Patents by Inventor Markus Dantler

Markus Dantler 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).

  • Publication number: 20260029531
    Abstract: A detection device includes a first electromagnetic radiation device, configured to emit first electromagnetic radiation at a first time period, receive a reflection of the first electromagnetic radiation emitted at the first time period from a target, and modulate first electromagnetic radiation emitted at a second time period by the received reflection of the first electromagnetic radiation; a second electromagnetic radiation device, configured to emit second electromagnetic radiation at the first time period, receive a reflection of the second electromagnetic radiation emitted at the first time period from the target, and modulate second electromagnetic radiation emitted at a second time period by the received reflection of the second electromagnetic radiation; and a processor, configured to determine a rotational movement of the target based on the modulated first electromagnetic radiation, the modulated second electromagnetic radiation, and a predetermined distance between the first electromagnetic radia
    Type: Application
    Filed: July 19, 2023
    Publication date: January 29, 2026
    Inventors: Laurent NEVOU, Markus DANTLER, Svenja MAUTHE, Jens GEIGER
  • Patent number: 12467771
    Abstract: A rotary encoder for providing a control signal in dependence upon an angular position of a controller rotatable about an axis of rotation. The rotary encoder includes a component for rotation with said controller about said axis of rotation. The rotary encoder also includes a radiation source and detector arrangement configured to direct radiation towards a target region and generate a detector signal dependent upon radiation reflected from within that target region. The rotary encoder further includes a computer processor configured to process said detector signal to determine a measure of distance or change of distance to a reflecting surface region within said target region, and to use said measure to provide said control signal. The component defines a reflecting surface that passes through said target region such that a reflecting surface region is present within said target region with a distance that varies with the angular position.
    Type: Grant
    Filed: March 16, 2022
    Date of Patent: November 11, 2025
    Assignee: AMS-OSRAM ASIA PACIFIC PTE. LTD.
    Inventors: Markus Dantler, Laurent Nevou, Jens Geiger, Markus Rossi, Ferran Suarez
  • Publication number: 20250237491
    Abstract: A self-mixing interferometry sensor module includes a light emitter and an electronic control unit coupled to the light emitter. The light emitter is configured to emit coherent electromagnetic radiation out of the sensor module. The light emitter is also configured to undergo self-mixing interference (SMI) caused by reflections of the emitted electromagnetic radiation from an object outside the sensor module. The electronic control unit is configured to detect a change in an electrical property of the light emitter caused by the SMI. The electronic control unit is also configured to determine from the detected change a movement of the object outside the sensor module. The electronic control unit is further configured to generate an output signal that includes information of the determined movement.
    Type: Application
    Filed: February 14, 2023
    Publication date: July 24, 2025
    Inventors: Markus DANTLER, Remi FRANCARD, Liviu DANAILA, Laurent NEVOU
  • Patent number: 12038365
    Abstract: A particle detector. The particle detector comprises one or more light sources, an optical sensor, and a controller. The one or more light sources are collectively operable to simultaneously produce at least two wavelength ranges of emitted light. The optical sensor is configured to sense light of the at least two wavelength ranges emitted by the one or more light sources and to distinguish each range. The controller is configured to detect particles based on the light sensed by the optical sensor.
    Type: Grant
    Filed: June 5, 2020
    Date of Patent: July 16, 2024
    Assignee: AMS SENSORS GERMANY GMBH
    Inventors: Alex Lollio, Boon Chong Cheah, Filip Frederix, Remco Verdoold, Markus Dantler, Erik Jan Lous
  • Publication number: 20240159573
    Abstract: An apparatus may provide a control signal based on an axial position of a controller displaceable along an axis. The apparatus may include a component for displacement with said controller along said axis, a radiation source and detector arrangement configured to direct radiation towards a target region and generate a detector signal dependent upon radiation reflected from within that target region, and a computer processor configured to process said detector signal to determine a measure of distance or change of distance to a reflecting surface region within said target region, and to use said measure to provide said control signal. The component may define a reflecting surface that passes through said target region such that a reflecting surface region is present within said target region with a distance that varies with the axial position of the component along said axis.
    Type: Application
    Filed: March 15, 2022
    Publication date: May 16, 2024
    Inventors: Markus DANTLER, Laurent NEVOU, Jens GEIGER, Markus ROSSI, Ferran SUAREZ
  • Publication number: 20240044674
    Abstract: A rotary encoder for providing a control signal in dependence upon an angular position of a controller rotatable about an axis of rotation. The rotary encoder includes a component for rotation with said controller about said axis of rotation. The rotary encoder also includes a radiation source and detector arrangement configured to direct radiation towards a target region and generate a detector signal dependent upon radiation reflected from within that target region. The rotary encoder further includes a computer processor configured to process said detector signal to determine a measure of distance or change of distance to a reflecting surface region within said target region, and to use said measure to provide said control signal. The component defines a reflecting surface that passes through said target region such that a reflecting surface region is present within said target region with a distance that varies with the angular position.
    Type: Application
    Filed: March 16, 2022
    Publication date: February 8, 2024
    Inventors: Markus DANTLER, Laurent NEVOU, Jens GEIGER, Markus ROSSI, Ferran SUAREZ
  • Patent number: 11537217
    Abstract: Techniques are described for use with a wide range of consumer and other electronic devices to facilitate a user's control of such features as volume, as well as song, channel or page selection, depending on the application. A method includes emitting light out of a module, receiving signals from light detectors in the module, wherein the signals represent, at least in part, light reflected by a person's finger or other object passing in front of the light detectors, detecting movement of the person's finger or other object based on the received signals, and controlling a feature of a device in response to the detected movement.
    Type: Grant
    Filed: January 28, 2020
    Date of Patent: December 27, 2022
    Assignee: AMS SENSORS SINGAPORE PTE. LTD.
    Inventors: Laurent Nevou, Markus Dantler, Jens Geiger
  • Publication number: 20220244160
    Abstract: A particle detector. The particle detector comprises one or more light sources, an optical sensor, and a controller. The one or more light sources are collectively operable to simultaneously produce at least two wavelength ranges of emitted light. The optical sensor is configured to sense light of the at least two wavelength ranges emitted by the one or more light sources and to distinguish each range. The controller is configured to detect particles based on the light sensed by the optical sensor.
    Type: Application
    Filed: June 5, 2020
    Publication date: August 4, 2022
    Inventors: Alex Lollio, Boon Chong Cheah, Filip Frederix, Remco Verdoold, Markus Dantler, Erik Jan Lous
  • Publication number: 20220066573
    Abstract: Techniques are described for use with a wide range of consumer and other electronic devices to facilitate a user's control of such features as volume, as well as song, channel or page selection, depending on the application. A method includes emitting light out of a module, receiving signals from light detectors in the module, wherein the signals represent, at least in part, light reflected by a person's finger or other object passing in front of the light detectors, detecting movement of the person's finger or other object based on the received signals, and controlling a feature of a device in response to the detected movement.
    Type: Application
    Filed: January 28, 2020
    Publication date: March 3, 2022
    Inventors: Laurent Nevou, Markus Dantler, Jens Geiger
  • Publication number: 20210199475
    Abstract: An example optical encoder includes a rotary shaft having a rotational axis. The rotary shaft is actuatable along the rotational axis. The optical encoder also includes at least one light generating element operable to generate light, and at least one light detecting element operable to detect light and convert the detected light into a signal. The rotary shaft includes a portion operable to reflect light generated from the at least one light generating element onto the at least one light detecting element wherein the signal is generated. The portion is configured such that an actuation of the rotary shaft from a first position to a second position generates a corresponding change in the signal generated in the at least one light detecting element.
    Type: Application
    Filed: February 7, 2019
    Publication date: July 1, 2021
    Inventors: Markus Dantler, Alison Marie Jäggi, Robert Lenart, Nicola Spring
  • Patent number: 8813540
    Abstract: The invention relates to novel methods and to devices for a measuring and analysis apparatus that measures impurities and/or particles in a gas or air. In a particle separation step, target particles having predetermined particle properties are separated from remaining particles from a gas or gas mixture such as air or a liquid, in short a fluid, that contains a particle mixture, and the occurrence and/or frequency of said target particles is determined in a measuring chamber. The likewise novel cooling of the radiation sources required for measurement permits the use of such having high power, as is required for measuring few particles or the smallest impurities. A further novel expansion of the electrical measurement range allows small but also abundant particles and impurities to be measured. In addition, a novel interface simplifies the start-up of the apparatus.
    Type: Grant
    Filed: March 3, 2010
    Date of Patent: August 26, 2014
    Assignee: MaxDeTec AG
    Inventor: Markus Dantler
  • Publication number: 20110314902
    Abstract: The invention relates to novel methods and to devices for a measuring and analysis apparatus that measures impurities and/or particles in a gas or air. In a particle separation step, target particles having predetermined particle properties are separated from remaining particles from a gas or gas mixture such as air or a liquid, in short a fluid, that contains a particle mixture, and the occurrence and/or frequency of said target particles is determined in a measuring chamber. The likewise novel cooling of the radiation sources required for measurement permits the use of such having high power, as is required for measuring few particles or the smallest impurities. A further novel expansion of the electrical measurement range allows small but also abundant particles and impurities to be measured. In addition, a novel interface simplifies the start-up of the apparatus.
    Type: Application
    Filed: March 3, 2010
    Publication date: December 29, 2011
    Applicant: MAXDE TEC AG
    Inventor: Markus Dantler