A system for adaptively eliminating intermods from a spectrum generated by combining two or more signals in a component or circuit includes a sampler for sampling an output signal of the component or circuit, a signal source for generating a conversion signal having a frequency matched to a target i
A system for adaptively eliminating intermods from a spectrum generated by combining two or more signals in a component or circuit includes a sampler for sampling an output signal of the component or circuit, a signal source for generating a conversion signal having a frequency matched to a target intermod of the spectrum, and a cancellation circuit to generate a cancellation phasor. The cancellation circuit is configured to receive the generated conversion signal and the sampled output signal and generate a cancellation phasor therefrom having a phase and amplitude configured to cancel the target intermod. A combining network can combine the cancellation phasor into the component or circuit to cancel the target intermod from the spectrum.
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1. A system for adaptively eliminating intermods from a spectrum generated by combining two or more signals in a component or circuit, comprising: a sampler for sampling an output signal of the component or circuit;a signal source for generating a conversion signal having a frequency matched to a ta
1. A system for adaptively eliminating intermods from a spectrum generated by combining two or more signals in a component or circuit, comprising: a sampler for sampling an output signal of the component or circuit;a signal source for generating a conversion signal having a frequency matched to a target intermod of the spectrum;a cancellation circuit configured to receive the generated conversion signal and the sampled output signal and generate a cancellation phasor having a phase and amplitude configured to cancel the target intermod, wherein the cancellation circuit includes a first incident-quadrature (IQ) demodulator that receives the sampled output signal and the generated conversion signal and mixes the signals to generate I and Q components,a pair of integrators to integrate and amplify the I and Q components, anda second IQ demodulator to generate the cancellation phasor from the integrated and amplified I and Q components; anda combining network for combining the cancellation phasor into the component or circuit to cancel the target intermod from the spectrum generated by the combining of the two or more signals. 2. The system of claim 1, wherein a frequency of the conversion signal generated by the signal source is settable based on the two or more signals in the component or circuit and an intermod selected from a series of intermods generated by the two or more signals to be the target intermod; wherein the signal source is adaptively resettable based on one or both of a change in frequency of the two or more signals and a reselection of the target intermod. 3. The system of claim 1, further comprising: a plurality of signal sources, each signal source generating a respective conversion signal having a frequency matched to a respective target intermod of the spectrum; anda plurality of cancellation circuits each receiving the generated conversion signal from an associated signal source from the plurality of signal sources and the sampled output signal and generating a respective cancellation phasor having a phase and amplitude configured to cancel the respective target intermod. 4. The system of claim 3, wherein each of the cancellation circuits from the plurality of cancellation circuits includes a first incident-quadrature (IQ) demodulator that receives the sampled output signal and the generated conversion signal from the associated signal source and mixes the signals to generate I and Q components,a pair of integrators to integrate and amplify the I and Q components, anda second IQ demodulator to generate a respective cancellation phasor from the integrated and amplified I and Q components. 5. The system of claim 4, wherein each of the cancellation circuits from the plurality of cancellation circuits includes a polarity reversal switch arranged between the first and second IQ demodulators for each of the I and Q components. 6. The system of claim 1, wherein the cancellation circuit includes a polarity reversal switch arranged between the first and second IQ demodulators for each of the I and Q components. 7. The system of claim 1, further comprising a level control circuit including a variable gain amplifier (VGA) that receives and amplifies signals generated in the component or circuit, and a feedback loop connected between the VGA and the sampler for controlling the gain of the variable gain amplifier. 8. The system of claim 1, wherein the sampler is a directional coupler. 9. The system of claim 1, further comprising an intermod cancellation pre-selector for reducing levels of frequencies within the sampled output signal other than the frequency of the target intermod. 10. A method for adaptively eliminating intermods from a spectrum generated by combining two or more signals in a component or circuit, comprising: sampling an output signal of the component or circuit;generating a conversion signal having a frequency matched to a target intermod of the spectrum;generating a cancellation phasor having a phase and amplitude configured to cancel the target intermod based on the generated conversion signal and the sampled output signal, wherein generating the cancellation phasor includes mixing the generated conversion signal and the sampled output signal to obtain I and Q components,integrating and amplifying the I and Q components,reversing a polarity of the I and Q components, andmixing the generated conversion signal with the I and Q components to generate the cancellation phasor; andcombining the cancellation phasor into the component or circuit to cancel the target intermod from the spectrum generated by the combining of the two or more signals. 11. The method of claim 10, further comprising: setting a frequency of the conversion signal generated by the signal source based on the two or more signals in the component or circuit and an intermod selected from a series of intermods generated by the two or more signals to be the target intermod;wherein the signal source is adaptively resettable based on one or both of a change in frequency of the two or more signals and a reselection of the target intermod. 12. The method of claim 10, further comprising: generating a plurality of conversion signals, each having a frequency matched to a different respective target intermod of the spectrum; andgenerating a respective cancellation phasor for each of the different respective target intermods based on the associated conversion signal and the sampled output signal. 13. A non-transitory computer readable storage medium, including instructions stored thereon which when read and executed by one or more computers cause the one or more computers to perform the steps comprising: sampling an output signal of the component or circuit;generating a conversion signal having a frequency matched to a target intermod of the spectrum;generating a cancellation phasor having a phase and amplitude configured to cancel the target intermod based on the generated conversion signal and the sampled output signal, wherein generating the cancellation phasor includes mixing the generated conversion signal and the sampled output signal to obtain I and Q components,integrating and amplifying the I and Q components,reversing a polarity of the I and Q components, andmixing the generated conversion signal with the I and Q components to generate the cancellation phasor; andcombining the cancellation phasor into the component or circuit to cancel the target intermod from the spectrum generated by the combining of the two or more signals. 14. The non-transitory computer readable storage medium of claim 13, further including instructions stored thereon which when read and executed by one or more computers cause the one or more computers to perform the steps comprising: setting a frequency of the conversion signal generated by the signal source based on the two or more signals in the component or circuit and an intermod selected from a series of intermods generated by the two or more signals to be the target intermod;wherein the signal source is adaptively resettable based on one or both of a change in frequency of the two or more signals and a reselection of the target intermod. 15. The non-transitory computer readable storage medium of claim 13, further including instructions stored thereon which when read and executed by one or more computers cause the one or more computers to perform the steps comprising: generating a plurality of conversion signals, each having a frequency matched to a different respective target intermod of the spectrum; andgenerating a respective cancellation phasor for each of the different respective target intermods based on the associated conversion signal and the sampled output signal.
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