Skin-conformal sensors
US-10722174-B2 · Jul 28, 2020 · US
Tunable contact microphone
US11064285B1 · US · B1
| Field | Value |
|---|---|
| Publication number | US-11064285-B1 |
| Application number | US-201916399131-A |
| Country | US |
| Kind code | B1 |
| Filing date | Apr 30, 2019 |
| Priority date | Apr 30, 2019 |
| Publication date | Jul 13, 2021 |
| Grant date | Jul 13, 2021 |
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- Title
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Abstract
Official abstract text for this publication.
A tunable contact microphone is fabricated from nanometer size piezoelectric materials. The piezoelectric nanostructures are deposited on a flexible substrate or tunable resonant backplane. The backplane can be designed to vibrate at fundamental harmonic or sub-harmonic frequencies from 10 Hz to 20 KHz, corresponding to vibration frequencies of the human cranium. The backplane can be attached to a band or other material that will facilitate the attachment to the forehead, behind the ear or throat, with a preferred location being the forehead. When a person speaks, the backplane vibrates causing the nanostructures to generate electricity. The electrical signals are sent to an impedance matching preamplifier. The signal can then be sent to a communications system or fed into the microphone input of a communication system.
First claim
Opening claim text (preview).
What is claimed is: 1. A tunable contact microphone, comprising: a flexible backplane having resonant frequencies corresponding to human cranium vibration frequencies; piezoelectric nanostructures affixed on said backplane, wherein electrical signals are generated by said piezoelectric nanostructures in response to resonance of said backplane; a conductive electrical bus connected to said piezoelectric nanostructures, said electrical signals being collected by said conductive electrical bus; and an impedance matching junction field effect transistor connected between said conductive electrical bus and a voice input of a communications system. 2. The tunable contact microphone of claim 1 , wherein said piezoelectric nanostructures comprise piezoelectric materials doped onto at least one of nanotubes, microfibers, nanowires and carbon nanotubes. 3. The tunable contact microphone of claim 1 , further comprising electrically conductive traces affixed to said backplane, said electrically conductive traces connected between said piezoelectric nanostructures and said conductive electrical bus. 4. The tunable contact microphone of claim 3 , wherein said piezoelectric nanostructures comprise piezoelectric materials doped onto at least one of nanotubes, microfibers, nanowires and carbon nanotubes. 5. The tunable contact microphone of claim 3 , wherein said piezoelectric nanostructures comprise nanometer size piezoelectric materials grown on said backplane. 6. The tunable contact microphone of claim 5 , wherein said piezoelectric nanostructures are of varying lengths. 7. The tunable contact microphone of claim 1 , wherein said piezoelectric nanostructures comprise nanometer size piezoelectric materials grown on said backplane. 8. The tunable contact microphone of claim 7 , wherein said piezoelectric nanostructures are of varying lengths. 9. The tunable contact microphone of claim 1 , further comprising a band affixed to said backplane, said band adapted to be positioned about a head of a user and maintain said backplane in contact with said head of said user. 10. The tunable contact microphone of claim 1 , further comprising: an ambient microphone; a noise dampener affixed between said tunable contact microphone and said ambient microphone; a differential amplifier connected between said impedance matching junction field effect transistor and said voice input; and a second impedance matching junction field effect transistor connected between said ambient microphone and said differential amplifier. 11. The tunable contact microphone of claim 10 , wherein said piezoelectric nanostructures comprise piezoelectric materials doped onto at least one of nanotubes, microfibers, nanowires and carbon nanotubes. 12. The tunable contact microphone of claim 11 , further comprising electrically conductive traces affixed to said backplane, said electrically conductive traces connected between said piezoelectric nanostructures and said conductive electrical bus. 13. The tunable contact microphone of claim 10 , wherein said piezoelectric nanostructures comprise nanometer size piezoelectric materials grown on said backplane. 14. The tunable contact microphone of claim 13 , wherein said piezoelectric nanostructures are of varying lengths. 15. The tunable contact microphone of claim 10 , further comprising a band affixed to said backplane, said band adapted to be positioned about a head of a user and maintain said backplane in contact with said head of said user. 16. The tunable contact microphone of claim 1 , wherein: said backplane comprises an ear piece clip; and said piezoelectric nanostructures comprise piezoelectric materials doped onto nanowires. 17. The tunable contact microphone of claim 1 , wherein: said backplane comprises an earbud; and said piezoelectric nanostructures comprise piezoelectric materials doped onto nanowires. 18. The tunable contact microphone of claim 1 , wherein: said backplane comprises an edge of a cell phone; and said piezoelectric nanostructures comprise piezoelectric materials doped onto nanowire.
Assignees
Inventors
Classifications
Noise reduction using microphones having different directional characteristics · CPC title
Microphones · CPC title
- H04R1/222Primary
for microphones (H04R1/24, H04R1/26 take precedence) · CPC title
Throat mountings for microphones · CPC title
Mouthpieces; {Microphones;} Attachments therefor · CPC title
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Frequently asked questions
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- What does patent US11064285B1 cover?
- A tunable contact microphone is fabricated from nanometer size piezoelectric materials. The piezoelectric nanostructures are deposited on a flexible substrate or tunable resonant backplane. The backplane can be designed to vibrate at fundamental harmonic or sub-harmonic frequencies from 10 Hz to 20 KHz, corresponding to vibration frequencies of the human cranium. The backplane can be attached t…
- Who is the assignee on this patent?
- Us Navy
- What technology area does this patent fall under?
- Primary CPC classification H04R1/222. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Tue Jul 13 2021 00:00:00 GMT+0000 (Coordinated Universal Time) (B1). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 6 related publications on this page (citations in our corpus or others sharing the same primary CPC).