Patents by Inventor Mark A. Kemp

Mark A. Kemp 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).

  • Patent number: 10424714
    Abstract: A piezoelectric dipole transmitter is provided that includes a piezoelectric element, an insulating support disposed at a midpoint of said piezoelectric element, or along the piezoelectric element, an external capacitance driver, and an external modulation capacitance disposed proximal to a first end of the piezoelectric element, where the driver capacitance is driven by a signal appropriate to excite a length-extensional acoustic mode of the piezoelectric element, where the piezoelectric element resonates at a piezoelectric element resonance frequency to radiate energy as an electric dipole.
    Type: Grant
    Filed: November 27, 2018
    Date of Patent: September 24, 2019
    Assignee: The Board of Trustees of the Leland Stanford Junior University
    Inventors: Mark A. Kemp, Matthew A. Franzi, Erik N. Jongewaard, Emilio A. Nanni, Andrew A. Haase
  • Publication number: 20190097119
    Abstract: A piezoelectric dipole transmitter is provided that includes a piezoelectric element, an insulating support disposed at a midpoint of said piezoelectric element, or along the piezoelectric element, an external capacitance driver, and an external modulation capacitance disposed proximal to a first end of the piezoelectric element, where the driver capacitance is driven by a signal appropriate to excite a length-extensional acoustic mode of the piezoelectric element, where the piezoelectric element resonates at a piezoelectric element resonance frequency to radiate energy as an electric dipole.
    Type: Application
    Filed: November 27, 2018
    Publication date: March 28, 2019
    Inventors: Mark A. Kemp, Matthew A. Franzi, Erik N. Jongewaard, Emilio A. Nanni, Andrew A. Haase
  • Publication number: 20190074578
    Abstract: A piezoelectric dipole transmitter is provided that includes a piezoelectric element comprising a mechanical resonance frequency, an insulating support disposed at a midpoint of the piezoelectric element, an external capacitance actuator driver, and an external capacitance actuator disposed proximal to one end of the piezoelectric element, where the capacitance actuator is driven by the external capacitance actuator driver to output a capacitive drive signal excites a length-extensional acoustic mode of the piezoelectric element to resonate at a piezoelectric element resonance frequency, where the piezoelectric element radiates energy as an electric dipole.
    Type: Application
    Filed: September 4, 2018
    Publication date: March 7, 2019
    Inventors: Matthew A. Franzi, Erik N. Jongewaard, Mark A. Kemp, Emilio A. Nanni
  • Patent number: 9750124
    Abstract: A particle accelerator is provided that includes a piezoelectric accelerator element, where the piezoelectric accelerator element includes a hollow cylindrical shape, and an input transducer, where the input transducer is disposed to provide an input signal to the piezoelectric accelerator element, where the input signal induces a mechanical excitation of the piezoelectric accelerator element, where the mechanical excitation is capable of generating a piezoelectric electric field proximal to an axis of the cylindrical shape, where the piezoelectric accelerator is configured to accelerate a charged particle longitudinally along the axis of the cylindrical shape according to the piezoelectric electric field.
    Type: Grant
    Filed: March 28, 2016
    Date of Patent: August 29, 2017
    Assignee: The Board of Trustees of the Leland Stanford Junior University
    Inventors: Mark A. Kemp, Erik N. Jongewaard, Andrew A. Haase, Matthew Franzi
  • Publication number: 20160338186
    Abstract: A particle accelerator is provided that includes a piezoelectric accelerator element, where the piezoelectric accelerator element includes a hollow cylindrical shape, and an input transducer, where the input transducer is disposed to provide an input signal to the piezoelectric accelerator element, where the input signal induces a mechanical excitation of the piezoelectric accelerator element, where the mechanical excitation is capable of generating a piezoelectric electric field proximal to an axis of the cylindrical shape, where the piezoelectric accelerator is configured to accelerate a charged particle longitudinally along the axis of the cylindrical shape according to the piezoelectric electric field.
    Type: Application
    Filed: March 28, 2016
    Publication date: November 17, 2016
    Inventors: Mark A. Kemp, Erik N. Jongewaard, Andrew A. Haase, Matthew Franzi
  • Patent number: 9177748
    Abstract: A high power RF device has an electron beam cavity, a modulator, and a circuit for feed-forward energy recovery from a multi-stage depressed collector to the modulator. The electron beam cavity include a cathode, an anode, and the multi-stage depressed collector, and the modulator is configured to provide pulses to the cathode. Voltages of the electrode stages of the multi-stage depressed collector are allowed to float as determined by fixed impedances seen by the electrode stages. The energy recovery circuit includes a storage capacitor that dynamically biases potentials of the electrode stages of the multi-stage depressed collector and provides recovered energy from the electrode stages of the multi-stage depressed collector to the modulator. The circuit may also include a step-down transformer, where the electrode stages of the multi-stage depressed collector are electrically connected to separate taps on the step-down transformer.
    Type: Grant
    Filed: February 6, 2014
    Date of Patent: November 3, 2015
    Assignee: The Board of Trustees of the Leland Stanford Junior University
    Inventor: Mark A. Kemp
  • Publication number: 20140217885
    Abstract: A high power RF device has an electron beam cavity, a modulator, and a circuit for feed-forward energy recovery from a multi-stage depressed collector to the modulator. The electron beam cavity include a cathode, an anode, and the multi-stage depressed collector, and the modulator is configured to provide pulses to the cathode. Voltages of the electrode stages of the multi-stage depressed collector are allowed to float as determined by fixed impedances seen by the electrode stages. The energy recovery circuit includes a storage capacitor that dynamically biases potentials of the electrode stages of the multi-stage depressed collector and provides recovered energy from the electrode stages of the multi-stage depressed collector to the modulator. The circuit may also include a step-down transformer, where the electrode stages of the multi-stage depressed collector are electrically connected to separate taps on the step-down transformer.
    Type: Application
    Filed: February 6, 2014
    Publication date: August 7, 2014
    Inventor: Mark A. Kemp