Patents by Inventor Dariusz Burak
Dariusz Burak 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: 20240146281Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. An acoustic reflector electrode may include a first pair of top metal electrode layers electrically and acoustically coupled with the first and second layer of piezoelectric material to excite the piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator. The acoustic reflector may include a patterned layer.Type: ApplicationFiled: December 3, 2023Publication date: May 2, 2024Applicant: Qxonix Inc.Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20240136998Abstract: Techniques for improving Bulk Acoustic Wave (BAW) mass loading of resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. An acoustic reflector electrode may include a first pair of top metal electrode layers electrically and acoustically coupled with the first and second layer of piezoelectric material to excite the piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator.Type: ApplicationFiled: December 3, 2023Publication date: April 25, 2024Applicant: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Patent number: 11967940Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. A first layer of piezoelectric material having a piezoelectrically excitable resonance mode may be provided. The first layer of piezoelectric material may have a thickness so that the bulk acoustic wave resonator has a resonant frequency. The first layer of piezoelectric material may include a first pair of sublayers of piezoelectric material, and a first layer of temperature compensating material. A substrate may be provided.Type: GrantFiled: December 29, 2021Date of Patent: April 23, 2024Assignee: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Publication number: 20240106411Abstract: Techniques for improving acoustic wave device structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. The first and second layers of piezoelectric material have respective thicknesses so that the acoustic wave device has a resonant frequency that is in a super high frequency band or an extremely high frequency band.Type: ApplicationFiled: December 3, 2023Publication date: March 28, 2024Applicant: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Publication number: 20240097644Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including fluidic systems, oscillators and systems that may include such devices. A bulk acoustic wave (BAW) resonator may comprise a substrate and a first layer of piezoelectric material. The bulk acoustic wave (BAW) resonator may comprise a top electrode. A sensing region may be acoustically coupled with the top electrode of the bulk acoustic wave (BAW) resonator.Type: ApplicationFiled: December 3, 2023Publication date: March 21, 2024Applicant: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Patent number: 11936360Abstract: Techniques for improving Bulk Acoustic Wave (BAW) mass loading of resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. An acoustic reflector electrode may include a first pair of top metal electrode layers electrically and acoustically coupled with the first and second layer of piezoelectric material to excite the piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator.Type: GrantFiled: December 29, 2021Date of Patent: March 19, 2024Assignee: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Patent number: 11870416Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. An acoustic reflector electrode may include a first pair of top metal electrode layers electrically and acoustically coupled with the first and second layer of piezoelectric material to excite the piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator. The acoustic reflector may include a patterned layer.Type: GrantFiled: December 29, 2021Date of Patent: January 9, 2024Assignee: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Patent number: 11870415Abstract: Techniques for improving acoustic wave device structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. The first and second layers of piezoelectric material have respective thicknesses so that the acoustic wave device has a resonant frequency that is in a super high frequency band or an extremely high frequency band.Type: GrantFiled: December 29, 2021Date of Patent: January 9, 2024Assignee: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Patent number: 11863153Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including fluidic systems, oscillators and systems that may include such devices. A bulk acoustic wave (BAW) resonator may comprise a substrate and a first layer of piezoelectric material. The bulk acoustic wave (BAW) resonator may comprise a top electrode. A sensing region may be acoustically coupled with the top electrode of the bulk acoustic wave (BAW) resonator.Type: GrantFiled: July 20, 2021Date of Patent: January 2, 2024Assignee: Qxonix Inc.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Publication number: 20230299735Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. A top acoustic reflector including a first pair of top metal electrode layers may be electrically and acoustically coupled with the first layer of piezoelectric material to excite the piezoelectrically excitable main resonance mode at a resonant frequency.Type: ApplicationFiled: December 17, 2022Publication date: September 21, 2023Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20230246629Abstract: Techniques for improving acoustic resonators and resonator structures are disclosed, including filters, oscillators and systems that may include such devices. A bulk acoustic wave (BAW) resonator may comprise a plurality of piezoelectric layers including first and second piezoelectric layers acoustically coupled with one another and arranged over the substrate. The first and second piezoelectric layers may have respective piezoelectric axis orientations. The first and second piezoelectric layers may have respective thicknesses. An example system may comprise an oscillator circuit coupled with the bulk acoustic wave (BAW) resonator. For example, a radar system may comprise the oscillator circuit coupled with the bulk acoustic wave (BAW) resonator.Type: ApplicationFiled: January 8, 2023Publication date: August 3, 2023Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20230231539Abstract: Techniques for improving structures, acoustic wave resonators, layers, and devices are disclosed, including filters, oscillators and systems that may include such devices. An acoustic wave device of this disclosure may comprise a substrate and a piezoelectric resonant volume. The piezoelectric resonant volume of the acoustic wave device may have a main resonant frequency. The acoustic wave device may comprise a first distributed Bragg acoustic reflector. The first distributed Bragg acoustic reflector may comprise a first active piezoelectric layer. The main resonant frequency of the Bulk Acoustic Wave (BAW) resonator may be in a super high frequency (SHF) band. The main resonant frequency of the Bulk Acoustic Wave (BAW) resonator may be in an extremely high frequency (EHF) band.Type: ApplicationFiled: January 8, 2023Publication date: July 20, 2023Inventors: Dariusz BURAK, Kevin J. GRANNEN, Jack LENELL
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Publication number: 20230216476Abstract: Techniques for improving Bulk Acoustic Wave (BAW) reflector and resonator structures are disclosed, including filters, oscillators and systems that may include such devices. A Bulk Acoustic Wave (BAW) resonator of this disclosure may comprise a substrate and an active piezoelectric resonant volume. The active piezoelectric resonant volume of the Bulk Acoustic Wave (BAW) resonator may have a main resonant frequency. The active piezoelectric resonant volume of the Bulk Acoustic Wave (BAW) resonator may comprise first and second piezoelectric layers having respective piezoelectric axis that substantially oppose one another. A first patterned layer may be disposed within the active piezoelectric volume. This may, but need not facilitate suppression of spurious modes. The main resonant frequency of the Bulk Acoustic Wave (BAW) resonator may be in a super high frequency (SHF) band. The main resonant frequency of the Bulk Acoustic Wave (BAW) resonator may be in an extremely high frequency (EHF) band.Type: ApplicationFiled: January 8, 2023Publication date: July 6, 2023Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20230170876Abstract: Techniques for improving acoustic resonators and resonator structures are disclosed, including filters, oscillators and systems that may include such devices. A bulk acoustic wave (BAW) resonator may comprise a substrate. The bulk acoustic wave (BAW) may further comprise a plurality of piezoelectric layers including first, second, third and fourth piezoelectric layers acoustically coupled with one another and arranged over the substrate. The first, second, third and fourth piezoelectric layers may have respective piezoelectric axis orientations. The first, second, third and fourth piezoelectric layers may have respective thicknesses. Electromechanical coupling of the bulk acoustic wave (BAW) resonator may, but need not be limited.Type: ApplicationFiled: January 8, 2023Publication date: June 1, 2023Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Patent number: 11545956Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. A top acoustic reflector including a first pair of top metal electrode layers may be electrically and acoustically coupled with the first layer of piezoelectric material to excite the piezoelectrically excitable main resonance mode at a resonant frequency.Type: GrantFiled: December 29, 2021Date of Patent: January 3, 2023Assignee: QXONIX, INC.Inventors: Dariusz Burak, Kevin J. Grannen, Jack Lenell
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Patent number: 11489510Abstract: A bulk acoustic wave (BAW) resonator includes a substrate defining a cavity, a bottom electrode disposed over the substrate and the cavity, a piezoelectric layer disposed on the bottom electrode, and a top electrode disposed on the piezoelectric layer. The piezoelectric layer includes polycrystalline lithium niobate (LN) material or polycrystalline lithium tantalite (LT) material. The BAW resonator may further include an encapsulant layer formed on side and top surfaces of the piezoelectric layer. The encapsulant layer is configured to protect the LN material or the LT material of the piezoelectric layer from a release solvent previously applied to sacrificial material within the cavity in the substrate.Type: GrantFiled: November 14, 2018Date of Patent: November 1, 2022Assignee: Avago Technologies International Sales Pte. LimitedInventors: Dariusz Burak, Kevin J. Grannen, John Choy
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Publication number: 20220140805Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. A first layer of piezoelectric material having a piezoelectrically excitable resonance mode may be provided. The first layer of piezoelectric material may have a thickness so that the bulk acoustic wave resonator has a resonant frequency. The first layer of piezoelectric material may include a first pair of sublayers of piezoelectric material, and a first layer of temperature compensating material. A substrate may be provided.Type: ApplicationFiled: December 29, 2021Publication date: May 5, 2022Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20220140804Abstract: Techniques for improving Bulk Acoustic Wave (BAW) mass loading of resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. An acoustic reflector electrode may include a first pair of top metal electrode layers electrically and acoustically coupled with the first and second layer of piezoelectric material to excite the piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator.Type: ApplicationFiled: December 29, 2021Publication date: May 5, 2022Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20220140806Abstract: Techniques for improving Bulk Acoustic Wave (BAW) reflector and resonator structures are disclosed, including filters, oscillators and systems that may include such devices. A bulk acoustic wave (BAW) resonator may comprise a substrate and a first layer of piezoelectric material having a first piezoelectric axis orientation. The bulk acoustic wave (BAW) resonator may comprise a multi-layer acoustic reflector, e.g., a multi-layer metal top acoustic reflector electrode, including a first pair of top metal electrode layers. The first pair of top metal electrode layers may be electrically and acoustically coupled with the first layer of piezoelectric material to excite a piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator.Type: ApplicationFiled: December 29, 2021Publication date: May 5, 2022Applicant: QXONIX, INC.Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL
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Publication number: 20220140803Abstract: Techniques for improving Bulk Acoustic Wave (BAW) resonator structures are disclosed, including filters, oscillators and systems that may include such devices. First and second layers of piezoelectric material may be acoustically coupled with one another to have a piezoelectrically excitable resonance mode. The first layer of piezoelectric material may have a first piezoelectric axis orientation, and the second layer of piezoelectric material may have a second piezoelectric axis orientation that substantially opposes the first piezoelectric axis orientation of the first layer of piezoelectric material. An acoustic reflector electrode may include a first pair of top metal electrode layers electrically and acoustically coupled with the first and second layer of piezoelectric material to excite the piezoelectrically excitable resonance mode at a resonant frequency of the BAW resonator. The acoustic reflector may include a patterned layer.Type: ApplicationFiled: December 29, 2021Publication date: May 5, 2022Inventors: DARIUSZ BURAK, KEVIN J. GRANNEN, JACK LENELL