Patents by Inventor ALEXANDER SENDOBRY
ALEXANDER SENDOBRY 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: 12685078Abstract: A station for a substrate processing system that includes a magnetic levitation actuator assembly disposed in a first region of the station that is separated from a second region of the station by a membrane. The magnetic levitation actuator assembly is configured to contactlessly convey a carrier disposed in the second region to one or more positions within the second region.Type: GrantFiled: April 30, 2024Date of Patent: July 14, 2026Assignee: Applied Materials, Inc.Inventors: Bhaskar Prasad, Thomas Brezoczky, Kirankumar Neelasandra Savandaiah, Mayank Dwivedi, Alexander Sendobry
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Publication number: 20260182301Abstract: A station for a substrate processing system that includes a magnetic levitation actuator assembly disposed in a first region of the station that is separated from a second region of the station by a membrane. The magnetic levitation actuator assembly is configured to contactlessly convey a carrier disposed in the second region to one or more positions within the second region.Type: ApplicationFiled: February 16, 2026Publication date: June 25, 2026Inventors: Bhaskar PRASAD, Thomas BREZOCZKY, Kirankumar Neelasandra SAVANDAIAH, Mayank DWIVEDI, Alexander SENDOBRY
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Publication number: 20250336703Abstract: A station for a substrate processing system that includes a magnetic levitation actuator assembly disposed in a first region of the station that is separated from a second region of the station by a membrane. The magnetic levitation actuator assembly is configured to contactlessly convey a carrier disposed in the second region to one or more positions within the second region.Type: ApplicationFiled: April 30, 2024Publication date: October 30, 2025Inventors: Bhaskar PRASAD, Thomas BREZOCZKY, Kirankumar Neelasandra SAVANDAIAH, Mayank DWIVEDI, Alexander SENDOBRY
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Publication number: 20250336702Abstract: A station for a substrate processing system that includes a magnetic levitation actuator assembly disposed in a first region of the station that is separated from a second region of the station by a membrane. The magnetic levitation actuator assembly is configured to contactlessly convey a carrier disposed in the second region to one or more positions within the second region.Type: ApplicationFiled: April 30, 2024Publication date: October 30, 2025Inventors: Bhaskar PRASAD, Thomas BREZOCZKY, Kirankumar Neelasandra SAVANDAIAH, Mayank DWIVEDI, Alexander SENDOBRY
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Publication number: 20250336704Abstract: A station for a substrate processing system that includes a magnetic levitation actuator assembly disposed in a first region of the station that is separated from a second region of the station by a membrane. The magnetic levitation actuator assembly is configured to contactlessly convey a carrier disposed in the second region to one or more positions within the second region.Type: ApplicationFiled: April 30, 2024Publication date: October 30, 2025Inventors: Bhaskar PRASAD, Thomas BREZOCZKY, Kirankumar Neelasandra SAVANDAIAH, Mayank DWIVEDI, Alexander SENDOBRY
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Publication number: 20250211141Abstract: An apparatus for contactless transportation of a carrier is provided. The apparatus includes the carrier, being a substrate carrier or a mask carrier. The apparatus includes a linear reluctance motor for providing both a contactless levitation and a contactless drive of the carrier. The linear reluctance motor includes one or more linear stators defining a transportation track for the carrier. The linear reluctance motor includes a mover attached to the carrier. The linear reluctance motor includes a set of electromagnets and a first magnetic material. The one or more linear stators include the set of electromagnets and the mover includes the first magnetic material, or the mover includes the set of electromagnets and the one or more linear stators include the first magnetic material. The apparatus includes a controller connected to the set of electromagnets.Type: ApplicationFiled: March 10, 2025Publication date: June 26, 2025Inventors: Thorsten MEISS, Alexander SENDOBRY
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Patent number: 12273051Abstract: An apparatus for contactless transportation of a carrier is provided. The apparatus includes the carrier, being a substrate carrier or a mask carrier. The apparatus includes a linear reluctance motor for providing both a contactless levitation and a contactless drive of the carrier. The linear reluctance motor includes one or more linear stators defining a transportation track for the carrier. The linear reluctance motor includes a mover attached to the carrier. The linear reluctance motor includes a set of electromagnets and a first magnetic material. The one or more linear stators include the set of electromagnets and the mover includes the first magnetic material, or the mover includes the set of electromagnets and the one or more linear stators include the first magnetic material. The apparatus includes a controller connected to the set of electromagnets.Type: GrantFiled: December 14, 2022Date of Patent: April 8, 2025Assignee: Applied Materials, Inc.Inventors: Thorsten Meiss, Alexander Sendobry
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Patent number: 12273052Abstract: An apparatus for contactless transportation of a carrier is provided. The apparatus includes the carrier, being a substrate carrier or a mask carrier. The apparatus includes a linear reluctance motor for providing both a contactless levitation and a contactless drive of the carrier. The linear reluctance motor includes one or more linear stators defining a transportation track for the carrier. The linear reluctance motor includes a mover attached to the carrier. The linear reluctance motor includes a set of electromagnets and a first magnetic material. The one or more linear stators include the set of electromagnets and the mover includes the first magnetic material, or the mover includes the set of electromagnets and the one or more linear stators include the first magnetic material. The apparatus includes a controller connected to the set of electromagnets.Type: GrantFiled: November 2, 2023Date of Patent: April 8, 2025Assignee: Applied Materials, Inc.Inventors: Thorsten Meiss, Alexander Sendobry
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Publication number: 20240204696Abstract: An apparatus for contactless transportation of a carrier is provided. The apparatus includes the carrier, being a substrate carrier or a mask carrier. The apparatus includes a linear reluctance motor for providing both a contactless levitation and a contactless drive of the carrier. The linear reluctance motor includes one or more linear stators defining a transportation track for the carrier. The linear reluctance motor includes a mover attached to the carrier. The linear reluctance motor includes a set of electromagnets and a first magnetic material. The one or more linear stators include the set of electromagnets and the mover includes the first magnetic material, or the mover includes the set of electromagnets and the one or more linear stators include the first magnetic material. The apparatus includes a controller connected to the set of electromagnets.Type: ApplicationFiled: December 14, 2022Publication date: June 20, 2024Inventors: Thorsten MEISS, Alexander SENDOBRY
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Publication number: 20240204697Abstract: An apparatus for contactless transportation of a carrier is provided. The apparatus includes the carrier, being a substrate carrier or a mask carrier. The apparatus includes a linear reluctance motor for providing both a contactless levitation and a contactless drive of the carrier. The linear reluctance motor includes one or more linear stators defining a transportation track for the carrier. The linear reluctance motor includes a mover attached to the carrier. The linear reluctance motor includes a set of electromagnets and a first magnetic material. The one or more linear stators include the set of electromagnets and the mover includes the first magnetic material, or the mover includes the set of electromagnets and the one or more linear stators include the first magnetic material. The apparatus includes a controller connected to the set of electromagnets.Type: ApplicationFiled: November 2, 2023Publication date: June 20, 2024Inventors: Thorsten MEISS, Alexander SENDOBRY
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Patent number: 10576750Abstract: A method for compensating for disruption torques in driving a jetting cylinder in an inkjet printing machine includes recording print image products for at least one color and at least one complete rotation of the jetting cylinder by using an image sensor and using a computer for a time parallel measurement of a driving torque of the jetting cylinder, generating an average gray value profile above a circumferential coordinate based on the recorded image data by using the computer, transforming the average gray value profile and the measured profile of the driving torque into a frequency range by using a computer-assisted Fourier transform and extracting order components from the frequency range. A periodic compensation torque is calculated based on the extracted order components, and the calculated periodic compensation torque is factored-in when actuating the jetting cylinder of the inkjet printing machine in the course of a printing operation.Type: GrantFiled: February 11, 2019Date of Patent: March 3, 2020Assignee: Heidelberger Druckmaschinen AGInventors: Steffen Neeb, Nicklas Raymond Norrick, Alexander Sendobry
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Publication number: 20190291458Abstract: A method for compensating for disruption torques in driving a jetting cylinder in an inkjet printing machine includes recording print image products for at least one color and at least one complete rotation of the jetting cylinder by using an image sensor and using a computer for a time parallel measurement of a driving torque of the jetting cylinder, generating an average gray value profile above a circumferential coordinate based on the recorded image data by using the computer, transforming the average gray value profile and the measured profile of the driving torque into a frequency range by using a computer-assisted Fourier transform and extracting order components from the frequency range. A periodic compensation torque is calculated based on the extracted order components, and the calculated periodic compensation torque is factored-in when actuating the jetting cylinder of the inkjet printing machine in the course of a printing operation.Type: ApplicationFiled: February 11, 2019Publication date: September 26, 2019Inventors: STEFFEN NEEB, NICKLAS RAYMOND NORRICK, ALEXANDER SENDOBRY