MULTIPLE ANTENNA ARRANGEMENT FOR NEAR FIELD COMMUNICATIONS

US 20140148095A1
Filed: 12/31/2012
Published: 05/29/2014
Est. Priority Date: 11/27/2012
Status: Abandoned Application

First Claim

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1. An antenna arrangement for facilitating near field communication (NFC) in an NFC enabled communication device, comprising:

at least two antennas;

a switch operably connected to the at least two antennas; and

a single NFC controller operably connected to the switch and configured to control activation/deactivation of the at least two antennas, wherein;

the single NFC controller and the switch are configured to implement antenna switch selection control such that during a radio frequency (RF) discovery state of the NFC enabled communication device, at least one of the at least two antennas is activated while at least one of the at least two antennas is deactivated during a first activation/deactivation interval and if no peer device is detected during the first activation/deactivation interval then another of the at least two antennas is activated while at least one of the at least two antennas is deactivated during a second activation/deactivation cycle, this cycle of activation/deactivation continuing until another NFC capable device is detected.

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Abstract

Various configurations and arrangements of various communication devices and antenna solutions are disclosed. Antenna solutions disclosed herein include a single NFC controller configured to control activation/deactivation of multiple NFC antennas. The single NFC controller can control activation/deactivation of the multiple NFC antennas by providing control signals to a switch which can switch activation/deactivation of each of the multiple antennas based on the received control signals. Various patterns of activation and/or deactivation of the multiple NFC antennas can be implemented by the NFC controller. Upon detection of another NFC capable device by one of the multiple antennas, the NFC controller can freeze the activation state of the multiple antennas until an RF_DEACTIVATE signal is received.

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20 Claims

1. An antenna arrangement for facilitating near field communication (NFC) in an NFC enabled communication device, comprising:
- at least two antennas;
  
  a switch operably connected to the at least two antennas; and
  
  a single NFC controller operably connected to the switch and configured to control activation/deactivation of the at least two antennas, wherein;
  
  the single NFC controller and the switch are configured to implement antenna switch selection control such that during a radio frequency (RF) discovery state of the NFC enabled communication device, at least one of the at least two antennas is activated while at least one of the at least two antennas is deactivated during a first activation/deactivation interval and if no peer device is detected during the first activation/deactivation interval then another of the at least two antennas is activated while at least one of the at least two antennas is deactivated during a second activation/deactivation cycle, this cycle of activation/deactivation continuing until another NFC capable device is detected.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The antenna arrangement of claim 1, wherein when another NFC capable device is detected, the current activation/deactivation status of each of the at least two antennas is frozen.
  - 3. The antenna arrangement of claim 1, wherein one of the at least two antennas is a first size and another of the at least two antennas is a second size that is different than the first size.
  - 4. The antenna arrangement of claim 1, wherein the first activation/deactivation interval is equal in length of time to the second activation/deactivation interval.
  - 5. The antenna arrangement of claim 1, wherein the first activation/deactivation interval is not equal in length of time to the second activation/deactivation interval.
  - 6. The antenna arrangement of claim 1, wherein the location of each of the at least two antennas within the NFC enabled communication device is assigned to increase the operating volume of the antenna arrangement.
  - 7. The antenna arrangement of claim 1, wherein the activation/deactivation intervals are based on a poll and listen algorithm.
  - 8. The antenna arrangement of claim 1, wherein the switch is implemented as part of the NFC controller.

10. A near field communications (NFC) antenna and controller arrangement for facilitating NFC, the arrangement comprising:
- a first antenna configured to resonate at a frequency suitable for NFC;
  
  a second antenna configured to resonate at a frequency suitable for NFC;
  
  a switch operably connected to the first antenna and the second antenna;
  
  a NFC controller operably connected to the switch and configured to implement an activation/deactivation sequence for the first and antennas by providing the switch with control signals for controlling activation and deactivation of the first antenna and second antenna based on a poll and listen algorithm, wherein;
  
  the NFC controller sends a control signal to the switch to activate the first antenna placing it in an active state in polling mode and to deactivate the second antenna placing it in a de-active state in listening mode during a first polling/listening interval cycle of the poll and listen algorithm;
  
  if another NFC capable device is not detected by either the first or second antennas during the first polling/listening interval cycle of the poll and listen algorithm, the NFC controller sends a control signal to the switch to deactivate the first antenna placing it in a de-active state in listening mode and to activate the second antenna placing it in active state in polling mode during the next polling/listening interval cycle;
  
  if another NFC capable device is not detected by either the first or second antennas during the second polling/listening interval cycle of the poll and listen algorithm, the NFC controller sends a control signal to the switch to repeat the activation/deactivation sequence of the first and second polling/listening interval cycles;
  
  if another NFC capable device is detected by either the first or second antenna, the NFC controller sends a control signal to the switch to freeze the activate/de-active state of the first and second antennas.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
- - 11. The arrangement of claim 10, wherein detection of another NFC capable device is identified by an RF_ACTIVATION indication being received by either the first antenna or the second antenna.
  - 12. The arrangement of claim 10, wherein after detecting another NFC capable device, the switch maintains an activate/de-active state freeze of the first and second antennas until an RF_DEACTIVATE indication is received by either the first antenna or second antenna.
  - 13. The arrangement of claim 10, wherein the NFC controller is configured to only implement the activation/deactivation sequence for the first and second antennas when the NFC device is in an RF discovery state.
  - 14. The arrangement of claim 13, wherein if another NFC capable device is detected by one of the first or second antennas when the detecting antenna is in the active state polling mode, then the NFC device is placed in a poll active mode until an RF_DEACTIVATE indication is received.
  - 15. The arrangement of claim 13, wherein if another NFC capable device is detected by one of the first or second antennas when the detecting antenna is in the de-active state listening mode, then the NFC device is placed in a listen active mode until an RF-DEACTIVATE indication is received.
  - 16. The arrangement of claim 12, wherein upon receipt of the RF_DEACTIVATE indication, the NFC controller is configured to restart the activation/deactivation sequence for the first and second antennas.
  - 17. The arrangement of claim 10, wherein when the NFC enabled communication device is in Tag Mode, RF_FIELD notifications are used to inform the NFC enabled communication device about operating fields generated by Remote NFC Endpoints and wherein the NFC controller uses the RF_FIELD notifications as a source to determine when to send a control signal to the switch to freeze the activate/de-active state of the first and second antennas.
  - 18. The arrangement of claim 10, wherein placement of the first and second antennas within the NFC enabled communication device is configured to compensate for field interferers in the NFC enabled communication device.

19. A method for controlling operation of multiple antennas in an NFC communication device having one NFC controller and a switch, the method comprising:
- providing a control signal from the NFC controller to the switch signaling the switch to place a first of the multiple antennas in an activated state by activating the first antenna and to place a second of the multiple antennas in a deactivated state by deactivating the second antenna during a first activation/deactivation interval;
  
  determining whether another NFC capable device is detected by one of the multiple antennas during the first activation/deactivation interval;
  
  if another NFC capable device is detected during the first activation/deactivation interval then freezing the state of the first and second antennas by providing a control signal from the NFC controller to the switch signaling the switch to maintain activation of the first antenna and maintain deactivation of the second antenna;
  
  if another NFC capable device is not detected during the first activation/deactivation interval then providing a control signal from the NFC controller to the switch signaling the switch to place the first antenna in a deactivated state by deactivating the first antenna and to place the second antenna in an activated state by activating the second antenna during a second activation/deactivation interval;
  
  determining whether another NFC capable device is detected by one of the multiple antennas during the second activation/deactivation interval;
  
  if another NFC capable device is detected during the second activation/deactivation interval then freezing the state of the first and second antennas by providing a control signal from the NFC controller to the switch signaling the switch to maintain deactivation of the first antenna and maintain activation of the second antenna; and
  
  if another NFC capable device is not detected during the second activation/deactivation interval then repeating the first activation/deactivation interval and second activation/deactivation interval until another NFC capable device is detected.
- View Dependent Claims (20)
- - 20. The method of claim 19, further comprising upon receiving an RF_DEACTIVATION signal from either the first or second antenna while the state of the first and second antennas are frozen, unfreezing the state of the first and second antennas and repeating the first activation/deactivation interval and second activation/deactivation interval until another NFC capable device is detected.

Specification

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Current Assignee
Avago Technologies General IP PTE Limited (Broadcom, Inc.)
Original Assignee
Broadcom Corporation (Broadcom, Inc.)
Inventors
Smith, Aaron, Park, Sekyu, Min, ByungMan

Application Number

US13/732,192
Publication Number

US 20140148095A1
Time in Patent Office

Days
Field of Search
US Class Current

455/41.1
CPC Class Codes

H04B 5/48   Transceivers

H04B 7/0602   using antenna switching H04...

H04B 7/0802   using antenna selection H04...

MULTIPLE ANTENNA ARRANGEMENT FOR NEAR FIELD COMMUNICATIONS

First Claim

4 Assignments

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Abstract

Citations

20 Claims

Specification

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MULTIPLE ANTENNA ARRANGEMENT FOR NEAR FIELD COMMUNICATIONS

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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