Patents by Inventor William L. Winstrom

William L. Winstrom 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: 8903503
    Abstract: Embodiments herein include an external system and method to detect an implanted lead coupled to an implanted neurostimulation device (INSD). The system and method comprise a handheld probe having electrodes configured to be positioned external to a surface of a patient and proximate to a region of the patient having the implanted lead for an implanted INSD. The electrodes are configured to measure a stimulation output from the implanted lead of the INSD. The system and method include a controller coupled to the electrodes to receive measured signals from the electrodes. The measured signals represent the stimulation output of the INSD. The controller processes the measured signals to obtain lead information. The system includes a user interface to present the lead information to a user. The lead information is indicative of at least one of an operation of the lead and a position of the lead.
    Type: Grant
    Filed: September 3, 2013
    Date of Patent: December 2, 2014
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventors: Michael J. Campbell, William L. Winstrom
  • Patent number: 8731682
    Abstract: In one embodiment, an external charging device for recharging an implanted medical device, comprises: a battery for powering the external charging device; a coil for radiating RF power; drive circuitry for driving the coil according to a duty cycle; circuitry for generating a signal that is indicative of an amount of current flowing through the coil; and control circuitry for controlling the drive circuitry, wherein the control circuitry is operable to process the signal from the circuitry for generating to detect when a coil of the implantable medical device temporarily ceases absorbing RF power, the control circuitry modifying the duty cycle in response to detection of the coil of the implantable medical device temporarily ceasing absorbing RF power.
    Type: Grant
    Filed: December 7, 2012
    Date of Patent: May 20, 2014
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventor: William L Winstrom
  • Publication number: 20140005495
    Abstract: Embodiments herein include an external system and method to detect an implanted lead coupled to an implanted neurostimulation device (INSD). The system and method comprise a handheld probe having electrodes configured to be positioned external to a surface of a patient and proximate to a region of the patient having the implanted lead for an implanted INSD. The electrodes are configured to measure a stimulation output from the implanted lead of the INSD. The system and method include a controller coupled to the electrodes to receive measured signals from the electrodes. The measured signals represent the stimulation output of the INSD. The controller processes the measured signals to obtain lead information. The system includes a user interface to present the lead information to a user. The lead information is indicative of at least one of an operation of the lead and a position of the lead.
    Type: Application
    Filed: September 3, 2013
    Publication date: January 2, 2014
    Applicant: Advanced Neuromodulation Systems, Inc.
    Inventors: Michael J. Campbell, William L. Winstrom
  • Patent number: 8543221
    Abstract: Embodiments herein include an external system and method to detect an implanted lead coupled to an implanted neurostimulation device (INSD). The system and method comprise a handheld probe having electrodes configured to be positioned external to a surface of a patient and proximate to a region of the patient having the implanted lead for an implanted INSD. The electrodes are configured to measure a stimulation output from the implanted lead of the INSD. The system and method include a controller coupled to the electrodes to receive measured signals from the electrodes. The measured signals represent the stimulation output of the INSD. The controller processes the measured signals to obtain lead information. The system includes a user interface to present the lead information to a user. The lead information is indicative of at least one of an operation of the lead and a position of the lead.
    Type: Grant
    Filed: August 28, 2012
    Date of Patent: September 24, 2013
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventors: Michael J. Campbell, William L. Winstrom
  • Publication number: 20130079848
    Abstract: Embodiments herein include an external system and method to detect an implanted lead coupled to an implanted neurostimulation device (INSD). The system and method comprise a handheld probe having electrodes configured to be positioned external to a surface of a patient and proximate to a region of the patient having the implanted lead for an implanted INSD. The electrodes are configured to measure a stimulation output from the implanted lead of the INSD. The system and method include a controller coupled to the electrodes to receive measured signals from the electrodes. The measured signals represent the stimulation output of the INSD. The controller processes the measured signals to obtain lead information. The system includes a user interface to present the lead information to a user. The lead information is indicative of at least one of an operation of the lead and a position of the lead.
    Type: Application
    Filed: August 28, 2012
    Publication date: March 28, 2013
    Inventors: Michael J. Campbell, William L. Winstrom
  • Patent number: 8332040
    Abstract: In one embodiment, an external charging device for recharging an implanted medical device, comprises: a battery for powering the external charging device; a coil for radiating RF power; drive circuitry for driving the coil according to a duty cycle; circuitry for generating a signal that is indicative of an amount of current flowing through the coil; and control circuitry for controlling the drive circuitry, wherein the control circuitry is operable to process the signal from the circuitry for generating to detect when a coil of the implantable medical device temporarily ceases absorbing RF power, the control circuitry modifying the duty cycle in response to detection of the coil of the implantable medical device temporarily ceasing absorbing RF power.
    Type: Grant
    Filed: March 10, 2009
    Date of Patent: December 11, 2012
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventor: William L. Winstrom
  • Patent number: 7782190
    Abstract: A wireless communication method and protocol, and wireless devices and systems for stimulation, are provided for communication between a wireless device and a charging device. During active wireless charging, communications (data transmission) from the wireless device to the charging device occurs via pulse loading the receive antenna of the receiving device. Because switching regulation in the receiving device may interfere with the communications, the switching regulation is disabled during a communications window. To further reduce the likelihood of misinterpretation of signals detected in the charging device resulting from the switching regulation or noise, the data bit rate of the pulse loading communications is maintained higher than the switching regulation frequency.
    Type: Grant
    Filed: March 20, 2007
    Date of Patent: August 24, 2010
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventors: Gregory R Martin, Gregg Turi, Marc Shanko, Rami Elghandour, Thomas Palma, William L Winstrom
  • Patent number: 7212110
    Abstract: A wireless communication method and protocol, and wireless devices and systems for stimulation, are provided for communication between a wireless device and a charging device. During active wireless charging, communications (data transmission) from the wireless device to the charging device occurs via pulse loading the receive antenna of the receiving device. Because switching regulation in the receiving device may interfere with the communications, the switching regulation is disabled during a communications window. To further reduce the likelihood of misinterpretation of signals detected in the charging device resulting from the switching regulation or noise, the data bit rate of the pulse loading communications is maintained higher than the switching regulation frequency.
    Type: Grant
    Filed: April 19, 2005
    Date of Patent: May 1, 2007
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventors: Gregory R. Martin, Gregg Turi, Marc Shanko, Rami Elghandour, Thomas Palma, William L. Winstrom
  • Patent number: 6605032
    Abstract: A controller module for an implantable pump system which has a pump motor includes a processor, a motor controller electrically coupled to the processor and adapted to power the pump motor such that the pump motor operates at a desired speed. The motor controller outputs digital representations of the pump motor operating parameters to the processor. A first memory device is coupled to the processor for storing the digital signals representing the pump motor operating parameters. The controller module further includes a user interface. The controller module may be coupled to a data acquisition system, which provides power and exchanges data with the controller module. The controller module may alternately be coupled to a home support system which provides power for the controller module and storage for system components.
    Type: Grant
    Filed: February 5, 2001
    Date of Patent: August 12, 2003
    Assignee: MicroMed Technology, Inc.
    Inventors: Robert J. Benkowski, Bryan E. Lynch, Gino F. Morello, William L. Winstrom
  • Publication number: 20030069465
    Abstract: A controller module for an implantable pump system which has a pump motor includes a processor, a motor controller electrically coupled to the processor and adapted to power the pump motor such that the pump motor operates at a desired speed. The motor controller outputs digital representations of the pump motor operating parameters to the processor. A first memory device is coupled to the processor for storing the digital signals representing the pump motor operating parameters. The controller module further includes a user interface. The controller module may be coupled to a data acquisition system, which provides power and exchanges data with the controller module. The controller module may alternately be coupled to a home support system which provides power for the controller module and storage for system components.
    Type: Application
    Filed: February 5, 2001
    Publication date: April 10, 2003
    Applicant: MicroMed Technology, Inc.
    Inventors: Robert J. Benkowski, Bryan E. Lynch, Gino F. Morello, William L. Winstrom
  • Publication number: 20010037093
    Abstract: A controller module for an implantable pump system which has a pump motor includes a processor, a motor controller electrically coupled to the processor and adapted to power the pump motor such that the pump motor operates at a desired speed. The motor controller outputs digital representations of the pump motor operating parameters to the processor. A first memory device is coupled to the processor for storing the digital signals representing the pump motor operating parameters. The controller module further includes a user interface. The controller module may be coupled to a data acquisition system, which provides power and exchanges data with the controller module. The controller module may alternately be coupled to a home support system which provides power for the controller module and storage for system components.
    Type: Application
    Filed: February 5, 2001
    Publication date: November 1, 2001
    Applicant: MicroMed Technology, Inc.
    Inventors: Robert J. Benkowski, Bryan E. Lynch, Gino F. Morello, William L. Winstrom
  • Patent number: 6183412
    Abstract: A controller module for an implantable pump system which has a pump motor includes a processor, a motor controller electrically coupled to the processor and adapted to power the pump motor such that the pump motor operates at a desired speed. The motor controller outputs digital representations of the pump motor operating parameters to the processor. A first memory device is coupled to the processor for storing the digital signals representing the pump motor operating parameters. The controller module further includes a user interface. The controller module may be coupled to a data acquisition system, which provides power and exchanges data with the controller module. The controller module may alternately be coupled to a home support system which provides power for the controller module and storage for system components.
    Type: Grant
    Filed: October 2, 1998
    Date of Patent: February 6, 2001
    Assignee: Micromed Technology, Inc.
    Inventors: Robert J. Benkowski, Bryan E. Lynch, Gino F. Morello, William L. Winstrom
  • Patent number: 6132362
    Abstract: A PEMF therapy system uses a bi-phasic coil PEMF transducer for generating PEMF stimulation signals. The coil has a "bi-phasic" operation, such that current flows through it in two directions. A drive circuit recovers the flyback energy from the transducer coil and dumps voltage to an energy recovery capacitance circuit. The transducer is thereby energized and de-energized to provide the electromagnetic field. The same concepts are applicable to series-connected coils. The transducer is especially suited for high frequency operation.
    Type: Grant
    Filed: March 2, 1998
    Date of Patent: October 17, 2000
    Assignee: AMEI Technologies, Inc.
    Inventors: John C. Tepper, Peter Kuo, William L. Winstrom
  • Patent number: 5743844
    Abstract: A PEMF stimulation therapy system uses a PEMF transducer coil for generating PEMF stimulation signals and includes a single-winding transducer coil. A drive circuit recovers flyback energy from the single-winding transducer coil and dumps the voltage to a voltage supply equal to a predetermined high voltage that differs from supply voltage. This permits sequencing the current through the PEMF transducer coil in a positive direction and then negative direction. The result is a PEMF stimulation therapy system that may use a commercially available, low-cost battery for power and that is significantly lighter and more portable than known PEMF stimulation therapy systems.
    Type: Grant
    Filed: November 1, 1996
    Date of Patent: April 28, 1998
    Assignee: AMEI Technologies, Inc.
    Inventors: John C. Tepper, Peter Kuo, Thomas M. Emge, William L. Winstrom
  • Patent number: 5235980
    Abstract: An implant for stimulating the vagus nerve receives commands over a radio frequency link. The implant disables a voltage convertor used in providing the stimulation signal at periodic intervals to monitor for communications attempts. The implant provides radio frequency marker pulses before providing stimulation signals of certain frequencies. During the providing of stimulation signals the implant monitors the voltage overhead present between the voltage source and the load and adjusts the overhead to a desired level. The implant changes the voltage applied to certain internal components during stimulation periods to allow full power operation during those intervals and reduced power levels at other intervals. The implant is reset by the placing a magnet in a given location in conjunction with the application of a radio frequency transmission for a given period.
    Type: Grant
    Filed: December 5, 1991
    Date of Patent: August 17, 1993
    Assignee: Cyberonics, Inc.
    Inventors: Anthony J. Varrichio, William L. Winstrom
  • Patent number: 5186170
    Abstract: An implant for stimulating the vagus nerve receives commands over a radio frequency link. The implant disables a voltage convertor used in providing the stimulation signal at periodic intervals to monitor for communications attempts. The implant provides radio frequency marker pulses before providing stimulation signals of certain frequencies. During the providing of stimulation signals the implant monitors the voltage overhead present between the voltage source and the load and adjusts the overhead to a desired level. The implant changes the voltage applied to certain internal components during stimulation periods to allow full power operation during those intervals and reduced power levels at other intervals. The implant is reset by the placing a magnet in a given location in conjunction with the application of a radio frequency transmission for a given period.
    Type: Grant
    Filed: December 5, 1991
    Date of Patent: February 16, 1993
    Assignee: Cyberonics, Inc.
    Inventors: Anthony J. Varrichio, William L. Winstrom, Henry Stanislaw
  • Patent number: 5154172
    Abstract: An implant for stimulating the vagus nerve receives commands over a radio frequency link. The communication protocol uses asynchronous communications devices with parity checking and echoing of communicated characters and passwords to improve communication error checking. The implant disables a voltage convertor used in providing the stimulation signal at periodic intervals to monitor for communications attempts. The implant provides radio frequency marker pulses before providing stimulation signals of certain frequencies. During the providing of stimulation signals the implant monitors the voltage overhead present between the voltage source and the load and adjusts the overhead to a desired level. The implant changes the voltage applied to certain internal components during stimulation periods to allow full power operation during those intervals and reduced power levels at other intervals.
    Type: Grant
    Filed: November 13, 1989
    Date of Patent: October 13, 1992
    Assignee: Cyberonics, Inc.
    Inventors: Reese F. Terry, Jr., Henry Stanislaw, Anthony J. Varrichio, William L. Winstrom
  • Patent number: 4800883
    Abstract: An apparatus suitable for use in an implantable automatic defibrillation system for automatically generating a multiphasic defibrillation pulse waveform in response to sensed fibrillation has first and second series charge-storing capacitors having a common terminal and two other terminals each at different potentials. A controller senses cardiac fibrillation and generates a control signal which causes a charging circuit to charge the capacitors to selected voltage levels in sequentially alternating charge generation and charge coupling cycles. A voltage level detector senses the stored voltage level, disables the charging circuit when the sensed voltage reaches a predetermined level, and informs the controller that the capacitors are fully charged.
    Type: Grant
    Filed: April 2, 1986
    Date of Patent: January 31, 1989
    Assignee: Intermedics, Inc.
    Inventor: William L. Winstrom
  • Patent number: 4745923
    Abstract: An electrical circuit is connected in series with a lead of an implantable heart pacemaker between the pacemaker and the heart to protect the pacemaker against high voltages and currents produced by defibrillators and other sources. The electrical circuit has a sensing resistor arranged between two normally conducting field effect transistors (FETs) all in electrical series with the pacemaker lead. When the voltage drop across the sensing resistor exceeds a predetermined positive or negative amplitude, a transistor becomes conductive and turns off the normal conduction channels of the FETs. An alternate, electrically conductive high-impedance path is switched in to limit the current flow to the pacemaker until the magnitude of the voltage across the sensing resistor drops to a safe level. The transistor then becomes non-conductive and the FETs become conductive re-establishing the normal low-impedance conduction path and effectively switching the alternate high-impedance path out of the circuit.
    Type: Grant
    Filed: November 20, 1985
    Date of Patent: May 24, 1988
    Assignee: Intermedics, Inc.
    Inventor: William L. Winstrom