Patents by Inventor Hans Klein
Hans Klein 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: 11726607Abstract: Apparatus and methods of impedance sensing are described. One method includes performing a first digital conversion of an attribute of a sensor electrode and performing a second digital conversion of the attribute of the sensor electrode. The second digital conversion differs by at least one characteristic from the first digital conversion. The method further includes calculating a resistance of the sensor electrode from a first and second digital value of the first and second digital conversions, respectively; and calculating a capacitance of the sensor electrode from the first and second digital value of the first and second digital conversions, respectively.Type: GrantFiled: September 27, 2022Date of Patent: August 15, 2023Assignee: Cypress Semiconductor CorporationInventors: Andriy Maharyta, Hans Klein, Oleksandr Karpin, Roman Ogirko
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Publication number: 20230088156Abstract: Apparatus and methods of impedance sensing are described. One method includes performing a first digital conversion of an attribute of a sensor electrode and performing a second digital conversion of the attribute of the sensor electrode. The second digital conversion differs by at least one characteristic from the first digital conversion. The method further includes calculating a resistance of the sensor electrode from a first and second digital value of the first and second digital conversions, respectively; and calculating a capacitance of the sensor electrode from the first and second digital value of the first and second digital conversions, respectively.Type: ApplicationFiled: September 27, 2022Publication date: March 23, 2023Applicant: Cypress Semiconductor CorporationInventors: Andriy MAHARYTA, Hans KLEIN, Oleksandr KARPIN, Roman OGIRKO
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Patent number: 11594066Abstract: A fingerprint sensor-compatible overlay material which uses anisotropic conductive material to enable accurate imaging of a fingerprint through an overlay is disclosed. The anisotropic conductive material has increased conductivity in a direction orthogonal to the fingerprint sensor, increasing the capacitive coupling of the fingerprint to the sensor surface, allowing the fingerprint sensor to accurately image the fingerprint through the overlay. Methods for forming a fingerprint sensor-compatible overlay are also disclosed.Type: GrantFiled: October 22, 2020Date of Patent: February 28, 2023Assignee: Cypress Semiconductor CorporationInventors: Roman Ogirko, Hans Klein, David G. Wright, Igor Kolych, Andriy Maharyta, Hassane El-Khoury, Oleksandr Karpin, Oleksandr Hoshtanar, Igor Kravets
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Patent number: 11467693Abstract: Apparatus and methods of impedance sensing are described. One method includes performing a first digital conversion of an attribute of a sensor electrode and performing a second digital conversion of the attribute of the sensor electrode. The second digital conversion differs by at least one characteristic from the first digital conversion. The method further includes calculating a resistance of the sensor electrode from a first and second digital value of the first and second digital conversions, respectively; and calculating a capacitance of the sensor electrode from the first and second digital value of the first and second digital conversions, respectively.Type: GrantFiled: August 6, 2021Date of Patent: October 11, 2022Assignee: Cypress Semiconductor CorporationInventors: Andriy Maharyta, Hans Klein, Oleksandr Karpin, Roman Ogirko
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Patent number: 11275423Abstract: Systems, apparatus, and methods measure a signal provided by a capacitance sensor, the signal indicative of a presence of an object proximate to the capacitance sensor. Responsive to measuring the signal, embodiments access control information in a memory to determine whether the signal is associated with a first qualifying event of the control information. Responsive to determining that the signal is associated with the first qualifying event, embodiments control a power consumption of a communication device.Type: GrantFiled: April 17, 2019Date of Patent: March 15, 2022Assignee: Cypress Semiconductor CorporationInventors: Carl Liepold, Hans Klein, Hans Van Antwerpen, Adrian Woolley, David Wright
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Patent number: 11113497Abstract: 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: GrantFiled: June 25, 2018Date of Patent: September 7, 2021Assignee: Cypress Semiconductor CorporationInventors: Igor Kravets, Oleksandr Hoshtanar, Hans Klein, Oleksandr Karpin
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Publication number: 20210150180Abstract: A fingerprint sensor-compatible overlay material which uses anisotropic conductive material to enable accurate imaging of a fingerprint through an overlay is disclosed. The anisotropic conductive material has increased conductivity in a direction orthogonal to the fingerprint sensor, increasing the capacitive coupling of the fingerprint to the sensor surface, allowing the fingerprint sensor to accurately image the fingerprint through the overlay. Methods for forming a fingerprint sensor-compatible overlay are also disclosed.Type: ApplicationFiled: October 22, 2020Publication date: May 20, 2021Applicant: Cypress Semiconductor CorporationInventors: Roman Ogirko, Hans Klein, David G. Wright, Igor Kolych, Andriy Maharyta, Hassane El-Khoury, Oleksandr Karpin, Oleksandr Hoshtanar, Igor Kravets
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Publication number: 20200409491Abstract: A processing device scans a capacitive sense array to determine a characteristic of a noise signal. A processing device further detects a location of a touch proximate to the capacitive sense array by a passive touch object using a first mode of capacitance touch detection. The first mode of capacitive touch detection uses a capacitive coupling of the noise signal to the capacitive sense array through the passive touch object to detect the touch.Type: ApplicationFiled: June 30, 2020Publication date: December 31, 2020Applicant: Cypress Semiconductor CorporationInventors: Andriy Maharyta, Oleksandr Karpin, Hans Klein
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Patent number: 10832029Abstract: A fingerprint sensor-compatible overlay material which uses anisotropic conductive material to enable accurate imaging of a fingerprint through an overlay is disclosed. The anisotropic conductive material has increased conductivity in a direction orthogonal to the fingerprint sensor, increasing the capacitive coupling of the fingerprint to the sensor surface, allowing the fingerprint sensor to accurately image the fingerprint through the overlay. Methods for forming a fingerprint sensor-compatible overlay are also disclosed.Type: GrantFiled: March 27, 2019Date of Patent: November 10, 2020Assignee: Cypress Semiconductor CorporationInventors: Roman Ogirko, Hans Klein, David G. Wright, Igor Kolych, Andriy Maharyta, Hassane El-Khoury, Oleksandr Karpin, Oleksandr Hoshtanar, Igor Kravets
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Patent number: 10725591Abstract: A processing device scans a capacitive sense array to determine a characteristic of a noise signal. A processing device further detects a location of a touch proximate to the capacitive sense array by a passive touch object using a first mode of capacitance touch detection. The first mode of capacitive touch detection uses a capacitive coupling of the noise signal to the capacitive sense array through the passive touch object to detect the touch.Type: GrantFiled: March 25, 2015Date of Patent: July 28, 2020Assignee: Cypress Semiconductor CorporationInventors: Andriy Maharyta, Oleksandr Karpin, Hans Klein
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Patent number: 10558313Abstract: Systems and methods receive multiple of trigger signals and responsive to each trigger signal transition a sensing block from operating in a first mode to operating in a second mode by turning on power to one or more portions of the sensing block. Operating in the second mode includes performing multiple sensor scans during multiple sensing periods of a monitoring period. Based on performing a first scan during a first sensing period, systems and methods transition from operating the sensing block in the second mode to operating the sensing block in the first mode by turning off the power to the one or more portions of the sensing block. Based on performing a second scan during a second sensing period, of the plurality of sensing periods, systems and methods transition a processing module from operating in a first processing mode to operating in a second processing mode.Type: GrantFiled: October 12, 2018Date of Patent: February 11, 2020Assignee: Cypress Semiconductor CorporationInventors: Andriy Maharyta, Carl Liepold, Hans Klein
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Publication number: 20200005011Abstract: Fingerprint detection circuits with common mode noise rejection are described. The Fingerprint detection circuit includes a half-bridge circuit coupled to a receive (RX) electrode of an array of fingerprint detection electrodes and to a buried capacitance that is unalterable by the presence of a conductive object on the array. The fingerprint detection circuit may also include a listener electrode configured to enable common mode noise rejection through a differential input stage of a low noise amplifier (LNA).Type: ApplicationFiled: July 10, 2019Publication date: January 2, 2020Applicant: Cypress Semiconductor CorporationInventors: Igor Kravets, Roman Ogirko, Hans Klein, Oleksandr Hoshtanar
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Publication number: 20190302865Abstract: Systems, apparatus, and methods measure a signal provided by a capacitance sensor, the signal indicative of a presence of an object proximate to the capacitance sensor. Responsive to measuring the signal, embodiments access control information in a memory to determine whether the signal is associated with a first qualifying event of the control information. Responsive to determining that the signal is associated with the first qualifying event, embodiments control a power consumption of a communication device.Type: ApplicationFiled: April 17, 2019Publication date: October 3, 2019Applicant: Cypress Semiconductor CorporationInventors: Carl Liepold, Hans Klein, Hans Van Antwerpen, Adrian Woolley, David Wright
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Publication number: 20190294855Abstract: A fingerprint sensor-compatible overlay material which uses anisotropic conductive material to enable accurate imaging of a fingerprint through an overlay is disclosed. The anisotropic conductive material has increased conductivity in a direction orthogonal to the fingerprint sensor, increasing the capacitive coupling of the fingerprint to the sensor surface, allowing the fingerprint sensor to accurately image the fingerprint through the overlay. Methods for forming a fingerprint sensor-compatible overlay are also disclosed.Type: ApplicationFiled: March 27, 2019Publication date: September 26, 2019Applicant: Cypress Semiconductor CorporationInventors: Roman Ogirko, Hans Klein, David G. Wright, Igor Kolych, Andriy Maharyta, Hassane El-Khoury, Oleksandr Karpin, Oleksandr Hoshtanar, Igor Kravets
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Patent number: 10380397Abstract: Fingerprint detection circuits with common mode noise rejection are described. The Fingerprint detection circuit includes a half-bridge circuit coupled to a receive (RX) electrode of an array of fingerprint detection electrodes and to a buried capacitance that is unalterable by the presence of a conductive object on the array. The fingerprint detection circuit may also include a listener electrode configured to enable common mode noise rejection through a differential input stage of a low noise amplifier (LNA).Type: GrantFiled: December 22, 2015Date of Patent: August 13, 2019Assignee: Cypress Semiconductor CorporationInventors: Igor Kravets, Roman Ogirko, Hans Klein, Oleksandr Hoshtanar
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Patent number: 10303236Abstract: A method for operating a sensing system includes receiving, from a processing device, control information for configuring a capacitance sensing circuit, configuring the capacitance sensing circuit with the control information in response to receiving the control information, and controlling power consumption of the processing device based on the control information and based on a capacitance measured by the capacitance sensing circuit.Type: GrantFiled: April 18, 2017Date of Patent: May 28, 2019Assignee: Cypress Semiconductor CorporationInventors: Carl Liepold, Hans Klein, Hans Van Antwerpen, Adrian Woolley, David Wright
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Publication number: 20190158089Abstract: Systems and methods receive multiple of trigger signals and responsive to each trigger signal transition a sensing block from operating in a first mode to operating in a second mode by turning on power to one or more portions of the sensing block. Operating in the second mode includes performing multiple sensor scans during multiple sensing periods of a monitoring period. Based on performing a first scan during a first sensing period, systems and methods transition from operating the sensing block in the second mode to operating the sensing block in the first mode by turning off the power to the one or more portions of the sensing block. Based on performing a second scan during a second sensing period, of the plurality of sensing periods, systems and methods transition a processing module from operating in a first processing mode to operating in a second processing mode.Type: ApplicationFiled: October 12, 2018Publication date: May 23, 2019Applicant: Cypress Semiconductor CorporationInventors: Andriy Maharyta, Carl Liepold, Hans Klein
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Patent number: 10282585Abstract: A fingerprint sensor-compatible overlay material which uses anisotropic conductive material to enable accurate imaging of a fingerprint through an overlay is disclosed. The anisotropic conductive material has increased conductivity in a direction orthogonal to the fingerprint sensor, increasing the capacitive coupling of the fingerprint to the sensor surface, allowing the fingerprint sensor to accurately image the fingerprint through the overlay. Methods for forming a fingerprint sensor-compatible overlay are also disclosed.Type: GrantFiled: August 27, 2018Date of Patent: May 7, 2019Assignee: Cypress Semiconductor CorporationInventors: Roman Ogirko, Hans Klein, David G. Wright, Igor Kolych, Andriy Maharyta, Hassane El-Khoury, Oleksandr Karpin, Oleksandr Hoshtanar, Igor Kravets
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Patent number: 10235558Abstract: A fingerprint sensor-compatible overlay material which uses anisotropic conductive material to enable accurate imaging of a fingerprint through an overlay is disclosed. The anisotropic conductive material has increased conductivity in a direction orthogonal to the fingerprint sensor, increasing the capacitive coupling of the fingerprint to the sensor surface, allowing the fingerprint sensor to accurately image the fingerprint through the overlay. Methods for forming a fingerprint sensor-compatible overlay are also disclosed.Type: GrantFiled: March 29, 2017Date of Patent: March 19, 2019Assignee: Cypress Semiconductor CorporationInventors: Hans Klein, Igor Kolych, Oleksandr Karpin, Igor Kravets, Oleksandr Hoshtanar
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Publication number: 20190005293Abstract: 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: June 25, 2018Publication date: January 3, 2019Applicant: Cypress Semiconductor CorporationInventors: Igor Kravets, Oleksandr Hoshtanar, Hans Klein, Oleksandr Karpin