Patents by Inventor Gehan Anil Joseph Amaratunga
Gehan Anil Joseph Amaratunga 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: 11303134Abstract: The invention relates to a grid synchroniser for connecting an AC output of a power converter to the AC grid mains. In one aspect the invention provides a grid synchroniser comprising an inverter controller to control an AC output of the inverter, the controller including a receiver to receive grid data from a grid sensor location remote from said inverter. In another aspect we describe techniques for rapid removal of charge from a control terminal of a power switching device such as a MOSFET, IGBT or Thyristor using a particular driver circuit.Type: GrantFiled: January 25, 2021Date of Patent: April 12, 2022Assignee: Tesla, Inc.Inventors: Gehan Anil Joseph Amaratunga, Lesley Chisenga, Andrabadu Viraj
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Publication number: 20210226453Abstract: The invention relates to a grid synchroniser for connecting an AC output of a power converter to the AC grid mains. In one aspect the invention provides a grid synchroniser comprising an inverter controller to control an AC output of the inverter, the controller including a receiver to receive grid data from a grid sensor location remote from said inverter. In another aspect we describe techniques for rapid removal of charge from a control terminal of a power switching device such as a MOSFET, IGBT or Thyristor using a particular driver circuit.Type: ApplicationFiled: January 25, 2021Publication date: July 22, 2021Inventors: Gehan Anil Joseph Amaratunga, Lesley Chisenga, Andrabadu Viraj
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Patent number: 10903658Abstract: The invention relates to a grid synchroniser for connecting an AC output of a power converter to the AC grid mains. In one aspect the invention provides a grid synchroniser comprising an inverter controller to control an AC output of the inverter, the controller including a receiver to receive grid data from a grid sensor location remote from said inverter. In another aspect we describe techniques for rapid removal of charge from a control terminal of a power switching device such as a MOSFET, IGBT or Thyristor using a particular driver circuit.Type: GrantFiled: April 24, 2018Date of Patent: January 26, 2021Assignee: SolarCity CorporationInventors: Gehan Anil Joseph Amaratunga, Lesley Chisenga, Andrabadu Viraj
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Patent number: 10508386Abstract: The present disclosure relates to modified textile material, wherein the modification is carried out by treating textile material with Hydroxyapatite. Such modified textile materials show bacterio-repulsion by preventing bacteria from attaching to their surfaces, thereby preventing malodor formation. The present disclosure also relates to process for obtaining the modified textile material as well as use of Hydroxyapatite as a bacterial repellent agent for preparing odor free textile material.Type: GrantFiled: April 28, 2016Date of Patent: December 17, 2019Assignee: Sri Lanka Institute of Nanotechnology (Pvt) Ltd.Inventors: Krawe Sharini Malsha Udayakantha, Danushika Charyangi Manatunga, Kalu Marakkala Nalin de Silva, Gehan Anil Joseph Amaratunga
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Patent number: 10418818Abstract: Improved techniques for photovoltaic power generation are described. Inverter failure is can be a significant problem in solar photovoltaic systems as it can lead to loss of opportunity to harvest energy. A solar photovoltaic (PV) power generation system is described comprising solar PV panels and power conditioning units. A dc power distribution bus is coupled to the solar PV panels and the power conditioning units to switchably share dc power from the solar PV panels between the power conditioning units. Power distribution controllers detect a faulty power conditioning unit and reroute power from a solar PV panel coupled to the faulty power conditioning unit to other power conditioning units via the dc distribution bus.Type: GrantFiled: December 30, 2015Date of Patent: September 17, 2019Assignee: Tesla, Inc.Inventors: Lesley Chisenga, Paul Randal Engle, Jr., Gehan Anil Joseph Amaratunga, Andrew John Matthews
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Patent number: 10291032Abstract: This invention is generally concerned with power supply circuits, and more particularly, with circuits to supply power to a mains supply, such as domestic grid mains, from a photovoltaic device. A photovoltaic power conditioning circuit for providing power from a photovoltaic device to an alternating current mains power supply line, the circuit comprising: a DC input to receive DC power from said photovoltaic device; an AC output configured for direct connection to said AC mains power supply line; a DC-to-AC converter coupled to said DC input and to said AC output to convert DC power from said photovoltaic device to AC power for output onto said power supply line; and an electronic controller directly coupled to said power supply line to measure a voltage of said power supply line and a current in said supply line and to control said DC-to-AC converter responsive to said measuring.Type: GrantFiled: August 19, 2016Date of Patent: May 14, 2019Assignee: Tesla, Inc.Inventors: Asim Mumtaz, Lesley Chisenga, Gehan Anil Joseph Amaratunga
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Patent number: 10193467Abstract: We describe a power conditioning unit with maximum power point tracking (MPPT) for a dc power source, in particular a photovoltaic panel. A power injection control block has a sense input coupled to an energy storage capacitor on a dc link and controls a dc-to-ac converter to control the injected mains power. The power injection control block tracks the maximum power point by measuring a signal on the dc link which depends on the power drawn from the dc power source, and thus there is no need to measure the dc voltage and current from the dc source. In embodiments the signal is a ripple voltage level and the power injection control block controls an amplitude of an ac current output such that an amount of power transferred to the grid mains is dependent on an amplitude of a sinusoidal voltage component on the energy storage capacitor.Type: GrantFiled: June 16, 2017Date of Patent: January 29, 2019Assignee: Tesla, Inc.Inventors: Lesley Chisenga, Gehan Anil Joseph Amaratunga, Cuauhtemoc Rodriguez
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Publication number: 20180241217Abstract: The invention relates to a grid synchroniser for connecting an AC output of a power converter to the AC grid mains. In one aspect the invention provides a grid synchroniser comprising an inverter controller to control an AC output of the inverter, the controller including a receiver to receive grid data from a grid sensor location remote from said inverter. In another aspect we describe techniques for rapid removal of charge from a control terminal of a power switching device such as a MOSFET, IGBT or Thyristor using a particular driver circuit.Type: ApplicationFiled: April 24, 2018Publication date: August 23, 2018Inventors: Gehan Anil Joseph Amaratunga, Lesley Chisenga, Andrabadu Viraj
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Patent number: 9997923Abstract: The invention relates to a grid synchronizer for connecting an AC output of a power converter to the AC grid mains. In one aspect the invention provides a grid synchronizer comprising an inverter controller to control an AC output of the inverter, the controller including a receiver to receive grid data from a grid sensor location remote from said inverter. In another aspect we describe techniques for rapid removal of charge from a control terminal of a power switching device such as a MOSFET, IGBT or Thyristor using a particular driver circuit.Type: GrantFiled: October 19, 2012Date of Patent: June 12, 2018Assignee: SolarCity CorporationInventors: Gehan Anil Joseph Amaratunga, Lesley Chisenga, Andrabadu Viraj
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Patent number: 9812980Abstract: We describe a power conditioning unit with maximum power point tracking (MPPT) for a dc power source, in particular a photovoltaic panel. A power injection control block has a sense input coupled to an energy storage capacitor on a dc link and controls a dc-to-ac converter to control the injected mains power. The power injection control block tracks the maximum power point by measuring a signal on the dc link which depends on the power drawn from the dc power source, and thus there is no need to measure the dc voltage and current from the dc source. In embodiments the signal is a ripple voltage level and the power injection control block controls an amplitude of an ac current output such that an amount of power transferred to the grid mains is dependent on an amplitude of a sinusoidal voltage component on the energy storage capacitor.Type: GrantFiled: January 3, 2016Date of Patent: November 7, 2017Assignee: SolarCity CorporationInventors: Lesley Chisenga, Gehan Anil Joseph Amaratunga, Cuauhtemoc Rodriguez
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Publication number: 20170314187Abstract: The present disclosure relates to modified textile material, wherein the modification is carried out by treating textile material with Hydroxyapatite. Such modified textile materials show bacterio-repulsion by preventing bacteria from attaching to their surfaces, thereby preventing malodor formation. The present disclosure also relates to process for obtaining the modified textile material as well as use of Hydroxyapatite as a bacterial repellent agent for preparing odor free textile material.Type: ApplicationFiled: April 28, 2016Publication date: November 2, 2017Inventors: Krawe Sharini Malsha Udayakantha, Danushika Charyangi Manatunga, Kalu Marakkala Nalin de Silva, Gehan Anil Joseph Amaratunga
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Publication number: 20170314185Abstract: The present invention relates to production of textile with high rate of evaporation of moisture content. In this invention, a textile substrate is coated with Near Infrared (NIR) energy absorbing agent to increase the surface temperature of substrate and enhance the evaporation of moisture from the textile substrate.Type: ApplicationFiled: April 28, 2016Publication date: November 2, 2017Inventors: Ruchira Nalinga Wijesena, Palihenage Nadeeka Dushani Tissera, Kalu Marakkala Nalin de Silva, Gehan Anil Joseph Amaratunga, Randunu Devage Ishara Gihan Dharmasena, Wadiya Ralage Lakmali Nisansala Bandara, Amugoda Kankanage Lahiru Anuradha Wijenayaka, Rajapakshe Mudiyanselage Indrachapa Bandara
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Publication number: 20170288406Abstract: We describe a power conditioning unit with maximum power point tracking (MPPT) for a dc power source, in particular a photovoltaic panel. A power injection control block has a sense input coupled to an energy storage capacitor on a dc link and controls a dc-to-ac converter to control the injected mains power. The power injection control block tracks the maximum power point by measuring a signal on the dc link which depends on the power drawn from the dc power source, and thus there is no need to measure the dc voltage and current from the dc source. In embodiments the signal is a ripple voltage level and the power injection control block controls an amplitude of an ac current output such that an amount of power transferred to the grid mains is dependent on an amplitude of a sinusoidal voltage component on the energy storage capacitor.Type: ApplicationFiled: June 16, 2017Publication date: October 5, 2017Inventors: Lesley Chisenga, Gehan Anil Joseph Amaratunga, Cuauhtemoc Rodriguez
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Publication number: 20160359331Abstract: This invention is generally concerned with power supply circuits, and more particularly, with circuits to supply power to a mains supply, such as domestic grid mains, from a photovoltaic device. A photovoltaic power conditioning circuit for providing power from a photovoltaic device to an alternating current mains power supply line, the circuit comprising: a DC input to receive DC power from said photovoltaic device; an AC output configured for direct connection to said AC mains power supply line; a DC-to-AC converter coupled to said DC input and to said AC output to convert DC power from said photovoltaic device to AC power for output onto said power supply line; and an electronic controller directly coupled to said power supply line to measure a voltage of said power supply line and a current in said supply line and to control said DC-to-AC converter responsive to said measuring.Type: ApplicationFiled: August 19, 2016Publication date: December 8, 2016Inventors: Asim Mumtaz, Lesley Chisenga, Gehan Anil Joseph Amaratunga
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Publication number: 20160261117Abstract: Improved techniques for photovoltaic power generation are described. Inverter failure is can be a significant problem in solar photovoltaic systems as it can lead to loss of opportunity to harvest energy. A solar photovoltaic (PV) power generation system is described comprising solar PV panels and power conditioning units. A dc power distribution bus is coupled to the solar PV panels and the power conditioning units to switchably share dc power from the solar PV panels between the power conditioning units. Power distribution controllers detect a faulty power conditioning unit and reroute power from a solar PV panel coupled to the faulty power conditioning unit to other power conditioning units via the dc distribution bus.Type: ApplicationFiled: December 30, 2015Publication date: September 8, 2016Inventors: Lesley Chisenga, Paul Randal Engle, JR., Gehan Anil Joseph Amaratunga, Andrew John Matthews
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Patent number: 9425623Abstract: This invention is generally concerned with power supply circuits, and more particularly, with circuits to supply power to a mains supply, such as domestic grid mains, from a photovoltaic device. A photovoltaic power conditioning circuit for providing power from a photovoltaic device to an alternating current mains power supply line, the circuit comprising: a DC input to receive DC power from said photovoltaic device; an AC output configured for direct connection to said AC mains power supply line; a DC-to-AC converter coupled to said DC input and to said AC output to convert DC power from said photovoltaic device to AC power for output onto said power supply line; and an electronic controller directly coupled to said power supply line to measure a voltage of said power supply line and a current in said supply line and to control said DC-to-AC converter responsive to said measuring.Type: GrantFiled: February 22, 2013Date of Patent: August 23, 2016Assignee: SOLARCITY CORPORATIONInventors: Asim Mumtaz, Lesley Chisenga, Gehan Anil Joseph Amaratunga
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Publication number: 20160226390Abstract: We describe a power conditioning unit with maximum power point tracking (MPPT) for a dc power source, in particular a photovoltaic panel. A power injection control block has a sense input coupled to an energy storage capacitor on a dc link and controls a dc-to-ac converter to control the injected mains power. The power injection control block tracks the maximum power point by measuring a signal on the dc link which depends on the power drawn from the dc power source, and thus there is no need to measure the dc voltage and current from the dc source. In embodiments the signal is a ripple voltage level and the power injection control block controls an amplitude of an ac current output such that an amount of power transferred to the grid mains is dependent on an amplitude of a sinusoidal voltage component on the energy storage capacitor.Type: ApplicationFiled: January 3, 2016Publication date: August 4, 2016Inventors: Lesley Chisenga, Gehan Anil Joseph Amaratunga, Cuauhtemoc Rodriguez
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Patent number: 9276409Abstract: Improved techniques for photovoltaic power generation are described. Inverter failure is can be a significant problem in solar photovoltaic systems as it can lead to loss of opportunity to harvest energy. A solar photovoltaic (PV) power generation system is described comprising solar PV panels and power conditioning units. A dc power distribution bus is coupled to the solar PV panels and the power conditioning units to switchably share dc power from the solar PV panels between the power conditioning units. Power distribution controllers detect a faulty power conditioning unit and reroute power from a solar PV panel coupled to the faulty power conditioning unit to other power conditioning units via the dc distribution bus.Type: GrantFiled: September 23, 2011Date of Patent: March 1, 2016Assignee: SOLARCITY CORPORATIONInventors: Lesley Chisenga, Paul Randal Engle, Jr., Gehan Anil Joseph Amaratunga, Andrew John Matthews
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Patent number: 9270191Abstract: A power conditioning unit with maximum power point tracking (MPPT) for a dc power source in a photovoltaic panel is provided. The power conditioning unit includes a power injection control block having a sense input coupled to an energy storage capacitor on a dc link for controlling a dc-to-ac converter to control the injected mains power. The power injection control block tracks the maximum power point by measuring a signal on the dc link which depends on the power drawn from the dc power source, and thus there is no need to measure the dc voltage and current from the dc source. The measured signal is a ripple voltage level and the power injection control block controls the amplitude of an ac current output such that the amount of power transferred to the grid mains is dependent on the amplitude of a sinusoidal voltage component on the energy storage capacitor.Type: GrantFiled: March 15, 2013Date of Patent: February 23, 2016Assignee: SOLARCITY CORPORATIONInventors: Lesley Chisenga, Gehan Anil Joseph Amaratunga, Cuauhtemoc Rodriguez
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Publication number: 20130279210Abstract: We describe a power conditioning unit with maximum power point tracking (MPPT) for a dc power source, in particular a photovoltaic panel. A power injection control block has a sense input coupled to an energy storage capacitor on a dc link and controls a dc-to-ac converter to control the injected mains power. The power injection control block tracks the maximum power point by measuring a signal on the dc link which depends on the power drawn from the dc power source, and thus there is no need to measure the dc voltage and current from the dc source. In embodiments the signal is a ripple voltage level and the power injection control block controls an amplitude of an ac current output such that an amount of power transferred to the grid mains is dependent on an amplitude of a sinusoidal voltage component on the energy storage capacitor.Type: ApplicationFiled: March 15, 2013Publication date: October 24, 2013Inventors: Lesley Chisenga, Gehan Anil Joseph Amaratunga, Cuauhtemoc Rodriguez