Patents Assigned to USOUND GMBH
  • Patent number: 12647731
    Abstract: In one aspect, a sound transducer unit includes at least two magnet units having a permanent magnetic field and further includes at least two acoustic units. Each acoustic unit has a diaphragm that is deflectable along a stroke axis for generating sound waves. The sound transducer unit also includes a coil arrangement provided in association with each acoustic unit, wherein the coil arrangement is configured to be supplied electric current such that the diaphragm is deflectable along the stroke axis. The at least two magnet units and the at least two acoustic units are arranged alternatively one above the other.
    Type: Grant
    Filed: February 12, 2024
    Date of Patent: June 2, 2026
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Samu Bence Horváth, Christian Novotny, Jakob Spoetl
  • Patent number: 12647734
    Abstract: A MEMS device for generating sound and/or detecting sound includes a diaphragm that is deflectable along a stroke axis and a MEMS unit. The MEMS unit includes at least one cantilever arm for generating and/or detecting a stroke motion of the diaphragm and which is spaced apart from the diaphragm along the stroke axis such that a cavity is formed between the cantilever arm and the diaphragm. The MEMs unit also includes a stroke structure arranged in the cavity and connected to the diaphragm, and a connecting element that movably connects the cantilever arm to the stroke structure. The connecting element narrows and/or widens in at least one area in the direction of the stroke structure, and/or has at least one recess.
    Type: Grant
    Filed: December 19, 2023
    Date of Patent: June 2, 2026
    Assignee: USOUND GMBH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Samu Bence Horváth
  • Patent number: 12621595
    Abstract: The invention relates to an acoustic transducer unit (1), in particular for in-ear headphones, having an electrodynamic acoustic transducer (2) comprising a first membrane (10), preferably with a membrane perforation (42), and having at least one MEMS sound transducer (3) comprising a second membrane (30). According to the invention, the acoustic transducer unit (1) comprises a sound-guiding element (16), by means of which sound waves generated by the MEMS acoustic transducer (3) can be guided past the electrodynamic acoustic transducer (2), in particular guided past the first membrane (10) of the electrodynamic acoustic transducer (2).
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: May 5, 2026
    Assignee: USOUND GMBH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Jakob Spoetl, Christian Novotny
  • Patent number: 12615466
    Abstract: The invention relates to an acoustic transducer unit (1), in particular for in-ear headphones, having an electrodynamic acoustic transducer (2) comprising a first membrane (10), preferably with a membrane perforation (42), and having at least one MEMS acoustic transducer (3) comprising a second membrane (30). According to the invention, the acoustic transducer unit (1) comprises a circuit board (58) adapted such that a first rear volume of the electrodynamic acoustic transducer (2) is open and/or closes a second rear volume of the MEMS acoustic transducer (3). The invention further relates to an electronic component and to the use of an acoustic transducer unit.
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: April 28, 2026
    Assignee: USOUND GMBH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Jakob Spoetl, Christian Novotny
  • Patent number: 12593166
    Abstract: The invention relates to an acoustic transducer unit (1), in particular for in-ear headphones, having an electrodynamic acoustic transducer (2) comprising a first membrane (10), preferably with a membrane perforation (42), and having at least one MEMS acoustic transducer (3) comprising a second membrane (30).
    Type: Grant
    Filed: December 1, 2023
    Date of Patent: March 31, 2026
    Assignee: USOUND GMBH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Jakob Spoetl, Christian Novotny
  • Patent number: 12466722
    Abstract: A transducer unit for a MEMS sound transducer includes a support, a transducer element connected to the support and deflectable along a reciprocation axis, a coupling element for connecting the transducer element to a diaphragm in a manner spaced apart from the transducer element, and a spring region formed between the transducer element and the coupling element, the spring region including at least one spring element, which movably connects the transducer element to the coupling element, and which includes a damping layer, which at least partially covers the spring element.
    Type: Grant
    Filed: December 2, 2022
    Date of Patent: November 11, 2025
    Assignee: USOUND GMBH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni
  • Patent number: 12401951
    Abstract: A MEMS sound transducer for generating and/or detecting sound waves includes a support having a cavity wall which at least partially delimits a cavity of the MEMS sound transducer. At least one cantilever arm element includes a base section that is fixedly connected to the support. Each cantilever arm includes a flexible deflection section overhanging the cavity wall. At one end of the deflection portion is a base end that is disposed to face the cavity wall. Opposite the base end is a free end that is configured to be deflectable relative to the support in the direction of a stroke axis of the MEMS sound transducer. The base end of the deflection section in a sound transducer top view has a curved first contour.
    Type: Grant
    Filed: November 15, 2022
    Date of Patent: August 26, 2025
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Samu Horvath, Christian Novotny
  • Patent number: 11997462
    Abstract: A method for manufacturing a transducer unit for converting electrical signals into deflections and/or deflections into electrical signals, in which a transducer element is arranged on a support element, which is coupled to a diaphragm unit, which is deflectable along a stroke axis, includes the step of casting a fluid and curable diaphragm material onto a reinforcing element of the diaphragm unit to form a flexible diaphragm element. The diaphragm unit is coupled or coupleable to the transducer element. The diaphragm element, together with the reinforcing element, at least partially form the diaphragm unit. A transducer unit includes a diaphragm unit having a reinforcing element and a flexible diaphragm element formed of a fluid and curable diaphragm material that has been cast onto the reinforcing element.
    Type: Grant
    Filed: September 10, 2020
    Date of Patent: May 28, 2024
    Assignee: USOUND GMBH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Nick Renaud-Bezot
  • Patent number: 11924610
    Abstract: A method for manufacturing a MEMS sound transducer for generating and/or detecting sound waves in the audible wavelength range and/or in the ultrasonic range, includes arranging at least one piezoelectric element on a support substrate. A diaphragm is formed on the at least one piezoelectric element. In forming the diaphragm, a flowable and curable polymer, which forms the diaphragm after curing, is at least partially cast around the at least one piezoelectric element. The invention further relates to the MEMS sound transducer formed by the method.
    Type: Grant
    Filed: June 4, 2020
    Date of Patent: March 5, 2024
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Nick Renaud-Bezot
  • Patent number: 11668959
    Abstract: Eyewear for outputting audio information to the wearer include an eyewear temple, which has at least one loudspeaker. The eyewear temple is configured for placement on an ear of the wearer and spaced apart from an ear opening of the wearer's ear so that the sound waves generated by the loudspeaker are transmitted over the surroundings to the spaced ear opening. The loudspeaker is an ultrasonic loudspeaker. The eyewear has a parametric audio unit that includes the ultrasonic loudspeaker and configured to generate an audible sound beam directed at the ear.
    Type: Grant
    Filed: December 2, 2021
    Date of Patent: June 6, 2023
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni
  • Patent number: 11589179
    Abstract: A test device for testing a microphone has at least one test loudspeaker for generating at least one test tone into at least one test cavity. The test device has a compartment for accommodating the microphone to be tested in acoustic communication with the test cavity. The test device has at least one reference microphone for ascertaining a reference signal of the test tone emitted from the test loudspeaker. The test device has a reference cavity separated from the test cavity and acoustically coupled with the reference microphone and the test cavity. The test loudspeaker is arranged between the reference microphone and the test loudspeaker.
    Type: Grant
    Filed: May 21, 2021
    Date of Patent: February 21, 2023
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Markus Bartek
  • Patent number: 11565935
    Abstract: A process for manufacturing a diaphragm unit of a MEMS transducer that includes multiple piezoelectric transducer units, each of the multiple piezoelectric transducer units including at least one electrode layer and at least one piezoelectric layer formed on a carrier includes the step of removing the transducer units from the carrier. At least one of the transducer units that has been removed from the carrier is arranged on a diaphragm and connected to the diaphragm. Moreover, a diaphragm unit made according to the process includes a diaphragm and multiple piezoelectric transducer units arranged on and connected to the diaphragm. Each of the multiple piezoelectric transducer units includes at least one electrode layer and at least one piezoelectric layer formed on a carrier.
    Type: Grant
    Filed: November 7, 2019
    Date of Patent: January 31, 2023
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Nick Renaud-Bezot
  • Patent number: 11516583
    Abstract: The invention relates to an amplifier unit for a MEMS sound transducer, which is operable as a microphone and as a loudspeaker, comprising at least one audio amplifier for sound reproduction and/or sound recording. According to the invention, the amplifier unit is designed in such a way that the MEMS sound transducer provided therefor is simultaneously operable as a loudspeaker and as a microphone. Moreover, the invention relates to sound-generating unit comprising a MEMS sound transducer, which is operable as a microphone and as a loudspeaker, and an amplifier unit coupled to the sound transducer for sound reproduction and/or sound recording.
    Type: Grant
    Filed: March 16, 2018
    Date of Patent: November 29, 2022
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Markus Haensler
  • Patent number: 11418891
    Abstract: A loudspeaker unit for a portable device includes an electrodynamic loudspeaker configured as a woofer. The loudspeaker unit additionally includes a MEMS loudspeaker configured as a tweeter. A portable device includes the loudspeaker unit.
    Type: Grant
    Filed: April 19, 2018
    Date of Patent: August 16, 2022
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni
  • Patent number: 11375317
    Abstract: A manufacturing method for multiple MEMS sound transducers includes manufacturing a reconstructed wafer, separating multiple chips from the wafer, and encapsulating the chips in a molding material. A piezoelectric element of the particular chips is exposed to become deflectable along a stroke axis. The reconstructed wafer is connected to multiple diaphragms associated with the particular chips, wherein the diaphragms are each connected to the associated piezoelectric element so that the diaphragms are each deflectable together with the at least one associated piezoelectric element along the stroke axis. MEMS sound transducers, each of which including at least one of the chips and one of the diaphragms, are isolated. A MEMS sound transducer, which has been manufactured using the aforementioned manufacturing method, is also disclosed.
    Type: Grant
    Filed: January 17, 2020
    Date of Patent: June 28, 2022
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni, Nick Renaud-Bezot
  • Patent number: 11303993
    Abstract: A sound transducer unit for an in-ear headphone, for generating and/or detecting sound waves in the audible wavelength spectrum and/or in the ultrasonic range, includes at least one MEMS sound transducer arranged on a circuit board. At least one connector element of the circuit board is electrically conductively connected to at least one contact element of the MEMS sound transducer. The MEMS sound transducer is designed as a surface-mount device, which is connected to the circuit board with the aid of surface-mount technology. The sound transducer unit can form a component of a sound-generating unit.
    Type: Grant
    Filed: September 24, 2020
    Date of Patent: April 12, 2022
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni
  • Patent number: 11259123
    Abstract: A method is provided for operating a piezoelectric MEMS sound transducer in the audible wavelength spectrum and/or in the ultrasonic range. The method includes storing electrical energy in an energy store and indirectly transferring this electrical energy via a transfer unit between the energy store and the piezoelectric MEMS sound transducer. In a first switching state, the transfer unit is first of all charged from the energy store. In a second switching state, the transfer unit is discharged and the piezoelectric MEMS sound transducer is charged. In a third switching state, the piezoelectric MEMS sound transducer is discharged and the transfer unit is charged. In a fourth switching state, the transfer unit is then discharged and the energy store is charged.
    Type: Grant
    Filed: September 13, 2017
    Date of Patent: February 22, 2022
    Assignee: USound GmbH
    Inventors: Ferruccio Bottoni, Markus Haensler, Andrea Rusconi Clerici Beltrami
  • Patent number: 11202155
    Abstract: A MEMS sound transducer for generating and/or detecting sound waves in the audible wavelength spectrum includes a carrier: a diaphragm connected to and deflectable with respect thereto the carrier and a piezoelectric element spaced apart from the diaphragm along a reciprocation axis. The piezoelectric element includes a coupling element that extends along the reciprocation axis and connects to the diaphragm. The piezoelectric element and the coupling element form a cantilever. The MEMS sound transducer includes two cantilever arms are arranged one behind the other, in a top view.
    Type: Grant
    Filed: October 12, 2018
    Date of Patent: December 14, 2021
    Assignee: USound GmbH
    Inventors: Andrea Rusconi Clerici Beltrami, Ferruccio Bottoni
  • Patent number: 11178497
    Abstract: An in-ear receiver can be used in a headset and/or hearing aid and includes a housing in which at least one ear canal section is configured to be inserted into an ear canal of a wearer when the in-ear receiver is used as intended. The housing defines at least one outer contour that is configured with at least in one section adapted to the ear canal of the wearer. The in-ear receiver includes a sound transducer arranged in the housing, and at least one resonant cavity, which is formed in the housing and is divided by the sound transducer into a front volume and a rear volume. The sound transducer is a MEMS sound transducer, and the front volume and/or the rear volume have/has an inner contour adapted to the ear canal.
    Type: Grant
    Filed: June 14, 2018
    Date of Patent: November 16, 2021
    Assignee: USound GmbH
    Inventors: Ferruccio Bottoni, Andrea Rusconi Clerici Beltrami
  • Patent number: 11146874
    Abstract: A loudspeaker assembly for on-ear headphones, to be arranged on and/or over the ear, includes a housing in which a woofer is arranged and configured to emit low frequency sound waves along a low frequency sound beam axis toward the wearer's the ear. At least one tweeter is arranged in the housing and configured to emit high frequency sound waves along a high frequency sound beam axis toward the wearer's the ear. The at least one tweeter is a MEMS loudspeaker.
    Type: Grant
    Filed: August 14, 2018
    Date of Patent: October 12, 2021
    Assignee: USound GmbH
    Inventors: Ferruccio Bottoni, Andrea Rusconi Clerici Beltrami, Thomas Gmeiner, Hannes Pomberger, Alois Sontacchi