Patents by Inventor Joseph V. DeNicholas

Joseph V. DeNicholas 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: 10070491
    Abstract: A light system (FIG. 2) is disclosed. The light system includes a plurality of series connected light emitting diodes (240-246). Each of a plurality of switching devices (230-236) has a control terminal and each has a current path coupled in parallel with a respective LED. A plurality of fault detector circuits (220-226) are each coupled in parallel with a respective light emitting diode. Each fault detector circuit has a first comparator (FIG. 7, 704) arranged to compare a voltage across the respective light emitting diode to a respective first reference voltage (708). When a fault is detected, a control signal is applied to the control terminal to turn on a respective switching device of the plurality of switching devices.
    Type: Grant
    Filed: December 2, 2015
    Date of Patent: September 4, 2018
    Assignee: Texas Instruments Incorporated
    Inventors: Joseph V. DeNicholas, Perry Tsao, Christoph Goeltner, Daniel Ross Herrington, James Masson, James Patterson, Werner Berns
  • Publication number: 20160088699
    Abstract: A light system (FIG. 2) is disclosed. The light system includes a plurality of series connected light emitting diodes (240-246). Each of a plurality of switching devices (230-236) has a control terminal and each has a current path coupled in parallel with a respective LED. A plurality of fault detector circuits (220-226) are each coupled in parallel with a respective light emitting diode. Each fault detector circuit has a first comparator (FIG. 7, 704) arranged to compare a voltage across the respective light emitting diode to a respective first reference voltage (708). When a fault is detected, a control signal is applied to the control terminal to turn on a respective switching device of the plurality of switching devices.
    Type: Application
    Filed: December 2, 2015
    Publication date: March 24, 2016
    Inventors: Joseph V. DeNicholas, Perry Tsao, Christoph Goeltner, Daniel Ross Herrington, James Masson, James Patterson, Werner Berns
  • Patent number: 9253850
    Abstract: A light system (FIG. 2) is disclosed. The light system includes a plurality of series connected light emitting diodes (240-246). Each of a plurality of switching devices (230-236) has a control terminal and each has a current path coupled in parallel with a respective LED. A plurality of fault detector circuits (220-226) are each coupled in parallel with a respective light emitting diode. Each fault detector circuit has a first comparator (FIG. 7, 704) arranged to compare a voltage across the respective light emitting diode to a respective first reference voltage (708). When a fault is defected, a control signal is applied to the control terminal to turn on a respective switching device of the plurality of switching devices.
    Type: Grant
    Filed: April 26, 2013
    Date of Patent: February 2, 2016
    Assignees: Texas Instruments Incorporated, Texas Instruments Deutschland GmbH
    Inventors: Joseph V. DeNicholas, Perry Tsao, Christoph Goeltner, Daniel Ross Herrington, James Masson, James Patterson, Werner Berns
  • Publication number: 20130313973
    Abstract: A light system (FIG. 2) is disclosed. The light system includes a plurality of series connected light emitting diodes (240-246). Each of a plurality of switching devices (230-236) has a control terminal and each has a current path coupled in parallel with a respective LED. A plurality of fault detector circuits (220-226) are each coupled in parallel with a respective light emitting diode. Each fault detector circuit has a first comparator (FIG. 7, 704) arranged to compare a voltage across the respective light emitting diode to a respective first reference voltage (708). When a fault is defected, a control signal is applied to the control terminal to turn on a respective switching device of the plurality of switching devices.
    Type: Application
    Filed: April 26, 2013
    Publication date: November 28, 2013
    Applicant: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Joseph V. DeNicholas, Perry Tsao, Christoph Goeltner, Daniel Ross Herrington, James Masson, James Patterson, Werner Berns
  • Patent number: 8093826
    Abstract: A system includes a first transistor configured to control a current through one or more LEDs and an inductor coupled in series with the one or more LEDs. The system also includes a current mode switcher configured to control the first transistor so that the inductor has a substantially constant ripple current. The system may further include a resistor and a second transistor coupled across the one or more LEDs and an integrating capacitor coupled in series with the second transistor. The switcher may include a driver configured to drive the first transistor to turn the first transistor on and off. The switcher may also include a detector configured to turn off the first transistor when a current through the first transistor exceeds a first threshold. The switcher may further include a timer configured to turn on the first transistor when a voltage on the integrating capacitor exceeds a second threshold.
    Type: Grant
    Filed: August 26, 2008
    Date of Patent: January 10, 2012
    Assignee: National Semiconductor Corporation
    Inventors: Dale R. Eagar, Joseph V. DeNicholas
  • Patent number: 6348820
    Abstract: A high-side, low-side driver that controls voltage from a voltage source to an inductive or resistive load includes a power transistor with a gate, a source and a drain. The driver is configured in a high-side configuration when the load is connected between the source and ground and the drain is connected to the voltage source and in a low-side configuration when the load is connected between the drain and the voltage source and the source is connected to ground. A gate drive circuit turns the power transistor on and off. The positive clamp circuit is connected to the drain and the voltage source. The positive clamp circuit provides a recirculation path for inductive energy that is stored in the inductive load when a loss of reverse battery condition occurs or when ground is lost.
    Type: Grant
    Filed: July 17, 2000
    Date of Patent: February 19, 2002
    Assignee: Motorola, Inc.
    Inventors: Paul T. Bennett, Randall C. Gray, Michael Garrett Neaves, Joseph V. DeNicholas