Radar detection circuit for a WLAN transceiver

US 8,081,104 B2
Filed: 04/19/2010
Issued: 12/20/2011
Est. Priority Date: 09/15/2003
Status: Active Grant

First Claim

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1. An integrated circuit radio transceiver, comprising:

circuitry and logic for detecting traditional short pulse radar signals;

circuitry and logic for detecting non-traditional long pulse radar signals;

circuitry and logic for inhibiting wireless transmissions upon detection of either a short pulse or a long pulse radar signal; and

wherein the circuitry and logic for detecting the non-traditional long pulse radar signals comprises logic for;

reading pulse information from each receive path first in first out buffer (FIFO) into groups of arrays, wherein each group of arrays includes a start time array, a pulse width array, and an FM value array;

combining adjacent pulses in each array wherein, if the difference in start times between two adjacent pulses is less than a specified minimum spacing value, deleting the 2nd pulse and making the pulse width for the first pulse equal to the combined pulse width of the two original pulse widths; and

setting an FM value equal to the sum of the FM values of the two original pulse widths of the adjacent pulses.

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Abstract

A single chip radio transceiver includes circuitry that enables detection of radar signals to enable the radio transceiver to halt communications in overlapping communication bands to avoid interference with the radar transmitting the radar pulses. The radio transceiver is operable to evaluate a number of most and second most common pulse interval values to determine whether a traditional radar signal is present. The radio transceiver also is operable to FM demodulate an incoming signal to determine whether a non-traditional radar signal, such as a bin-5 radar signal, is present. After FM demodulation, the signal is averaged wherein a substantially large value is produced for non-traditional radar signals and a value approximately equal to zero is produced for a communication signal that is not FM modulated with a continuously increasing frequency signal. Gain control is used to limit incoming signal magnitude to a specified range of magnitudes.

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18 Claims

1. An integrated circuit radio transceiver, comprising:
- circuitry and logic for detecting traditional short pulse radar signals;
  
  circuitry and logic for detecting non-traditional long pulse radar signals;
  
  circuitry and logic for inhibiting wireless transmissions upon detection of either a short pulse or a long pulse radar signal; and
  
  wherein the circuitry and logic for detecting the non-traditional long pulse radar signals comprises logic for;
  
  reading pulse information from each receive path first in first out buffer (FIFO) into groups of arrays, wherein each group of arrays includes a start time array, a pulse width array, and an FM value array;
  
  combining adjacent pulses in each array wherein, if the difference in start times between two adjacent pulses is less than a specified minimum spacing value, deleting the 2nd pulse and making the pulse width for the first pulse equal to the combined pulse width of the two original pulse widths; and
  
  setting an FM value equal to the sum of the FM values of the two original pulse widths of the adjacent pulses.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The radio transceiver of claim 1 further including circuitry and logic for combining each group of arrays into a single group and for sorting the pulses within the single group according to start time.
  - 3. The radio transceiver of claim 1 further including circuitry and logic for combining pulses again and, if the start time between two adjacent pulses is less than the specified minimum spacing value, deleting the second pulse and keeping the first pulse without adding the pulse widths.
  - 4. The radio transceiver of claim 1 further including circuitry and logic for adding pulse start times to a long pulse buffer for each pulse having a pulse width that is greater than a specified minimum width value and less than a specified maximum width value.
  - 5. The radio transceiver of claim 4 further including circuitry and logic for, if a difference in start times between the newest pulse in the long pulse buffer and the oldest pulse is greater than a maximum window value, removing the oldest pulse and for repeating this step until no more pulses are removed.
  - 6. The radio transceiver of claim 5 further including circuitry and logic for determining that a radar has been detected if a number of pulses greater than a specified number of long pulses remain in the long pulse buffer.
  - 7. The radio transceiver of claim 5 further including circuitry and logic for determining, if a radar signal is not detected because the number of pulses was not greater than the specified number of long pulses, performing radar pulse detection for traditional radar signals.
  - 8. The radio transceiver of claim 5 further including circuitry and logic for detecting bin-5 category radar signals.

9. An integrated circuit radio transceiver, comprising:
- circuitry and logic for reading pulse information from each receive path first in first out buffer (FIFO) into groups of arrays, wherein each group of arrays includes a start time array, a pulse width array, and an FM value array wherein each FM value represents an absolute value of a difference between an estimate of a frequency at a start of the pulse and an estimate of a frequency at an end of the pulse as determined by an FM demodulator;
  
  circuitry and logic for combining adjacent pulses in each array wherein, if the difference in start times between two adjacent pulses is less than a specified minimum spacing value, deleting a 2nd pulse and setting the pulse width for a first pulse equal to the combined pulse width of the two original pulse widths; and
  
  circuitry and logic for setting an FM value equal to the sum of the FM values of the two original pulse widths of the adjacent pulses.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 10. The integrated circuit radio transceiver of claim 9 wherein the integrated circuit radio transceiver circuitry and logic combines adjacent pulses and calculates the FM array values for all pulses for each FIFO for each antenna.
  - 11. The integrated circuit radio transceiver of claim 9 wherein the integrated circuit radio transceiver circuitry and logic combines adjacent pulses and calculates the FM array values for all pulses for each FIFO for each antenna.
  - 12. The integrated circuit radio transceiver of claim 9 further including combining each group of arrays into a single group.
  - 13. The integrated circuit radio transceiver of claim 12 wherein the integrated circuit radio transceiver circuitry and logic combines adjacent pulses and calculates the FM array values for all pulses in the single group.
  - 14. The integrated circuit radio transceiver of claim 12 wherein the integrated circuit radio transceiver circuitry and logic sorts the pulses within the single group according to start time.
  - 15. The integrated circuit radio transceiver of claim 12 wherein the integrated circuit radio transceiver circuitry and logic combines pulses again and, if the start time between two adjacent pulses is less than a minimum spacing value, deletes the second pulse and keeping the first pulse width without adding the pulse widths of the two pulses.
  - 16. The integrated circuit radio transceiver of claim 12 wherein the integrated circuit radio transceiver circuitry and logic determines whether a remaining number of pulses exceeds a specified value to determine that a long non-traditional radar has been detected.
  - 17. The integrated circuit radio transceiver of claim 12 wherein the integrated circuit radio transceiver circuitry and logic determines whether a remaining number of pulses does not exceed a specified value to determine that a long non-traditional radar has not been detected.
  - 18. The integrated circuit radio transceiver of claim 12 wherein the integrated circuit radio transceiver circuitry and logic performs traditional radar analysis to determine a traditional radar signal is present.

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Current Assignee
Avago Technologies International Sales Pte Limited (Broadcom, Inc.)
Original Assignee
Broadcom Corporation (Broadcom, Inc.)
Inventors
Hansen, Christopher J.
Primary Examiner(s)
Lobo, Ian

Application Number

US12/762,893
Publication Number

US 20100194623A1
Time in Patent Office

610 Days
Field of Search

342/52, 342/89, 375/219, 455/73
US Class Current

342/52
CPC Class Codes

G01S 7/021   Auxiliary means for detecti...

H04B 1/1027   assessing signal quality or...

H04B 15/02   Reducing interference from ...

H04K 2203/18   for wireless local area net...

H04K 3/226   Selection of non-jammed cha...

H04K 3/822   by detecting the presence o...

H04W 16/14   Spectrum sharing arrangemen...

Radar detection circuit for a WLAN transceiver

First Claim

6 Assignments

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Accused Products

Abstract

54 Citations

18 Claims

Specification

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Radar detection circuit for a WLAN transceiver

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

54 Citations

18 Claims

Specification

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Use Cases

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