Interference cancellation system employing a polar vector modulator
First Claim
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1. An interference cancellation system for reducing an interfering signal in a received signal on a transmission line to provide a desired signal on the transmission line, the interference cancellation system comprising:
- a reference input port for receiving a reference signal substantially corresponding to the interfering signal;
a reference coupler having at least an input port and an output port, the at least an input port of the reference coupler being operatively coupled to the reference input port, at least a portion of the reference signal being provided to the input port of the reference coupler, the at least one reference coupler output port generating thereon a reference coupler output signal substantially corresponding to the at least a portion of the reference signal;
an error coupler having at least an input port and an output port, the input port of the error coupler being operatively coupled to the transmission line for receiving a sample of the received signal, the received signal substantially corresponding to a combination of the desired signal and the interfering signal, the error coupler output port generating thereon an error coupler output signal substantially corresponding to the received signal;
a signal correlator circuit having first, second and third input ports and an output port, the signal correlator circuit first input port being operatively coupled to the at least one reference coupler output port, the signal correlator second input port being operatively coupled to the at least one error coupler output port;
a signal generator having an output port being operatively coupled and providing an auxiliary signal to the signal correlator circuit third input port;
a phase detector having first and second input ports and an output port, the phase detector first input port being operatively coupled to the signal correlator circuit third input port, the phase detector second input port being coupled to the signal correlator circuit output port, the phase detector output port providing a phase detector output signal;
an amplitude detector having an input port and an output port, the amplitude detector input port being operatively coupled to the signal correlator circuit output port, the amplitude detector output port providing an amplitude detector output signal;
a polar vector modulator, the polar vector modulator having first, second and third input ports and an output port, the polar vector modulator first input port being operatively coupled to the reference input port, the polar vector modulator second input port being operatively coupled to the phase detector output port and receiving the phase detector output signal, the polar vector modulator third input port being operatively coupled to the amplitude detector output port and receiving the amplitude detector output signal, the polar vector modulator output port providing a cancellation signal; and
a summing coupler having at least an input port and an output port, the at least one summing coupler input port being operatively coupled to the polar vector modulator output port, the summing coupler output port providing the cancellation signal to the transmission line.
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Abstract
An interference cancellation system employing a polar vector modulator obtains a reference signal and a received signal. The received signal has a desired signal component and an interfering signal component. The reference and received signals as well as an auxiliary signal of known frequency and amplitude, are provided to a signal correlator circuit which compares and correlates the reference and received signals and generates an adjusted auxiliary signal which corresponds to the auxiliary signal adjusted in phase and amplitude. A phase detector detects the difference in phase between the auxiliary signal and the adjusted auxiliary signal and generates a phase control signal in response. Likewise, an amplitude detector measures the amplitude of the adjusted auxiliary signal and generates an amplitude control signal in response. The phase and amplitude control signals and the reference signal are provided to a polar vector modulator having a 360° variable phase shifter and a variable attenuator coupled together in series, each of which has a low or negligible insertion loss. The reference signal is amplitude and phase adjusted by the polar vector modulator to have substantially the same amplitude and to be 180° out of phase with the interfering signal component of the received signal. The amplitude and phase adjusted reference signal is then summed with the received signal so that substantially only the desired signal component of the received signal remains.
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Citations
7 Claims
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1. An interference cancellation system for reducing an interfering signal in a received signal on a transmission line to provide a desired signal on the transmission line, the interference cancellation system comprising:
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a reference input port for receiving a reference signal substantially corresponding to the interfering signal; a reference coupler having at least an input port and an output port, the at least an input port of the reference coupler being operatively coupled to the reference input port, at least a portion of the reference signal being provided to the input port of the reference coupler, the at least one reference coupler output port generating thereon a reference coupler output signal substantially corresponding to the at least a portion of the reference signal; an error coupler having at least an input port and an output port, the input port of the error coupler being operatively coupled to the transmission line for receiving a sample of the received signal, the received signal substantially corresponding to a combination of the desired signal and the interfering signal, the error coupler output port generating thereon an error coupler output signal substantially corresponding to the received signal; a signal correlator circuit having first, second and third input ports and an output port, the signal correlator circuit first input port being operatively coupled to the at least one reference coupler output port, the signal correlator second input port being operatively coupled to the at least one error coupler output port; a signal generator having an output port being operatively coupled and providing an auxiliary signal to the signal correlator circuit third input port; a phase detector having first and second input ports and an output port, the phase detector first input port being operatively coupled to the signal correlator circuit third input port, the phase detector second input port being coupled to the signal correlator circuit output port, the phase detector output port providing a phase detector output signal; an amplitude detector having an input port and an output port, the amplitude detector input port being operatively coupled to the signal correlator circuit output port, the amplitude detector output port providing an amplitude detector output signal; a polar vector modulator, the polar vector modulator having first, second and third input ports and an output port, the polar vector modulator first input port being operatively coupled to the reference input port, the polar vector modulator second input port being operatively coupled to the phase detector output port and receiving the phase detector output signal, the polar vector modulator third input port being operatively coupled to the amplitude detector output port and receiving the amplitude detector output signal, the polar vector modulator output port providing a cancellation signal; and a summing coupler having at least an input port and an output port, the at least one summing coupler input port being operatively coupled to the polar vector modulator output port, the summing coupler output port providing the cancellation signal to the transmission line. - View Dependent Claims (2, 3, 4)
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5. A method for removing an interfering signal component from a received signal, the method comprising:
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sampling an interfering signal which results in the interfering signal component of the received signal, and providing a reference signal corresponding thereto; sampling the received signal having the interfering signal component and providing an error signal corresponding thereto; comparing and correlating the reference signal with the error signal and generating a first control signal in response thereto; adjusting the amplitude and phase of an auxiliary signal in accordance with the first control signal to provide an adjusted auxiliary signal; comparing the relative phase of the auxiliary signal with the phase of the adjusted auxiliary signal and generating a second control signal in response to the comparison thereof; detecting the amplitude of the adjusted auxiliary signal and generating a third control signal in response thereto; adjusting the phase of the reference signal in response to the second control signal and adjusting the amplitude of the reference signal in response to the third control signal, and thereby generating a cancellation signal corresponding to the reference signal adjusted in phase and amplitude, the cancellation signal being substantially equal in amplitude to and opposite in phase to the interfering signal component of the received signal; and summing the cancellation signal and the received signal so as to effectively cancel the interfering signal component from the received signal.
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6. An interference cancellation system for cancelling an interfering signal component of a received signal carried by a transmission line, which comprises:
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a reference coupler, the reference coupler receiving a reference signal corresponding to an interfering signal and providing first and second output signals in response thereto; an error coupler, the error coupler being coupled to the transmission line and receiving the received signal having the interfering signal component carried thereby and providing an error signal in response thereto; a signal generator, the signal generator generating an output signal of known frequency and amplitude; a signal correlator circuit, the signal correlator circuit including a synchronous detector and a signal controller, the synchronous detector being responsive to the error signal and the first output signal of the reference coupler and generating at least one control signal in response thereto, the signal controller being responsive to the at least one control signal and the output signal of the signal generator and generating an output signal in response thereto; a phase detector, the phase detector being responsive to the output signal of the signal generator and the output signal of the signal controller and generating a phase detector output signal in response thereto; an amplitude detector, the amplitude detector being responsive to the output signal of the signal controller and generating an amplitude detector output signal in response thereto; a polar vector modulator, the polar vector modulator being responsive to the phase detector output signal and the amplitude detector output signal and being further responsive to the second output signal of the reference coupler and generating a cancellation signal in response thereto, the cancellation signal corresponding to the second output signal adjusted in phase and amplitude by the polar vector modulator; and a summing coupler, the summing coupler being coupled to the transmission line and injecting the cancellation signal onto the transmission line for cancelling the interfering signal component of the received signal carried thereby. - View Dependent Claims (7)
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Specification
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Current AssigneeExelis Incorporated (L3Harris Technologies, Inc.)
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Original AssigneeAmerican Nucleonics Corp. (Eaton Corporation PLC.)
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InventorsMonzello, Roy C., Talwar, Ashok K.
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Primary Examiner(s)Eisenzopf, Reinhard J.
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Assistant Examiner(s)Nguyen, Lee
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Application NumberUS08/271,511Time in Patent Office775 DaysField of Search455/272, 455/273, 455/276.1, 455/278.1, 455/279.1, 455/280, 455/283, 455/303, 455/304, 455/78, 455/83, 455/284, 455/289, 455/296, 455/24US Class Current455/304CPC Class CodesH04B 1/126 having multiple inputs, e.g...
