Patents by Inventor Aditya Jayant
Aditya Jayant 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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Publication number: 20240014679Abstract: A charging device, comprising a first power converter configured to provide a first output current, a second power converter configured to provide a second output current, a switch coupled to an output of the first power converter and an output of the second power converter, a first socket coupled to the output of the first power converter, a second socket coupled to the output of the second power converter, and a power delivery (PD) controller configured to control a turn ON of the switch in response to a coupling of the first socket to a first powered device and an absence of coupling of the second socket to a second powered device.Type: ApplicationFiled: September 20, 2023Publication date: January 11, 2024Applicant: POWER INTEGRATIONS, INC.Inventors: Eng Hwee Quek, Aditya Jayant Kulkarni, Ran Li, Roland Sylvere Saint-Pierre
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Patent number: 11799311Abstract: A charging device comprising a first power converter configured to provide a first output power, a second power converter configured to provide a second output power. A switch is coupled to the first power converter and the second power converter. A first socket is configured to deliver the first output power from the first power converter to a first powered device. A second socket is configured to deliver the second output power from the second power converter to a second powered device. A power delivery (PD) controller configured to detect a coupling of the first socket to the first powered device. In addition, the PD controller is configured to detect an absence of coupling of the second socket to the second powered device. Furthermore, the PD controller is configured to control the switch to provide the first output power and the second output power to the first powered device.Type: GrantFiled: November 30, 2020Date of Patent: October 24, 2023Assignee: POWER INTEGRATIONS, INC.Inventors: Eng Hwee Quek, Aditya Jayant Kulkarni, Ran Li, Roland Sylvere Saint-Pierre
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Publication number: 20210083500Abstract: A charging device comprising a first power converter configured to provide a first output power, a second power converter configured to provide a second output power. A switch is coupled to the first power converter and the second power converter. A first socket is configured to deliver the first output power from the first power converter to a first powered device. A second socket is configured to deliver the second output power from the second power converter to a second powered device. A power delivery (PD) controller configured to detect a coupling of the first socket to the first powered device. In addition, the PD controller is configured to detect an absence of coupling of the second socket to the second powered device. Furthermore, the PD controller is configured to control the switch to provide the first output power and the second output power to the first powered device.Type: ApplicationFiled: November 30, 2020Publication date: March 18, 2021Applicant: Power Integrations, Inc.Inventors: Eng Hwee Quek, Aditya Jayant Kulkarni, Ran Li, Roland Sylvere Saint-Pierre
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Hybrid system and method for producing a substantially non-foaming and foaming gas-infused beverages
Patent number: 10182587Abstract: A system prepares and dispenses non gas-infused and gas-infused beverages including a gas source, a pressurizable container connected to the gas source to receive a first flow of gas, a gas infusion tank connected to the gas source to receive a second flow of gas, a first dispensing tap that receives a portion of preprocessed beverage stored in the pressurizable container that flows under pressure from a portion of the first flow of gas to dispense a non gas-infused beverage from the first dispensing tap, and a second dispensing tap that receives gas-infused beverage from the gas infusion vessel to dispense the gas-infused beverage by the second dispensing tap, the gas-infused tank receiving a portion of the preprocessed beverage from the pressurizable container to infuse the preprocessed beverage in the gas infusion vessel with at least a portion of the second flow of gas.Type: GrantFiled: December 9, 2016Date of Patent: January 22, 2019Assignee: MANITOWOC FOODSERVICE COMPANIES, LLCInventors: Kenneth Lundberg, Paul Wesley Cochran, Peter Edward Boyd, Robert R. Niederman, William J. Allen, II, Aditya Jayant Angal -
HYBRID SYSTEM AND METHOD FOR PRODUCING A SUBSTANTIALLY NON-FOAMING AND FOAMING GAS-INFUSED BEVERAGES
Publication number: 20170164643Abstract: A system prepares and dispenses non gas-infused and gas-infused beverages including a gas source, a pressurizable container connected to the gas source to receive a first flow of gas, a gas infusion tank connected to the gas source to receive a second flow of gas, a first dispensing tap that receives a portion of preprocessed beverage stored in the pressurizable container that flows under pressure from a portion of the first flow of gas to dispense a non gas-infused beverage from the first dispensing tap, and a second dispensing tap that receives gas-infused beverage from the gas infusion vessel to dispense the gas-infused beverage by the second dispensing tap, the gas-infused tank receiving a portion of the preprocessed beverage from the pressurizable container to infuse the preprocessed beverage in the gas infusion vessel with at least a portion of the second flow of gas.Type: ApplicationFiled: December 9, 2016Publication date: June 15, 2017Inventors: Kenneth Lundberg, Paul Wesley Cochran,, Peter Edward Boyd, Robert R. Niederman, William J. Allen II, Aditya Jayant Angal -
Patent number: 8987929Abstract: Systems and methods for operating a wind farm are disclosed. The method includes detecting an operating condition of an upwind wind generator, the upwind wind generator located upstream of a downwind wind generator relative to a wind flow direction. The method further includes communicating a control signal to the downwind wind generator. The control signal is based on the operating condition. The method further includes beginning to adjust the downwind wind generator according to the control signal before the wind flow is experienced by the downwind wind generator.Type: GrantFiled: November 1, 2012Date of Patent: March 24, 2015Assignee: General Electric CompanyInventors: Aditya Jayant, Shimnamol Padmanabhan Nair, Vincent Arokiasamy, Santhosha Yelwal Srikanta
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Publication number: 20140117668Abstract: Systems and methods for operating a wind farm are disclosed. The method includes detecting an operating condition of an upwind wind generator, the upwind wind generator located upstream of a downwind wind generator relative to a wind flow direction. The method further includes communicating a control signal to the downwind wind generator. The control signal is based on the operating condition. The method further includes beginning to adjust the downwind wind generator according to the control signal before the wind flow is experienced by the downwind wind generator.Type: ApplicationFiled: November 1, 2012Publication date: May 1, 2014Applicant: General Electric CompanyInventors: Aditya Jayant, Shimnamol Padmanabhan Nair, Vincent Arokiasamy, Santhosha Yelwal Srikanta
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Patent number: 7564601Abstract: A method for generating a tonal response curve for a scanner includes (a) directing light from the scanner to a calibration target having a single uniform neutral tone; (b) measuring with the scanner an amount of incident light reflected from the calibration target to obtain a simulated optical density value associated with the calibration target and the amount of incident light; (c) changing the amount of the incident light; (d) repeating acts (b) and (c) until a predetermined number of simulated optical density values are accumulated; and (e) generating the tonal response curve for the scanner by matching each of the simulated optical density values with one of a plurality of reference optical densities.Type: GrantFiled: October 18, 2006Date of Patent: July 21, 2009Assignee: Lexmark International, Inc.Inventors: Aditya Jayant Angal, James Lesesne Bush, III, William Everett Gardner
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Patent number: 7536281Abstract: A method for compensating for a contaminated calibration target used in calibrating a scanner having a plurality of sensor pixels includes (a) scanning a calibration target to generate a respective plurality of calibration data samples for each sensor pixel of the plurality of sensor pixels; (b) for calibration data samples associated with a current sensor pixel of the plurality of sensor pixels, removing any calibration data sample that corresponds to a region of calibration target contamination, leaving filtered calibration data samples; (c) determining a gain value for the current sensor pixel based on the filtered calibration data samples; (d) repeating acts (b) and (c) for a next sensor pixel until a respective gain value is determined for each of the plurality of sensor pixels; and (e) applying the determined gain values to the plurality of sensor pixels for use in subsequent image scanning by the scanner.Type: GrantFiled: June 1, 2007Date of Patent: May 19, 2009Assignee: Lexmark International, Inc.Inventors: Alison Beth Ternent, Aditya Jayant Angal
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Publication number: 20090103142Abstract: Method and apparatus of reducing aliasing when scanning a screen printed document including removing high frequency image information at the input of an image sensor prior to scanning. Removing high frequency image information increases the effective sampling frequency of the scanner thereby reducing the effects of aliasing by. Removal of high frequency image information is achieved by adjusting the focal position of the image sensor from a focused position to a defocused position using a mechanism for moving the image sensor or scan bar relative to either the scan bed or a document to be scanned.Type: ApplicationFiled: October 17, 2007Publication date: April 23, 2009Inventors: Aditya Jayant Angal, Anthony Craig Coleman, Anthony Michael King
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Publication number: 20080300811Abstract: A method for compensating for a contaminated calibration target used in calibrating a scanner having a plurality of sensor pixels includes (a) scanning a calibration target to generate a respective plurality of calibration data samples for each sensor pixel of the plurality of sensor pixels; (b) for calibration data samples associated with a current sensor pixel of the plurality of sensor pixels, removing any calibration data sample that corresponds to a region of calibration target contamination, leaving filtered calibration data samples; (c) determining a gain value for the current sensor pixel based on the filtered calibration data samples; (d) repeating acts (b) and (c) for a next sensor pixel until a respective gain value is determined for each of the plurality of sensor pixels; and (e) applying the determined gain values to the plurality of sensor pixels for use in subsequent image scanning by the scanner.Type: ApplicationFiled: June 1, 2007Publication date: December 4, 2008Inventors: Alison Beth Ternent, Aditya Jayant Angal
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Publication number: 20080144136Abstract: A method for generating a tonal response curve for a scanner includes (a) directing light from the scanner to a calibration target having a single uniform neutral tone; (b) measuring with the scanner an amount of incident light reflected from the calibration target to obtain a simulated optical density value associated with the calibration target and the amount of incident light; (c) changing the amount of the incident light; (d) repeating acts (b) and (c) until a predetermined number of simulated optical density values are accumulated; and (e) generating the tonal response curve for the scanner by matching each of the simulated optical density values with one of a plurality of reference optical densities.Type: ApplicationFiled: October 18, 2006Publication date: June 19, 2008Inventors: Aditya Jayant Angal, James Lesesne Bush, William Everett Gardner