Patents by Inventor Oleksandr Karpin
Oleksandr Karpin 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: 20170068838Abstract: A capacitive fingerprint sensor includes a set of capacitive sensor electrodes in a sensing area. The set of capacitive sensor electrodes includes a set of transmit (Tx) sensor electrodes, a set of receive (Rx) sensor electrodes, and a set of compensation electrodes. The fingerprint sensor also includes a multiphase capacitance sensor that is configured to perform a sensing scan of the capacitive sensor electrodes by applying a first Tx signal to a first subset of the Tx sensor electrodes while simultaneously applying a second Tx signal to a second subset of the set of Tx sensor electrodes, and based on a compensation signal received at the set of compensation electrodes, reduce a component of the Rx signal originating from a source other than a contact at the sensing area.Type: ApplicationFiled: December 9, 2015Publication date: March 9, 2017Inventors: Igor Kravets, Oleksandr Hoshtanar, Hans Klein, Oleksandr Karpin
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Publication number: 20170060273Abstract: Various embodiments provide an object recognition process that is configured to detect a passive stylus and reject non-passive stylus objects on a touch screen, including an edge portion of the touch screen. In one embodiment, the object recognition process includes receiving sense signals from sense elements of a sense array in response to a touch object being on the sense array, selecting three sense signals from three respective sense elements, calculating a first sum of the strengths of the three selected signals, calculating a second sum of the strengths of two of the selected signals which are greater than the strength of one of the selected signals; and determining a type of the object (e.g., a passive stylus or a user hand's grip shadow) based on the first sum and the second sum.Type: ApplicationFiled: August 10, 2016Publication date: March 2, 2017Inventors: Oleksiy Savitskyy, Oleksandr Karpin, Igor Kravets
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Patent number: 9495050Abstract: A capacitive sensor array may include a plurality of row sensor electrodes and a column sensor electrode capacitively coupled with each of the plurality of row sensor electrodes to form a plurality of unit cells. For each row sensor electrode, a unit cell that is associated with the column sensor electrode and the row sensor electrode comprises an area where a capacitance between the column sensor electrode and the row sensor electrode is greater than any other capacitance between the column sensor electrode and a different row sensor electrode. The capacitive sensor array further includes a first plurality of dummy electrodes, where each of the first plurality of dummy electrodes is capacitively coupled with the column sensor electrode and two adjacent row sensor electrodes of the plurality of row sensor electrodes.Type: GrantFiled: June 5, 2014Date of Patent: November 15, 2016Assignee: MONTEREY RESEARCH, LLCInventors: Oleksandr Hoshtanar, Igor Kravets, Oleksandr Karpin, Alexandre Gourevitch
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Patent number: 9411928Abstract: Apparatuses and methods of frequency hopping algorithms are described. One method monitors a signal on one or more electrodes of a sense network at a first operating frequency and detects noise in the signal at the first operating frequency. The method then switches to a second operating frequency, based on said detecting, for scanning the electrodes to detect a conductive object proximate to the plurality of electrodes, wherein a constant integration time is used for one half-period when scanning the electrodes at both the first and second operating frequencies.Type: GrantFiled: November 7, 2012Date of Patent: August 9, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Oleksandr Karpin, Milton Ribeiro, Volodymyr Bihday, Roman Ogirko, Andriy Maharyta, Igor Kolych
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Patent number: 9405401Abstract: An apparatus includes a transmission system configured to transmit a drive signal to a touch screen device. The apparatus also includes a reception system configured to integrate an output signal received from a touch screen device in response to the drive signals and to filter the integrated output signal to suppress noise in the output signal, wherein the reception system is configured to integrate the output signal for a period of time that is less than or equal to a signal period corresponding to the drive signal.Type: GrantFiled: September 27, 2012Date of Patent: August 2, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Oleksandr Karpin, Ihor Musijchuk, Igor Kolych, Volodymyr Bihday, Victor Kremin
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Patent number: 9391610Abstract: A sensor array that has first electrodes, second electrodes and third electrodes formed from a single layer of conductive material and interleaved without intersecting one another, in which each first electrode is coupled with at least one of the second electrodes via a mutual capacitance. Some of the third electrodes are disposed between the first electrodes and the second electrodes. All electrodes are interleaved without intersecting one another.Type: GrantFiled: September 19, 2014Date of Patent: July 12, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Alexandre Gourevitch, Igor Kravets, Oleksandr Karpin, Peter Vavaroutsos
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Patent number: 9389258Abstract: Techniques for designs of single-layer touch sensors are described herein. In an example embodiment, a device comprises a sensor array. The sensor array comprises first plurality of electrodes and second plurality of electrodes that are interleaved without intersecting each other within a touch-sensing area in a single layer on a substrate of the sensor array. A first electrode (of the first or second plurality) comprises at least two shaped portions. The two shaped portions may be disposed across at least a portion of a given second electrode from each other, or may be disposed between two or more portions of the given second electrode. The two shaped portions of the first electrode are routed in different directions on the substrate and are coupled to each other outside of the touch-sensing area of the sensor array.Type: GrantFiled: June 27, 2014Date of Patent: July 12, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Igor Kravets, Alexandre Gourevitch, Oleksandr Karpin, Oleksandr Hoshtanar, Massoud Badaye
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Patent number: 9383395Abstract: A method, apparatus, and system are described to perform, by a capacitance-sensing circuit, capacitance sensing of an electrode of a capacitive sense array of electrodes. Performing the capacitance sensing includes integrating, on a passive integrator circuit, charge from a sensed capacitance of the electrode of the capacitive sense array. The passive integrator circuit integrates the charge on a self-capacitance of the electrode as part of the integrating. The capacitance-sensing circuit converts the charge from the sensed capacitance of the electrode into a digital value representing the sensed capacitance of the electrode.Type: GrantFiled: April 25, 2014Date of Patent: July 5, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Roman Ogirko, Andriy Maharyta, Viktor Kremin, Hans Klein, Volodymyr Bihday, Oleksandr Karpin
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Patent number: 9377909Abstract: Capacitive touch sensors and touchscreen data processing methods are provided. In one embodiment, the method includes sequentially integrating and converting charge from each of a plurality of sensing capacitors in an array to digital data, the digital data including sample values corresponding to a measured capacitance for each of the plurality of sensing capacitors. Noise is then separated from useful information by filtering the sample values on a sample-by-sample basis. Finally, the filtered sample values are summed and a position of at least one contact on the array determined using the filtered capacitance values. Other embodiments are also provided.Type: GrantFiled: September 5, 2013Date of Patent: June 28, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Oleksandr Karpin, Igor Kolych, Andriy Maharyta, Ihor Musijchuk, Victor Kremin, Jan-Willem van de Waerdt
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Patent number: 9310927Abstract: A first plurality of contact locations may be determined in view of a first scan of a touch-sensing surface and a second plurality of contact locations may be determined in view of a second scan of the touch-sensing surface. A number of total contact locations may be identified in view of the first plurality of contact locations and the second plurality of contact locations. Furthermore, a first correlation process may be performed when the number of total contact locations satisfies a threshold number and a second correlation process may be performed when the number of total contact locations does not satisfy the threshold number.Type: GrantFiled: December 26, 2013Date of Patent: April 12, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Oleksandr Karpin, Volodymyr Hutnyk
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Publication number: 20160092028Abstract: A capacitance sensing system can filter noise that presents in a subset of electrodes in the proximity of a sense object (i.e., finger). A capacitance sensing system can include a sense network comprising a plurality of electrodes for generating sense values; a noise listening circuit configured to detect noise on a plurality of the electrodes; and a filtering circuit that enables a filtering for localized noise events when detected noise values are above one level, and disables the filtering for localized noise events when detected noise values are below the one level.Type: ApplicationFiled: September 8, 2015Publication date: March 31, 2016Inventors: Darrin Vallis, Victor Kremin, Andriy Maharyta, Yuriy Boychuk, Anton Konovalov, Oleksandr Karpin, Ihor Musijchuk, Hans Klein, Edward Grivna
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Publication number: 20160085355Abstract: Systems, methods, and apparatus for force sensor baseline calibration are disclosed herein. 1. Apparatus may include a force sensor configured to receive a plurality of force signals from a plurality of force sensitive elements, where the plurality of force signals is associated with a first touch at a first location of a sensing surface. The apparatus may include a touch sensor configured to receive a touch signal associated with the first touch. The apparatus may include processing logic coupled to the force sensor and the touch sensor, the processing logic being configured to determine a magnitude of a first component force associated with the first touch based, at least in part, on the plurality of force signals and the touch signal. The first component force may characterize a force applied by the first touch at the first location of the sensing surface.Type: ApplicationFiled: September 24, 2015Publication date: March 24, 2016Applicant: Cypress Semiconductor CorporationInventors: Oleksandr Pirogov, Volodymyr Hutnyk, Oleksandr Karpin
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Patent number: 9250752Abstract: A method and apparatus for scanning a first set of electrodes of a capacitive sense array using a first sensing mode to identify a presence of an object in proximity to the capacitive sense array, where scanning using the first sensing mode identifies objects not in physical contact with the capacitive sense array. The first set of electrodes is scanned using a second sensing mode to determine a location of the object in relation to the capacitive sense array, where rescanning using the second sensing mode determines locations of objects in physical contact with the capacitive sense array.Type: GrantFiled: July 14, 2011Date of Patent: February 2, 2016Assignee: PARADE TECHNOLOGIES, LTD.Inventors: Oleksandr Karpin, Andriy Maharyta, Andriy Ryshtun, Victor Kremin, Volodymyr Hutnyk
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Publication number: 20150349773Abstract: A sensor array that has first electrodes, second electrodes and third electrodes formed from a single layer of conductive material and interleaved without intersecting one another, in which each first electrode is coupled with at least one of the second electrodes via a mutual capacitance. Some of the third electrodes are disposed between the first electrodes and the second electrodes. All electrodes are interleaved without intersecting one another.Type: ApplicationFiled: September 19, 2014Publication date: December 3, 2015Inventors: Alexandre Gourevitch, Igor Kravets, Oleksandr Karpin, Peter Vavaroutsos
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Patent number: 9164605Abstract: An apparatus may include processing logic coupled with a force sensor input and a touch sensor input. The processing logic is configured to determine a relative force magnitude based on a force signal received at the force sensor input and a baseline measurement of the force sensor. The processing logic updates the baseline measurement in response to detecting that the touch signal indicates the absence of the one or more touches from the sensing surface.Type: GrantFiled: February 3, 2010Date of Patent: October 20, 2015Assignee: Cypress Semiconductor CorporationInventors: Oleksandr Pirogov, Volodymyr Hutnyk, Oleksandr Karpin
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Patent number: 9128570Abstract: A capacitance sensing system can filter noise that presents in a subset of electrodes in the proximity of a sense object (i.e., finger). A capacitance sensing system can include a sense network comprising a plurality of electrodes for generating sense values; a noise listening circuit configured to detect noise on a plurality of the electrodes; and a filtering circuit that enables a filtering for localized noise events when detected noise values are above one level, and disables the filtering for localized noise events when detected noise values are below the one level.Type: GrantFiled: September 28, 2011Date of Patent: September 8, 2015Assignee: Cypress Semiconductor CorporationInventors: Darrin Vallis, Victor Kremin, Andriy Maharyta, Yuriy Boychuk, Anton Konovalov, Oleksandr Karpin, Ihor Musijchuk, Hans Klein, Edward L. Grivna
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Patent number: 9110552Abstract: A processing device scans, during a first operation, a first plurality of electrodes along a first axis in a capacitive sense array to generate a first plurality of signals corresponding to a mutual capacitance at electrode intersections of the capacitive sense array. During a second operation, the processing device scans a second plurality of electrodes along a second axis in the capacitive sense array to generate a second plurality of signals corresponding to the mutual capacitance at the electrode intersections of the capacitive sense array, wherein the second operation occurs during a different period of time than the first operation. The processing device determines a first coordinate of a conductive object proximate to the capacitive sense array based on the first plurality of signals and a second coordinate of the conductive object based on the second plurality of signals.Type: GrantFiled: June 6, 2013Date of Patent: August 18, 2015Assignee: CYPRESS SEMICONDUCTOR CORPORATIONInventors: Andriy Maharyta, Oleksandr Karpin, Yuriy Boychuk, Milton Ribeiro
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Patent number: 9069399Abstract: A method calculates a correction factor for one or more of capacitance sensors and generates a current from a mutual capacitance of one of the capacitance sensors. The method applies the correction factor to the generated current to generate a corrected current and converts the corrected current to a digital value. The method determines a position of one or more conductive objects in proximity to the one or more capacitance sensors based on the digital value.Type: GrantFiled: September 28, 2012Date of Patent: June 30, 2015Assignee: Cypress Semicoductor CorporationInventors: Yuriy Boychuk, David P. Finch, Oleksandr Karpin, Vasyl Mandziy
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Patent number: 9019226Abstract: A method and apparatus for scanning a first set of electrodes of a capacitive sense array using a first sensing mode to identify a presence of an object in proximity to the capacitive sense array, where scanning using the first sensing mode identifies objects not in physical contact with the capacitive sense array. The first set of electrodes is scanned using a second sensing mode to determine a location of the object in relation to the capacitive sense array, where rescanning using the second sensing mode determines locations of objects in physical contact with the capacitive sense array.Type: GrantFiled: October 2, 2013Date of Patent: April 28, 2015Assignee: Cypress Semiconductor CorporationInventors: Oleksandr Karpin, Andriy Maharyta, Andriy Ryshtun, Victor Kremin, Volodymyr Hutnyk
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Publication number: 20140313169Abstract: Techniques for designs of single-layer touch sensors are described herein. In an example embodiment, a device comprises a sensor array. The sensor array comprises first plurality of electrodes and second plurality of electrodes that are interleaved without intersecting each other within a touch-sensing area in a single layer on a substrate of the sensor array. A first electrode (of the first or second plurality) comprises at least two shaped portions. The two shaped portions may be disposed across at least a portion of a given second electrode from each other, or may be disposed between two or more portions of the given second electrode. The two shaped portions of the first electrode are routed in different directions on the substrate and are coupled to each other outside of the touch-sensing area of the sensor array.Type: ApplicationFiled: June 27, 2014Publication date: October 23, 2014Inventors: Igor Kravets, Alexandre Gourevitch, Oleksandr Karpin, Oleksandr Hoshtanar, Massoud Badaye