Patents by Inventor Richard David Pearson
Richard David Pearson has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9194978Abstract: A locator for determining the depth of a buried electromagnetic marker includes a transmission antenna and two reception antennas. The locator has a major axis and is configured. The transmission antenna is configured to generate an oscillatory magnetic field parallel to the major axis. The first reception antenna of the two reception antennas is configured to couple with an oscillatory magnetic field parallel to the major axis emitted by the electromagnetic marker and to generate a first detected signal. The second reception antenna is displaced along the major axis from the first antenna and configured to couple with an oscillatory magnetic field parallel to the major axis emitted by the electromagnetic marker and to generate a second detected signal. The locator includes analogue to digital converters and a processor which is configured to calculate the depth of the electromagnetic marker.Type: GrantFiled: May 13, 2013Date of Patent: November 24, 2015Assignee: Radiodetection Ltd.Inventors: Richard David Pearson, Jeffrey Richard Thompson, Julian Poyner
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Patent number: 9158034Abstract: A locator for determining the depth of a buried electromagnetic marker includes a transmission antenna and two reception antennas. The locator has a major axis and is configured. The transmission antenna is configured to generate an oscillatory magnetic field parallel to the major axis. The first reception antenna of the two reception antennas is configured to couple with an oscillatory magnetic field parallel to the major axis emitted by the electromagnetic marker and to generate a first detected signal. The second reception antenna is displaced along the major axis from the first antenna and configured to couple with an oscillatory magnetic field parallel to the major axis emitted by the electromagnetic marker and to generate a second detected signal. The locator includes analogue to digital converters and a processor which is configured to calculate the depth of the electromagnetic marker.Type: GrantFiled: May 13, 2013Date of Patent: October 13, 2015Assignee: Radiodetection Ltd.Inventors: Richard David Pearson, Jeffrey Richard Thompson, Julian Poyner
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Publication number: 20150097569Abstract: A locator for locating a buried electromagnetic marker is operable to generate a test signal in order to validate that the locator is operating in accordance with calibration data. The locator comprises a transmission antenna and a first reception antenna. The transmission antenna is configured to generate a first oscillatory magnetic field to couple with an electromagnetic marker and the first reception antenna is configured to receive an oscillatory magnetic field emitted by the electromagnetic marker. In order to validate the operation of the locator, the transmission antenna is configured to generate a test oscillatory magnetic field, and the first reception antenna is configured to receive the test oscillatory magnetic field and thereby generate a first detected test signal.Type: ApplicationFiled: October 4, 2013Publication date: April 9, 2015Inventors: Timothy Longley, Richard David Pearson
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Patent number: 8952677Abstract: A locator for locating a concealed conductor carrying an alternating current having at least first and second frequencies, the alternating current produced by at least one dedicated signal generator. The locator includes at least one magnetic field sensor operable to convert electromagnetic radiation from the conductor into a field strength signal; a digital analog converter configured to generate a digitized signal dependent upon the field strength signals from the magnetic field sensor; a digital signal processor configured to isolate components of the digitized signal resulting from the first frequency and the second frequency; and process the isolated components to generate one or more signals indicative of the proximity of the conductor to the detector; and an output configured to generate an audio and/or visual indication of the proximity of the conductor, wherein the isolated signal components resulting from the first frequency signal and the second frequency signal are contemporaneously processed.Type: GrantFiled: November 4, 2011Date of Patent: February 10, 2015Assignee: Radiodetection Ltd.Inventors: Richard David Pearson, Jeffrey Richard Thompson, Derek James Wong
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Publication number: 20140333309Abstract: A locator for determining the depth of a buried electromagnetic marker includes a transmission antenna and two reception antennas. The locator has a major axis and is configured. The transmission antenna is configured to generate an oscillatory magnetic field parallel to the major axis. The first reception antenna of the two reception antennas is configured to couple with an oscillatory magnetic field parallel to the major axis emitted by the electromagnetic marker and to generate a first detected signal. The second reception antenna is displaced along the major axis from the first antenna and configured to couple with an oscillatory magnetic field parallel to the major axis emitted by the electromagnetic marker and to generate a second detected signal. The locator includes analogue to digital converters and a processor which is configured to calculate the depth of the electromagnetic marker.Type: ApplicationFiled: May 13, 2013Publication date: November 13, 2014Inventors: Richard David PEARSON, Jeffrey Richard Thompson, JULIAN Poyner
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Patent number: 8742747Abstract: A locator for determining the location and/or orientation of a concealed conductor, comprising a reference field detector operable to detect an alternating magnetic field along a reference axis; a first field detector operable to detect an alternating magnetic field along a first axis; and a processor operable to calculate an in-phase component of a signal detected by the first field detector, the in-phase component being in phase with a signal detected at the reference field detector and to calculate a signal indicative of a position of the concealed conductor relative to the locator using at least the in-phase component.Type: GrantFiled: December 6, 2010Date of Patent: June 3, 2014Assignee: Radiodetection LimitedInventor: Richard David Pearson
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Patent number: 8676522Abstract: A locator for locating a concealed conductor comprises a first field detector operable to detect an alternating magnetic field along a first axis parallel to a primary axis of the locator; a second field detector, displaced from the first field detector and operable to detect an alternating magnetic field along a second axis parallel to the primary axis of the locator; and a processor operable to calculate a difference between a field detected by the first detector and a field detected by the second detector, and to calculate an indication of the lateral displacement of the concealed conductor from the primary axis of the locator using the difference.Type: GrantFiled: December 6, 2010Date of Patent: March 18, 2014Assignee: Radiodetection LimitedInventor: Richard David Pearson
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Patent number: 8566043Abstract: A detector for calculating the distortion of an electromagnetic field produced by a buried current carrying conductor comprises three antennas B, M, T. Outputs of two pairs of antennas are compared and the depth of the buried conductor is calculated using two different methods. If there is a significant difference in the two calculated depths then it is deemed that the electromagnetic field produced by the buried current carrying conductor is significantly distorted by the material in which the conductor is buried.Type: GrantFiled: March 2, 2009Date of Patent: October 22, 2013Assignee: Radiodetection LimitedInventors: John Mark Royle, Richard David Pearson
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Publication number: 20130113456Abstract: A locator for locating a concealed conductor carrying an alternating current having at least first and second frequencies, the alternating current produced by at least one dedicated signal generator. The locator includes at least one magnetic field sensor operable to convert electromagnetic radiation from the conductor into a field strength signal; a digital analogue converter configured to generate a digitized signal dependent upon the field strength signals from the magnetic field sensor; a digital signal processor configured to isolate components of the digitized signal resulting from the first frequency and the second frequency; and process the isolated components to generate one or more signals indicative of the proximity of the conductor to the detector; and an output configured to generate an audio and/or visual indication of the proximity of the conductor, wherein the isolated signal components resulting from the first frequency signal and the second frequency signal are contemporaneously processed.Type: ApplicationFiled: November 4, 2011Publication date: May 9, 2013Applicant: RADIODETECTION, LTD.Inventors: Richard David Pearson, Jeffrey Richard Thompson, Derek James Wong
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Publication number: 20130113529Abstract: A signal generator for coupling to a concealed conductor including a first oscillator configured to generate a first waveform having a first frequency, a first terminal coupled to the first oscillator through a first band pass filter configured to pass signals of the first frequency, a second oscillator configured to generate a second waveform having a second frequency, and a second terminal coupled to the second oscillator through a second band pass filter configured to pass signals of the second frequency.Type: ApplicationFiled: November 4, 2011Publication date: May 9, 2013Applicant: RADIODETECTION, LTD.Inventors: Richard David Pearson, Luigi Lanfranchi
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Publication number: 20120143532Abstract: A locator for locating a concealed conductor comprises a first field detector operable to detect an alternating magnetic field along a first axis parallel to a primary axis of the locator; a second field detector, displaced from the first field detector and operable to detect an alternating magnetic field along a second axis parallel to the primary axis of the locator; and a processor operable to calculate a difference between a field detected by the first detector and a field detected by the second detector, and to calculate an indication of the lateral displacement of the concealed conductor from the primary axis of the locator using the difference.Type: ApplicationFiled: December 6, 2010Publication date: June 7, 2012Applicant: RADIODETECTION LIMITEDInventor: Richard David Pearson
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Publication number: 20120139525Abstract: A locator for determining the location and/or orientation of a concealed conductor, comprising a reference field detector operable to detect an alternating magnetic field along a reference axis; a first field detector operable to detect an alternating magnetic field along a first axis; and a processor operable to calculate an in-phase component of a signal detected by the first field detector, the in-phase component being in phase with a signal detected at the reference field detector and to calculate a signal indicative of a position of the concealed conductor relative to the locator using at least the in-phase component.Type: ApplicationFiled: December 6, 2010Publication date: June 7, 2012Applicant: RADIODETECTION LIMITEDInventor: Richard David Pearson
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Patent number: 8183851Abstract: A detector for calculating a depth of a buried conductor is provided. The detector includes first, second and third antennas and a microprocessor. The second antenna has an axis parallel to an axis of the first antenna and is spaced a distance s from the first antenna. The third antenna has an axis parallel to the axes of the first and second antennas and is spaced a distance 2s from the first antenna and a distance s from the second antenna. The microprocessor is configured to compare magnetic fields at the first and second antennas to produce a first compared value, compare magnetic fields at the first and third antennas to produce a second compared value, and calculate the depth of said buried conductor based on the first and second compared values.Type: GrantFiled: March 2, 2009Date of Patent: May 22, 2012Assignee: RadiodetectionInventors: John Mark Royle, Richard David Pearson
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Patent number: 8125210Abstract: A detector for calculating a depth of a buried conductor is provided. The detector includes a plurality of antennas for detecting an electromagnetic field radiated by the conductor and one or more signal processors for calculating the depth of the conductor based on the field detected by the antennas. The calculated depth of the conductor is displayed when one or more predetermined criteria are satisfied.Type: GrantFiled: March 2, 2009Date of Patent: February 28, 2012Assignee: Radiodetection LimitedInventors: John Mark Royle, Richard David Pearson
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Patent number: 8115489Abstract: A detector for detecting a buried conductor comprises a plurality of antennas B, T. Each antenna B, T has a winding wound around the antenna, the winding being connected to a current source for providing a predefined current in the winding. When the predefined current is applied to the winding an electromagnetic field is generated at the antenna which induces a test current in the antenna. The test current is compared to calibration data stored in the detector to validate the correct operation of the detector.Type: GrantFiled: March 2, 2009Date of Patent: February 14, 2012Assignee: Radiodetection LimitedInventors: Richard David Pearson, Kevin Conway
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Patent number: 7994770Abstract: A system for detecting a buried conductor comprises a transmitter for generating a test signal in the buried conductor and a detector for detecting an electromagnetic signal resulting from the test signal flowing in the buried conductor. The transmitter comprises a waveform generator for generating a drive waveform signal, a power supply, an amplifier, connected to the power supply and the waveform generator for producing an output drive signal based on the drive waveform signal and an output circuit for acting on the output drive signal to generate an output signal having a current and a voltage. In-phase and quadrature components of the current and voltage of the output signal are fed back for controlling the amplifier.Type: GrantFiled: March 2, 2009Date of Patent: August 9, 2011Assignee: Radiodetection LimitedInventors: John Mark Royle, Richard David Pearson
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Publication number: 20100060285Abstract: A detector for detecting a buried conductor comprises a plurality of antennas B, T. Each antenna B, T has a winding wound around the antenna, the winding being connected to a current source for providing a predefined current in the winding. When the predefined current is applied to the winding an electromagnetic field is generated at the antenna which induces a test current in the antenna. The test current is compared to calibration data stored in the detector to validate the correct operation of the detector.Type: ApplicationFiled: March 2, 2009Publication date: March 11, 2010Applicant: RADIODETECTION LIMITEDInventors: Richard David Pearson, Kevin Conway
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Publication number: 20100001731Abstract: A system for detecting a buried conductor comprises a transmitter for generating a test signal in the buried conductor and a detector for detecting an electromagnetic signal resulting from the test signal flowing in the buried conductor. The transmitter comprises a waveform generator for generating a drive waveform signal, a power supply, an amplifier, connected to the power supply and the waveform generator for producing an output drive signal based on the drive waveform signal and an output circuit for acting on the output drive signal to generate an output signal having a current and a voltage. In-phase and quadrature components of the current and voltage of the output signal are fed back for controlling the amplifier.Type: ApplicationFiled: March 2, 2009Publication date: January 7, 2010Applicant: RADIODETECTION LIMITEDInventors: John Mark Royle, Richard David Pearson
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Publication number: 20100004880Abstract: A detector for calculating the distortion of an electromagnetic field produced by a buried current carrying conductor comprises three antennas B, M, T. Outputs of two pairs of antennas are compared and the depth of the buried conductor is calculated using two different methods. If there is a significant difference in the two calculated depths then it is deemed that the electromagnetic field produced by the buried current carrying conductor is significantly distorted by the material in which the conductor is buried.Type: ApplicationFiled: March 2, 2009Publication date: January 7, 2010Applicant: RADIODETECTION LIMITEDInventors: John Mark Royle, Richard David Pearson
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Publication number: 20100001732Abstract: A detector for calculating a depth of a buried conductor comprises three parallel antennas B, M, T. The second antenna M is spaced a distance s from the first antenna B and the third antenna T is a distance 2s from the first antenna B and a distance s from the second antenna M. The outputs of the first and second antennas B, M are compared and the outputs from the second and third antennas M, T are compared. The depth of the buried conductor is calculated based on the first and second compared values.Type: ApplicationFiled: March 2, 2009Publication date: January 7, 2010Applicant: RADIODETECTION LIMITEDInventors: John Mark Royle, Richard David Pearson