The Board of Trustees of the Leland Stanford Junior University
대리인 / 주소
Knobbe, Martens, Olson & Bear, LLP
인용정보
피인용 횟수 :
1인용 특허 :
14
초록▼
An acoustic biometric touch scanner device and method is disclosed. In one aspect, an acoustic fingerprint sensing device includes an array of ultrasonic transducers configured to transmit an ultrasound signal having a frequency in a range from 50 megahertz (MHz) to 500 MHz. The acoustic fingerprint
An acoustic biometric touch scanner device and method is disclosed. In one aspect, an acoustic fingerprint sensing device includes an array of ultrasonic transducers configured to transmit an ultrasound signal having a frequency in a range from 50 megahertz (MHz) to 500 MHz. The acoustic fingerprint ultrasonic transducers include a piezoelectric film. The acoustic fingerprint sensing device further includes a receiving surface configured to receive a finger. The acoustic fingerprint sensing device further includes a processor configured to generate an image of at least a portion of a fingerprint of the finger based on a reflection of the ultrasound signal from the finger.
대표청구항▼
1. An acoustic fingerprint sensing device comprising: an array of ultrasonic transducers configured to transmit an ultrasound signal having a frequency in a range from 50 megahertz (MHz) to 500 MHz, the ultrasonic transducers comprising a piezoelectric film;first metal lines;second metal lines ortho
1. An acoustic fingerprint sensing device comprising: an array of ultrasonic transducers configured to transmit an ultrasound signal having a frequency in a range from 50 megahertz (MHz) to 500 MHz, the ultrasonic transducers comprising a piezoelectric film;first metal lines;second metal lines orthogonal to the first metal lines, and the first metal lines and the second metal lines enabling addressing of the ultrasonic transducers of the array;a surface configured to receive a finger; anda processor configured to generate an image of at least a portion of a fingerprint of the finger based on a reflection of the ultrasound signal from the finger, wherein the acoustic fingerprint sensing device is configured to perform transmit focusing on a selected portion of the surface. 2. The acoustic fingerprint sensing device of claim 1, wherein the frequency of the ultrasound signal is in a range from 125 MHz to 250 MHz. 3. The acoustic fingerprint sensing device of claim 1, wherein the frequency of the ultrasound signal is in a range from 50 MHz to 100 MHz. 4. The acoustic fingerprint sensing device of claim 1, wherein the piezoelectric film has a thickness in a range from 3 micrometers (μm) to 75 μm. 5. The acoustic fingerprint sensing device of claim 1, wherein the piezoelectric film has a thickness in a range from 10 micrometers (μm) to 20 μm. 6. The acoustic fingerprint sensing device of claim 1, further comprising receive circuitry configured to process an electronic receive signal generated by the array of ultrasonic transducers in response to the reflection to provide a processed signal to the processor. 7. The acoustic fingerprint sensing device of claim 1, wherein the image has a resolution of at least 500 pixels per inch. 8. The acoustic fingerprint sensing device of claim 1, wherein the first metal lines are in physical contact with a plate that includes the surface. 9. The acoustic fingerprint sensing device of claim 1, wherein the piezoelectric film comprises at least one of zinc oxide, aluminum nitride, or lead zirconium titanate. 10. The acoustic fingerprint sensing device of claim 1, wherein the surface is a surface of a plate that comprises glass and a matching layer, and wherein the matching layer has a thickness corresponding to a quarter of a wavelength of the ultrasound signal in material of the matching layer. 11. The acoustic fingerprint sensing device of claim 1, wherein the processor is configured to estimate a force at which the finger contacts the surface based on an area of the finger in contact with the surface. 12. The acoustic fingerprint sensing device of claim 1, wherein the processor is configured to detect a temperature of the finger based on a sound speed associated with the reflection. 13. The acoustic fingerprint sensing device of claim 1, wherein the processor is configured to detect a parameter associated with a liveness of the finger based on the reflection, and to provide an indication of whether the finger is part of a live human based on the liveness parameter. 14. A method of generating a biometric image, the method comprising: transmitting, using one or more ultrasonic transducers, an ultrasound signal in a frequency range from 50 megahertz (MHz) to 500 MHz wherein the transmitting comprises transmit focusing;receiving, using the one or more ultrasonic transducers, a reflection of the ultrasound signal; andgenerating the biometric image based on the reflection of the ultrasound signal. 15. The method of claim 14, wherein the biometric image represents at least a portion of a fingerprint and has a resolution of at least 500 pixels per inch. 16. The method of claim 14, wherein the one or more ultrasonic transducers comprise a piezoelectric film having a thickness in a range from 3 micrometers (μm) to 75 μm. 17. The method of claim 14 further comprising detecting a parameter associated with a liveness of the finger based on the reflection, and providing an indication of whether the finger is part of a live human based on the liveness parameter. 18. An acoustic biometric sensing device comprising: ultrasonic transducers configured to transmit an ultrasound signal having a frequency in a range from 50 megahertz (MHz) to 500 MHz;a surface; anda processor in communication with the ultrasonic transducers, the processor configured to generate a biometric image based on a reflection of the ultrasound signal from an object in contact with the surface, wherein the acoustic biometric sensing device is configured to perform transmit focusing on a selected portion of the surface. 19. The acoustic biometric sensing device of claim 18, wherein the ultrasonic transducers comprise a piezoelectric film having a thickness in a range from 3 micrometers (μm) to 75 μm. 20. The acoustic biometric sensing device of claim 18, wherein the biometric image represents at least a portion of a fingerprint and the biometric image has a resolution of at least 500 pixels per inch. 21. The acoustic fingerprint sensing device of claim 1, wherein the array of ultrasonic transducers is arranged in rows and columns, and wherein the acoustic fingerprint sensing device further comprises: a transmit circuit configured to excite the ultrasonic transducers in a subset of the columns of the array to transmit the ultrasound signal to the selected portion of the surface. 22. The acoustic fingerprint sensing device of claim 1, wherein the processor is configured to perform transmit focusing using a post-processing synthetic aperture focusing.
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이 특허에 인용된 특허 (14)
Maev, Roman Gr.; Seviaryn, Fedar M., Biometric sensor and method for generating a three-dimensional representation of a portion of a finger.
Schneider John K. (Snyder NY) Keeney Frank W. (Williamsville NY) Drakes Russell J. (Cheektowaga NY) Gojevic Stephen M. (Buffalo NY) Leszczynski Nicholas G. (Amherst NY) Schneider Mark C. (East Amhers, High resolution ultrasonic imaging apparatus and method.
Mainguet, Jean-Francois; Chambron, Alain; Charrat, Bruno; Defay, Emmanuel; Parat, Guy-Michel, Time-related temperature variation transducer, electronic chip incorporating this transducer and method of fabrication of this chip.
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