Patents by Inventor David A. Sandquist

David A. Sandquist 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).

  • Publication number: 20080042637
    Abstract: A current sensor includes a transformer comprising a primary and a secondary, wherein the current sensor is operable to measure current in the primary. A sensing circuit is operable to detect an impedance of the secondary, where the impedance of the secondary changes with an amount of current in the primary and is used to indicate the current in the primary.
    Type: Application
    Filed: August 18, 2006
    Publication date: February 21, 2008
    Inventors: David A. Sandquist, Dale F. Berndt, Andrzej Peczalski
  • Patent number: 7145321
    Abstract: A current sensor for sensing current in a primary source, including a primary conductor forming at least one winding on a first portion of a toroid formed from a magnetic material. A secondary source of electrical current from a signal forms a plurality of winding on a second portion of the toroid. An output reader measures the instantaneous loading of the signal passing through the plurality of windings as a function of the primary source current. The preferred toroid is formed from an amorphous core magnetic material having an hysteresis saturation point is much larger than the coercivity of the material and said primary source of electrical current is AC or DC current. The device includes an amplifier for receiving the signal and place an AC voltage or current on the plurality of windings, and further includes a resistor form measuring the resulting voltage or current instantaneous loading.
    Type: Grant
    Filed: February 25, 2005
    Date of Patent: December 5, 2006
    Inventors: David A. Sandquist, Andrzej Peczalski
  • Patent number: 6566856
    Abstract: A magnetoresistive sensor system having resistive elements changing in ohmic value in the presence of a magnetic field of a current being measured. The variant values of the elements are amplified by some electronics that inherently add offset to the resultant values. The elements themselves also add an offset. The output of the electronics is modulated and then buffered as an output. This output is demodulated and integrated. The resultant signal is fed back to the input of the electronics to null out the offsets. The output of the buffer also goes to an inductive coil that is magnetically coupled to the resistive elements to null out the magnetic field from the current being measured. The buffer output indicates the magnitude of the current being measured. An oscillator outputs a signal to actuate the modulator and the demodulator. The oscillator signal also goes to a set/reset circuit for setting and resetting the resistive elements of the magnetoresistive sensor.
    Type: Grant
    Filed: June 14, 2002
    Date of Patent: May 20, 2003
    Assignee: Honeywell International Inc.
    Inventors: David A. Sandquist, James E. Lenz, Dale F. Berndt
  • Publication number: 20020149355
    Abstract: A magnetoresistive sensor system having resistive elements changing in ohmic value in the presence of a magnetic field of a current being measured. The variant values of the elements are amplified by some electronics that inherently add offset to the resultant values. The elements themselves also add an offset. The output of the electronics is modulated and then buffered as an output. This output is demodulated and integrated. The resultant signal is fed back to the input of the electronics to null out the offsets. The output of the buffer also goes to an inductive coil that is magnetically coupled to the resistive elements to null out the magnetic field from the current being measured. The buffer output indicates the magnitude of the current being measured. An oscillator outputs a signal to actuate the modulator and the demodulator. The oscillator signal also goes to a set/reset circuit for setting and resetting the resistive elements of the magnetoresistive sensor.
    Type: Application
    Filed: June 14, 2002
    Publication date: October 17, 2002
    Applicant: Honeywell Inc.
    Inventors: David A. Sandquist, James E. Lenz, Dale F. Berndt
  • Patent number: 6445171
    Abstract: A magnetoresistive sensor system having resistive elements changing in ohmic value in the presence of a magnetic field of a current being measured. The variant values of the elements are amplified by some electronics that inherently add offset to the resultant values. The elements themselves also add an offset. The output of the electronics is modulated and then buffered as an output. This output is demodulated integrated. The resultant signal is fed back to the input of the electronics to null out the offsets. The output of the buffer also goes to an inductive coil that is magnetically coupled to the resistive elements to null out the magnetic field from the current being measured. The buffer output indicates the magnitude of the current being measured. An oscillator outputs a signal to actuate the modulator and the demodulator. The oscillator signal also goes to a set/reset circuit for setting and resetting the resistive elements of the magnetoresistive sensor.
    Type: Grant
    Filed: October 29, 1999
    Date of Patent: September 3, 2002
    Assignee: Honeywell Inc.
    Inventors: David A. Sandquist, James E. Lenz, Dale F. Berndt
  • Publication number: 20010050552
    Abstract: A magnetoresistive sensor system having resistive elements changing in ohmic value in the presence of a magnetic field of a current being measured. The variant values of the elements are amplified by some electronics that inherently add offset to the resultant values. The elements themselves also add an offset. The output of the electronics is modulated and then buffered as an output. This output is demodulated and integrated. The resultant signal is fed back to the input of the electronics to null out the offsets. The output of the buffer also goes to an inductive coil that is magnetically coupled to the resistive elements to null out the magnetic field from the current being measured. The buffer output indicates the magnitude of the current being measured. An oscillator outputs a signal to actuate the modulator and the demodulator. The oscillator signal also goes to a set/reset circuit for setting and resetting the resistive elements of the magnetoresistive sensor.
    Type: Application
    Filed: October 29, 1999
    Publication date: December 13, 2001
    Inventors: DAVID A. SANDQUIST, JAMES E. LENZ, DALE F. BERNDT