Patents by Inventor Stephen E. Williams
Stephen E. Williams 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).
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Publication number: 20240151763Abstract: A device having a pulse catching function for detecting fault test pulses in an electrical power distribution network in response to a fault. The device includes one or more sensors for measuring current and/or voltage, where the device detects the pulses by loss of voltage followed by identifying one or more of a peak current magnitude of the pulses being greater than a predetermined current value, a pulse duration of the pulses being greater than a predetermined time, a predetermined interval between consecutive pulses and a presence of a pulse/inverse pulse sequence.Type: ApplicationFiled: October 9, 2023Publication date: May 9, 2024Applicant: S&C Electric CompanyInventors: Stephen E. Williams, Martin T. Bishop, Michael John Meisinger, SR.
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Publication number: 20240101316Abstract: A storage container system includes rolling toolbox, a storage container, a storage bin, and a storage container assembly. Various aspects relate to a storage container including at least one sidewall extending from a base, the sidewall at least partially defining an outer wall of an interior compartment. A lid is coupled to the sidewall and movable between an open position and a closed position. The interior compartment is accessible while the lid is in the open position, and the interior compartment is covered while the lid is in the closed position.Type: ApplicationFiled: December 6, 2023Publication date: March 28, 2024Inventors: J. Porter Whitmire, J. Luke Jenkins, Stephen A. Hughett, Brianna E. Williams, Tyler H. Knight, Jeffrey Groves, Austin Clark
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Patent number: 11936181Abstract: A system and method for identifying an earth fault in a resonant grounded medium voltage network that employs a REFCL compensation system. The method derives a zero-sequence real power from a phase voltage to ground on each phase and a current on each phase and aligns the zero-sequence real power in time with a magnitude of a zero-sequence voltage provided by the REFCL compensation system. The method determines when the zero-sequence real power and the zero-sequence voltage exceed predetermined thresholds. The method delays the magnitude of the zero-sequence voltage for a predetermined period of time when the zero-sequence voltage exceeds the threshold and determines that the fault is occurring when both the time aligned zero-sequence real power exceeds the threshold and the magnitude of the zero-sequence voltage exceeds the threshold for the predetermined period of time at the same time.Type: GrantFiled: June 8, 2022Date of Patent: March 19, 2024Assignee: S&C Electric CompanyInventors: Stephen E. Williams, Martin T. Bishop, David Klein
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Patent number: 11817702Abstract: A power restoration system for restoring power to feeder segments in response to a fault. The system includes a reclosing device having a switch and one or more sensors for measuring current and/or voltage on the feeder, where the reclosing device performs a pulse testing process to determine circuit fault conditions. The system also includes a plurality of switching devices electrically coupled along the feeder, where each switching device includes a section switch and one or more sensors for measuring current and/or voltage on the at least one feeder. In one embodiment, each switching device recognizes predetermined pulse codes having a sequence of pulses, where the reclosing device uses the pulse testing process to generate and selectively transmit defined pulse codes on the feeder that selectively cause the section switches to change states between an open state and a closed state depending on the code.Type: GrantFiled: February 25, 2021Date of Patent: November 14, 2023Assignee: S&C Electric CompanyInventors: Martin T Bishop, Stephen E Williams, Michael John Meisinger, Sr.
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Patent number: 11670471Abstract: A method for performing a low energy pulse testing in a power distribution network that causes contacts to close and then open in about one fundamental frequency cycle of current flow time and close on a voltage waveform that produces symmetrical fault current. The method includes energizing a magnetic actuator to move the actuator against the bias of a spring to move a movable contact towards a fixed contact. The method also includes de-energizing the actuator when the movable contact makes contact with the fixed contact so as to allow the spring to move the movable contact away from the fixed contact so that the amount of time that the current conducts is about one fundamental frequency cycle of the current, where energizing the magnetic actuator occurs when an applied voltage on the switch assembly is at a peak of the voltage wave so that the current is symmetric.Type: GrantFiled: April 4, 2022Date of Patent: June 6, 2023Assignee: S&C Electric CompanyInventors: David G Porter, Stephen E Williams, Peter J Meyer, Martin T Bishop, Thomas J Dyer, Andrew B Berman, Joseph W Milton, Lauren Abramczyk
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Publication number: 20230056065Abstract: A system and method for identifying an earth fault in a resonant grounded medium voltage network that employs a REFCL compensation system. The method derives a zero-sequence real power from a phase voltage to ground on each phase and a current on each phase and aligns the zero-sequence real power in time with a magnitude of a zero-sequence voltage provided by the REFCL compensation system. The method determines when the zero-sequence real power and the zero-sequence voltage exceed predetermined thresholds. The method delays the magnitude of the zero-sequence voltage for a predetermined period of time when the zero-sequence voltage exceeds the threshold and determines that the fault is occurring when both the time aligned zero-sequence real power exceeds the threshold and the magnitude of the zero-sequence voltage exceeds the threshold for the predetermined period of time at the same time.Type: ApplicationFiled: June 8, 2022Publication date: February 23, 2023Applicant: S&C Electric CompanyInventors: Stephen E. Williams, Martin T. Bishop, David Klein
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Publication number: 20230052174Abstract: An electrical power network employing fault location, isolation and system restoration. The system includes a plurality of switching devices electrically coupled along a power line downstream of a fault interrupting device. The switching devices each have current and voltage sensing capability and the capability to provide pulse tests for detecting fault presence. The fault interrupting device performs reclosing operations, and when the plurality of switching devices detect fault presence a predetermined number of times in coordination with reclosing operations performed by the fault interrupting device and detect loss of voltage, each switching device opens. The fault interrupting device closes when the switching devices open, and the switching devices sequentially pulse test and close from a furthest upstream switching device when detecting return of voltage and no fault presence until a switching device closest to the fault pulse tests and detects fault presence and locks open.Type: ApplicationFiled: June 30, 2022Publication date: February 16, 2023Applicant: S&C Electric CompanyInventors: Michael John Meisinger, Sr., Martin T. Bishop, Stephen E. Williams
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Publication number: 20220271527Abstract: A system and method for determining when an electronic interrupting device will open in response to detecting overcurrent, where the interrupting device protects a transformer in a power distribution network. The method includes obtaining a time/current through fault protection curve that is defined by a plurality of time/current points for the transformer that identifies when the transformer may experience thermal or mechanical damage in response to a certain current flow over a certain time in the transformer windings, selecting a time multiplier, and determining an operating curve for the interrupting device by multiplying the multiplier and a time portion of each of the plurality of time/current points on the through fault protection curve, where the operating curve identifies when the interrupting device will open in response to a certain current flow over a certain time.Type: ApplicationFiled: February 22, 2022Publication date: August 25, 2022Applicant: S&C Electric CompanyInventors: Martin T. Bishop, Stephen E. Williams, Marcelo Perez
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Publication number: 20220230825Abstract: A method for performing a low energy pulse testing in a power distribution network that causes contacts to close and then open in about one fundamental frequency cycle of current flow time and close on a voltage waveform that produces symmetrical fault current. The method includes energizing a magnetic actuator to move the actuator against the bias of a spring to move a movable contact towards a fixed contact. The method also includes de-energizing the actuator when the movable contact makes contact with the fixed contact so as to allow the spring to move the movable contact away from the fixed contact so that the amount of time that the current conducts is about one fundamental frequency cycle of the current, where energizing the magnetic actuator occurs when an applied voltage on the switch assembly is at a peak of the voltage wave so that the current is symmetric.Type: ApplicationFiled: April 4, 2022Publication date: July 21, 2022Applicant: S&C Electric CompanyInventors: David G. Porter, Stephen E. Williams, Peter J. Meyer, Martin T. Bishop, Thomas J. Dyer, Andrew B. Berman, Joseph W. Milton, Lauren Abramczyk
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Patent number: 11328885Abstract: A method for performing a low energy pulse testing in a power distribution network that causes contacts to close and then open in about one fundamental frequency cycle of current flow time and close on a voltage waveform that produces symmetrical fault current. The method includes energizing a magnetic actuator to move the actuator against the bias of a spring to move a movable contact towards a fixed contact. The method also includes de-energizing the actuator when the movable contact makes contact with the fixed contact so as to allow the spring to move the movable contact away from the fixed contact so that the amount of time that the current conducts is about one fundamental frequency cycle of the current, where energizing the magnetic actuator occurs when an applied voltage on the switch assembly is at a peak of the voltage wave so that the current is symmetric.Type: GrantFiled: December 1, 2020Date of Patent: May 10, 2022Assignee: S&C Electric CompanyInventors: David G Porter, Stephen E Williams, Peter J Meyer, Martin T Bishop, Thomas J Dyer, Andrew B Berman, Joseph W Milton, Lauren Abramczyk
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Publication number: 20210273451Abstract: A power restoration system for restoring power to feeder segments in response to a fault. The system includes a reclosing device having a switch and one or more sensors for measuring current and/or voltage on the feeder, where the reclosing device performs a pulse testing process to determine circuit fault conditions. The system also includes a plurality of switching devices electrically coupled along the feeder, where each switching device includes a section switch and one or more sensors for measuring current and/or voltage on the at least one feeder. In one embodiment, each switching device recognizes predetermined pulse codes having a sequence of pulses, where the reclosing device uses the pulse testing process to generate and selectively transmit defined pulse codes on the feeder that selectively cause the section switches to change states between an open state and a closed state depending on the code.Type: ApplicationFiled: February 25, 2021Publication date: September 2, 2021Applicant: S&C Electric CompanyInventors: Martin T. Bishop, Stephen E. Williams, Michael John Meisinger, SR.
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Patent number: 11063450Abstract: An energy storage system comprising a main bus, a transfer bus, and a pair of anti-parallel thyristors electrically coupled to the main bus and the transfer bus. The system also includes a first and second group of battery cells electrically coupled to the main bus and the transfer bus, and a switching network including a plurality of switches that selectively connect the first and second groups of battery cells to the main bus and the transfer bus. A controller controls the position of the switches and a bias voltage applied to the first and second thyristors so as to seamlessly transition power from the first group of battery cells to the second group of battery cells when the group of battery cells are being discharged and seamlessly transition power between the first group of battery cells and the second group of battery cells when the battery cells are being charged.Type: GrantFiled: May 7, 2019Date of Patent: July 13, 2021Assignee: S&C Electric CompanyInventors: Stephen E Williams, David G Porter
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Publication number: 20210175033Abstract: A method for performing a low energy pulse testing in a power distribution network that causes contacts to close and then open in about one fundamental frequency cycle of current flow time and close on a voltage waveform that produces symmetrical fault current. The method includes energizing a magnetic actuator to move the actuator against the bias of a spring to move a movable contact towards a fixed contact. The method also includes de-energizing the actuator when the movable contact makes contact with the fixed contact so as to allow the spring to move the movable contact away from the fixed contact so that the amount of time that the current conducts is about one fundamental frequency cycle of the current, where energizing the magnetic actuator occurs when an applied voltage on the switch assembly is at a peak of the voltage wave so that the current is symmetric.Type: ApplicationFiled: December 1, 2020Publication date: June 10, 2021Applicant: S&C Electric CompanyInventors: David G. Porter, Stephen E. Williams, Peter J. Meyer, Martin T. Bishop, Thomas J. Dyer, Andrew B. Berman, Joseph W. Milton, Lauren Abramczyk
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Patent number: 10868425Abstract: A method for detecting a voltage disturbance in a utility having a micro-grid. The method transforms current and voltage measurements into first and second voltage values and first and second current values in a stationary reference frame, and transforms the first and second voltage values and the first and second current values to third and fourth voltage values and third and fourth current values in a rotating reference frame, where the third voltage value defines an average magnitude of the three-phase power signals. The method multiplies the third current value by the third voltage value to obtain an instantaneous power value and multiplies the fourth current value by the third voltage value to obtain an instantaneous volt-ampere reactive (VAR) value. The method opens the switch if the VAR value has a magnitude above a predetermined value and a direction indicating the fault is outside of the micro-grid in the network.Type: GrantFiled: May 28, 2020Date of Patent: December 15, 2020Assignee: S&C Electric CompanyInventors: David Glenn Porter, Stephen E. Williams
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Publication number: 20200389030Abstract: A method for detecting a voltage disturbance in a utility having a micro-grid. The method transforms current and voltage measurements into first and second voltage values and first and second current values in a stationary reference frame, and transforms the first and second voltage values and the first and second current values to third and fourth voltage values and third and fourth current values in a rotating reference frame, where the third voltage value defines an average magnitude of the three-phase power signals. The method multiplies the third current value by the third voltage value to obtain an instantaneous power value and multiplies the fourth current value by the third voltage value to obtain an instantaneous volt-ampere reactive (VAR) value. The method opens the switch if the VAR value has a magnitude above a predetermined value and a direction indicating the fault is outside of the micro-grid in the network.Type: ApplicationFiled: May 28, 2020Publication date: December 10, 2020Applicant: S&C Electric CompanyInventors: David Glenn Porter, Stephen E. Williams
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Publication number: 20200259332Abstract: A system and method for selectively connecting loads in a power system network, where the loads are coupled to a number of lateral lines and the lateral lines are coupled to a feeder line, when the feeder line is disconnected from an electrical grid as a result of voltage outside of a predetermined range. Each lateral line includes a switching device positioned where the lateral line connects to the feeder line, where each switching device is provided with a timing control to switch on or off the switching device with a delay time. When the network is disconnected from the electrical grid, the switching devices detect the voltage being outside of the predetermined range and then open. When power sources in the network are returned to service the network, the switching devices detect that voltage is within the predetermined range and are closed based on a certain predetermined delay.Type: ApplicationFiled: January 13, 2020Publication date: August 13, 2020Applicant: S&C Electric CompanyInventors: Martin T Bishop, Stephen E Williams
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Publication number: 20200076208Abstract: An energy storage system comprising a main bus, a transfer bus, and a pair of anti-parallel thyristors electrically coupled to the main bus and the transfer bus. The system also includes a first and second group of battery cells electrically coupled to the main bus and the transfer bus, and a switching network including a plurality of switches that selectively connect the first and second groups of battery cells to the main bus and the transfer bus. A controller controls the position of the switches and a bias voltage applied to the first and second thyristors so as to seamlessly transition power from the first group of battery cells to the second group of battery cells when the group of battery cells are being discharged and seamlessly transition power between the first group of battery cells and the second group of battery cells when the battery cells are being charged.Type: ApplicationFiled: May 7, 2019Publication date: March 5, 2020Applicant: S&C Electric CompanyInventors: Stephen E. Williams, David G. Porter
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Publication number: 20190245343Abstract: A method for detecting a voltage disturbance in a utility having a micro-grid. The method transforms current and voltage measurements into first and second voltage values and first and second current values in a stationary reference frame, and transforms the first and second voltage values and the first and second current values to third and fourth voltage values and third and fourth current values in a rotating reference frame, where the third voltage value defines an average magnitude of the three-phase power signals. The method multiplies the third current value by the third voltage value to obtain an instantaneous power value and multiplies the fourth current value by the third voltage value to obtain an instantaneous volt-ampere reactive (VAR) value. The method opens the switch if the VAR value has a magnitude above a predetermined value and a direction indicating the fault is outside of the micro-grid in the network.Type: ApplicationFiled: October 31, 2018Publication date: August 8, 2019Applicant: S&C Electric CompanyInventors: David Glenn Porter, Stephen E. Williams
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Patent number: 9438026Abstract: In at least some embodiments, a system includes a plurality of circuit breakers and trip control logic external to and coupled to the circuit breakers. The trip control logic enables a plurality of different tripping options to be selected for each of the circuit breakers.Type: GrantFiled: January 30, 2014Date of Patent: September 6, 2016Assignee: Unilectric, LLCInventors: Jeffrey L. Franks, Stephen E. Williams, Ray Cole
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Patent number: D1025600Type: GrantFiled: January 20, 2021Date of Patent: May 7, 2024Assignee: Techtronic Cordless GPInventors: Tyler H. Knight, Jeffrey Groves, J. Porter Whitmire, J. Luke Jenkins, Stephen A. Hughett, Brianna E. Williams, William J. Saunders, Charles Moody Wacker, II