Multiple charge-coupled biometric sensor array

US 8,885,896 B2
Filed: 03/17/2014
Issued: 11/11/2014
Est. Priority Date: 06/14/2011
Status: Active Grant

First Claim

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1. A multi-sided card having a resistive fingerprint array, comprising:

a first side having a first fingerprint scanning device;

a second side having a second fingerprint scanning device, the first fingerprint scanning device and the second fingerprint scanning device each comprising;

a set of imaging pixel electrodes for creating a fingerprint scanning surface;

a voltage source coupled to the set of imaging pixel electrodes for supplying a first voltage to a plurality of imaging pixel electrodes for a controlled duration and supplying a second voltage to the plurality of imaging pixel electrodes for a controlled duration;

a meter coupled to the set of imaging pixel electrodes for taking a first electrical measurement relating to the first voltage for the plurality of imaging pixel electrodes and taking a second electrical measurement relating to the second voltage for the plurality of imaging pixel electrodes;

a controller coupled to the meter for calculating the voltage level difference between the first electrical measurement and the second electrical measurement;

a memory medium for storing historical data relating to finger position on the fingerprint scanning surface; and

a comparator for comparing a position of a scanned fingerprint to the historical data.

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Abstract

Embodiments of the present invention relate to fingerprint scanning. Specifically, the present invention relates to a multi-sided fingerprint scanning device on a card (e.g., credit card, smart card, etc.), an associated energy-efficient method for attaining accurate fingerprint information using a multiple charge-coupled biometric sensor array. In a typical embodiment, a scanning device will be provided that includes a scanning area comprised of a set (e.g., at least one) of imaging pixel electrodes (e.g., arranged adjacent to one another in a grid-like or other fashion). As a user presses his/her finger against the scanning area, a portion of the finger will contact a plurality of electrodes. When this occurs, a voltage source of the device will apply a first voltage to each of the plurality of electrodes. A meter of the device will take a first electrical measurement (e.g., resistance and/or charged skin voltage) of the plurality of electrodes. The voltage source of the device will apply a second voltage to the plurality of electrodes. The meter of the device will take a second electrical measurement (e.g., resistance and/or charged skin voltage) of the plurality of electrodes. The voltage level difference between the first electrical measurement and second electrical measurement is calculated. The voltage level difference provides accurate fingerprint information.

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20 Claims

1. A multi-sided card having a resistive fingerprint array, comprising:
- a first side having a first fingerprint scanning device;
  
  a second side having a second fingerprint scanning device, the first fingerprint scanning device and the second fingerprint scanning device each comprising;
  
  a set of imaging pixel electrodes for creating a fingerprint scanning surface;
  
  a voltage source coupled to the set of imaging pixel electrodes for supplying a first voltage to a plurality of imaging pixel electrodes for a controlled duration and supplying a second voltage to the plurality of imaging pixel electrodes for a controlled duration;
  
  a meter coupled to the set of imaging pixel electrodes for taking a first electrical measurement relating to the first voltage for the plurality of imaging pixel electrodes and taking a second electrical measurement relating to the second voltage for the plurality of imaging pixel electrodes;
  
  a controller coupled to the meter for calculating the voltage level difference between the first electrical measurement and the second electrical measurement;
  
  a memory medium for storing historical data relating to finger position on the fingerprint scanning surface; and
  
  a comparator for comparing a position of a scanned fingerprint to the historical data.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The multi-sided card of claim 1, the first electrical measurement comprising a resistance that is taken by the meter in response to the applying of the first voltage to the plurality of imaging pixel electrodes.
  - 3. The multi-sided card of claim 1, the second electrical measurement comprising a resistance that is taken by the meter in response to the applying of the second voltage to the plurality of imaging pixel electrodes.
  - 4. The multi-sided card of claim 1, the voltage source and the meter being coupled to the imaging pixel electrode.
  - 5. The multi-sided card of claim 1, the first electrical measurement comprising a charged skin voltage that is taken by the meter in response to the applying of the first voltage to the plurality of imaging pixel electrodes.
  - 6. The multi-sided card of claim 1, the second electrical measurement comprising a charged skin voltage that is taken by the meter in response to the applying of the second voltage to the plurality of imaging pixel electrodes.
  - 7. The multi-sided card of claim 1, at least two of the imaging pixel ports being non-adjacent to one another among the plurality of imaging pixel ports.

8. A method of scanning fingerprints on a multi-sided card, comprising:
- applying a first voltage to an imaging pixel electrode, the imaging pixel electrode being in contact with a finger positioned on the multi-sided card;
  
  determining a first electrical measurement across the imaging pixel electrode;
  
  applying a second voltage to the imaging pixel electrode;
  
  determining a second electrical measurement across the imaging pixel electrode;
  
  calculating the voltage level difference between the first electrical measurement and the second electrical measurement; and
  
  comparing a position of the finger on the fingerprint scanning surface to historical data relating to finger position on the fingerprint scanning surface.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The method of claim 8, the determining of a first electrical measurement comprising determining a resistance in response to the applying of the first voltage to the imaging pixel electrode.
  - 10. The method of claim 8, the determining of a second electrical measurement comprising determining a resistance in response to the applying of the second voltage to the imaging pixel electrode.
  - 11. The method of claim 8, the first voltage being applied via a voltage source coupled to the imaging pixel electrode, and the resistance being determined via a meter coupled to the imaging pixel electrode.
  - 12. The method of claim 8, the determining of a first electrical measurement comprising determining a charged skin voltage in response to the applying of the first voltage to the imaging pixel electrode.
  - 13. The method of claim 8, the determining of a second electrical measurement comprising determining a charged skin voltage in response to the applying of the second voltage to the imaging pixel electrode.
  - 14. The method of claim 8, the imaging pixel electrode being among a plurality of imaging pixel ports of a device for carrying out the method.

15. A method for providing a multi-sided card having a resistive fingerprint array, comprising:
- providing a set of imaging pixel electrodes for creating a fingerprint scanning surface;
  
  providing a voltage source coupled to the set of imaging pixel electrodes for supplying a first voltage to a plurality of imaging pixel electrodes for a controlled duration and supplying a second voltage to the plurality of imaging pixel electrodes for a controlled duration;
  
  providing a meter coupled to the set of imaging pixel electrodes for taking a first electrical measurement relating to the first voltage for the plurality of imaging pixel electrodes and taking a second electrical measurement relating to the second voltage for the plurality of imaging pixel electrodes;
  
  providing a controller coupled to the meter for calculating the voltage level difference between the first electrical measurement and the second electrical measurement;
  
  providing a memory medium for storing historical data relating to finger position on the fingerprint scanning surface; and
  
  providing a comparator for comparing a position of a scanned fingerprint to the historical data.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The method of claim 15, the first electrical measurement comprising a resistance that is taken by the meter in response to the applying of the first voltage to the plurality of imaging pixel electrodes.
  - 17. The method of claim 15, the second electrical measurement comprising a resistance that is taken by the meter in response to the applying of the second voltage to the plurality of imaging pixel electrodes.
  - 18. The method of claim 15, the voltage source and the meter being coupled to the imaging pixel electrode.
  - 19. The method of claim 15, the first electrical measurement comprising a charged skin voltage that is taken by the meter in response to the applying of the first voltage to the plurality of imaging pixel electrodes.
  - 20. The method of claim 15, the second electrical measurement comprising a charged skin voltage that is taken by the meter in response to the applying of the second voltage to the plurality of imaging pixel electrodes.

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Current Assignee
Moon J. Kim
Original Assignee
Moon J. Kim
Inventors
Kim, Moon J.
Primary Examiner(s)
Bhatnagar, Anand
Assistant Examiner(s)
PARK, SOO JIN

Application Number

US14/215,314
Publication Number

US 20140286547A1
Time in Patent Office

239 Days
Field of Search

None
US Class Current

382/124
CPC Class Codes

G06F 18/00   Pattern recognition

G06V 40/1306   non-optical, e.g. ultrasoni...

G07C 9/25   using biometric data, e.g. ...

G07C 9/26   using a biometric sensor in...

Multiple charge-coupled biometric sensor array

First Claim

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Abstract

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20 Claims

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Multiple charge-coupled biometric sensor array

First Claim

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Accused Products

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Abstract

36 Citations

20 Claims

Specification

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Solutions

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