Non-intrusive channel-impairment analyzer

US 4,985,900 A
Filed: 04/02/1990
Issued: 01/15/1991
Est. Priority Date: 01/18/1986
Status: Expired due to Fees

First Claim

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1. A non-intrusive channel-impairment measurement system for measuring at least one quasistatic impairment characteristic of a band-limited data communications channel, comprising:

a data receiver section for receiving over said channel, data modulated onto quadrature phases of a carrier signal, the receiver section being arranged to process the received signal in two quadrature forward processing paths and comprising;

(a) a data recovery circuit for providing signals (d_i, d_q) representing estimates of the received data based on output signals (z_i, z_q) from said forward processing paths;

(b) decision-directed compensation means disposed in said forward processing paths and arranged to compensate for channel-impairment effects on the received signals; and

(c) error generation means for generating error signals indicative of the difference between the estimates (d_i, d_q) and the output signals (z_i, z_q) of the forward processing paths; and

a measurement section responsive to the error signals generated in the receiver section for deriving a measurement of signal jitter, said measurement section comprising;

(d) filter means for receiving the error signals and deriving jitter signals (J_IN (n)) therefrom, and providing said jitter signals to an adaptive line enhancer;

(e) the adaptive line enhancer being for isolating deterministic components of the jitter signals (J_IN (n) from background noise, the adaptive line enhancer comprising a fixed delay arranged to receive said jitter signals, a transversal filter fed from the fixed delay and having a response dependent upon a set of tap coefficients, a comparator for providing difference signals indicative of the difference between the jitter signals and output signals (J_OUT (n) generated by the transversal filter, and update means for adjusting the tap coefficients of the transversal filter such as to minimize the comparator difference signals; and

(f) means responsive to J_out (n) for providing signals indicative of signal jitter;

wherein J_IN (n) represents noise-corrupted jitter signals and J_OUT (n) represents deterministic components of J_IN (n).

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Abstract

A non-intrusive channel-impairment analyzer is provided for measuring at least one quasi-static impairment characteristic of a band-limited data communications channel. The analyzer comprises a data receiver section and a measurement section. The data receiver section is arranged to receive data modulated onto quadrature phases of a carrier signal in two quadrature forward processing paths. The receiver section includes a data recovery circuit for effecting a decision as to the identity of the original data on the basis of the outputs from said processing paths, and decision-directed compensation means disposed in said paths and arranged to compensate for channel-impairment effects on the received signal. The measurement section is responsive to signals generated in the receiver section during the receipt of random data, to derive a measurement of at least one said channel impairment, such as phase or amplitude jitter.

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10 Claims

1. A non-intrusive channel-impairment measurement system for measuring at least one quasistatic impairment characteristic of a band-limited data communications channel, comprising:
- a data receiver section for receiving over said channel, data modulated onto quadrature phases of a carrier signal, the receiver section being arranged to process the received signal in two quadrature forward processing paths and comprising;
  
  (a) a data recovery circuit for providing signals (d_i, d_q) representing estimates of the received data based on output signals (z_i, z_q) from said forward processing paths;
  
  (b) decision-directed compensation means disposed in said forward processing paths and arranged to compensate for channel-impairment effects on the received signals; and
  
  (c) error generation means for generating error signals indicative of the difference between the estimates (d_i, d_q) and the output signals (z_i, z_q) of the forward processing paths; and
  
  a measurement section responsive to the error signals generated in the receiver section for deriving a measurement of signal jitter, said measurement section comprising;
  
  (d) filter means for receiving the error signals and deriving jitter signals (J_IN (n)) therefrom, and providing said jitter signals to an adaptive line enhancer;
  
  (e) the adaptive line enhancer being for isolating deterministic components of the jitter signals (J_IN (n) from background noise, the adaptive line enhancer comprising a fixed delay arranged to receive said jitter signals, a transversal filter fed from the fixed delay and having a response dependent upon a set of tap coefficients, a comparator for providing difference signals indicative of the difference between the jitter signals and output signals (J_OUT (n) generated by the transversal filter, and update means for adjusting the tap coefficients of the transversal filter such as to minimize the comparator difference signals; and
  
  (f) means responsive to J_out (n) for providing signals indicative of signal jitter;
  
  wherein J_IN (n) represents noise-corrupted jitter signals and J_OUT (n) represents deterministic components of J_IN (n).
- View Dependent Claims (2, 3, 4)
- - 2. A measurement system according to claim 1, wherein the error signals generated by the error generation means are indicative of the phase difference between (d_i, d_q) and (z_i, z_q), and J_IN (n) represents noise-corrupted phase jitter signals;
    - the measurement section thereby being arranged to measure phase jitter.
  - 3. A measurement system according to claim 1, wherein the error signals generated by the error generation means are indicative of the amplitude difference between (d_i, d_q) and (z_i, z_q), and J_IN (n) represents noise-corrupted amplitude jitter signals;
    - the measurement section thereby being arranged to measure amplitude jitter.
  - 4. An analyzer according to claim 1, wherein the tap coefficients of the transversal filter are updated at random multiples of the data rate.

5. A non-intrusive channel-impairment measurement system for measuring at least one quasistatic impairment characteristic of a band-limited data communications channel, comprising:
- a data receiver section for receiving over said channel, data modulated onto quadrature phases of a carrier signal, the receiver section being arranged to process the received signal in two quadrature forward processing paths and comprising;
  
  (a) a data recovery circuit for providing signals (d_i, d_q) representing estimates of the received data based on output signals (z_i, z_q) from said forward processing paths;
  
  (b) decision-directed compensation means disposed in said forward processing paths and arranged to compensate for channel-impairment effects on the received signals; and
  
  (c) error generation means for generating error signals indicative of the difference between the estimates (d_i, d_q) and the output signals (z_i, z_q) of the forward processing paths; and
  
  a measurement section responsive to the error signals generated in the receiver section to derive a measurement of second order non-linear distortion, the measurement section including;
  
  (d) first modulating means for remodulating the error signals up to the frequency of the carrier signal;
  
  (e) second modulating means operative to frequency shift the remodulated error signals through a predefined set of frequencies of each side of the carrier signal frequency; and
  
  (f) averaging means arranged to produce an average value of the frequency-shifted error signals at each frequency of said set of frequencies, a maximum average value defining a measure of second order non-linear distortion.

6. A non-intrusive channel-impairment measurement system for measuring at least one quasistatic impairment characteristic of a band-limited data communications channel, comprising:
- a data receiver section for receiving over said channel, data modulated onto quadrature phases of a carrier signal, the receiver section being arranged to process the received signal in two quadrature forward processing paths and comprising;
  
  (a) a data recovery circuit for providing signals (d_i, d_q) representing estimates of the received data based on output signals (z_i, z_q) from said forward processing paths;
  
  (b) decision-directed compensation means disposed in said forward processing paths and arranged to compensate for channel-impairment effects on the received signals; and
  
  (c) error generation means for generating error signals indicative of the difference between the estimates (d_i, d_q) and the output signals (z_i, z_q) of the forward processing paths; and
  
  a measurement section responsive to signals generated in the receiver section to derive a measurement of at least one channel impairment characteristic, said measurement section including a real-time channel model comprising;
  
  (d) an adaptive transversal model filter fed with the output signals (d_i, d_q) of the data recovery circuit, and having a response dependent upon a set of tap coefficients;
  
  (e) demodulating means for demodulating an uncompensated version of the signal received over the channel, the uncompensated version being derived from the received signal prior to the received signal being input to the compensation means;
  
  (f) comparison means for providing a signal indicative of the difference between the output of the model filter and the output of said demodulating means;
  
  (g) update means arranged to receive said error signals from the comparison means and to update the tap coefficients of the model filter such as to minimize said difference between the outputs of the model filter and the demodulating means; and
  
  (h) Fourier transform means for deriving the channel linear characteristics from a Fourier transform of the tap coefficients of the model filter.
- View Dependent Claims (7, 8)
- - 7. A measurement system according to claim 6, wherein the comparison means of the channel model includes third-order non-linearity compensation means arranged to modify said error signals by an amount dependent on the amplitude of the model filter output and a third-order non-linearity coefficient supplied by the non-linearity compensation means, whereby to reduce the effect on said error signals of third-order non-linear distortion introduced by the channel.
  - 8. A measurement system according to claim 7, further comprising coefficient determining means for adaptively determining said third order non-linearity coefficient, the coefficient determining means being responsive to the error signals to up-date a previously derived value of said coefficient and this coefficient then being supplied to said third-order non-linearity compensation means.

9. A non-intrusive channel-impairment measurement system for measuring at least one quasistatic impairment characteristic of a band-limited data communications channel, comprising:
- a data receiver section for receiving over said channel, data modulated onto quadrature phases of a carrier signal, the receiver section being arranged to process the received signal in two quadrature forward processing paths and comprising;
  
  (a) a data recovery circuit for providing signals (d_i, d_q) representing estimates of the received data based on output signals (z_i, z_q) from said forward processing paths;
  
  (b) decision-directed compensation means disposed in said forward processing paths and arranged to compensate for channel-impairment effects on the received signals, said compensation means including a phase-locked loop operative to minimize the phase difference between the signals (z_i, z_q) input to the data recovery circuit and the signals (d_i, d_q) output from the data recovery circuit, the phase-locked loop comprising a loop filter and a phase rotator connected into the forward processing paths of the receiver section; and
  
  (c) error generation means for generating error signals indicative of the difference between the estimates (_i, d_q) and the output signals (z_i, z_q) of the forward processing paths; and
  
  a measurement section responsive to the error signals generated in the receiver section comprising an adaptive line enhancer for isolating deterministic components of the jitter signals (J_IN (n) from background noise, the adaptive line enhancer comprising a fixed delay arranged to receive said jitter signals, a transversal filter fed from the fixed delay and having a response dependent upon a set of tap coefficients, a comparator for providing difference signals indicative of the difference between the jitter signals and output signals (J_OUT (n)) generated by the transversal filter, and update means for adjusting the tap coefficients of the transversal filter such as to minimize the comparator difference signals;
  
  wherein J_IN (n) represents noise-corrupted jitter signals and J_OUT (n) represents deterministic components of J_IN (n).

10. A non-intrusive channel-impairment measurement system for measuring at least one quasistatic impairment characteristic of a band-limited data communications channel, comprising:
- a data receiver section for receiving over said channel, data modulated onto quadrature phases of a carrier signal, the receiver section being arranged to process the received signal in two quadrature forward processing paths and comprising;
  
  (a) a data recovery circuit for providing signals (d_i, d_q) representing estimates of the received data based on output signals (z_i, z_q) from said forward processing paths;
  
  (b) decision-directed compensation means disposed in said forward processing paths and arranged to compensate for channel-impairment effects on the received signals; and
  
  (c) error generation means for generating error signals indicative of the difference between the estimates (d_i, d_q) and the output signals (z_i, z_q) of the forward processing paths; and
  
  a measurement section responsive to signals generated in the receiver section for deriving a measurement of at least one channel impairment, said measurement section including third-order non-linearity compensation means arranged to modify said error signals by an amount dependent on the amplitude of the output signals (d_i, d_q) of the data recovery circuit and a third-order non-linearity coefficient supplied to the non-linearity compensation means by coefficient determining means for adaptively determining said third-order non-linearity coefficient, the coefficient determining means being responsive to said error signals, whereby to reduce the effect on said error signals of third-order non-linear distortion introduced by the channel.

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Current Assignee
HP Inc.
Original Assignee
HP Inc.
Inventors
Carder, Norman G., Rhind, William G.
Primary Examiner(s)
NOT, DEFINED
Assistant Examiner(s)
Smith, Ralph

Application Number

US07/503,092
Time in Patent Office

288 Days
Field of Search

375/14, 375/15, 375/10, 375/118, 375/103, 364/724.01, 364/825, 364/724.2, 333/18
US Class Current

375/226
CPC Class Codes

H04L 1/206   for modulated signals

H04L 25/03038   with a non-recursive struct...

H04L 27/3872   Compensation for phase rota...

Non-intrusive channel-impairment analyzer

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Non-intrusive channel-impairment analyzer

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