NFC or BLE based contactless lock with charge monitoring of its energy storage

US 9,133,647 B2
Filed: 09/02/2014
Issued: 09/15/2015
Est. Priority Date: 10/11/2013
Status: Active Grant

First Claim

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1. Electronic circuitry for an electronic lock cylinder, comprising:

a first antenna configured to receive a first near field communication (NFC) signal;

a NFC processor, coupled to the first antenna, configured to decrypt the first NFC signal to ascertain a command to lock or unlock the electronic lock cylinder and to authenticate a source of the first NFC signal;

a second antenna configured to receive a second NFC signal that has the same frequency as the first NFC signal, wherein the second antenna and the first antenna are adapted to avoid interference and coupling; and

an energy storage capacitor configured to store electrical energy harvested from the second NFC signal through the second antenna;

a motor switch configured to drive a motor clockwise or counterclockwise by discharging the energy storage capacitor depending on a control signal; and

a controller, coupled to the energy storage capacitor and the motor switch, configured to monitor whether the energy storage capacitor has reached an upper threshold charge and to output the control signal that corresponds to the command to lock or unlock the electronic lock cylinder when the energy storage capacitor has reached the upper threshold charge.

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Abstract

Some embodiments include electronic circuitry for an electronic lock. The electronic circuitry can include: an antenna configured to receive a wireless signal; a communication processor, coupled to the antenna, configured to decode the wireless signal to ascertain a command to lock or unlock the electronic lock and to authenticate a source of the wireless signal; an energy storage configured to store electrical energy; a motor switch configured to drive a motor clockwise or counterclockwise, powered by the energy storage, depending on a control signal, wherein the motor switch is configured to drive the motor for a short burst of time; and a controller, coupled to the energy storage capacitor and the motor switch, configured to monitor electrical charge left in the energy storage and to output the control signal that corresponds to the command to lock or unlock the electronic lock.

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23 Claims

1. Electronic circuitry for an electronic lock cylinder, comprising:
- a first antenna configured to receive a first near field communication (NFC) signal;
  
  a NFC processor, coupled to the first antenna, configured to decrypt the first NFC signal to ascertain a command to lock or unlock the electronic lock cylinder and to authenticate a source of the first NFC signal;
  
  a second antenna configured to receive a second NFC signal that has the same frequency as the first NFC signal, wherein the second antenna and the first antenna are adapted to avoid interference and coupling; and
  
  an energy storage capacitor configured to store electrical energy harvested from the second NFC signal through the second antenna;
  
  a motor switch configured to drive a motor clockwise or counterclockwise by discharging the energy storage capacitor depending on a control signal; and
  
  a controller, coupled to the energy storage capacitor and the motor switch, configured to monitor whether the energy storage capacitor has reached an upper threshold charge and to output the control signal that corresponds to the command to lock or unlock the electronic lock cylinder when the energy storage capacitor has reached the upper threshold charge.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The electronic circuitry of claim 1, further comprising:
    - a communication-channel rectifier, coupled to the first antenna, adapted to rectify the first NFC signal; and
      
      a communication-channel linear voltage regulator, coupled to the communication-channel rectifier, to provide power to the NFC processor.
  - 3. The electronic circuitry of claim 1, further comprising:
    - a harvesting-channel rectifier, coupled to the second antenna, adapted to rectify the second NFC signal; and
      
      a harvesting-channel linear voltage regulator, coupled to the harvesting-channel rectifier, to charge the energy storage capacitor.
  - 4. The electronic circuitry of claim 1, wherein the first antenna and the second antenna have different shapes.
  - 5. The electronic circuitry of claim 1, wherein the first antenna and the second antenna have different inductance.
  - 6. The electronic circuitry of claim 1, wherein there is an air gap between the first antenna and the second antenna.
  - 7. The electronic circuitry of claim 1, further comprising:
    - a dynamic impedance tuner, coupled to the second antenna, capable of adjusting an impedance associated with the second antenna;
      
      wherein the controller is configured to determine the impedance of the dynamic impedance tuner to optimize energy flux through the second antenna.
  - 8. The electronic circuitry of claim 7, wherein the controller is configured to associate a device type of the source or a user identifier of the source to the determined impedance.
  - 9. The electronic circuitry of claim 7, wherein the controller is configured to cycle through different capacitance and/or inductance at the dynamic impedance tuner to determine the impedance.
  - 10. The electronic circuitry of claim 7, wherein the dynamic impedance tuner comprises a set of multiple capacitors, each with a different capacitance, wherein the dynamic impedance tuner is capable of coupling to the second antenna with a subset of the multiple capacitors upon an adjustment command from the controller.
  - 11. The electronic circuitry of claim 1, further comprising a dynamic impedance tuner, coupled to the first antenna, capable of adjusting an impedance associated with the first antenna;
    - wherein the NFC processor is configured to adjust the impedance of the dynamic impedance tuner to minimize signal noise through the first antenna.
  - 12. The electronic circuitry of claim 1, wherein the controller is further configured to monitor whether the energy storage capacitor has reached a lower threshold charge after outputting the control signal corresponding to the command to unlock, and to output a second control signal corresponding to the command to lock when the energy storage capacitor has reached the lower threshold charge.
  - 13. The electronic circuitry of claim 1, wherein the NFC processor is coupled to an energy source including a battery, a solar power source, a piezoelectric power source, or any combination thereof.
  - 14. The electronic circuitry of claim 13, wherein the NFC processor, powered by the energy source, is configured in card emulation mode to modulate the first NFC signal.
  - 15. The electronic circuitry of claim 1, wherein the NFC processor is configured in a passive target mode that modulates the first NFC signal generated by a nearby initiator.

16. Electronic circuitry for an electronic lock, comprising:
- an antenna configured to receive a signal, the signal configured under the near field communication (NFC) protocol or the Bluetooth low energy (BLE) protocol;
  
  a communication processor, coupled to the antenna, configured to decrypt the signal to ascertain a command to lock or unlock the electronic lock and to authenticate a source of the signal;
  
  an energy storage component configured to store electrical energy;
  
  a motor switch configured to drive a motor clockwise or counterclockwise, powered by the energy storage component, depending on a control signal, wherein the motor switch is configured to drive the motor for a short burst of time; and
  
  a controller, coupled to the energy storage component and the motor switch, configured to monitor electrical charge left in the energy storage component and to output the control signal that corresponds to the command to lock or unlock the electronic lock;
  
  wherein the communication processor is configured to communicate according to the Bluetooth LE protocol, but with a lower transmission power and/or a diminished receiver sensitivity compared to what is specified in the Bluetooth LE protocol standards.
- View Dependent Claims (17)
- - 17. The electronic circuitry of claim 16, wherein the communication processor and the controller are implemented together on a single integrated circuit.

18. A method of operating an electronic circuitry for an electronic lock cylinder, comprising:
- receiving a first wireless signal from an external device at a first antenna;
  
  decoding the first wireless signal to ascertain a command to lock or unlock the electronic lock cylinder and to authenticate a source of the first wireless signal;
  
  charging an energy storage capacitor with electrical energy harvested through a second antenna, wherein the second antenna is configured to receive a second wireless signal from the source of the first wireless signal, wherein the second wireless signal is at a different frequency than the first wireless signal;
  
  determining whether the energy storage capacitor has reached a threshold charge;
  
  in response to determining that the energy storage capacitor has reached the threshold charge, outputting a control signal that corresponds to the command to lock or unlock the electronic lock cylinder; and
  
  driving a motor clockwise or counterclockwise depending on the control signal by discharging the energy storage capacitor.
- View Dependent Claims (19, 20, 21, 22, 23)
- - 19. The method of claim 18, wherein the first wireless signal is configured as a Bluetooth LE signal using a Bluetooth LE protocol and the second wireless signal is configured as a NFC signal using a NFC protocol.
  - 20. The method of claim 18, further comprising transmitting a charge status of the energy storage capacitor to the source via the first antenna.
  - 21. The method of claim 20, wherein said transmitting includes updating the charge status periodically or in accordance with a schedule before the energy storage capacitor reaches the threshold charge.
  - 22. The method of claim 20, wherein said decoding includes deciphering a list of authorized users from the first NFC signal and authenticating that the list of authorized users by verifying a digital signature of a security server stored in a memory of a NFC communication component.
  - 23. The method of claim 18, wherein the second wireless signal uses a different communication protocol as to the first wireless signal.

Specification

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Current Assignee
Infinity Software Services LLC
Original Assignee
Nexkey, Inc.
Inventors
Oh, Sooseok, Herscovitch, Matthew Patrick
Primary Examiner(s)
RUSHING, MARK S

Application Number

US14/475,456
Publication Number

US 20150102904A1
Time in Patent Office

378 Days
Field of Search

340/5.1, 340/5.2, 340/5.7, 340/5.61, 340/5.71, 702/77, 702/78, 235/382
US Class Current

1/1
CPC Class Codes

E05B 15/0053   means providing a stable, i...

E05B 15/0073   magnetically operated

E05B 2047/0066   Reduced holding current

E05B 2047/0072   Operation

E05B 2047/0094   Mechanical aspects of remot...

E05B 21/066   of the rotary-disc tumbler ...

E05B 35/00   Locks for use with special ...

E05B 47/0001   with electric actuators; Co...

E05B 47/0003   having a movable core

E05B 47/0012   with rotary electromotors a...

E05B 47/0038   using permanent magnets

E05B 47/0044   Cylinder locks with magneti...

E05B 47/0615   operated by handles, e.g. b...

E05B 47/063   with a rectilinearly moveab...

G07C 2009/00634   Power supply for the lock

G07C 9/00309   operated with bidirectional...

Y10T 70/625   Operation and control

Y10T 70/7136   Key initiated actuation of ...

Y10T 70/7588   Rotary plug

Y10T 70/7904   Magnetic features

NFC or BLE based contactless lock with charge monitoring of its energy storage

First Claim

3 Assignments

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Abstract

30 Citations

23 Claims

Specification

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NFC or BLE based contactless lock with charge monitoring of its energy storage

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

30 Citations

23 Claims

Specification

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Use Cases

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Others