Patents by Inventor Robert KOLAJA
Robert KOLAJA 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: 12138659Abstract: Planar phased ultrasound transducer including a first layer including a sheet of piezoelectric material, a piezo frame surrounding an outer perimeter of the sheet of piezoelectric material, and an epoxy material placed between the piezo frame and the sheet of piezoelectric material. The transducer includes a flex frame secured to a back side of the first layer.Type: GrantFiled: September 11, 2023Date of Patent: November 12, 2024Assignee: FUJIFILM SonoSite, Inc.Inventors: Guofeng Pang, Oleg Ivanytskyy, Robert Kolaja
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Publication number: 20240050068Abstract: Examples herein include piezoelectric layers of an ultrasound transducer, ultrasound transducers, methods of manufacturing the transducers, and methods of manufacturing the piezoelectric layers of an ultrasound transducer. In one example, a piezoelectric layer of an ultrasound transducer include a non-metallic frame and a piezoelectric material. The non-metallic frame surrounds the piezoelectric material on at least two sides and is coupled to a lens support structure with a structure such that an acoustic lens and the piezoelectric material are oriented substantially parallel to each other. The piezoelectric material is sized to span an area greater than or equal to an active surface of the acoustic lens.Type: ApplicationFiled: September 28, 2023Publication date: February 15, 2024Inventors: Guofeng PANG, Oleg IVANYTSKYY, Robert KOLAJA
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Publication number: 20240016476Abstract: An ultrasound transducer includes a planar linear array stack. The stack includes a lens layer comprising an acoustic lens and a lens support structure, where a portion of the acoustic lens is secured to the lens support structure. The stack also includes a piezoelectric layer comprising a non-metallic frame and a piezoelectric material, the non-metallic frame surrounding the piezoelectric material on at least two sides, the non-metallic frame coupled to a portion of the lens support structure such that the acoustic lens and the non-metallic frame are oriented substantially parallel to each other. The transducer also includes an interposer frame to position one or more flex circuits, where the interposer frame is coupled to the non-metallic frame via a conductive element in the non-metallic frame and to the one or more flex circuits.Type: ApplicationFiled: January 24, 2023Publication date: January 18, 2024Inventors: Guofeng PANG, Oleg IVANYTSKYY, Robert KOLAJA
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Publication number: 20230415197Abstract: Planar phased ultrasound transducer including a first layer including a sheet of piezoelectric material, a piezo frame surrounding an outer perimeter of the sheet of piezoelectric material, and an epoxy material placed between the piezo frame and the sheet of piezoelectric material. The transducer includes a flex frame secured to a back side of the first layer.Type: ApplicationFiled: September 11, 2023Publication date: December 28, 2023Applicant: FUJIFILM SonoSite, Inc.Inventors: Guofeng Pang, Oleg Ivanytskyy, Robert Kolaja
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Patent number: 11813640Abstract: Planar phased ultrasound transducer including a first layer including a sheet of piezoelectric material, a piezo frame surrounding an outer perimeter of the sheet of piezoelectric material, and an epoxy material placed between the piezo frame and the sheet of piezoelectric material. The transducer includes a flex frame secured to a back side of the first layer.Type: GrantFiled: November 18, 2019Date of Patent: November 14, 2023Assignee: FUJIFILM Sonosite, Inc.Inventors: Guofeng Pang, Oleg Ivanytskyy, Robert Kolaja
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Patent number: 11774589Abstract: A dual frequency ultrasound transducer includes a high frequency (HF) transducer and a low frequency (LF) transducer that is positioned behind the high frequency transducer. An intermediate layer is positioned between the low frequency transducer and the high frequency transducer to absorb high frequency ultrasound signals. An alignment feature on the low frequency transducer is positioned with respect to a fiducial that is marked at a known position with respect to high frequency transducer elements of the HF transducer to align low frequency transducer elements of the LF transducer with the HF transducer elements.Type: GrantFiled: November 9, 2021Date of Patent: October 3, 2023Assignee: FUJIFILM SonoSite, Inc.Inventors: Guofeng Pang, Oleg Ivanytskyy, Hossein Amini, Robert Kolaja
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Publication number: 20230197056Abstract: A compound acoustic lens, an ultrasound probe and a medical device that includes the same are described. In some embodiments, a compound acoustic lens for an ultrasound probe includes an outer lens including a first material of a first thickness, and an inner lens mated to the outer lens. The inner lens includes a second material of a second thickness. The overall thickness of the compound acoustic lens is determined as a sum of the first thickness and the second thickness and is less than a thickness of a single-material lens having a same focal length as the compound acoustic lens.Type: ApplicationFiled: December 17, 2021Publication date: June 22, 2023Inventors: Guofeng Pang, Oleg Ivanytskyy, Robert Kolaja
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Patent number: 11678865Abstract: A high frequency ultrasound array having a number of transducer elements that are formed in sheet of piezoelectric material. A frame having a coefficient of thermal expansion that is similar to that of the piezoelectric material surrounds the piezoelectric material and is separated from the piezoelectric material by a filling material. Kerf cuts that define the individual elements in the sheet of piezoelectric material extend across a full width of the sheet. In some embodiments, sub-dice kerf cuts that divide a single transducer element into two or more sub-elements also extend all the way across the width of the sheet. A lens positioned in front of the transducer elements can have a radius machined therein to focus ultrasound signals.Type: GrantFiled: May 30, 2018Date of Patent: June 20, 2023Assignee: FUJIFILM SonoSite, Inc.Inventors: Nicholas Christopher Chaggares, Oleg Ivanytskyy, Guofeng Pang, Robert Kolaja, Hossein Amini
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Patent number: 11541423Abstract: A high frequency ultrasound array having a number of transducer elements that are formed in sheet of piezoelectric material. A frame having a coefficient of thermal expansion similar to that of the piezoelectric material surrounds the piezoelectric material and is separated from the piezoelectric material by an epoxy material. Kerf cuts that define the individual elements in the sheet of piezoelectric material extend across a full width of the sheet. In some embodiments, sub-dice kerf cuts that divide a single transducer element into two or more sub-elements also extend all the way across the width of the sheet. A lens positioned in front of the transducer elements can have a radius machined therein to focus ultrasound signals. The frame, transducer elements and lens are bent or curved with the desired radius to focus ultrasound signals.Type: GrantFiled: May 31, 2019Date of Patent: January 3, 2023Assignee: FUJIFILM Sonosite, Inc.Inventors: Guofeng Pang, Oleg Ivanytskyy, Robert Kolaja, Hossein Amini
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Publication number: 20220066027Abstract: A dual frequency ultrasound transducer includes a high frequency (HF) transducer and a low frequency (LF) transducer that is positioned behind the high frequency transducer. An intermediate layer is positioned between the low frequency transducer and the high frequency transducer to absorb high frequency ultrasound signals. An alignment feature on the low frequency transducer is positioned with respect to a fiducial that is marked at a known position with respect to high frequency transducer elements of the HF transducer to align low frequency transducer elements of the LF transducer with the HF transducer elements.Type: ApplicationFiled: November 9, 2021Publication date: March 3, 2022Applicant: FUJIFILM SONOSITE, INC.Inventors: Guofeng Pang, Oleg Ivanytskyy, Hossein Amini, Robert Kolaja
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Patent number: 11169265Abstract: A dual frequency ultrasound transducer includes a high frequency (HF) transducer and a low frequency (LF) transducer that is positioned behind the high frequency transducer. An intermediate layer is positioned between the low frequency transducer and the high frequency transducer to absorb high frequency ultrasound signals. An alignment feature on the low frequency transducer is positioned with respect to a fiducial that is marked at a known position with respect to high frequency transducer elements of the HF transducer to align low frequency transducer elements of the LF transducer with the HF transducer elements.Type: GrantFiled: July 31, 2018Date of Patent: November 9, 2021Assignee: FUJIFILM SonoSite, Inc.Inventors: Guofeng Pang, Oleg Ivanytskyy, Hossein Amini, Robert Kolaja
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Publication number: 20210146403Abstract: Planar phased ultrasound transducer including a first layer including a sheet of piezoelectric material, a piezo frame surrounding an outer perimeter of the sheet of piezoelectric material, and an epoxy material placed between the piezo frame and the sheet of piezoelectric material. The transducer includes a flex frame secured to a back side of the first layer.Type: ApplicationFiled: November 18, 2019Publication date: May 20, 2021Inventors: Guofeng Pang, Oleg Ivanytskyy, Robert Kolaja
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Publication number: 20190366384Abstract: A high frequency ultrasound array having a number of transducer elements that are formed in sheet of piezoelectric material. A frame having a coefficient of thermal expansion similar to that of the piezoelectric material surrounds the piezoelectric material and is separated from the piezoelectric material by an epoxy material. Kerf cuts that define the individual elements in the sheet of piezoelectric material extend across a full width of the sheet. In some embodiments, sub-dice kerf cuts that divide a single transducer element into two or more sub-elements also extend all the way across the width of the sheet. A lens positioned in front of the transducer elements can have a radius machined therein to focus ultrasound signals. The frame, transducer elements and lens are bent or curved with the desired radius to focus ultrasound signals.Type: ApplicationFiled: May 31, 2019Publication date: December 5, 2019Inventors: Guofeng Pang, Oleg lvanytskyy, Robert Kolaja, Hossein Amini
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Publication number: 20190339387Abstract: A dual frequency ultrasound transducer includes a high frequency (HF) transducer and a low frequency (LF) transducer that is positioned behind the high frequency transducer. An intermediate layer is positioned between the low frequency transducer and the high frequency transducer to absorb high frequency ultrasound signals. An alignment feature on the low frequency transducer is positioned with respect to a fiducial that is marked at a known position with respect to high frequency transducer elements of the HF transducer to align low frequency transducer elements of the LF transducer with the HF transducer elements.Type: ApplicationFiled: July 31, 2018Publication date: November 7, 2019Inventors: Guofeng Pang, Oleg Ivanytskyy, Hossein Amini, Robert Kolaja
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Publication number: 20190200959Abstract: A high frequency ultrasound array having a number of transducer elements that are formed in sheet of piezoelectric material. A frame having a coefficient of thermal expansion that is similar to that of the piezoelectric material surrounds the piezoelectric material and is separated from the piezoelectric material by a filling material. Kerf cuts that define the individual elements in the sheet of piezoelectric material extend across a full width of the sheet. In some embodiments, sub-dice kerf cuts that divide a single transducer element into two or more sub-elements also extend all the way across the width of the sheet. A lens positioned in front of the transducer elements can have a radius machined therein to focus ultrasound signals.Type: ApplicationFiled: May 30, 2018Publication date: July 4, 2019Inventors: Nicholas Christopher CHAGGARES, Oleg IVANYTSKYY, Guofeng PANG, Robert KOLAJA, Hossein AMINI