Patents by Inventor Anthony Sagneri
Anthony Sagneri 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: 11967827Abstract: A split DC (Direct Current) bus inverter architecture includes a positive DC bus, a negative DC bus, and a neutral node. It further includes a split phase output. A first output of a DC-DC converter is connected to the neutral node and a second output of the DC-DC converter is connected to one of the positive DC bus or the negative DC bus.Type: GrantFiled: April 7, 2023Date of Patent: April 23, 2024Assignee: Lunar Energy, Inc.Inventors: Mark Holveck, Anthony Sagneri
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Publication number: 20240128594Abstract: A wiring harness for a battery and inverter system includes a main cable. It further includes an inverter connector configured to plug the main cable into an inverter module. It further includes a first spur of the main cable terminating in a first-type battery device connector. It further includes a second spur of the main cable terminating in a second type battery device connector.Type: ApplicationFiled: May 8, 2023Publication date: April 18, 2024Inventors: Peter H.J. How, Tanner Bruce DeVoe, Mark Holveck, Anthony Sagneri, Christopher Breckenridge Todd, Randol Aikin, Mark Daniel Goldman, Conrad Xavier Murphy, Kevin Richard Fine, Brian M. Neil
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Patent number: 11934165Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.Type: GrantFiled: October 27, 2021Date of Patent: March 19, 2024Assignee: Ubiquitous Energy, Inc.Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
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Patent number: 11860596Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.Type: GrantFiled: October 27, 2021Date of Patent: January 2, 2024Assignee: Ubiquitous Energy, Inc.Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
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Publication number: 20230396072Abstract: A split DC (Direct Current) bus inverter architecture includes a positive DC bus, a negative DC bus, and a neutral node. It further includes a split phase output. A first output of a DC-DC converter is connected to the neutral node and a second output of the DC-DC converter is connected to one of the positive DC bus or the negative DC bus.Type: ApplicationFiled: April 7, 2023Publication date: December 7, 2023Inventors: Mark Holveck, Anthony Sagneri
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Patent number: 11782408Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.Type: GrantFiled: October 27, 2021Date of Patent: October 10, 2023Assignee: Ubiquitous Energy, Inc.Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
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Patent number: 11769935Abstract: A wiring harness for a battery and inverter system includes a main cable. It further includes an inverter connector configured to plug the main cable into an inverter module that includes: an inverter-end positive-DC power bus pin, an inverter-end negative DC power bus pin, and an inverter-end neutral power bus pin. It further includes a first spur of the main cable terminating in a first-type battery device connector that includes: a first-type battery module positive-DC power bus pin and a first-type battery device neutral power bus pin. It further includes a second spur of the main cable terminating in a second type battery device connector that includes: a second-type battery module neutral power bus pin and a second-type battery device negative DC power bus pin.Type: GrantFiled: October 12, 2022Date of Patent: September 26, 2023Assignee: Lunar Energy, Inc.Inventors: Peter H. J. How, Tanner Bruce DeVoe, Mark Holveck, Anthony Sagneri, Christopher Breckenridge Todd, Randol Aikin, Mark Daniel Goldman, Conrad Xavier Murphy, Kevin Richard Fine, Brian M. Neil
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Publication number: 20230283194Abstract: Control techniques and circuits for resonant power converters and other power converters are described. Control of power converters based on more than one control parameter can provide improved efficiency over a wide operating range. A resonant power converter may have its switching frequency controlled within a narrow band to improve efficiency.Type: ApplicationFiled: October 17, 2022Publication date: September 7, 2023Inventors: Anthony Sagneri, Victor Sinow, Ranko Sredojevic, Milovan Kovacevic
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Patent number: 11671031Abstract: A split DC (Direct Current) bus inverter architecture includes a positive DC bus, a negative DC bus, and a neutral node. It further includes a first capacitor between the positive DC bus and the neutral node. It further includes a second capacitor between the negative DC bus and the neutral node. It further includes a split phase output. A first output of a DC-DC converter is connected to the neutral node and a second output of the DC-DC converter is connected to one of the positive DC bus or the negative DC bus.Type: GrantFiled: October 13, 2022Date of Patent: June 6, 2023Assignee: Lunar Energy, Inc.Inventors: Mark Holveck, Anthony Sagneri
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Publication number: 20220131470Abstract: A power module includes a power converter having a controller configured to control the power converter. The controller is configured to control the power converter using feedback for a first load on the power converter, and to allow the power converter to operate without controlling the power converter using the feedback for second load on the power converter higher than the first load.Type: ApplicationFiled: June 4, 2021Publication date: April 28, 2022Inventors: Anthony Sagneri, Victor Sinow, Kai Li
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Publication number: 20220128960Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.Type: ApplicationFiled: October 27, 2021Publication date: April 28, 2022Applicant: Ubiquitous Energy, Inc.Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
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Publication number: 20220128961Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.Type: ApplicationFiled: October 27, 2021Publication date: April 28, 2022Applicant: Ubiquitous Energy, Inc.Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
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Publication number: 20220128959Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.Type: ApplicationFiled: October 27, 2021Publication date: April 28, 2022Applicant: Ubiquitous Energy, Inc.Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
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Publication number: 20220021308Abstract: Control techniques and circuits for resonant power converters and other power converters are described. Control of power converters based on more than one control parameter can provide improved efficiency over a wide operating range. A resonant power converter may have its switching frequency controlled within a narrow band to improve efficiency.Type: ApplicationFiled: February 26, 2021Publication date: January 20, 2022Inventors: Anthony Sagneri, Victor Sinow, Ranko Sredojevic, Milovan Kovacevic
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Patent number: 11038428Abstract: In an aspect, the present invention provides a high frequency switching power converter. The high frequency switching power converter may include a plurality of soft-switchable power cells flexibly connected to receive an input signal in series and provide an output. The high frequency switching power converter may further include a controller for configuring the flexible connection and for controlling the power cells to receive the input signal. In an embodiment, each of the plurality of power cells may be separately controllable by the controller. Further, a portion of the plurality of power cells may be arranged with parallel outputs. Additionally, at least one of the plurality of cells may include one or more switched capacitors. In another embodiment, the at least one of the plurality of cells may include at least one switched capacitor and a DC/DC regulating converter.Type: GrantFiled: September 16, 2019Date of Patent: June 15, 2021Assignee: FINsix CorporationInventors: Anthony Sagneri, George Hwang, Justin Burkhart, Fred Chen
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Publication number: 20210081011Abstract: A power conversion module, such as a power adapter, provides power delivery capability information to a device powered by the power module. The power delivery capability information is determined based on information indicative of the temperature of the power module.Type: ApplicationFiled: April 30, 2020Publication date: March 18, 2021Inventors: Anthony Sagneri, Vanessa Green
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Publication number: 20200366208Abstract: Control techniques and circuits for resonant power converters and other power converters are described. Control of power converters based on more than one control parameter can provide improved efficiency over a wide operating range. A resonant power converter may have its switching frequency controlled within a narrow band to improve efficiency.Type: ApplicationFiled: December 12, 2019Publication date: November 19, 2020Inventors: Anthony Sagneri, Victor Sinow, Ranko Sredojevic, Milovan Kovacevic
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Publication number: 20200259420Abstract: In an aspect, the present invention provides a high frequency switching power converter. The high frequency switching power converter may include a plurality of soft-switchable power cells flexibly connected to receive an input signal in series and provide an output. The high frequency switching power converter may further include a controller for configuring the flexible connection and for controlling the power cells to receive the input signal. In an embodiment, each of the plurality of power cells may be separately controllable by the controller. Further, a portion of the plurality of power cells may be arranged with parallel outputs. Additionally, at least one of the plurality of cells may include one or more switched capacitors. In another embodiment, the at least one of the plurality of cells may include at least one switched capacitor and a DC/DC regulating converter.Type: ApplicationFiled: September 16, 2019Publication date: August 13, 2020Applicant: FINsix CorporationInventors: Anthony Sagneri, George Hwang, Justin Burkhart, Fred Chen
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Publication number: 20190245451Abstract: A power module includes a power converter having a controller configured to control the power converter. The controller is configured to control the power converter using feedback for a first load on the power converter, and to allow the power converter to operate without controlling the power converter using the feedback for second load on the power converter higher than the first load.Type: ApplicationFiled: February 8, 2019Publication date: August 8, 2019Inventors: Anthony Sagneri, Victor Sinow, Kai Li
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Publication number: 20180309368Abstract: Control techniques and circuits for resonant power converters and other power converters are described. Control of power converters based on more than one control parameter can provide improved efficiency over a wide operating range. A resonant power converter may have its switching frequency controlled within a narrow band to improve efficiency.Type: ApplicationFiled: April 26, 2018Publication date: October 25, 2018Inventors: Anthony Sagneri, Victor Sinow, Ranko Sredojevic, Milovan Kovacevic