Patents by Inventor Kyle C. Schulmeyer

Kyle C. Schulmeyer 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: 10177136
    Abstract: A circuit for protecting against electrostatic discharge events has a semiconductor substrate (200) of first conductivity embedding a first diode in a well (260) of opposite second conductivity, the diode's anode (111) tied to an I/O pin-to-be-protected (101) at a first voltage, and the first diode's cathode (112) connected to the first drain (123) of a first MOS transistor in the substrate. The first MOS transistor's first gate (122) is biased to a second voltage smaller than the first voltage, thereby reducing the first voltage by the amount of the second voltage. In series with the first MOS transistor is a second MOS transistor with its second drain (670) merged with the first source of the first MOS transistor, and its second source (131), together with its second gate (132), tied to ground potential (140).
    Type: Grant
    Filed: August 9, 2017
    Date of Patent: January 8, 2019
    Assignee: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Roger A. Cline, Kyle C. Schulmeyer
  • Publication number: 20170338222
    Abstract: A circuit for protecting against electrostatic discharge events has a semiconductor substrate (200) of first conductivity embedding a first diode in a well (260) of opposite second conductivity, the diode's anode (111) tied to an I/O pin-to-be-protected (101) at a first voltage, and the first diode's cathode (112) connected to the first drain (123) of a first MOS transistor in the substrate. The first MOS transistor's first gate (122) is biased to a second voltage smaller than the first voltage, thereby reducing the first voltage by the amount of the second voltage. In series with the first MOS transistor is a second MOS transistor with its second drain (670) merged with the first source of the first MOS transistor, and its second source (131), together with its second gate (132), tied to ground potential (140).
    Type: Application
    Filed: August 9, 2017
    Publication date: November 23, 2017
    Inventors: Roger A. Cline, Kyle C. Schulmeyer
  • Patent number: 9768159
    Abstract: A circuit for protecting against electrostatic discharge events has a semiconductor substrate (200) of first conductivity embedding a first diode in a well (260) of opposite second conductivity, the diode's anode (111) tied to an I/O pin-to-be-protected (101) at a first voltage, and the first diode's cathode (112) connected to the first drain (123) of a first MOS transistor in the substrate. The first MOS transistor's first gate (122) is biased to a second voltage smaller than the first voltage, thereby reducing the first voltage by the amount of the second voltage. In series with the first MOS transistor is a second MOS transistor with its second drain (670) merged with the first source of the first MOS transistor, and its second source (131), together with its second gate (132), tied to ground potential (140).
    Type: Grant
    Filed: August 19, 2015
    Date of Patent: September 19, 2017
    Assignee: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Roger A. Cline, Kyle C. Schulmeyer
  • Publication number: 20170053905
    Abstract: A circuit for protecting against electrostatic discharge events has a semiconductor substrate (200) of first conductivity embedding a first diode in a well (260) of opposite second conductivity, the diode's anode (111) tied to an I/O pin-to-be-protected (101) at a first voltage, and the first diode's cathode (112) connected to the first drain (123) of a first MOS transistor in the substrate. The first MOS transistor's first gate (122) is biased to a second voltage smaller than the first voltage, thereby reducing the first voltage by the amount of the second voltage. In series with the first MOS transistor is a second MOS transistor with its second drain (670) merged with the first source of the first MOS transistor, and its second source (131), together with its second gate (132), tied to ground potential (140).
    Type: Application
    Filed: August 19, 2015
    Publication date: February 23, 2017
    Inventors: Roger A. Cline, Kyle C. Schulmeyer