Patents by Inventor William C. Phillips

William C. Phillips 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: 20250235760
    Abstract: A bag is described for carrying a set of golf clubs while playing golf and while traveling. The bag includes at least two panels, with each panel including a first face and an opposite second face. The first face includes sleeves for insertion of shafts of golf clubs together with repositionable stoppers for engaging the ends of the golf club shaft. In this way, the height that each of the golf clubs extends beyond the panels is set by the position of the stoppers. These at least two panels are connected in such a way so as to provide a playing mode with the first faces facing outward, thus providing access to the golf clubs, and so as to provide a travel mode with the first faces facing inward, thus protecting the golf clubs while travelling.
    Type: Application
    Filed: January 18, 2025
    Publication date: July 24, 2025
    Applicant: TROLF VENTURES LLC
    Inventors: William C. Phillips, Jerome Miles, Quinn Riley, Brayden Parady
  • Publication number: 20250235762
    Abstract: A bag is described for carrying a set of golf clubs while playing golf and while traveling. The bag includes at least two panels, each comprising a first face and an opposite second face. The first face includes sleeves for insertion of shafts of golf clubs. The at least two panels are connected so as to provide a playing mode with the first faces facing outward, thus providing access to the golf clubs. The at least two panels are also connected so as to provide a travel mode with the first faces facing inward, thus protecting the golf clubs while travelling. The bag also includes two suction grippers, each attached to at least one of the second faces. These suction grippers configured to attach the bag to a surface of a vehicle for transit.
    Type: Application
    Filed: January 18, 2025
    Publication date: July 24, 2025
    Applicant: TROLF VENTURES LLC
    Inventors: William C. Phillips, Jerome Miles, Quinn Riley, Brayden Parady
  • Publication number: 20250235763
    Abstract: A bag is described for carrying a set of golf clubs while playing golf and while traveling. The bag includes at least two panels, each with a first face and an opposite second face. The first face includes sleeves for insertion of shafts of golf clubs. The at least two panels are connected so as to provide a playing mode with the first faces facing outward, thus providing access to the golf clubs. They are also connected so as to provide a travel mode with the first faces facing inward, thus protecting the golf clubs while travelling. The bag also includes a cover for covering the end of the bag and heads of the golf clubs when in the travel mode. This cover includes wheels. Consequently, when the bag is vertically inverted, the wheels allow the bag to be pushed and pulled by a user.
    Type: Application
    Filed: January 18, 2025
    Publication date: July 24, 2025
    Applicant: TROLF VENTURES LLC
    Inventors: William C. Phillips, Jerome Miles, Quinn Riley, Brayden Parady
  • Publication number: 20250235759
    Abstract: A bag for carrying a set of golf clubs while playing golf and while traveling. The bag includes first, second, third and fourth panels. Each panel has a middle section with first and second opposing faces, and with first and second opposite sides edges; a first wing section extending at a first angle from the first side edge of each panel; and a second wing section extending at a second angle from the second side edge of each panel. A first hinge connects the second wing section of the first panel to the first wing section of the second panel. A second hinge connects the second wing section of the second panel to the first wing section of the third panel. A third hinge connects the second wing section of the third panel to the first wing section of the fourth panel. At least one closure releasably connects the first wing section of the first panel to the second wing section of the fourth panel.
    Type: Application
    Filed: January 18, 2025
    Publication date: July 24, 2025
    Applicant: TROLF VENTURES LLC
    Inventors: William C. Phillips, Jerome Miles, Quinn Riley, Brayden Parady
  • Publication number: 20250235761
    Abstract: A bag is described for carrying a set of golf clubs while playing golf and while traveling. The bag includes at least one golf club holding panel with a first face and an opposite second face, the first face comprising sleeves for insertion of shafts of golf clubs. The bag also includes an accessory holding panel with a third face and an opposite fourth face, the third face configured for releasable connection of golf accessories. The at least one golf club holding panel and the accessory holding panel are connected so as to provide a playing mode with the first face and third face facing outward, thus providing access to the golf clubs and access to the golf accessories. They are also connected so as to provide a travel mode with the first face and the third face facing inward, to thus protecting the golf clubs and golf accessories while travelling.
    Type: Application
    Filed: January 18, 2025
    Publication date: July 24, 2025
    Applicant: TROLF VENTURES LLC
    Inventors: William C. Phillips, Jerome Miles, Quinn Riley, Brayden Parady
  • Publication number: 20240145108
    Abstract: A temperature-controlled irradiation system may include an outer containment and a sealed capsule disposed within the outer containment. The sealed capsule may be configured to contain a testing material within the sealed capsule. The system may further include a temperature sensor disposed within the sealed capsule. The temperature sensor may be configured to measure a temperature of the testing material. A pressure sensor may be disposed within the sealed capsule. The pressure sensor may be configured to measure an internal pressure of the sealed capsule. The system may include a heater disposed within the sealed capsule. The heater may be configured to control the temperature of the testing material. The heater may be immersed within the testing material. A gas gap is provided between the sealed capsule and the outer containment. The gas gap may be configured to control thermal conductivity between the sealed capsule and the outer containment.
    Type: Application
    Filed: November 2, 2023
    Publication date: May 2, 2024
    Inventors: Calvin M. Downey, Abdalla Abou Jaoude, William C. Phillips, Chuting Tan Tsai, Gregory M. Core, Stacey M. Wilson, SuJong Yoon, Kim B. Davies
  • Patent number: 11752350
    Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.
    Type: Grant
    Filed: December 21, 2020
    Date of Patent: September 12, 2023
    Assignee: MEDTRONIC, INC.
    Inventors: David P. Olson, William C. Phillips, Garrett R. Sipple, Yu Wang
  • Patent number: 11742959
    Abstract: Disclosed is a system for reducing or eliminating interference during communication. Disclosed is a system to position an implantable medical device at an orientation or position to reduce or eliminate interference. Therefore, a communication may be maintained with the IMD over a selected period of time.
    Type: Grant
    Filed: August 25, 2021
    Date of Patent: August 29, 2023
    Assignee: Medtronic, Inc.
    Inventors: William C. Phillips, Andrew L. Schmeling
  • Publication number: 20230069569
    Abstract: Disclosed is a system for reducing or eliminating interference during communication. Disclosed is a system to position an implantable medical device at an orientation or position to reduce or eliminate interference. Therefore, a communication may be maintained with the IMD over a selected period of time.
    Type: Application
    Filed: August 25, 2021
    Publication date: March 2, 2023
    Inventors: William C. PHILLIPS, Andrew L. SCHMELING
  • Patent number: 11318250
    Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.
    Type: Grant
    Filed: June 24, 2019
    Date of Patent: May 3, 2022
    Assignee: Medtronic, Inc.
    Inventors: David P. Olson, William C. Phillips, Andrew L. Schmeling
  • Publication number: 20210106835
    Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.
    Type: Application
    Filed: December 21, 2020
    Publication date: April 15, 2021
    Inventors: David P. Olson, William C. Phillips, Garrett R. Sipple, Yu Wang
  • Patent number: 10888703
    Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.
    Type: Grant
    Filed: December 11, 2018
    Date of Patent: January 12, 2021
    Assignee: MEDTRONIC, INC.
    Inventors: David P. Olson, William C. Phillips, Garrett R. Sipple, Yu Wang
  • Publication number: 20190358395
    Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.
    Type: Application
    Filed: June 24, 2019
    Publication date: November 28, 2019
    Inventors: David P. Olson, William C. Phillips, Andrew L. Schmeling
  • Patent number: 10369275
    Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.
    Type: Grant
    Filed: October 16, 2017
    Date of Patent: August 6, 2019
    Assignee: Medtronic, Inc.
    Inventors: David P. Olson, William C. Phillips, Andrew L. Schmeling
  • Patent number: 10335603
    Abstract: Medical devices include stimulation and/or sensing circuitry that is interconnected to electrical components by a flexible circuit body having exposed portions of circuit traces that are attached to electrical contacts of the electrical components. Each circuit trace may span a separate window formed in an insulative body of the flexible circuit body, or a plurality of circuit traces may span a single window or may be freely extending from the insulative body. The exposed portion of the circuit trace may be plated with a conductive metal and then attached to the electrical contact of the electrical component. The flexible circuit body may be an extension from a flexible electrical circuit board containing the circuit. The circuit may be present on a circuit board that includes electrical contacts and where the flexible circuit body has exposed portions of circuit traces attached to the electrical contacts of the circuit board.
    Type: Grant
    Filed: July 23, 2016
    Date of Patent: July 2, 2019
    Assignee: MEDTRONIC, INC.
    Inventors: Gerald G. Lindner, William C. Phillips, Dominique Piguet, Daniel T. Pyne, Micah A. Litow, James Strom, Mark G. Wosmek
  • Publication number: 20190115793
    Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.
    Type: Application
    Filed: December 11, 2018
    Publication date: April 18, 2019
    Inventors: David P. Olson, William C. Phillips, Garrett R. Sipple, Yu Wang
  • Patent number: 10177609
    Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.
    Type: Grant
    Filed: July 14, 2017
    Date of Patent: January 8, 2019
    Assignee: MEDTRONIC, INC.
    Inventors: David P. Olson, William C. Phillips, Garrett R. Sipple, Yu Wang
  • Publication number: 20180036477
    Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.
    Type: Application
    Filed: October 16, 2017
    Publication date: February 8, 2018
    Inventors: David P. Olson, William C. Phillips, Andrew L. Schmeling
  • Patent number: 9887648
    Abstract: A variable frequency motor drive comprises a converter including a rectifier having an input for connection to an AC power source and converting the AC power to DC power. A DC bus is connected to the rectifier circuit. At least one bus capacitor is across the DC bus. An inverter receives DC power from the DC bus and converts the DC power to AC power to drive a motor. A controller is operatively connected to the converter. The controller comprises a speed control controlling the inverter responsive to a speed command to maintain a desired motor speed. A speed foldback control measures DC bus ripple voltage and regulates the speed command responsive to the measured DC bus ripple voltage.
    Type: Grant
    Filed: October 31, 2013
    Date of Patent: February 6, 2018
    Assignee: Yaskawa America, Inc.
    Inventors: Joseph Raymond Pottebaum, John Alan Cairo, Brian W. Geoffrey, William C. Phillips
  • Patent number: 9821112
    Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.
    Type: Grant
    Filed: September 12, 2016
    Date of Patent: November 21, 2017
    Assignee: MEDTRONIC, INC.
    Inventors: David P. Olson, William C. Phillips, Andrew L. Schmeling