Patents by Inventor Francisco Javier CHIVITE ZABALZA
Francisco Javier CHIVITE ZABALZA 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: 11873109Abstract: The disclosure relates to an electrical power system for providing a stabilised DC voltage to a power bus. Example embodiments include an electrical power system comprising: a DC power bus having first and second DC power bus terminals; an electrical storage unit having first and second terminals, the second terminal connected to the second DC power bus terminal; a DC:DC converter having first and second DC:AC converters and a transformer connected between the first and second DC:AC converters, the first DC:AC converter connected between the first terminal of the electrical storage unit and the first DC power bus terminal; and a controller connected to control a switching operation of one or both of the first and second DC:AC converters.Type: GrantFiled: November 7, 2022Date of Patent: January 16, 2024Assignee: Rolls-Royce plcInventors: David R. Trainer, Francisco Javier Chivite Zabalza, Mark Sweet, Luke George, Gian Incerpi
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Publication number: 20240002062Abstract: The disclosure relates to an electrical power system for connecting an electrical machine to first and second DC networks operating at different voltages. In an embodiment, an electrical power system comprises: an electrical machine having first, second, third and fourth windings; first, second, third and fourth AC:DC power electronics converters each connected to receive an input AC supply from the respective first, second, third and fourth windings, each AC:DC power electronics converter having first and second DC output terminals connecting the AC:DC power electronics converters to first, second and third DC supply output terminals, wherein the first and second windings are arranged to provide an AC supply to the respective first and second AC:DC power electronics converters in quadrature to each other and the third and fourth windings are arranged to provide an AC supply to the respective third and fourth AC:DC power electronics converters in quadrature to each other.Type: ApplicationFiled: June 13, 2023Publication date: January 4, 2024Applicant: ROLLS-ROYCE plcInventors: David R. TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET, Gian INCERPI
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Publication number: 20230421053Abstract: A power conversion circuitry configured to detect an electrical fault, and methods of detecting an electrical fault in power conversion circuitry, the power conversion circuitry including: switching circuitry configured to control a current flowing along a current path between first and second nodes of the power conversion circuitry; a current sensor connected to the current path, the current sensor configured to measure a rate of change of the current flowing along the current path; and control circuitry connected to the current sensor and the switching circuitry, the control circuitry configured to: detect an electrical fault if a rate of change of the current measured by the current sensor exceeds a fault threshold, and configure the switching circuitry to adjust current flow in the power conversion circuitry when an electrical fault is detected.Type: ApplicationFiled: May 25, 2023Publication date: December 28, 2023Applicant: ROLLS-ROYCE plcInventors: Francisco Javier CHIVITE ZABALZA, David R TRAINER, Mark SWEET, Matthew C MORRIS
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Publication number: 20230421054Abstract: A power conversion circuitry configured to transition between modes of operation during an electrical fault, including: switching circuitry configured to control currents flowing along a plurality of current paths between respective pairs of nodes, wherein the paths include first and second transistor-diode pairs; and control circuitry connected to the switching circuitry configured to: configure the switching circuitry to transition, when an electrical fault is detected, to a first mode of operation by configuring the transistors to switch to a non-conducting state so currents flow through the diodes, determine when current begins to flow through a diode, and configure the switching circuitry to transition from the first mode to a fault mode of operation by configuring the transistors to sequentially switch to a conducting state so currents flow through the configured transistors. Also, a method of controlling power conversion circuitry to transition between modes of operation during an electrical fault.Type: ApplicationFiled: May 25, 2023Publication date: December 28, 2023Applicant: ROLLS-ROYCE plcInventors: Francisco Javier CHIVITE ZABALZA, David R TRAINER, Mark SWEET, Matthew C MORRIS, Zafer JARRAH
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Patent number: 11837894Abstract: An electrical power system including: an electrical power source, a power electronics converter, an electrical network, a current limiting diode and a controllable circuit interruption device, wherein: the current limiting diode is configured to limit a fault current passing between the electrical power source and the electrical network in a fault condition; and the controllable circuit interruption device is configured to interrupt the fault current in response to a determination that the electrical power system is in the fault condition.Type: GrantFiled: September 30, 2022Date of Patent: December 5, 2023Assignee: ROLLS-ROYCE plcInventors: David R Trainer, Francisco Javier Chivite Zabalza, Mark Sweet, Gian Incerpi, Luke George
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Publication number: 20230373319Abstract: A power electronics converter comprising: first and second input terminals; first and second DC output terminals; a branch comprising first and second semiconductor switches connected in series between the first and second DC output terminals, the first input terminal connected to a node between the first and second semiconductor switches; a DC link capacitor connected between the first and second DC output terminals; and a reverse biased DC link diode connected across the DC link capacitor.Type: ApplicationFiled: April 26, 2023Publication date: November 23, 2023Applicant: ROLLS-ROYCE plcInventors: David R. TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET, Matthew C. MORRIS
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Publication number: 20230278718Abstract: The disclosure relates to an electric aircraft propulsion assembly comprising: an electric storage unit; a first electric motor connected to power a first propulsor; a first converter configured as a DC:AC converter having input connections connectable to the electric storage unit and output connections connected across the first electric motor, the first converter configured as a DC:AC converter; a second electric motor connected to power a second propulsor; a second converter connected between the first converter input connections and the second electric motor; and a controller configured to control operation of the first and second converters, wherein the second converter is operable as a DC:AC converter to convert the DC supply from the electric storage unit to an AC supply across the second electric motor and as a DC:DC converter to convert the DC supply from the electric storage unit at a first DC level to a DC supply at the input connections of the first converter at a second DC level.Type: ApplicationFiled: February 6, 2023Publication date: September 7, 2023Applicant: ROLLS-ROYCE plcInventors: David R. Trainer, Francisco Javier Chivite Zabalza, Ellis F H Chong
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Publication number: 20230278721Abstract: The disclosure relates to an electric aircraft propulsion assembly for an electric vertical takeoff and landing, eVTOL, aircraft, the assembly comprising: an electric storage unit; a first electric motor connected to power a first propulsor; a first converter configured as a DC:AC converter for driving the first electric motor and a second electric motor connected to power a second propulsor, a second converter. A controller is connected to control operation of the first and second converters and is configured to operate in a first mode in which the first and second converters are operated as DC:AC converters to drive the first and second electric motors and a second mode in which the first converter is operated to drive the first electric motor to power the first propulsor and the second converter is operated to drive the second electric motor to provide a braking torque on the second propulsor.Type: ApplicationFiled: February 6, 2023Publication date: September 7, 2023Applicant: ROLLS-ROYCE plcInventors: David R TRAINER, Francisco Javier CHIVITE ZABALZA, Ellis F H CHONG
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Publication number: 20230159177Abstract: The disclosure relates to an electrical power system for providing a stabilised DC voltage to a power bus. Example embodiments include an electrical power system comprising: a DC power bus having first and second DC power bus terminals; an electrical storage unit having first and second terminals, the second terminal connected to the second DC power bus terminal; a DC:DC converter having first and second DC:AC converters and a transformer connected between the first and second DC:AC converters, the first DC:AC converter connected between the first terminal of the electrical storage unit and the first DC power bus terminal; and a controller connected to control a switching operation of one or both of the first and second DC:AC converters.Type: ApplicationFiled: November 7, 2022Publication date: May 25, 2023Applicant: ROLLS-ROYCE plcInventors: David R. TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET, Luke GEORGE, Gian INCERPI
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Patent number: 11652398Abstract: The present disclosure relates to a voltage source converter (VSC) (300) comprising: a first MOSFET switching element (302) including a first body diode (306); a second MOSFET switching element (304) including a second body diode (308), the second MOSFET switching element (304) being connected in series with the first MOSFET switching element (302); a protection device (318) connected in parallel with the second MOSFET switching element (304); and a controller (312), wherein the controller (312) is configured, on detection of an overcurrent event, to: switch off the first MOSFET switching element (302); and switch off the second MOSFET switching element (304), thereby forcing current flowing in the VSC (300) following the overcurrent event to flow through the second body diode (308) rather than through conducting channels of the first and second MOSFET switching elements (302, 304).Type: GrantFiled: March 5, 2019Date of Patent: May 16, 2023Assignee: General Electric Technology GmbHInventors: Colin Charnock Davidson, Francisco Javier Chivite-Zabalza, John Lewis Outram, Jerome Gregoire
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Publication number: 20230137501Abstract: There is provided a current limiting diode comprising a gate, a source, and a drain electrically connected to the source by an n-channel or p-channel; wherein the source and the gate are electrically connected by a fill structure comprising a phase-change fill material, and wherein the phase-change fill material is configured to absorb heat from the n-channel or p-channel by changing phase.Type: ApplicationFiled: September 30, 2022Publication date: May 4, 2023Applicant: Rolls-Royce plcInventors: David R TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET, Gian INCERPI
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Publication number: 20230134788Abstract: There is provided an electrical power system comprising: a DC voltage source, a DC electrical network, a DC to AC to DC converter having a primary side connected to the DC voltage source and a secondary side connected to the DC electrical network, and a controller configured to control the DC to AC to DC converter, wherein the controller is configured to: monitor an electrical current or voltage between the DC voltage source and the DC electrical network; determine, based on the monitored electrical current or voltage, whether the DC electrical network is in a fault condition; and increase a switching frequency of the primary side of the DC to AC to DC converter in response to a positive determination that the DC electrical network is in a fault condition.Type: ApplicationFiled: September 30, 2022Publication date: May 4, 2023Applicant: ROLLS-ROYCE plcInventors: David R. TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET, Luke GEORGE
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Publication number: 20230136376Abstract: An electrical power system including: an electrical power source, a power electronics converter, an electrical network, a current limiting diode and a controllable circuit interruption device, wherein: the current limiting diode is configured to limit a fault current passing between the electrical power source and the electrical network in a fault condition; and the controllable circuit interruption device is configured to interrupt the fault current in response to a determination that the electrical power system is in the fault condition.Type: ApplicationFiled: September 30, 2022Publication date: May 4, 2023Applicant: Rolls-Royce plcInventors: David R. TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET, Gian INCERPI, Luke GEORGE
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Publication number: 20230133771Abstract: The disclosure relates to electrical converters for use in aircraft electrical power systems and to methods of operating such electrical converters to maintain reliable operation of semiconductor components over varying cosmic radiation levels at altitude. Exemplary embodiments include an electrical converter comprising: a converter circuit having a plurality of semiconductor devices configured to convert an input electrical supply to an output electrical supply; and a controller connected configured to receive an input altitude signal, wherein the controller is further configured to control a temperature of the plurality of semiconductor devices according to the received input altitude signal to reduce an effect of increased incident cosmic radiation on the converter circuit.Type: ApplicationFiled: October 18, 2022Publication date: May 4, 2023Applicant: ROLLS-ROYCE plcInventors: David R. TRAINER, Francisco Javier CHIVITE ZABALZA, Mark SWEET
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Publication number: 20230123533Abstract: A electrical power system comprises: an electrical machine operable to output AC; a DC electrical network; a power electronics converter connected between the AC output of the electrical machine and the DC electrical network and including a plurality of transistors and associated diodes connected in parallel with the transistors; and a controller configured to control switching of the transistors of the converter so that, during normal operation of the electrical power system, the converter rectifies the AC output of the electrical machine to supply the DC electrical network with DC electrical power. The controller is further configured, responsive to a determination to the effect there is a fault in the DC electrical network, to control a voltage source, to inject a voltage to bias the diodes of the converter, and to control the switching of the transistors to control a level of current supplied to the faulted DC electrical network.Type: ApplicationFiled: September 22, 2022Publication date: April 20, 2023Applicant: ROLLS-ROYCE plcInventors: Francisco Javier CHIVITE ZABALZA, David R TRAINER, Mark SWEET, Matthew C MORRIS, Zafer JARRAH, James A CAMPBELL
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Publication number: 20230124932Abstract: An electrical power system includes: an electrical machine to output AC; DC electrical network; power electronics converter connected between the AC output of the electrical machine and the DC electrical network and having a phase leg having first and second branches respectively having first and second bi-directional MOSFETs; and controller controlling switching of the first and second bi-directional MOSFETs of each phase leg of the converter so that current is commutated between the phase leg first and second branches rectifying the AC input to DC to supply the DC electrical network with DC electrical power. The controller is responsive to a determination to the effect that there is a fault in the DC electrical network, to control the switching of each phase leg first and second bi-directional MOSFETs to switch the converter into a crow-bar configuration in which electrical machine current does not flow to the DC network.Type: ApplicationFiled: September 22, 2022Publication date: April 20, 2023Applicant: ROLLS-ROYCE plcInventors: Francisco Javier CHIVITE ZABALZA, David R. TRAINER, Mark SWEET, Matthew C. MORRIS, Zafer JARRAH, James A. CAMPBELL
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Patent number: 11233464Abstract: This application relates to a cell (1200) or sub-module for a voltage source converter (1201). The cell includes an energy storage apparatus (101; 101a, 101b) and a plurality of dual-switch semiconductor packages (201), each having first and second semiconductor switches (202, 203) connected in series. The cell is operable in an active state in which an energy storage apparatus (101; 101a, 101b) is electrically connected in series between cell terminals (102a, 102b) and a bypass state in the cell terminals (102a, 102b) are electrically connected via a path that bypasses the first energy storage apparatus.Type: GrantFiled: March 7, 2019Date of Patent: January 25, 2022Assignee: General Electric Technology GmbHInventors: Colin Charnock Davidson, Francisco Javier Chivite Zabalza, John Lewis Outram, Jerome Gregoire, Stefan Schroeder
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Publication number: 20210013816Abstract: This application relates to a cell (1200) or sub-module for a voltage source converter (1201). The cell includes an energy storage apparatus (101; 101a, 101b) and a plurality of dual-switch semiconductor packages (201), each having first and second semiconductor switches (202, 203) connected in series. The cell is operable in an active state in which an energy storage apparatus (101; 101a, 101b) is electrically connected in series between cell terminals (102a, 102b) and a bypass state in the cell terminals (102a, 102b) are electrically connected via a path that bypasses the first energy storage apparatus.Type: ApplicationFiled: March 7, 2019Publication date: January 14, 2021Inventors: Colin Charnock Davidson, Francisco Javier Chivite Zabalza, John Lewis Outram, Jerome Gregoire, Stefan Schroeder
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Publication number: 20200412235Abstract: The present disclosure relates to a voltage source converter (VSC) (300) comprising: a first MOSFET switching element (302) including a first body diode (306); a second MOSFET switching element (304) including a second body diode (308), the second MOSFET switching element (304) being connected in series with the first MOSFET switching element (302); a protection device (318) connected in parallel with the second MOSFET switching element (304); and a controller (312), wherein the controller (312) is configured, on detection of an overcurrent event, to: switch off the first MOSFET switching element (302); and switch off the second MOSFET switching element (304), thereby forcing current flowing in the VSC (300) following the overcurrent event to flow through the second body diode (308) rather than through conducting channels of the first and second MOSFET switching elements (302, 304).Type: ApplicationFiled: March 5, 2019Publication date: December 31, 2020Inventors: Francisco Javier Chivite-Zabalza, Colin Charnock Davidson, John Lewis Outram, Jerome Gregoire
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Publication number: 20200328740Abstract: A switching valve includes series-connected switching elements and auxiliary circuits. Each auxiliary circuit is connected in parallel with a respective one of the series-connected switching elements. Each auxiliary circuit includes a respective auxiliary capacitor. The method includes carrying out a compensation procedure. The compensation procedure includes: initiating a turn-off event by sending a respective turn-off control signal to each switching element; measuring a respective capacitor voltage value of each auxiliary capacitor after the turn-off event; comparing the measured capacitor voltage values; and using the comparison between the measured capacitor voltages as a reference to adjust the time of sending a or a respective turn-off control signal to at least one of the switching elements so as to reduce a or a respective time difference between the turn-off times of the switching elements at the next turn-off event.Type: ApplicationFiled: May 26, 2017Publication date: October 15, 2020Applicant: General Electric Technology GmbHInventors: Francisco Javier CHIVITE ZABALZA, Pablo BRIFF, Jonathan Christopher NICHOLLS