System and method for protecting a receiver from jamming interference
First Claim
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1. An interference protection system for use with an antenna system, the interference protection system comprising:
- a detector configured to receive at least an RF signal and for producing a nonlinear signal indicative of a received magnitude of a jamming signal based on the RF signal; and
a controller using the nonlinear signal to spatially filter out the jamming signal by orienting a changeable null direction of the antenna system toward an angle of arrival of the jamming signal relative to the antenna system.
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Abstract
An interference protection system includes a receiving section for receiving an electromagnetic signal, a detector for detecting a jamming signal, and a control system for orienting a changeable null direction of an antenna system to reduce interference in a receiver from the jamming signal.
116 Citations
34 Claims
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1. An interference protection system for use with an antenna system, the interference protection system comprising:
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a detector configured to receive at least an RF signal and for producing a nonlinear signal indicative of a received magnitude of a jamming signal based on the RF signal; and
a controller using the nonlinear signal to spatially filter out the jamming signal by orienting a changeable null direction of the antenna system toward an angle of arrival of the jamming signal relative to the antenna system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
a receiver section for receiving the desired signal from the antenna system;
a coupler for unequally distributing the received signal between the receiver section and the detector such that the receiver section receives a stronger received signal than the detector and such that the detector predominately operates in its linear region of amplification.
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7. The interference protection system according to claim 1 wherein the controller comprises:
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an integrator for averaging a power of the nonlinear signal to yield an averaged nonlinear signal; and
a comparator for generating an output control signal responsive to a comparison between the averaged nonlinear signal and a reference signal, the output control signal adapted to control the radiation pattern of the array antenna system.
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8. The interference protection system according to claim 1 further comprising:
a receiver front-end for receiving a desired signal from the antenna system, the receiver front-end having a linearity performance rating suitable for a maximum signal amplitude of a desired signal at an output of the antenna system.
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9. The interference protection system according to claim 1 further comprising:
a receiver front-end coupled to an output of the antenna system and having an amplifier with a third order intercept point suitable for a maximum signal amplitude of a desired signal from the antenna system to minimize power consumption of a mobile communications device incorporating the receiver front-end, the detector, and the controller.
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10. An interference protection system for a receiver, the system comprising:
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an antenna system for producing a radiation pattern having a changeable null and for receiving a desired signal, the desired signal including at least an RF signal;
a detector configured to receive at least the desired signal, the desired signal being a pre-demodulated signal, detect a jamming signal received by the antenna system, distinguish the jamming signal from the desired signal, produce a nonlinear signal indicative of a received magnitude of the jamming signal based on the RF signal; and
a controller for controlling the antenna system, the controller using the nonlinear signal to spatially filter out the jamming signal from the desired signal by orienting the changeable null toward an angle of arrival of the jamming signal relative to the antenna system. - View Dependent Claims (11, 12, 13, 14, 15, 16)
a first amplifier for amplifying a received signal from the antenna system, the received signal including at least one of the desired signal and the jamming signal;
a mixer for mixing the received signal with another signal to yield an intermediate frequency signal;
a phase adjuster for adjusting phase of the intermediate frequency signal;
a second amplifier for adjusting an amplitude of the intermediate frequency signal; and
a combiner for combining the intermediate frequency signal with another intermediate frequency signal from a receiver section to yield the nonlinear signal. 13. The interference protection system according to claim 12 further comprising;
a coupler for unequally distributing the received signal between the receiver section and the first amplifier such that the receiver section receives a relatively stronger received signal than the first amplifier and such that the first amplifier predominately operates in its linear region of amplification.
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13. The interference protection system according to claim 12 further comprising:
a coupler for unequally distributing the received signal between the receiver section and the first amplifier such that the receiver section receives a relatively stronger received signal than the first amplifier and such that the first amplifier predominately operates in its linear region of amplification.
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14. The interference protection system according to claim 10 wherein the controller comprises:
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an integrator for averaging a power of the nonlinear signal to yield an averaged nonlinear signal; and
a comparator for generating an output control signal responsive to a comparison between the averaged nonlinear signal and a reference signal, the output control signal adapted to control the radiation pattern of the antenna system.
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15. The interference protection system according to claim 10 further comprising a receiving system including the detector and a receiver section, the receiver section including an amplifier and a mixer for accepting the received signal and producing an intermediate frequency signal containing the desired signal.
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16. The interference protection system according to claim 10 further comprising a receiving system including the detector and a receiver section, the receiver section coupled to the detector via a coupler for distributing the received signal from the antenna system, the receiver section providing a second intermediate frequency signal to the detector for comparison to a first intermediate frequency signal produced by the detector to detect a nonlinear component of the second intermediate frequency signal.
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17. An interference protection system for a receiver, the system comprising:
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an array antenna system for producing a radiation pattern having a changeable null for receiving a desired signal, the desired signal including at least an RF signal, the antenna system including a first antenna element coupled to an antenna combiner and a second element coupled to the antenna combiner via an antenna phase shifter;
a receiver system including a detector configured to receive at least the desired signal, including the RF signal, and for detecting a jamming signal from the desired signal, the detector adapted to provide a nonlinear signal indicative of the received magnitude of the jamming signal; and
a controller for controlling the array antenna system based upon the nonlinear signal to spatially filter out the jamming signal from the desired signal by orienting the changeable null toward an angle of arrival of the jamming signal relative to the array antenna system. - View Dependent Claims (18, 19, 20, 21)
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22. A method for reducing interference presented to a receiver, the method comprising:
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receiving at least an RF signal at a detector;
producing, by the detector, a nonlinear signal indicative of a magnitude of a received jamming signal based on the received RF signal; and
using, by a controller, the nonlinear signal to spatially filter out the jamming signal by orienting a changeable null direction of the antenna system toward an angle of arrival of the jamming signal relative to the antenna system. - View Dependent Claims (23, 24)
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25. A method of protecting a receiver from interference comprising the steps of:
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receiving a desired signal by an antenna system, the received desired signal being a pre-demodulated RF signal;
receiving, by a detector, at least the pre-demodulated RF signal;
detecting a jamming signal received by the antenna system;
producing, by the detector, a nonlinear signal indicative of a received magnitude of a jamming signal based on the pre-demodulated RF signal; and
controlling, by the controller, the antenna system using the nonlinear signal to spatially filter out the jamming signal from the desired signal by orienting a changeable null direction of the antenna system toward an angle of arrival of the jamming signal relative to the antenna system. - View Dependent Claims (26, 27, 28, 29, 30, 31, 32, 33, 34)
amplifying a received signal from the antenna system at an amplifier, the received signal including at least one of the desired signal and the jamming signal;
mixing the received signal with a local oscillator signal to yield a first intermediate frequency signal, adjusting an instantaneous phase of the first intermediate frequency signal to be out of phase with respect to an instantaneous phase of a second intermediate frequency signal;
adjusting an amplitude of the first intermediate frequency signal to be approximately equivalent to an amplitude of the second intermediate frequency signal; and
combining the first intermediate frequency signal with the second intermediate frequency signal from a receiver section to yield the nonlinear signal.
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28. The method according to claim 27 further comprising the step of:
unequally distributing the received signal between the receiver section and the amplifier such that the receiver section receives a stronger received signal than the amplifier and such that the amplifier predominately operates in its linear region of amplification.
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29. The method according to claim 25 wherein the controlling step comprises:
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averaging a power of the nonlinear signal to yield an averaged nonlinear signal; and
generating an output control signal responsive to a comparison between the averaged nonlinear signal and a reference signal, the output control signal adapted to control the radiation pattern of the antenna system.
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30. The method according to claim 25 further comprising:
accepting the received signal and producing an intermediate frequency signal containing the desired signal.
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31. The method according to claim 25 wherein the detecting step further comprises:
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distributing the received signal from the antenna system; and
providing a second intermediate frequency signal for comparison to a first intermediate frequency signal to detect a nonlinear component of the second intermediate frequency signal.
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32. The method according to claim 25 further comprising:
arranging a second antenna system spaced apart from the antenna system an amount sufficient to provide diversity gain between the second antenna system and the antenna system.
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33. The method according to claim 25 further comprising:
providing a signal reception path having space-diversity gain in the absence of any detected jamming signal.
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34. The method according to claim 25 further comprising:
providing a signal reception path with attenuation of the jamming signal and without space-diversity gain in the presence of the detected jamming signal.
Specification
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Current AssigneeWi-LAN Inc.
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Original AssigneeLucent Technologies, Inc. (Nokia Corporation)
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InventorsTu, Kun-Yii, Krishnamurthy, Sreenath, Kung, Chun Chieh
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Primary Examiner(s)Chin, Vivian
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Assistant Examiner(s)Persino, Raymond B.
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Application NumberUS09/296,252Time in Patent Office1,783 DaysField of Search455/296, 455/63, 455/67.3, 455/303, 455/272, 455/273, 455/275, 455/276.1, 455/277.1, 455/277.2, 455/278.1, 455/280, 342/380, 342/383, 342/378, 342/417, 342/422, 342/386US Class Current455/278.1CPC Class CodesH01Q 3/2611 Means for null steering; Ad...H04B 1/126 having multiple inputs, e.g...H04B 7/086 using weights depending on ...
