Patents by Inventor John Voccio

John Voccio 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: 20230229262
    Abstract: In part, the disclosure relates to a method of reducing the interaction of mobile phones and capacitive touchscreens with electrically charged aerosols. The method may include reducing electrostatic field from a mobile device using one or more conductive meshes sized to shield a region of a mobile device, wherein the region of the mobile device is an electric field source. Additionally, the method may also include processing signals used to charge the mobile device using one or more of a linear regulator and a signal conditioner to reduce harmonic content of the signals such that the voltage level of signals used to charge the mobile device is less than about 100 V/m RMS, or even more preferably to less than about 20 V/m RMS.
    Type: Application
    Filed: October 21, 2022
    Publication date: July 20, 2023
    Inventor: John Voccio
  • Publication number: 20050077797
    Abstract: A rotor assembly includes a substantially cylindrical support structure having at least one first region, and at least one second region. At least one rotor coil is positioned within each first region of the substantially cylindrical support structure. Each rotor coil includes a pair of distal end portions and a convex center portion, and the average mechanical density of the convex center portion is substantially equal to the average mechanical density of the distal end portions. The average mechanical density of the at least one first region is substantially equal to the average mechanical density of the at least one second region.
    Type: Application
    Filed: July 6, 2004
    Publication date: April 14, 2005
    Applicant: American Superconductor Corporation
    Inventors: Dariusz Bushko, Mehdi Kaveh, John Voccio, David Madura, Alexander Perez
  • Patent number: 6603379
    Abstract: A process for manufacturing superconducting magnetic coils from strain-tolerant, superconducting multi-filament composite conductors is described. The method involves winding the precursor to a multi-filament composite conductor and an insulating material or its precursor around a mandrel in order to form a coil, and then exposing the coil to high temperatures and an oxidizing environment. The insulating material or its precursor is chosen to permit exposure of the superconductor precursor filaments to the oxidizing environment, and to encase the matrix-forming material enclosing the filaments, which is reversibly weakened during processing.
    Type: Grant
    Filed: May 25, 2000
    Date of Patent: August 5, 2003
    Assignee: American Superconductor Corporation
    Inventors: Michael D. Manlief, Gilbert N. Riley, Jr., John Voccio, Anthony J. Rodenbush
  • Patent number: 5798678
    Abstract: A process for manufacturing superconducting magnetic coils from strain-tolerant, superconducting multi-filament composite conductors is described. The method involves winding the precursor to a multi-filament composite conductor and an insulating material or its precursor around a mandrel in order to form a coil, and then exposing the coil to high temperatures and an oxidizing environment. The insulating material or its precursor is chosen to permit exposure of the superconductor precursor filaments to the oxidizing environment, and to encase the matrix-forming material enclosing the filaments, which is reversibly weakened during processing.
    Type: Grant
    Filed: July 1, 1996
    Date of Patent: August 25, 1998
    Assignee: American Superconductor Corporation
    Inventors: Michael D. Manlief, Gilbert N. Riley, Jr., John Voccio, Anthony J. Rodenbush
  • Patent number: 5531015
    Abstract: A process for manufacturing superconducting magnetic coils from strain-tolerant, superconducting multi-filament composite conductors is described. The method involves winding the precursor to a multi-filament composite conductor and an insulating material or its precursor around a mandrel in order to form a coil, and then exposing the coil to high temperatures and an oxidizing environment. The insulating material or its precursor is chosen to permit exposure of the superconductor precursor filaments to the oxidizing environment, and to encase the matrix-forming material enclosing the filaments, which is reversibly weakened during processing.
    Type: Grant
    Filed: January 28, 1994
    Date of Patent: July 2, 1996
    Assignee: American Superconductor Corporation
    Inventors: Michael D. Manlief, Gilbert N. Riley, Jr., John Voccio, Anthony J. Rodenbush