Patents by Inventor Raymond B. Sepe

Raymond B. Sepe 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: 20240253479
    Abstract: A system to deliver power to a load in a transport vehicle has: (a) a battery; (b) a super capacitor bank; (c) a bidirectional DC/DC converter configured to transfer power to/from the super capacitors in order to absorb/supply power from/to the load, and configured to transfer power between the super capacitors and the battery and/or the load in order to charge the super capacitor from the battery or load or charge the battery/load from the super capacitors in a controlled way (d) a hybrid controller configured to identify when pulsed power is required to/from the load, and based on a charging pulse profile, supplying a plurality positive and/or negative current pulses to the battery.
    Type: Application
    Filed: April 8, 2024
    Publication date: August 1, 2024
    Inventor: RAYMOND B SEPE, JR.
  • Publication number: 20240216751
    Abstract: Unlike prior art systems that utilize a trainer who manually sets the user's device parameters such as speed, resistance, and incline to track the parameters of the trainer's device such as the trainer's device speed and, resistance, and incline; the disclosed novel system automatically controls the user's device parameters so that the physiological state of the user (e.g., the user's heart rate) tracks the physiological state of the trainer (e.g., the trainer's heart rate). Disclosed are physiological sensors that measure various biological conditions of the trainer and on the user and adds an immersion controller into the user's system that essentially uses the exercise devices as actuators that are adjusted in order to keep the user's physiological state tracking the trainer's physiological state.
    Type: Application
    Filed: December 29, 2022
    Publication date: July 4, 2024
    Inventor: RAYMOND B. SEPE, JR.
  • Publication number: 20240216758
    Abstract: Disclosed are sensors that measure various both biological conditions and mental conditions of the trainer and on the user and adds an immersion controller into the user's system that essentially uses the exercise devices as actuators that are adjusted in order to keep both the user's physiological state and mental state tracking the trainer's physiological state and mental state.
    Type: Application
    Filed: December 29, 2022
    Publication date: July 4, 2024
    Inventor: RAYMOND B. SEPE, JR.
  • Patent number: 11951849
    Abstract: Disclosed is a system configured to deliver power to a load in a transport vehicle, the system having: (a) a battery; (b) a super capacitor bank; (c) a bidirectional DC/DC converter configured to transfer power to/from the super capacitors in order to absorb/supply power from/to the load, and configured to transfer power between the super capacitors and the battery and/or the load in order to charge the super capacitor from the battery or load or charge the battery/load from the super capacitors in a controlled way (d) a hybrid controller, the hybrid controller configured to identify when pulsed power is required to/from the load and instructing the DC/DC converter to supply/absorb power to/from the load from/to the super capacitor bank and to identify when power needs to be transferred between the super capacitor and the battery/load to charge or discharge the battery/load and/or super capacitor.
    Type: Grant
    Filed: July 20, 2021
    Date of Patent: April 9, 2024
    Assignee: Electro Standards Laboratories
    Inventor: Raymond B Sepe, Jr.
  • Patent number: 11940765
    Abstract: Disclosed within is a closed loop controller having: (a) a signal processing and statistics subsystem sampling an input data stream from at least one sensor, calculating real-time continuous statistics in the input data stream based on a sliding window technique, and outputting one or more classifications based on the real-time statistics; and (b) an intelligent fuzzy logic controller receiving the one or more classifications from the signal processing and statistics subsystem, accessing a heuristic rule set based on expert knowledge, and outputting a noninvasive stimulation pattern based on the one or more classifications and the heuristic rule set.
    Type: Grant
    Filed: April 16, 2020
    Date of Patent: March 26, 2024
    Assignee: Electro Standards Laboratories
    Inventors: Brandon M Sepe, Raymond B Sepe, Jr., Steven P Bastien
  • Publication number: 20230022717
    Abstract: Disclosed is a system configured to deliver power to a load in a transport vehicle, the system having: (a) a battery; (b) a super capacitor bank; (c) a bidirectional DC/DC converter configured to transfer power to/from the super capacitors in order to absorb/supply power from/to the load, and configured to transfer power between the super capacitors and the battery and/or the load in order to charge the super capacitor from the battery or load or charge the battery/load from the super capacitors in a controlled way (d) a hybrid controller, the hybrid controller configured to identify when pulsed power is required to/from the load and instructing the DC/DC converter to supply/absorb power to/from the load from/to the super capacitor bank and to identify when power needs to be transferred between the super capacitor and the battery/load to charge or discharge the battery/load and/or super capacitor.
    Type: Application
    Filed: July 20, 2021
    Publication date: January 26, 2023
    Inventor: RAYMOND B SEPE, JR.
  • Patent number: 11537118
    Abstract: The design of a novel digital controller for a motor driven aircraft arrestment system of the type used on aircraft carriers is described. The unique control and feedback design of the described controller has many advanced features, which provide many advantages over existing designs for controlling advanced arresting gear systems. Gain scheduling in engage/arrest controllers can be done based on estimated parameters such as speed, effective skew angle, and faults to allow optimized engage/arrest controllers, where the gain scheduling can be defined, discretely, for each “bin” as defined for a range of threshold values, or it can be defined, continuously, using interpolation and/or functions of speed and effective skew. Particularly, controller design gain values Kci and Kfi are picked to shape control loop transfer functions and dampen resonances in the aircraft arrestment system.
    Type: Grant
    Filed: July 9, 2021
    Date of Patent: December 27, 2022
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Yacine Boudria, Steven Bastien
  • Patent number: 11387755
    Abstract: A control system is described that is connected to an advanced arresting gear system. The control system has: (a) an outer control loop; (b) a first inner control loop associated with a port-side motor current controller for outputting a voltage command for controlling a port side motor that controls a port side of an arrestment cable; (c) a second inner control loop associated with a starboard-side motor current controller outputting a second voltage command for controlling a starboard side motor that controls the starboard side of the arrestment cable. Each of the port-side motor current controller and the starboard-side motor controller comprises: a positive sequence controller, at least one negative sequence controller, one or more delay state feedback to counter control loop delays, wherein the delay state feedback provides high bandwidth, low current overshoot, small current rise time and good current stability margins.
    Type: Grant
    Filed: January 11, 2021
    Date of Patent: July 12, 2022
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Steven Bastien
  • Publication number: 20210325836
    Abstract: Disclosed within is a closed loop controller having: (a) a signal processing and statistics subsystem sampling an input data stream from at least one sensor, calculating real-time continuous statistics in the input data stream based on a sliding window technique, and outputting one or more classifications based on the real-time statistics; and (b) an intelligent fuzzy logic controller receiving the one or more classifications from the signal processing and statistics subsystem, accessing a heuristic rule set based on expert knowledge, and outputting a noninvasive stimulation pattern based on the one or more classifications and the heuristic rule set.
    Type: Application
    Filed: April 16, 2020
    Publication date: October 21, 2021
    Inventors: BRANDON M. SEPE, RAYMOND B. SEPE, JR., STEVEN BASTIEN
  • Patent number: 11063541
    Abstract: The design of a novel digital controller for a motor driven aircraft arrestment system of the type used on aircraft carriers is described. The unique control and feedback design of the described controller has many advanced features, which provide many advantages over existing designs for controlling advanced arresting gear systems. Gain scheduling in engage/arrest controllers can be done based on estimated parameters such as speed, effective skew angle, and faults to allow optimized engage/arrest controllers, where the gain scheduling can be defined, discretely, for each “bin” as defined for a range of threshold values, or it can be defined, continuously, using interpolation and/or functions of speed and effective skew.
    Type: Grant
    Filed: November 26, 2019
    Date of Patent: July 13, 2021
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Yacine Boudria, Steven Bastien
  • Patent number: 11021258
    Abstract: The design of a novel digital controller for a motor driven aircraft arrestment system of the type used on aircraft carriers is described. The unique control and feedback design of the described controller has many advanced features, which provide many advantages over existing designs for controlling advanced arresting gear systems. Also described is a trajectory generator subsystem which provides the port and starboard side speed and position references used by both an engage phase controller and/or an arrest phase controller of the aircraft arrestment system.
    Type: Grant
    Filed: November 26, 2019
    Date of Patent: June 1, 2021
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Yacine Boudria, Steven Bastien
  • Patent number: 10978977
    Abstract: A method (as implemented in a current controller) is provided for higher bandwidth operation based on minimized interference between positive and negative components of a current controller, where the method may be performed without additional filtering on measured currents to isolate positive and negative current components. The method involves: identifying one or more error signals operated on by a positive sequence controller; transforming the one or more error signals into at least one negative sequence reference frame associated with at least one negative sequence controller; inputting transformed error signals to the negative sequence controller, where undesirable interactions between the positive sequence controller and negative sequence controller is minimized by sharing error signals.
    Type: Grant
    Filed: July 8, 2019
    Date of Patent: April 13, 2021
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Steven Bastien
  • Patent number: 10978976
    Abstract: A current controller is provided having a positive sequence controller and at least one negative sequence controller, where one or more error signals operated on by the positive sequence controller are transformed into at least one sequence reference frame and input to the at least one negative sequence controller with at least one targeted harmonic set by a harmonic factor value.
    Type: Grant
    Filed: July 8, 2019
    Date of Patent: April 13, 2021
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Steven Bastien
  • Patent number: 10890905
    Abstract: The design of a novel digital controller for a motor driven aircraft arrestment system of the type used on aircraft carriers is described. The unique control and feedback design of the described controller has many advanced features, which provide many advantages over existing designs for controlling advanced arresting gear systems.
    Type: Grant
    Filed: July 8, 2019
    Date of Patent: January 12, 2021
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Yacine Boudria, Steven Bastien
  • Patent number: 10892694
    Abstract: A control system is described that is connected to an advanced arresting gear system. The control system has: (a) an outer control loop; (b) a first inner control loop associated with a port-side motor current controller for outputting a voltage command for controlling a port side motor that controls a port side of an arrestment cable; (c) a second inner control loop associated with a starboard-side motor current controller outputting a second voltage command for controlling a starboard side motor that controls the starboard side of the arrestment cable. Each of the port-side motor current controller and the starboard-side motor controller comprises: a positive sequence controller, at least one negative sequence controller, one or more delay state feedback to counter control loop delays, wherein the delay state feedback provides high bandwidth, low current overshoot, small current rise time and good current stability margins.
    Type: Grant
    Filed: July 8, 2019
    Date of Patent: January 12, 2021
    Assignee: Electro Standards Laboratories
    Inventors: Raymond B Sepe, Jr., Steven Bastien
  • Publication number: 20190334462
    Abstract: A current controller is provided having a positive sequence controller and at least one negative sequence controller, where one or more error signals operated on by the positive sequence controller are transformed into at least one sequence reference frame and input to the at least one negative sequence controller with at least one targeted harmonic set by a harmonic factor value.
    Type: Application
    Filed: July 8, 2019
    Publication date: October 31, 2019
    Inventors: RAYMOND B. SEPE, JR., STEVEN BASTIEN
  • Publication number: 20190334463
    Abstract: A method (as implemented in a current controller) is provided for higher bandwidth operation based on minimized interference between positive and negative components of a current controller, where the method may be performed without additional filtering on measured currents to isolate positive and negative current components. The method involves: identifying one or more error signals operated on by a positive sequence controller; transforming the one or more error signals into at least one negative sequence reference frame associated with at least one negative sequence controller; inputting transformed error signals to the negative sequence controller, where undesirable interactions between the positive sequence controller and negative sequence controller is minimized by sharing error signals.
    Type: Application
    Filed: July 8, 2019
    Publication date: October 31, 2019
    Inventors: RAYMOND B. SEPE, JR., STEVEN BASTIEN
  • Patent number: 10348229
    Abstract: A current controller is provided having a positive sequence controller and a negative sequence controller, where error signals operated on by the positive sequence controller are transformed into a negative sequence reference frame and input to the negative sequence controller. A current controller is also provided having a positive sequence controller, a negative sequence controller, and one or more delay state feedbacks to counter control loop delays, where the delay state feedbacks provide high bandwidth, low current overshoot, small current rise time and good current stability margins. A current controller is also disclosed having a positive sequence controller, a negative sequence controller, and one or more cross coupled gains between a d-axis and a q-axis, where the cross coupled gains are proportional to the speed of a motor associated with the current controller.
    Type: Grant
    Filed: August 13, 2015
    Date of Patent: July 9, 2019
    Assignee: ELECTRO STANDARDS LABORATORIES
    Inventors: Raymond B Sepe, Jr., Steven Bastien
  • Patent number: 10333319
    Abstract: A hybrid system modifies a control algorithm such that the super-capacitor can not only supply pulsed power, but it now can also absorb pulsed power from the load while keeping the battery current constant such that the incoming pulsed power does not stress the battery. The absorbed energy is accumulated in the capacitor and then the control algorithm operates the DC/DC converter to recharge the battery with the energy from the capacitor at a rate that optimized battery performance. If the load supplies energy to the hybrid system such that the current into the battery is within its optimal operating range, then the load is permitted to directly charge the battery.
    Type: Grant
    Filed: January 29, 2018
    Date of Patent: June 25, 2019
    Assignee: ELECTRO STANDARDS LABORATORIES
    Inventors: Raymond B Sepe, Jr., Kyle Waterman
  • Publication number: 20180166892
    Abstract: A hybrid system modifies a control algorithm such that the super-capacitor can not only supply pulsed power, but it now can also absorb pulsed power from the load while keeping the battery current constant such that the incoming pulsed power does not stress the battery. The absorbed energy is accumulated in the capacitor and then the control algorithm operates the DC/DC converter to recharge the battery with the energy from the capacitor at a rate that optimized battery performance. If the load supplies energy to the hybrid system such that the current into the battery is within its optimal operating range, then the load is permitted to directly charge the battery.
    Type: Application
    Filed: January 29, 2018
    Publication date: June 14, 2018
    Inventors: Raymond B. Sepe, JR., Kyle Waterman