7492163Abstract: Certain exemplary embodiments can include an arc fault detection circuit. The arc fault detection circuit can include a zero crossing analysis sub-system including a counter configured to determine, for a first waveform, a count of dips that occur between a pair of predetermined zero crossings of a second waveform. The second waveform can be obtained from an electrical circuit.Type: GrantFiled: April 27, 2006Date of Patent: February 17, 2009Assignee: Siemens Energy & Automation, Inc.Inventors: Carlos Restrepo, Peter Spenlove Staley
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Publication number: 20090040665Abstract: An arc fault circuit interrupter includes line and load terminals, separable contacts in series between the terminals, a neutral conductor, and an operating mechanism opening and closing the contacts and tripping open the contacts in response to a trip signal. A current transformer senses current flowing through the contacts. A voltage sensor detects voltage zero crossings between the load terminal and the neutral conductor. A processor detects a resistive series arc in series with the contacts. A processor routine determines, for each half cycle, samples of the sensed current, an offset value from an average of sensed current samples proximate the voltage zero crossings for the corresponding half cycle, adjusted sensed current samples as adjusted by the offset value, a profile corresponding to a resistive series arc as a function of the sensed current samples and the adjusted samples, and the trip signal in response to occurrences of the profile.Type: ApplicationFiled: August 7, 2007Publication date: February 12, 2009Inventors: ROBERT T. ELMS, Kevin L. Parker
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Patent number: 7489140Abstract: Apparatus, methods, and systems improve spark testing of insulated cables. According to embodiments described herein, a spark tester includes a conductive housing having an entryway, an exit, and a test chamber therebetween. The spark tester utilizes spring electrodes connected to an adjustment ring at one end of the housing and to a fixed structure at the opposite end of the housing. The adjustment ring is rotated such that the spring electrodes wrap around the test cable, contacting the test cable on all sides throughout the test chamber. The housing also includes an electrical contact for receiving and distributing a voltage across the housing and the spring electrodes. As the test cable is drawn through the spring electrodes, the grounded conductors within the test cable are monitored for a voltage spike, indicating an insulation defect that allowed a discharge from the spring electrodes to a test cable conductor.Type: GrantFiled: November 5, 2007Date of Patent: February 10, 2009Assignee: Southwire CompanyInventors: Cyrus Scott Butterworth, Wilber Freeman Powers, Jr.
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Patent number: 7489138Abstract: A method and apparatus detect arc faults. The method and apparatus may digitally detect current and voltage signals at a master node (111) positioned at a first point in a wiring system (131). At a second point in the wiring system (131), a slave node (122) may digitally detect current and voltage signals. An arc fault that develops between the first and second points in the wiring system (131) may be detected by comparing the current signals from the master node (111) and from the slave node (122), and comparing the voltage signals from the master node (111) and from the slave node (122).Type: GrantFiled: November 30, 2006Date of Patent: February 10, 2009Assignee: Honeywell International Inc.Inventors: Wenjiang Yu, Zhenning Liu, Yang Ye