Patents by Inventor Jordan K. Vanevenhoven
Jordan K. Vanevenhoven 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: 11996690Abstract: A system includes a transformer rectifier unit (TRU) including a backfeed sense module. A contactor is operatively connected to the TRU for selectively supplying DC power to a DC bus from the TRU with the contactor closed and isolating the DC bus from the TRU with the contactor opened. A contactor driver is operatively connected to receive a signal from the backfeed sense module and to control opening and closing of the contactor based on the signal. The contactor driver is configured to open the contactor upon receipt of the signal indicative of backfeed detected in the TRU.Type: GrantFiled: November 5, 2021Date of Patent: May 28, 2024Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Jef William Good, Shane R. Traser, John N. Buzzard, Kyle Stephen Ives
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Patent number: 11885850Abstract: In accordance with at least one aspect of this disclosure, a method can include measuring a voltage across a DC link of a generator system when a generator exciter is inactive and a generator permanent magnet is active, and detecting a short or open permanent magnet generator (SOPMG) fault condition in the generator system with a DC link monitor operatively connected to measure the voltage across the DC link.Type: GrantFiled: November 8, 2021Date of Patent: January 30, 2024Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Mykola Kravchenko, John F. Defenbaugh
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Publication number: 20230378743Abstract: Examples described herein provide an electric power distribution system (EPDS) that includes a transformer rectifier unit (TRU) that receives alternating current (AC) electric power from an AC electric power source during a first state of operation. The EPDS further includes a direct current (DC) electric power source that receives the DC electric power from the TRU during the first state of operation. The EPDS further includes a DC essential bus that receives the DC electric power from the DC electric power source during the first state of operation and that receives the DC electric power from another source during a second state of operation. The EPDS further includes a controller to selectively engage a diode bypass contactor to enable a diode during the second state of operation, and selectively engage the diode bypass contactor to enable a diode bypass during the first state of operation.Type: ApplicationFiled: May 20, 2022Publication date: November 23, 2023Inventor: Jordan K. Vanevenhoven
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Patent number: 11791621Abstract: A method includes detecting a failure in a contactor economizer that is configured to provide a first current to a coil of a contactor to close the contactor, and to provide a second current lower than the first current to the coil after the contactor is closed to hold the contactor closed. The method includes at least one of: driving contactor actuation based on economizer failure status; and/or signaling failure of the economizer through built in test (BIT) indication.Type: GrantFiled: March 17, 2020Date of Patent: October 17, 2023Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Thomas P. Joyce, Natalie Filipski
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Publication number: 20230251329Abstract: A method includes performing a test for transformer rectifier unit (TRU) backfeed protection by removing AC power supplied to the TRU but keeping the TRU contactor closed for a first predetermined span of time. The method includes observing the TRU for a second predetermined span of time. The method includes determining if the contactor opens during the second span of time, that a TRU backfeed protection is functional and passes the test, and determining if the contactor does not open during the second span of time, that the TRU backfeed protection has failed the test.Type: ApplicationFiled: February 7, 2022Publication date: August 10, 2023Applicant: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth
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Patent number: 11705296Abstract: A system includes a contactor operatively connected to a coil for actuating the contactor to open and close a circuit. A pass element includes a source, a drain, and a gate, wherein the drain is electrically connected to the coil, and wherein the coil is in series between the pass element and ground. A voltage source is connected to the source of the pass element to pass current into the coil when the pass element is in a pass state. A current source control circuit with economizer is operatively connected to the gate of the pass element. A delay circuit is operatively connected to the current source control circuit with economizer and to a command line to command a lower current for holding the contactor closed after a delay has expired for the contactor to transition.Type: GrantFiled: May 26, 2022Date of Patent: July 18, 2023Assignee: Hamilton Sundstrand CorporationInventors: Thomas P. Joyce, Jordan K. Vanevenhoven, Natalie Filipski
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Patent number: 11702222Abstract: A system includes a first AC bus configured to supply power from a first AC power source. A second AC bus is configured to supply power from a second AC power source. A first transformer rectifier unit (TRU) connects a first DC bus to the first AC bus through a first TRU contactor (TRUC). A second TRU connects a second DC bus to the second AC bus through a second TRUC. A ram air turbine (RAT) automatic deployment controller is operatively connected to the first TRUC and to the second TRUC to automatically deploy a RAT based on the combined status of the first TRUC and the second TRUC.Type: GrantFiled: March 18, 2020Date of Patent: July 18, 2023Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Shane R. Traser, Jef William Good, John N. Buzzard, Kyle Ives
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Publication number: 20230145311Abstract: A closing mechanism controller includes contactor operating logic that generates a software or firmware based closing mechanism command signal. The controller also includes hardware interlock circuitry that generates an interlock signal, the hardware interlock circuity being configured to compare an interlock signal to the software based closing mechanism command signal and to provide an enable signal to the closing mechanism when the interlock signal matches the closing mechanism command signal.Type: ApplicationFiled: November 9, 2021Publication date: May 11, 2023Inventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Jef William Good, Shane R. Traser, John N. Buzzard, Kyle Stephen Ives
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Publication number: 20230147395Abstract: A system includes a transformer rectifier unit (TRU) including a backfeed sense module. A contactor is operatively connected to the TRU for selectively supplying DC power to a DC bus from the TRU with the contactor closed and isolating the DC bus from the TRU with the contactor opened. A contactor driver is operatively connected to receive a signal from the backfeed sense module and to control opening and closing of the contactor based on the signal. The contactor driver is configured to open the contactor upon receipt of the signal indicative of backfeed detected in the TRU.Type: ApplicationFiled: November 5, 2021Publication date: May 11, 2023Applicant: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Jef William Good, Shane R. Traser, John N. Buzzard, Kyle Stephen Ives
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Publication number: 20230142245Abstract: In accordance with at least one aspect of this disclosure, a method can include measuring a voltage across a DC link of a generator system when a generator exciter is inactive and a generator permanent magnet is active, and detecting a short or open permanent magnet generator (SOPMG) fault condition in the generator system with a DC link monitor operatively connected to measure the voltage across the DC link.Type: ApplicationFiled: November 8, 2021Publication date: May 11, 2023Applicant: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Mykola Kravchenko, John F. Defenbaugh
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Patent number: 11616366Abstract: A system includes a first AC bus configured to supply power from a first generator. A second AC bus is configured to supply power from a second generator. An AC essential bus tie contactor (AETC) selectively connects between an AC essential bus and the first and second AC busses. An AETC controller is connected to switch the AETC between a first state connecting the AC essential bus to the first AC bus and a second state connecting the AC essential bus to the second AC bus. A sensor system is configured to detect at least one of delta current and overcurrent in the AC essential bus and in at least one of the first AC bus and the second AC bus. The sensor system is operatively connected to the AETC controller for switching the AETC between the first state and the second state based on input from the sensor system.Type: GrantFiled: March 12, 2020Date of Patent: March 28, 2023Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Jef William Good, Shane R. Traser, John N. Buzzard, Kyle Ives
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Patent number: 11527976Abstract: A system includes a first AC bus configured to supply power from a first generator. A first generator line contactor (GLC) selectively connects the first AC bus to the first generator. A second AC bus is configured to supply power from a second generator. A second GLC selectively connecting the second AC bus to the second generator. An auxiliary generator line contactor (ALC) is connected to selectively supply power to the first and second AC buses from an auxiliary generator. A first bus tie contactor (BTC) electrically connects between the first GLC and the ALC. A second BTC electrically connects between the ALC and the second GLC. A ram air turbine (RAT) automatic deployment controller is operatively connected to automatically deploy a RAT based on the combined status of the first GLC, the second GLC, the ALC, the first BTC, and the second BTC.Type: GrantFiled: May 10, 2021Date of Patent: December 13, 2022Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Shane R. Traser, Jef William Good, John N. Buzzard, Kyle Stephen Ives
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Patent number: 11488798Abstract: A system includes a contactor operatively connected to a coil for actuating the contactor to open and close a circuit. A pass element includes a source, a drain, and a gate, wherein the drain is electrically connected to the coil, and wherein the coil is in series between the pass element and ground. A voltage source is connected to the source of the pass element to pass current into the coil when the pass element is in a pass state. A current source control circuit with economizer is operatively connected to the gate of the pass element. A delay circuit is operatively connected to the current source control circuit with economizer and to a command line to command a lower current for holding the contactor closed after a delay has expired for the contactor to transition.Type: GrantFiled: March 17, 2020Date of Patent: November 1, 2022Assignee: Hamilton Sundstrand CorporationInventors: Thomas P. Joyce, Jordan K. Vanevenhoven, Natalie Filipski
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Publication number: 20220285116Abstract: A system includes a contactor operatively connected to a coil for actuating the contactor to open and close a circuit. A pass element includes a source, a drain, and a gate, wherein the drain is electrically connected to the coil, and wherein the coil is in series between the pass element and ground. A voltage source is connected to the source of the pass element to pass current into the coil when the pass element is in a pass state. A current source control circuit with economizer is operatively connected to the gate of the pass element. A delay circuit is operatively connected to the current source control circuit with economizer and to a command line to command a lower current for holding the contactor closed after a delay has expired for the contactor to transition.Type: ApplicationFiled: May 26, 2022Publication date: September 8, 2022Applicant: Hamilton Sundstrand CorporationInventors: Thomas P. Joyce, Jordan K. Vanevenhoven, Natalie Filipski
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Patent number: 11383855Abstract: A system includes a first AC bus configured to supply power from a first AC power source. A second AC bus is configured to supply power from a second AC power source. A first transformer rectifier unit (TRU) connects a first DC bus to the first AC bus through a first TRU contactor (TRUC). A second TRU connects a second DC bus to the second AC bus through a second TRUC. A first voltage sensor is connected to sense voltage of the first DC bus. A second voltage sensor is connected to sense voltage of the second DC bus. A ram air turbine (RAT) automatic deployment controller is operatively connected to the first voltage sensor and to the second voltage sensor to automatically deploy a RAT based on the combined status of the first voltage sensor and the second voltage sensor.Type: GrantFiled: March 18, 2020Date of Patent: July 12, 2022Assignee: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Shane R. Traser, Jef William Good, John N. Buzzard, Kyle Stephen Ives
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Patent number: 11387765Abstract: A system and method for controlling a DC midpoint terminal voltage of a three level inverter is provided. The method includes receiving an input power signal at a three level motor control system that includes a three level inverter, the three level inverter powering an electric motor, determining, in the three level motor control system, a speed value of the electric motor, and adjusting a zero-sequence inverter output voltage to adjust a midpoint voltage at the DC midpoint based on the determined speed value.Type: GrantFiled: March 13, 2020Date of Patent: July 12, 2022Assignee: HAMILTON SUNDSTRAND CORPORATIONInventors: Jordan K. Vanevenhoven, Curtis J. Plude, Gary L. Miles
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Patent number: 11329539Abstract: A system including a generator and a controller. The generator includes a permanent magnet generator (PMG), and an exciter. The controller manages operations of the generator. The controller includes an alternating current to direct current (AC-to-DC) converter that generates a direct current (DC) voltage, an exciter drive that provides a DC current to the exciter of the generator using the DC voltage created by the AC-to-DC converter in accordance with the control signal, and a regulator controller that drives the active AC-to-DC converter.Type: GrantFiled: March 11, 2020Date of Patent: May 10, 2022Assignee: HAMILTON SUNDSTRAND CORPORATIONInventors: Adrian E. Vandergrift, Thomas P. Joyce, Jordan K. Vanevenhoven, Natalie Filipski
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Publication number: 20210318393Abstract: A system and method for differential protection is provided. Aspects includes determining a first current value associated with a first current transformer coupled to a first location in a differential protection zone, the first current transformer having a first transformer ratio, determining a second current value associated with a second current transformer coupled to a second location in the differential protection zone, the second current transformer having a second transformer ratio, and determining, by a controller, a type of fault associated with the differential protection zone based on the first current value and the second current value.Type: ApplicationFiled: April 6, 2021Publication date: October 14, 2021Inventors: Jordan K. Vanevenhoven, Robert L. Seagren
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Patent number: 11133672Abstract: A system for connecting first and second high voltage direct current (HVDC) sources in parallel to a bus includes one or more contactors connecting the first HVDC source to the bus. The system also includes a bus coupling circuit located between the second HVDC source and the bus that utilizes inductors to couple, in operation, couples the second HVDC source to the bus such that first and second HVDC sources are in parallel with the second positive output is connected to the positive rail and the second negative output connected to the negative rail. The inductors are first connected to the bus though auxiliary contactors and, after a predetermined time, main contactors are closed that provide a path around the inductors.Type: GrantFiled: March 6, 2020Date of Patent: September 28, 2021Assignee: HAMILTON SUNDSTRAND CORPORATIONInventors: Thomas P. Joyce, Jordan K. Vanevenhoven, Natalie Filipski
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Publication number: 20210292001Abstract: A system includes a first AC bus configured to supply power from a first AC power source. A second AC bus is configured to supply power from a second AC power source. A first transformer rectifier unit (TRU) connects a first DC bus to the first AC bus through a first TRU contactor (TRUC). A second TRU connects a second DC bus to the second AC bus through a second TRUC. A ram air turbine (RAT) automatic deployment controller is operatively connected to the first TRUC and to the second TRUC to automatically deploy a RAT based on the combined status of the first TRUC and the second TRUC.Type: ApplicationFiled: March 18, 2020Publication date: September 23, 2021Applicant: Hamilton Sundstrand CorporationInventors: Jordan K. Vanevenhoven, Jeffrey D. Myroth, Shane R. Traser, Jef William Good, John N. Buzzard, Kyle Ives