Patents by Inventor Joseph R. Rostron
Joseph R. Rostron 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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Patent number: 10923907Abstract: Electric power Fault detection, isolation and restoration (FDIR) systems using “smart switches” that autonomously coordinate operations to minimize the number of customers affected by outages and their durations, without relying on communications with a central controller or between the smart switch points. The smart switches typically operate during the substation breaker reclose cycles while the substation breakers are open, which enables the substation breakers to reclose successfully to restore service within their normal reclosing cycles. Alternatively, the smart switch may be timed to operate before the substation breakers trip to effectively remove the substation breakers from the fault isolation process. Both approaches allow the FDIR system to be installed with minimal reconfiguration of the substation protection scheme.Type: GrantFiled: March 4, 2019Date of Patent: February 16, 2021Assignee: Southern States, LLCInventors: Jiyuan Fan, Joseph R Rostron, Hua Fan, David Moore, Raj Anand, Brian Berner, Buddy Reneau
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Patent number: 10734175Abstract: A high voltage electric power switch with an anti-flashover nozzle that suppresses the likelihood of a flashover occurring between switch components other than the switch contactors, such as the nozzle casing around the first contactor (e.g., female or socket) and the casing around the second contactor (e.g., male or pin) during an opening stroke of the contactors. The anti-flashover features include a corona ring positioned at the proximal end of the nozzle casing and a nozzle clamp ring positioned to the distal side of a nozzle casing abutment that mates with a nozzle receiver. The conventional nozzle includes a nib-shaped proximal end of the nozzle casing carrying a clamp ring positioned on the proximal side of the abutment. The new nozzle design reduces the high level of electric field stress created by the conventional nozzle casing to suppress the likelihood of a flashover occurring between the contactor casings.Type: GrantFiled: September 24, 2019Date of Patent: August 4, 2020Assignee: Southern States LLCInventors: Joseph R Rostron, Zack Beecher, Ryun Kim
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Patent number: 10698010Abstract: A high voltage electric power line monitor includes a current sensor, a voltage sensor, an energy harvesting power supply, and a communication device. The monitor is supported by an overhead power line support structure, such an insulator housing a sectionalizing switch. The current sensor coil and the energy harvesting coils are positioned transverse to the power line with the power lane passing through the coils. A foil patch voltage sensor and a communications antenna are carried on an electronics board positioned parallel to the monitored power line, typically below the current sensor. Both the current sensor and the voltage sensor are positioned adjacent to, but spaced apart from, the monitored power line creating an air gap between the monitor and the power line. The sensors are housed within a Faraday cage to shield the current sensor from electromagnetic contamination.Type: GrantFiled: May 4, 2018Date of Patent: June 30, 2020Assignee: Southern StatesInventors: Josh Keister, Joseph R Rostron, Jiyuan Fan, Tan Tran
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Patent number: 10627431Abstract: The present invention may be embodied in an in-line high voltage electric power line monitor including a DC current sensor, an AC current sensor, an energy harvesting power supply, and a communication device. The in-line power line monitor includes a bus bar that connects in series with the monitored power line. For example, the in-line power line monitor may be connected at the junction point between the monitored power line and a support structure, such a sectionalizing switch that supports the monitor positioned between the switch and the power line. A pair of DC current measurement pickups are spaced apart on the bus bar and operatively connected to the microprocessor. The in-line power line monitor also includes an AC current sensor coil and an energy harvesting device (e.g., inductive coil) that surround the bus bar. The AC current sensor coil and the power supply coil are positioned adjacent to, but spaced apart from, the bus bar.Type: GrantFiled: October 22, 2019Date of Patent: April 21, 2020Assignee: Southern States, LLCInventors: Josh Keister, Joseph R Rostron, Jiyuan Fan, Tan Tran
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Publication number: 20200049743Abstract: The present invention may be embodied in an in-line high voltage electric power line monitor including a DC current sensor, an AC current sensor, an energy harvesting power supply, and a communication device. The in-line power line monitor includes a bus bar that connects in series with the monitored power line. For example, the in-line power line monitor may be connected at the junction point between the monitored power line and a support structure, such a sectionalizing switch that supports the monitor positioned between the switch and the power line. A pair of DC current measurement pickups are spaced apart on the bus bar and operatively connected to the microprocessor. The in-line power line monitor also includes an AC current sensor coil and an energy harvesting device (e.g., inductive coil) that surround the bus bar. The AC current sensor coil and the power supply coil are positioned adjacent to, but spaced apart from, the bus bar.Type: ApplicationFiled: October 22, 2019Publication date: February 13, 2020Inventors: Josh Keister, Joseph R Rostron, Jiyuan Fan, Tan Tran
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Patent number: 10551440Abstract: A remote blade closing detector switch is positioned on or near the jaws of an electric power disconnect switch, where proper seating of the blade in the jaws activates a detector switch. An extended conductor lead electrically connects the detector switch an RFID tag placed in a convenient reading location. The detector switch is configured to control a data signal, power to the antenna of the RFID tag, the power supply to the RFID tag, or a data signal between an RFID chip and an antenna as mechanisms for enabling and disabling the tag to report a status indicator. An antenna tuning compensator may be utilized to compensate for the impedance of the long conductor lead connected to the antenna. A noise filter may also be used to suppress electrical noise picked up by the long conductor lead in the harsh electrical environment of the disconnect switch.Type: GrantFiled: September 17, 2018Date of Patent: February 4, 2020Assignee: Southern States, LLCInventors: Joseph R Rostron, Josh Keister, Tan T Tran, Philip Carson Jones
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Patent number: 10481186Abstract: The present invention may be embodied in an in-line high voltage electric power line monitor including a DC current sensor, an AC current sensor, a voltage sensor, an energy harvesting power supply, and a communication device configured. The in-line power line monitor includes a bus bar that connects in series with the monitored power line. For example, the in-line power line monitor may be connected at the junction point between the monitored power line and a support structure, such a sectionalizing switch that supports the monitor positioned between the switch and the power line. A pair of DC current measurement pickups are spaced apart on the bus bar and operatively connected to the microprocessor. The in-line power line monitor also includes an AC current sensor coil and an energy harvesting device (e.g., inductive coil) that surround the bus bar. The AC current sensor coil, the power supply coil and the voltage sensor positioned adjacent to, but spaced apart from, the bus bar.Type: GrantFiled: May 4, 2018Date of Patent: November 19, 2019Assignee: Southern States, LLCInventors: Josh Keister, Joseph R Rostron, Jiyuan Fan, Tan Tran
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Publication number: 20190317133Abstract: A high voltage capacitor includes multiple capacitor packs housed in a canister. A capacitor pack status monitor includes a current sensor measuring an electric current through an associated capacitor pack and a radio transmitting a first signal representative of the electric current through a selected capacitor pack. The monitor also includes a voltage sensor measuring an electric voltage across the associated capacitor pack and a radio transmitting a second signal representative of the electric voltage across the selected capacitor pack. Electronics compute an impedance associated with each capacitor pack. Each current sensor may include a current transformer positioned around a main power line energizing a respective capacitor pack.Type: ApplicationFiled: June 28, 2019Publication date: October 17, 2019Applicant: Southern States, LLCInventors: Joseph R Rostron, Josh Keister, Jiyuan Fan, Karl Fender
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Publication number: 20190277904Abstract: Fault detection, isolation and restoration systems for electric power systems using “smart switch” points that autonomously coordinate operations to minimize the number of customers affected by outages and their durations, without relying on communications with a central controller or between the smart switch points. Each smart recloser can be individually programmed to operate as a tie-switch, a Type-A (normal or default type) sectionalizer, or a Type-B (special type) sectionalizer. The Type-A recloser automatically opens when it detects a fault, uses a direction-to-fault and zone-based distance-to-fault operating protocol, and stays “as is” with no automatic opening when power (voltage) is lost on both sides of the switch. The Type-B sectionalizer does the same thing and is further configured to automatically open when it detects that it is deenergized on both sides for a pre-defined time period, and to operate like a tie-switch once open.Type: ApplicationFiled: March 4, 2019Publication date: September 12, 2019Inventors: Jiyuan Fan, Joseph R. Rostron, Hua Fan, David Moore, Raj Anand, Brian Berner, Buddy Reneau
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Publication number: 20190280476Abstract: Electric power Fault detection, isolation and restoration (FDIR) systems using “smart switches” that autonomously coordinate operations to minimize the number of customers affected by outages and their durations, without relying on communications with a central controller or between the smart switch points. The smart switches typically operate during the substation breaker reclose cycles while the substation breakers are open, which enables the substation breakers to reclose successfully to restore service within their normal reclosing cycles. Alternatively, the smart switch may be timed to operate before the substation breakers trip to effectively remove the substation breakers from the fault isolation process. Both approaches allow the FDIR system to be installed with minimal reconfiguration of the substation protection scheme.Type: ApplicationFiled: March 4, 2019Publication date: September 12, 2019Inventors: Jiyuan Fan, Joseph R. Rostron, Hua Fan, David Moore, Raj Anand, Brian Berner, Buddy Reneau
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Patent number: 10365302Abstract: A capacitor status monitor that attaches across the bushings on the exterior of a capacitor container (commonly referred to as a “can”). The capacitor status monitor, which draws operating power from the power line, detects the internal impedance of the capacitor can to detect internal failures down to the level of a single capacitor pack. The monitor may include a radio transmitter and/or a visual status indicator, such as an electronic flag, indicating the detection of an internal capacitor failure. The monitor may also include a power supply current transformer providing power to the monitor from the power line. Capacitor status monitors throughout the capacitor bank may communicate with a remote transmission unit (RTU), which communicates with a central control station that schedules capacitor maintenance based on the data received from the status monitors.Type: GrantFiled: September 6, 2017Date of Patent: July 30, 2019Assignee: Southern States, LLCInventors: Joseph R Rostron, Josh Keister, Jiyuan Fan, Karl Fender
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Publication number: 20190229523Abstract: A fault-preventing circuit recloser includes a ballast impedance, power line current and voltage monitors, and controller that operates the switch based on measurements obtained from the current and voltage monitors. The controller aborts the closing (i.e., reopens the switch) when the controller detects that the switch has closed into faulted line. The circuit recloser temporarily introduces the ballast impedance into the circuit during the closing operation to limit the current spike and voltage dip caused by initially closing the switch into the faulted line. The circuit recloser also temporarily introduces the ballast impedance into the circuit during the opening operation to limit the voltage transient that can be caused by initially opening a load-carrying power line. Different ballast resistor insertion times are applied depending on the type of recloser operation (opening or closing) and whether a fault is detected.Type: ApplicationFiled: January 16, 2019Publication date: July 25, 2019Inventors: Joseph R Rostron, Jiyuan Fan, Teng Hu
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Patent number: 10241136Abstract: A high voltage capacitor current monitor that attaches to a bushing on the exterior of a capacitor container (commonly referred to as a “can”). The capacitor current monitor, which draws operating power from the power line, detects the current flowing through the high voltage capacitor and can be used as part of a capacitor status monitor to detect internal failures down to the level of a single capacitor pack. The monitor may include a radio transmitter and/or a visual status indicator, such as an electronic flag, indicating the detection of a fault or capacitor failure. The current monitor may also include a power supply current transformer providing power to the monitor from the power line. Capacitor current measurements may be communicated with a remote transmission unit (RTU), which communicates with a central control station that schedules capacitor maintenance based on the data received from the status monitors.Type: GrantFiled: September 6, 2017Date of Patent: March 26, 2019Assignee: Southern States, LLCInventors: Joseph R Rostron, Josh Keister, Tan Tran, Karl Fender
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Publication number: 20190018064Abstract: A remote blade closing detector switch is positioned on or near the jaws of an electric power disconnect switch, where proper seating of the blade in the jaws activates a detector switch. An extended conductor lead electrically connects the detector switch an RFID tag placed in a convenient reading location. The detector switch is configured to control a data signal, power to the antenna of the RFID tag, the power supply to the RFID tag, or a data signal between an RFID chip and an antenna as mechanisms for enabling and disabling the tag to report a status indicator. An antenna tuning compensator may be utilized to compensate for the impedance of the long conductor lead connected to the antenna. A noise filter may also be used to suppress electrical noise picked up by the long conductor lead in the harsh electrical environment of the disconnect switch.Type: ApplicationFiled: September 17, 2018Publication date: January 17, 2019Inventors: Joseph R. Rostron, Josh Keister, Tan T. Tran, Philip Carson Jones
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Publication number: 20180321286Abstract: The present invention may be embodied in an in-line high voltage electric power line monitor including a DC current sensor, an AC current sensor, a voltage sensor, an energy harvesting power supply, and a communication device configured. The in-line power line monitor includes a bus bar that connects in series with the monitored power line. For example, the in-line power line monitor may be connected at the junction point between the monitored power line and a support structure, such a sectionalizing switch that supports the monitor positioned between the switch and the power line. A pair of DC current measurement pickups are spaced apart on the bus bar and operatively connected to the microprocessor. The in-line power line monitor also includes an AC current sensor coil and an energy harvesting device (e.g., inductive coil) that surround the bus bar. The AC current sensor coil, the power supply coil and the voltage sensor positioned adjacent to, but spaced apart from, the bus bar.Type: ApplicationFiled: May 4, 2018Publication date: November 8, 2018Inventors: Josh Keister, Joseph R. Rostron, Jiyuan Fan, Tan Tran
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Publication number: 20180321285Abstract: A high voltage electric power line monitor includes a current sensor, and voltage sensor, an energy harvesting power supply, and communication device. The monitor is configured to be supported by a structure, such a sectionalizing switch disposed within an insulator cylinder. The current sensor coil and an energy harvesting coils are configured to surround and be positioned transverse to the monitored power line with the power line extending through an aperture formed by the current sensor. A foil patch voltage sensor is carried on an electronics board configured to be positioned parallel to the monitored power line, typically below the current sensor. Both the current sensor and the voltage sensor are configured to positioned adjacent to, but spaced apart from, the monitored power line. The sensors are housed within a Faraday cage to shield the current sensor from electromagnetic contamination.Type: ApplicationFiled: May 4, 2018Publication date: November 8, 2018Inventors: Josh Keister, Joseph R Rostron, Jiyuan Fan, Tan Tran
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Publication number: 20180210023Abstract: A capacitor status monitor that attaches across the bushings on the exterior of a capacitor container (commonly referred to as a “can”). The capacitor status monitor, which draws operating power from the power line, detects the internal impedance of the capacitor can to detect internal failures down to the level of a single capacitor pack. The monitor may include a radio transmitter and/or a visual status indicator, such as an electronic flag, indicating the detection of an internal capacitor failure. The monitor may also include a power supply current transformer providing power to the monitor from the power line. Capacitor status monitors throughout the capacitor bank may communicate with a remote transmission unit (RTU), which communicates with a central control station that schedules capacitor maintenance based on the data received from the status monitors.Type: ApplicationFiled: September 6, 2017Publication date: July 26, 2018Applicant: Southern States, LLCInventors: Joseph R Rostron, Josh Keister, Jiyuan Fan, Karl Fender
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Publication number: 20180210012Abstract: A high voltage capacitor current monitor that attaches to a bushing on the exterior of a capacitor container (commonly referred to as a “can”). The capacitor current monitor, which draws operating power from the power line, detects the current flowing through the high voltage capacitor and can be used as part of a capacitor status monitor to detect internal failures down to the level of a single capacitor pack. The monitor may include a radio transmitter and/or a visual status indicator, such as an electronic flag, indicating the detection of a fault or capacitor failure. The current monitor may also include a power supply current transformer providing power to the monitor from the power line. Capacitor current measurements may be communicated with a remote transmission unit (RTU), which communicates with a central control station that schedules capacitor maintenance based on the data received from the status monitors.Type: ApplicationFiled: September 6, 2017Publication date: July 26, 2018Applicant: Southern States, LLCInventors: Joseph R. Rostron, Josh Keister, Tan Tran, Karl Fender
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Patent number: D894134Type: GrantFiled: November 30, 2018Date of Patent: August 25, 2020Assignee: Southern States LLCInventors: Joseph R Rostron, Todd Douthit, Teng Hu, Brian Berner, Karl Fendor, Buddy Reneau
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Patent number: D894135Type: GrantFiled: January 23, 2019Date of Patent: August 25, 2020Assignee: Southern States LLCInventors: Joseph R Rostron, Todd Douthit, Teng Hu