Patents by Inventor Gregory M. Nulty
Gregory M. Nulty 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: 10203355Abstract: A sensor unit coupled to a first wire of a power line for measuring power-related parameters of the power line. The sensor unit contains a first capacitor and makes voltage measurements relative to another wire, to which the sensor unit is coupled by a second capacitor. The captors form a voltage divider such that the sensor unit may measure a voltage in a range much lower than the voltage on the power line. Additionally, the capacitive voltage divider yields a voltage that can be used to power the sensor unit, including by charging an energy storage device. The sensor unit may also supply power to other nearby devices, such as other devices that form a mesh sensor network.Type: GrantFiled: August 28, 2015Date of Patent: February 12, 2019Assignee: ACLARA TECHNOLOGIES LLCInventor: Gregory M. Nulty
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Patent number: 10041968Abstract: Techniques comprising obtaining, using a sensor unit coupled to a power line in a power distribution system, at least one measurement of at least one inertial property of the power line; and detecting at least one condition of the power line at least in part by analyzing the at least one measurement. A sensor unit configured to be coupled to a power line in a power distribution system, the sensor unit comprising an inertial sensor configured to collect at least one measurement of at least one inertial property of the power line.Type: GrantFiled: October 14, 2016Date of Patent: August 7, 2018Assignee: ACLARA TECHNOLOGIES LLCInventor: Gregory M. Nulty
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Patent number: 9972989Abstract: An optical voltage sensor for measuring voltage on an underground power line or for use in other scenarios in which access to a conductor is available through a blind hole. The optical voltage sensor includes a light modulating member, such as a Pockel's crystal. A reflective, conductive member is positioned at one end of the light modulating member and another conductive member is positioned at an opposed end. A voltage capacitively coupled to the reflective conductive member induces a voltage across the light modulating member, thereby impacting the amount of modulation. A beam of light is directed through the crystal and reflected back out of the crystal, where the amount of modulating can be measured. The amount of modulation indicates a measured voltage, and can be transmitted to a monitoring station where processing can determine the status of the power grid or generate other results based on the measured voltage.Type: GrantFiled: March 31, 2015Date of Patent: May 15, 2018Assignee: ACLARA TECHNOLOGIES LLCInventor: Gregory M. Nulty
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Patent number: 9562925Abstract: Techniques comprising obtaining, using a sensor unit coupled to a power line in a power distribution system, at least one measurement of at least one inertial property of the power line; and detecting at least one condition of the power line at least in part by analyzing the at least one measurement. A sensor unit configured to be coupled to a power line in a power distribution system, the sensor unit comprising an inertial sensor configured to collect at least one measurement of at least one inertial property of the power line.Type: GrantFiled: February 13, 2013Date of Patent: February 7, 2017Inventor: Gregory M. Nulty
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Publication number: 20170030943Abstract: Techniques comprising obtaining, using a sensor unit coupled to a power line in a power distribution system, at least one measurement of at least one inertial property of the power line; and detecting at least one condition of the power line at least in part by analyzing the at least one measurement. A sensor unit configured to be coupled to a power line in a power distribution system, the sensor unit comprising an inertial sensor configured to collect at least one measurement of at least one inertial property of the power line.Type: ApplicationFiled: October 14, 2016Publication date: February 2, 2017Inventor: Gregory M. Nulty
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Publication number: 20160061862Abstract: A sensor unit coupled to a first wire of a power line for measuring power-related parameters of the power line. The sensor unit contains a first capacitor and makes voltage measurements relative to another wire, to which the sensor unit is coupled by a second capacitor. The captors form a voltage divider such that the sensor unit may measure a voltage in a range much lower than the voltage on the power line. Additionally, the capacitive voltage divider yields a voltage that can be used to power the sensor unit, including by charging an energy storage device. The sensor unit may also supply power to other nearby devices, such as other devices that form a mesh sensor network.Type: ApplicationFiled: August 28, 2015Publication date: March 3, 2016Inventor: Gregory M. Nulty
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Publication number: 20150276818Abstract: An optical voltage sensor for measuring voltage on an underground power line or for use in other scenarios in which access to a conductor is available through a blind hole. The optical voltage sensor includes a light modulating member, such as a Pockel's crystal. A reflective, conductive member is positioned at one end of the light modulating member and another conductive member is positioned at an opposed end. A voltage capacitively coupled to the reflective conductive member induces a voltage across the light modulating member, thereby impacting the amount of modulation. A beam of light is directed through the crystal and reflected back out of the crystal, where the amount of modulating can be measured. The amount of modulation indicates a measured voltage, and can be transmitted to a monitoring station where processing can determine the status of the power grid or generate other results based on the measured voltage.Type: ApplicationFiled: March 31, 2015Publication date: October 1, 2015Applicant: Tollgrade Communications, Inc.Inventor: Gregory M. Nulty
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Patent number: 8948018Abstract: In a method of testing a residential broadband communication network, a residential gateway or set top box (STB) performs one or more single-ended parametric tests of the residential network that runs therebetween. The residential gateway or STB also performs one or more single-ended reflectometry tests of the residential network that runs therebetween. The residential gateway and the STB perform one or more dual-ended tests of the residential network that runs therebetween. The residential gateway dispatches the results of the foregoing tests to either: a device on the residential network, a device of another network that supplies broadband services to the residential network, or an intelligent device coupled to the residential gateway.Type: GrantFiled: October 24, 2011Date of Patent: February 3, 2015Assignee: Tollgrade Communications, Inc.Inventors: Muhammad A. Afzal, Gregory M. Nulty, Timothy J. Vitanza
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Patent number: 8761350Abstract: A system for testing a conductor of a structure can include a test device connected to the conductor. The test device is configured to test an electrical characteristic of the conductor and to produce a test result based at least in part on the electrical characteristic. A service provider network may be configured to communicate with the test device to initiate a test and/or to obtain the test result. A customer may use a computing device to obtain information regarding the test result, as well as guidance for troubleshooting and resolving a problem detected with the electrical conductor, such as a fault.Type: GrantFiled: June 8, 2012Date of Patent: June 24, 2014Assignee: Tollgrade Communications, Inc.Inventors: Roger Faulkner, Gregory M. Nulty
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Publication number: 20140130111Abstract: Diagnosis of a service affecting condition can be performed by obtaining first diagnostic information from a first software agent installed on a first communication enabled device within a customer premises and second diagnostic information from a second software agent installed on a second communication enabled device within the customer premises. The first and second diagnostic information can be processed to determine information regarding a service affecting condition.Type: ApplicationFiled: November 6, 2013Publication date: May 8, 2014Applicant: Tollgrade Communications, Inc.Inventors: Gregory M. Nulty, Manoj Sindhwani
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Publication number: 20130134998Abstract: A system for measuring electrical properties of a power line comprising a first wire and a second wire. The system comprises a sensor unit configured for connection to the first wire; and an elongated resistive element comprising a first end configured for connection to the sensor unit and a second end configured for connection to the second wire, the elongated resistive element having a distributed resistance. The first wire may be a hot wire and the second wire may be a hot wire or a neutral wire.Type: ApplicationFiled: November 30, 2012Publication date: May 30, 2013Applicant: Tollgrade Communications, Inc.Inventors: Frederick J. Kiko, Gregory M. Nulty
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Publication number: 20120307982Abstract: A system for testing a conductor of a structure can include a test device connected to the conductor. The test device is configured to test an electrical characteristic of the conductor and to produce a test result based at least in part on the electrical characteristic. A service provider network may be configured to communicate with the test device to initiate a test and/or to obtain the test result. A customer may use a computing device to obtain information regarding the test result, as well as guidance for troubleshooting and resolving a problem detected with the electrical conductor, such as a fault.Type: ApplicationFiled: June 8, 2012Publication date: December 6, 2012Applicant: Tollgrade Communications, Inc.Inventors: Roger Faulkner, Gregory M. Nulty, Muhammad A. Afzal
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Publication number: 20120306895Abstract: A system for testing a conductor of a structure can include a test device connected to the conductor. The test device is configured to test an electrical characteristic of the conductor and to produce a test result based at least in part on the electrical characteristic. A service provider network may be configured to communicate with the test device to initiate a test and/or to obtain the test result. A customer may use a computing device to obtain information regarding the test result, as well as guidance for troubleshooting and resolving a problem detected with the electrical conductor, such as a fault.Type: ApplicationFiled: June 8, 2012Publication date: December 6, 2012Applicant: Tollgrade Communications, Inc.Inventors: Roger Faulkner, Leslie R. Hines, Frank R. Bauer, Gregory M. Nulty, Muhammad A. Afzal, Manoj Sindhwani
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Publication number: 20120307983Abstract: A system for testing a conductor of a structure can include a test device connected to the conductor. The test device is configured to test an electrical characteristic of the conductor and to produce a test result based at least in part on the electrical characteristic. A service provider network may be configured to communicate with the test device to initiate a test and/or to obtain the test result. A customer may use a computing device to obtain information regarding the test result, as well as guidance for troubleshooting and resolving a problem detected with the electrical conductor, such as a fault.Type: ApplicationFiled: June 8, 2012Publication date: December 6, 2012Applicant: Tollgrade Communications, Inc.Inventors: Roger Faulkner, Gregory M. Nulty
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Publication number: 20120099629Abstract: In an apparatus and method of testing the capacity of a network to support DSL services, a test device is coupled to a pair of wires (e.g., Tip-Ring) that support DSL services between ATU-C and ATU-R modems. In operation, the test device: samples for a DC line feed or potential on the wires when the ATU-R and ATU-C modems are operatively connected via the wires; samples for AC noise present on the wires when the ATU-R modem is electrically isolated from the ATU-C modem which is operatively coupled to the wires; samples for DSL signals output by the ATU-R modem when the ATU-C modem is electrically isolated from the ATU-R modem; and samples for DSL signals on the wires when the ATU-R modem is operatively coupled to the ATU-C modem via the wires. Based on these samples, the test device determines the capacity of the network to support DSL services.Type: ApplicationFiled: October 24, 2011Publication date: April 26, 2012Applicant: TOLLGRADE COMMUNICATIONS, INCInventors: Roger Faulkner, Gregory M. Nulty
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Publication number: 20120099436Abstract: In a method of testing a residential broadband communication network, a residential gateway or set top box (STB) performs one or more single-ended parametric tests of the residential network that runs therebetween. The residential gateway or STB also performs one or more single-ended reflectometry tests of the residential network that runs therebetween. The residential gateway and the STB perform one or more dual-ended tests of the residential network that runs therebetween. The residential gateway dispatches the results of the foregoing tests to either: a device on the residential network, a device of another network that supplies broadband services to the residential network, or an intelligent device coupled to the residential gateway.Type: ApplicationFiled: October 24, 2011Publication date: April 26, 2012Applicant: TOLLGRADE COMMUNICATIONS, INC.Inventors: Muhammad A. Afzal, Gregory M. Nulty, Timothy J. Vitanza
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Patent number: 6320939Abstract: A remote telephone testing device (22) includes a transmitter (30), a receiver (24), a controller (26) and a test circuit (28). In response to the receiver (24) receiving a test signal from a test system (20) via a telephone network (2, 4, 6, 8), the controller (26) communicatively isolates telephone equipment (10) of a subscriber (S) from the telephone network (2, 4, 6, 8) and connects the test circuit (28) to the telephone equipment (10). The test circuit (28) tests the telephone equipment (10) and conveys one or more results of such test to the controller (26) which relays the one or more results to the test system (20) via the transmitter (30). When testing is complete, the telephone equipment (10) is isolated from the test circuit (28) and is communicatively connected to the telephone network (2, 4, 6, 8).Type: GrantFiled: September 9, 1998Date of Patent: November 20, 2001Assignee: Tollgrade Communications, Inc.Inventors: Gregory M. Nulty, Larry Mortimer
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Patent number: 5982412Abstract: A broadband network for providing broadband signals, such as cable television signals, to a subscriber location includes a network interface device installed at the subscriber's end of the broadband network. The network interface device includes circuitry that provides for the selective provisioning of services to the subscriber location from the broadband network and a test circuit that can be selectively connected for testing signals appearing on the broadband network.Type: GrantFiled: December 12, 1997Date of Patent: November 9, 1999Assignee: Tollgrade Communications, Inc.Inventor: Gregory M. Nulty