Patents by Inventor Johann Strasser
Johann Strasser 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: 20240067520Abstract: An encapsulated MEMS device and a method for manufacturing the MEMS device are provided. The method comprises providing a cavity structure having an inner volume comprising a plurality of MEMS elements, which are relatively displaceable with respect to each other, and having an opening structure to the inner volume, depositing a Self-Assembled Monolayer (SAM) through the opening structure onto exposed surfaces within the inner volume of the cavity structure, and closing the cavity structure by applying a layer structure on the opening structure for providing a hermetically closed cavity.Type: ApplicationFiled: August 30, 2023Publication date: February 29, 2024Inventors: Fabian Streb, Johann Straßer, Hans-Jörg Timme, Marc Füldner, Arnaud Walther, Hutomo Suryo Wasisto
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Patent number: 11835041Abstract: A MEMS pump includes a basis structure, a membrane structure opposing the basis structure and being deflectable parallel to a surface normal of the basis structure and includes a pump chamber between the basis structure and the membrane structure wherein a volume of the pump chamber is based on a position of the membrane structure with respect to the basis structure. The MEMS pump includes a passage for letting a fluid pass into the pump chamber or exit the pump chamber, wherein the passage is arranged in-plane with respect to the pump chamber. The MEMS pump includes a valve structure coupled to the passage for connecting, in a first state, the passage to a first outer volume and for connecting, in a second state, the passage to a second outer volume.Type: GrantFiled: July 7, 2020Date of Patent: December 5, 2023Assignee: Infineon Technologies AGInventors: Martin Seidl, Alfons Dehe, Daniel Fruechtl, Wolfgang Klein, Ulrich Krumbein, Johann Strasser, Matthias Vobl
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Patent number: 11735077Abstract: The invention relates to a transport container having: a frame structure which encloses a transport chamber, a lateral wall which is connected to the frame structure, an opening device for converting the lateral wall between a closed position, which lies against the frame structure and in which a lateral loading opening of the frame structure is closed by the lateral wall, and an open position, which releases the lateral loading opening, a display device for displaying data on the exterior of the lateral wall, a measuring device for detecting the open position of the lateral wall, and a release device for releasing the display device for displaying data upon detecting the open position of the lateral wall. The invention additionally relates to a method for displaying data on a lateral wall of a transport container.Type: GrantFiled: March 23, 2018Date of Patent: August 22, 2023Assignee: LORRYGRAM GMBHInventors: Johann Strasser, Jr., Johann Strasser, Sr.
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Patent number: 11470426Abstract: A micro electrical mechanical systems (MEMS) device includes a flexible membrane disposed over a substrate, and a first backplate disposed over the flexible membrane. The first backplate includes a first plurality of bumps facing the flexible membrane. The MEMS device further includes a plurality of features disposed at the flexible membrane, where each of the plurality of features being associated with a corresponding one of the first plurality of bumps.Type: GrantFiled: August 9, 2019Date of Patent: October 11, 2022Assignee: Infineon Technologies AGInventors: Arnaud Walther, Stefan Barzen, Wolfgang Klein, Johann Strasser
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Patent number: 11161735Abstract: A production method for a double-membrane MEMS component includes: providing a layer arrangement on a carrier substrate, wherein the layer arrangement comprises a first membrane structure, a sacrificial material layer adjoining the first membrane structure, and a counterelectrode structure in the sacrificial material layer and at a distance from the first membrane structure, wherein at least one through opening is formed in the sacrificial material layer as far as the first membrane structure; forming a filling material structure in the at least one through opening by applying a first filling material layer on the wall region of the at least one through opening; applying a second membrane structure on the layer arrangement with the sacrificial material; and removing the sacrificial material from an intermediate region to expose the filling material structure in the intermediate region.Type: GrantFiled: April 16, 2020Date of Patent: November 2, 2021Assignee: INFINEON TECHNOLOGIES AGInventors: Johann Strasser, Alfons Dehe, Gerhard Metzger-Brueckl, Juergen Wagner, Arnaud Walther
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Publication number: 20210044905Abstract: A micro electrical mechanical systems (MEMS) device includes a flexible membrane disposed over a substrate, and a first backplate disposed over the flexible membrane. The first backplate includes a first plurality of bumps facing the flexible membrane. The MEMS device further includes a plurality of features disposed at the flexible membrane, where each of the plurality of features being associated with a corresponding one of the first plurality of bumps.Type: ApplicationFiled: August 9, 2019Publication date: February 11, 2021Inventors: Arnaud Walther, Stefan Barzen, Wolfgang Klein, Johann Strasser
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Publication number: 20210040942Abstract: A MEMS pump includes a basis structure, a membrane structure opposing the basis structure and being deflectable parallel to a surface normal of the basis structure and includes a pump chamber between the basis structure and the membrane structure wherein a volume of the pump chamber is based on a position of the membrane structure with respect to the basis structure. The MEMS pump includes a passage for letting a fluid pass into the pump chamber or exit the pump chamber, wherein the passage is arranged in-plane with respect to the pump chamber. The MEMS pump includes a valve structure coupled to the passage for connecting, in a first state, the passage to a first outer volume and for connecting, in a second state, the passage to a second outer volume.Type: ApplicationFiled: July 7, 2020Publication date: February 11, 2021Inventors: Martin Seidl, Alfons Dehe, Daniel Fruechtl, Wolfgang Klein, Ulrich Krumbein, Johann Strasser, Matthias Vobl
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Patent number: 10913656Abstract: A method for sealing an access opening to a cavity comprises the following steps: providing a layer arrangement having a first layer structure and a cavity arranged adjacent to the first layer structure, wherein the first layer structure has an access opening to the cavity, performing a CVD layer deposition for forming a first covering layer having a layer thickness on the first layer structure having the access opening, and performing an HDP layer deposition with a first and second substep for forming a second covering layer on the first covering layer, wherein the first substep comprises depositing a liner material layer on the first covering layer, wherein the second substep comprises partly backsputtering the liner material layer and furthermore the first covering layer in the region of the access opening, and wherein the first and second substeps are carried out alternately and repeatedly a number of times.Type: GrantFiled: October 16, 2018Date of Patent: February 9, 2021Assignee: Infineon Technologies AGInventors: Gerhard Metzger-Brueckl, Alfons Dehe, Uwe Hoeckele, Johann Strasser, Arnaud Walther
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Publication number: 20200239302Abstract: A production method for a double-membrane MEMS component includes: providing a layer arrangement on a carrier substrate, wherein the layer arrangement comprises a first membrane structure, a sacrificial material layer adjoining the first membrane structure, and a counterelectrode structure in the sacrificial material layer and at a distance from the first membrane structure, wherein at least one through opening is formed in the sacrificial material layer as far as the first membrane structure; forming a filling material structure in the at least one through opening by applying a first filling material layer on the wall region of the at least one through opening; applying a second membrane structure on the layer arrangement with the sacrificial material; and removing the sacrificial material from an intermediate region to expose the filling material structure in the intermediate region.Type: ApplicationFiled: April 16, 2020Publication date: July 30, 2020Inventors: Johann Strasser, Alfons Dehe, Gerhard Metzger-Brueckl, Juergen Wagner, Arnaud Walther
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Patent number: 10694584Abstract: A method for producing an infrared emitter arrangement is provided. The method includes providing a carrier. The carrier includes at least one infrared emitter structure at a first side of the carrier and at least one cutout at a second side of the carrier, said second side being situated opposite the first side of the carrier, wherein the at least one cutout extends from the second side of the carrier in the direction of the at least one infrared emitter structure. The method further includes securing an infrared filter layer structure at the second side of the carrier in such a way that the at least one cutout separates the at least one infrared emitter structure from the infrared filter layer structure.Type: GrantFiled: November 21, 2017Date of Patent: June 23, 2020Assignee: Infineon Technologies AGInventors: Stephan Pindl, Daniel Porwol, Johann Strasser
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Patent number: 10676346Abstract: A production method for a MEMS component includes providing a layer arrangement on a carrier substrate, where the layer arrangement includes a first and second layer structure. A sacrificial material is arranged in an intermediate region between the first and second layer structures, an etch stop structure extending between the first and second layer structures subdivides the intermediate region into an exposure region and an edge region laterally adjoining the exposure region, and at least one of the first layer structure or the second layer structure has access openings to the exposure region. The method further includes removing the sacrificial material from the exposure region through the access openings using an etching process to expose the exposure region. The etch stop structure provides a lateral delimitation for the etching process, and the sacrificial material present in the edge region provides a mechanical connection between the first and second layer structures.Type: GrantFiled: September 20, 2018Date of Patent: June 9, 2020Assignee: INFINEON TECHNOLOGIES AGInventors: Arnaud Walther, Alfons Dehe, Gerhard Metzger-Brueckl, Johann Strasser
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Patent number: 10669151Abstract: A production method for a double-membrane MEMS component includes: providing a layer arrangement on a carrier substrate, wherein the layer arrangement comprises a first membrane structure, a sacrificial material layer adjoining the first membrane structure, and a counterelectrode structure in the sacrificial material layer and at a distance from the first membrane structure, wherein at least one through opening is formed in the sacrificial material layer as far as the first membrane structure; forming a filling material structure in the at least one through opening by applying a first filling material layer on the wall region of the at least one through opening; applying a second membrane structure on the layer arrangement with the sacrificial material; and removing the sacrificial material from an intermediate region to expose the filling material structure in the intermediate region.Type: GrantFiled: August 30, 2018Date of Patent: June 2, 2020Assignee: INFINEON TECHNOLOGIES AGInventors: Johann Strasser, Alfons Dehe, Gerhard Metzger-Brueckl, Juergen Wagner, Arnaud Walther
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Publication number: 20200086805Abstract: The invention relates to a transport container having: a frame structure which encloses a transport chamber, a lateral wall which is connected to the frame structure, an opening device for converting the lateral wall between a closed position, which lies against the frame structure and in which a lateral loading opening of the frame structure is closed by the lateral wall, and an open position, which releases the lateral loading opening, a display device for displaying data on the exterior of the lateral wall, a measuring device for detecting the open position of the lateral wall, and a release device for releasing the display device for displaying data upon detecting the open position of the lateral wall. The invention additionally relates to a method for displaying data on a lateral wall of a transport container.Type: ApplicationFiled: March 23, 2018Publication date: March 19, 2020Inventors: Johann STRASSER, JR., Johann STRASSER, SR.
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Patent number: 10589990Abstract: In accordance with an embodiment, a MEMS microphone includes a sound detection unit having a first membrane, a second membrane arranged at a distance from the first membrane, a low-pressure region arranged between the first membrane and the second membrane, a gas pressure that is reduced in relation to normal pressure being present in said low-pressure region, a counter electrode arranged in the low-pressure region, and a sound through-hole, which extends through the sound detection unit in a thickness direction of the sound detection unit; and a valve provided at the sound through-hole, said valve being configured to adopt a plurality of valve states, wherein a predetermined degree of transmission of the sound through-hole to sound is assigned to each valve state.Type: GrantFiled: September 18, 2018Date of Patent: March 17, 2020Assignee: INFINEON TECHNOLOGIES AGInventors: Alfons Dehe, Ulrich Krumbein, Gerhard Metzger-Brueckl, Johann Strasser, Juergen Wagner, Arnaud Walther
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Patent number: 10571682Abstract: A microelectromechanical systems (MEMS) package assembly and a method of manufacturing the same is provided. The MEMS package assembly includes a substrate, a housing coupled to the substrate to form a cavity, wherein the housing includes a transparent plate disposed above and parallel to the substrate and is configured to permit a transmission of light therethrough, and a MEMS chip disposed within the cavity and including a first main surface proximal to the transparent plate and a second main surface opposite to the first main surface and coupled to the substrate. The MEMS chip is oriented such that the first main surface is tilted at a tilt angle with respect to the transparent plate.Type: GrantFiled: August 10, 2017Date of Patent: February 25, 2020Assignee: Infineon Technologies AGInventors: Ludwig Heitzer, Derek Debie, Klaus Elian, Cyrus Ghahremani, Johannes Lodermeyer, Oskar Neuhoff, Johann Strasser
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Patent number: 10575101Abstract: A microelectromechanical microphone includes a reference electrode, a first membrane arranged on a first side of the reference electrode and displaceable by sound to be detected, and a second membrane arranged on a second side of the reference electrode, said second side being situated opposite the first side of the reference electrode, and displaceable by sound to be detected. A region of one from the first and second membranes that is displaceable by sound relative to the reference electrode, independently of said region's position relative to the reference electrode, can comprise a planar section and also an undulatory section adjoining the planar section and arranged in a region of overlap one of the first membrane or the second membrane with the other one of the first membrane and or the second membrane.Type: GrantFiled: February 15, 2018Date of Patent: February 25, 2020Assignee: INFINEON TECHNOLOGIES AGInventors: Arnaud Walther, Alfons Dehe, Gerhard Metzger-Brueckl, Johann Strasser, Carsten Ahrens
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Patent number: 10560771Abstract: In accordance with an embodiment, microelectromechanical microphone includes a holder and a sound detection unit carried on the holder. The sound detection unit includes a planar first membrane, a planar second membrane arranged at a distance from the first membrane, a low-pressure chamber formed between the first membrane and the second membrane, a reduced gas pressure relative to normal pressure being present in the low-pressure chamber, a reference electrode arranged at least in sections in the low-pressure chamber, where the first and second membranes are displaceable relative to the reference electrode by sound waves to be detected, the reference electrode includes a planar base section and a stiffening structure provided on the base section, and the stiffening structure is provided on a side of the base section that faces the first membrane or/and on a side of the base section that faces the second membrane.Type: GrantFiled: August 1, 2018Date of Patent: February 11, 2020Assignee: Infineon Technologies AGInventors: Alfons Dehe, Gerhard Metzger-Brueckl, Johann Strasser, Arnaud Walther, Andreas Wiesbauer
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Patent number: 10539779Abstract: A microelectromechanical systems (MEMS) package assembly and a method of manufacturing the same is provided. The MEMS package assembly includes a substrate, a housing coupled to the substrate to form a cavity, wherein the housing includes a transparent plate disposed above and parallel to the substrate and is configured to permit a transmission of light therethrough, and a MEMS chip disposed within the cavity and including a first main surface proximal to the transparent plate and a second main surface opposite to the first main surface and coupled to the substrate. The MEMS chip is oriented such that the first main surface is tilted at a tilt angle with respect to the transparent plate.Type: GrantFiled: August 10, 2017Date of Patent: January 21, 2020Assignee: Infineon Technologies AGInventors: Ludwig Heitzer, Derek Debie, Klaus Elian, Cyrus Ghahremani, Johannes Lodermeyer, Oskar Neuhoff, Johann Strasser
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Patent number: 10456058Abstract: A sensor device which is suitable for receiving and transmitting signals and can be placed on a test person's head, includes a sensor device housing having a signal pin on its distal side for receiving a signal and a connection on its proximal side for the signal transmission of a signal received by the signal pin. A sensor device holder has an axial through opening in which the sensor device housing is disposed so as to be steplessly axially displaceable. When the sensor device housing is axially displaced relative to the sensor device holder, the sensor device housing does not change its radial orientation. A cap having a plurality of sensor devices is also provided.Type: GrantFiled: October 24, 2016Date of Patent: October 29, 2019Assignee: Brian Products GmbHInventors: Peter Lukoschek, Johann Strasser, Manfred Jaschke
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Publication number: 20190112182Abstract: A method for sealing an access opening to a cavity comprises the following steps: providing a layer arrangement having a first layer structure and a cavity arranged adjacent to the first layer structure, wherein the first layer structure has an access opening to the cavity, performing a CVD layer deposition for forming a first covering layer having a layer thickness on the first layer structure having the access opening, and performing an HDP layer deposition with a first and second substep for forming a second covering layer on the first covering layer, wherein the first substep comprises depositing a liner material layer on the first covering layer, wherein the second substep comprises partly backsputtering the liner material layer and furthermore the first covering layer in the region of the access opening, and wherein the first and second substeps are carried out alternately and repeatedly a number of times.Type: ApplicationFiled: October 16, 2018Publication date: April 18, 2019Inventors: Gerhard Metzger-Brueckl, Alfons Dehe, Uwe Hoeckele, Johann Strasser, Arnaud Walther