High-resolution parametric signal restoration
First Claim
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1. A system for processing electronic signals, comprising:
- a multi-output module configured to simultaneously provide a reference gain output signal to a restored signal receiving module and one or more higher gain output signals to a parametric compensator, wherein the multi-output module includes a first amplifier configured to receive an input signal, wherein the multi-output module includes one or more higher gain amplifiers respectively configured to receive the input signal, wherein the first amplifier is configured to provide a reference gain output signal responsive to the input signal, and wherein the one or more higher gain amplifiers are respectively configured to provide one or more higher gain output signals responsive to the input signal and having a larger gain than the reference gain output signal; and
the parametric compensator configured to receive the one or more higher gain output signals and to provide a compensation error signal responsive to functional parameters of the one or more higher gain output signals,wherein the input signal is modified based on the compensation error signal.
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Abstract
Provided are high-resolution parametric signal restoration systems, and applications thereof. Such systems include a multi-output module and a parametric compensator. The multi-output module provides a reference gain output signal and one or more higher gain output signals based on a single input signal. The parametric compensator independently responds to functional parameters of the one or more higher gain output signals to provide a compensation error signal. The single input signal is modified based on the compensation error signal.
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Citations
18 Claims
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1. A system for processing electronic signals, comprising:
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a multi-output module configured to simultaneously provide a reference gain output signal to a restored signal receiving module and one or more higher gain output signals to a parametric compensator, wherein the multi-output module includes a first amplifier configured to receive an input signal, wherein the multi-output module includes one or more higher gain amplifiers respectively configured to receive the input signal, wherein the first amplifier is configured to provide a reference gain output signal responsive to the input signal, and wherein the one or more higher gain amplifiers are respectively configured to provide one or more higher gain output signals responsive to the input signal and having a larger gain than the reference gain output signal; and the parametric compensator configured to receive the one or more higher gain output signals and to provide a compensation error signal responsive to functional parameters of the one or more higher gain output signals, wherein the input signal is modified based on the compensation error signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for processing electronic signals, comprising:
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a multi-output module that provides a reference gain output signal and one or more higher gain output signals based on an input signal; and a parametric compensator that responds to functional parameters of the one or more higher gain output signals to provide a compensation error signal, wherein the input signal is modified based on the compensation error signal, and wherein the functional parameters of the one or more higher gain output signals include an optical noise component, and wherein the parametric compensator includes a first modifier configured to shift a reference position of the optical noise component included in the one or more higher gain output signals.
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9. A system for processing electronic signals, comprising:
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a multi-output module that provides a reference gain output signal and one or more higher gain output signals based on an input signal; a parametric compensator that responds to functional parameters of the one or more higher gain output signals to provide a compensation error signal, an input signal modification module that modifies the input signal based on the compensation error signal to reduce perturbations included in the input signal, and wherein the input signal modification module comprises; a summation and isolation module configured to (1) add the compensation error signal to the input signal when a calibration signal is not present and (2) prevent the compensation error signal from being added to the input signal when the calibration signal is present.
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10. A method for processing electronic signals, comprising:
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(a) simultaneously providing, using respective amplifiers configured to receive an input signal, a reference gain output signal to a restored signal receiving module, and one or more higher gain output signals to a parametric compensator, wherein the higher gain output signals have larger respective gains than the reference gain output signal; (b) providing a compensation error signal responsive to functional parameters of the one or more higher gain output signals; and (c) modifying the input signal based on the compensation error signal. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A method for processing electronic signals, comprising:
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(a) forming a reference gain output signal and one or more higher gain output signals based on an input signal; (b) responding to functional parameters of the one or more higher gain output signals to provide a compensation error signal, wherein (b) comprises shifting a relative position of an optical noise component included in the one or more higher gain output signals when displayed on a log-histogram plot; and (c) modifying the input signal based on the compensation error signal.
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17. A method for processing electronic signals, comprising:
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(a) farming a reference gain output signal and one or more higher gain output signals based on an input signal; (b) responding to functional parameters of the one or more higher gain output signals to provide a compensation error signal; and (c) modifying the input signal based on the compensation error signal, wherein (c) comprises; (c1) adding the compensation error signal to the input signal when a calibration signal is not present; and (c2) preventing the compensation error signal from being added to the input signal when the calibration signal is present.
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18. A high-resolution signal restoration system for processing signals from a measurement instrument, comprising:
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a first combining module that combines an input signal and a compensation error signal to provide a combined signal; a first amplifier, having a first gain that provides a first amplified signal based on the combined signal; a second amplifier, having a second gain that is different from the first gain, that provides a second amplified signal based on the combined signal; and a feedback that generates the compensation error signal based on the second amplified signal, the feedback including a first direct current (DC) restoration module having a first time constant and configured to reduce a DC component of the second amplified signal to provide a first processed signal, a second DC restoration module having a second time constant that is different from the first time constant and configured to reduce the DC component of the second amplified signal to provide a second processed signal, and a feedback output module that provides either the first processed signal or a combination of the first and second processed signals as the compensation error signal based on a threshold.
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Specification