Sampling signal analyzer

US 5,162,723 A
Filed: 02/11/1991
Issued: 11/10/1992
Est. Priority Date: 02/11/1991
Status: Expired due to Term

First Claim

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1. A system for analyzing a repetitive non-band-limited input signal having a wave form, comprising:

means for receiving the non-band-limited input signal;

means for generating a plurality of periodic signals independent of receiving the input signal;

means responsive to each of the plurality of periodic signals for sampling the input signal to frequency-translate and frequency-compress each frequency component of the input signal to an intermediate frequency signal so that all frequency components of the input signal are ordered in proper spectral sequence;

means responsive to the intermediate frequency signal for bandwidth-limiting the intermediate frequency signal into a predetermined bandwidth; and

means responsive to the bandwidth-limited intermediate frequency signal for manipulating the bandwidth-limited intermediate frequency signal while preserving phase relationship among fundamental and harmonically related frequency components contained in the intermediate frequency signal to reconstruct the wave form of the input signal.

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Abstract

A sampling signal analyzer in which the frequency of an input signal to be measured is initially ascertained, an appropriate sampling frequency is then determined, data needed to reconstruct the wave form of the input signal is acquired, and the input signal wave shape is reconstructed with a calibrated time axis and preferably displayed. The sampling signal analyzer synthesizes a sampler drive signal to enable continuous sampling of the input signal and therefore has the advantage over known data sampling signal measurement instruments that it is not triggered directly in response to the level of the input signal to be measured. Instead, sample timing is based on numerical analysis of the intermediate frequency (IF) signal produced by the sampler. The IF frequency can be an arbitrarily low frequency, which allows digitizing and digital signal processing for aligning measurement data from sweep to sweep with precision. The sampling signal analyzer operates so that all frequency components of the input signal will lie within plus or minus an IF bandwidth away from a comb tooth of a sampling frequency and will translate (i.e., mix) and compress into the IF. The sampling signal analyzer determines where to mix the input signal in the IF based on the frequency of the input signal and a display time range selected by the operator. The number of cycles of the wave form being displayed can be selected by the operator, and the time axis is automatically rescaled to display the selected number of cycles, notwithstanding a change in the input signal frequency. A pulse profiling method enables the recoverable modulation bandwith of the sampling signal analyzer to be as wide as a high-frequency input bandwidth so that the response of high-frequency devices stimulated by pulsed or otherwise modulated signals can be measured.

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21 Claims

1. A system for analyzing a repetitive non-band-limited input signal having a wave form, comprising:
- means for receiving the non-band-limited input signal;
  
  means for generating a plurality of periodic signals independent of receiving the input signal;
  
  means responsive to each of the plurality of periodic signals for sampling the input signal to frequency-translate and frequency-compress each frequency component of the input signal to an intermediate frequency signal so that all frequency components of the input signal are ordered in proper spectral sequence;
  
  means responsive to the intermediate frequency signal for bandwidth-limiting the intermediate frequency signal into a predetermined bandwidth; and
  
  means responsive to the bandwidth-limited intermediate frequency signal for manipulating the bandwidth-limited intermediate frequency signal while preserving phase relationship among fundamental and harmonically related frequency components contained in the intermediate frequency signal to reconstruct the wave form of the input signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. The system of claim 1, further comprising:
    - analog-to-digital conversion means for digitizing the bandwidth-limited intermediate frequency signal; and
      
      means for processing the bandwidth-limited intermediate frequency signal to determine amplitude and frequency of frequency components of the input signal without losing the phase relationship.
  - 3. The system of claim 1 wherein the means for generating the plurality of periodic signals is a variable frequency source.
  - 4. The system of claim 3 wherein the means for generating the plurality of periodic signals is a fractional-N synthesized source.
  - 5. The system of claim 1 wherein the means responsive to the intermediate frequency signal is a variable bandwidth intermediate frequency lowpass filter.
  - 6. The system of claim 1 wherein the means for manipulating comprises analog-to-digital conversion means for digitizing the bandwidth-limited intermediate frequency signal.
  - 7. The system of claim 6, further comprising a display connected to the means for manipulating for displaying the reconstructed wave form of the input signal in a voltage versus time format.
  - 8. The system of claim 2 wherein the means for processing performs a Fourier transform routine, and further comprising a display connected to the means for processing for displaying results of the Fourier transformation in an amplitude versus frequency format.
  - 9. The system of claim 1 wherein the means for manipulating is repetitively enabled by a triggering signal derived from the bandwidth-limited intermediate frequency signal level.
  - 10. The system of claim 6, further comprising memory means for storing digitized samples, wherein storage of the digitized samples is repetitively enabled by a triggering signal derived from the bandwidth-limited intermediate frequency signal level to enable selection of a variable amount of negative time.
  - 11. The system of claim 7, further comprising memory means for indexing digitized samples based on a selected phase of the fundamental frequency of the input signal to enable display of the reconstructed wave form of the input signal.
  - 12. The system of claim 2 wherein the means for generating the plurality of periodic signals is connected to the means for processing and the means for processing controls the frequency of the periodic signals to identify frequency components of the input signal.
  - 13. The system of claim 12, further comprising means responsive to actuation by an operator for overriding the processing means for enabling analysis of an input signal frequency entered by the operator.
  - 14. The system of claim 7, further comprising means responsive to actuation by an operator for displaying a selected number of cycles of the reconstructed input signal wave form.
  - 15. The system of claim 8, further comprising means responsive to actuation by an operator for displaying a selected number of cycles of the reconstructed input signal wave form.
  - 16. The system of claim 2, further comprising variable amplification and DC offset means for providing an optimum level for the bandwidth-limited intermediate frequency signal to the analog-to-digital conversion means.
  - 17. The system of claim 6, further comprising variable amplification and DC offset means for providing an optimum level for the bandwidth-limited intermediate frequency signal to the analog-to-digital conversion means.
  - 18. The system of claim 5 wherein the variable bandwidth intermediate frequency lowpass filter is narrowed to a bandwidth less than one-half the lowest of the frequencies of the plurality of periodic signals to construct a comb bandpass.

19. A method for measuring a non-band-limited modulated input signal having a known fundamental frequency, comprising the steps of:
- a) providing a variable frequency sampler drive signal;
  
  b) setting the frequency of the sampler drive signal to a substantially exact sub-harmonic of the known fundamental frequency of the non-band-limited modulated input signal;
  
  c) repetitively sampling a first time instant of the modulated input signal to produce a predetermined number of first data samples;
  
  d) filtering the predetermined number of first data samples;
  
  e) storing the filtered first data samples as a first data point;
  
  f) incrementing the phase of the sampler drive signal to provide a next time instant of the modulated input signal;
  
  g) repetitively sampling the next time instant of the modulated input signal to produce a predetermined number of next data samples;
  
  h) filtering the predetermined number of next data samples;
  
  i) storing the filtered next data samples as a next data point; and
  
  j) repeating steps f), g), h), and i) until a preselected number of data points has been stored to provide a time record of the modulated input signal.

20. A method for measuring a modulated input signal having a known carrier frequency, comprising the steps of:
- a) providing a variable frequency sampler drive signal;
  
  b) setting the frequency of the sampler drive signal to a substantially exact sub-harmonic of the known carrier frequency;
  
  c) repetitively sampling a preselected time instant of the modulated input signal to produce a predetermined number of first data samples;
  
  d) filtering the predetermined number of first data samples;
  
  e) storing the filtered first data samples as a first data point;
  
  f) incrementing the carrier frequency of the input signal to provide a modified modulated input signal;
  
  g) repetitively sampling the modified modulated input signal at the preselected time instant to produce a predetermined number of next data samples;
  
  h) filtering the predetermined number of next data samples;
  
  i) storing the filtered next data samples as a next data point; and
  
  j) repeating steps f), g), h), and i) until a preselected number of data points has been stored to provide a record of the modulated amplitude versus carrier frequency with respect to the preselected time instant.

21. A method for measuring a modulated input signal having a known fundamental frequency and having a variable power level, comprising the steps of:
- a) providing a variable frequency sampler drive signal;
  
  b) setting the frequency of the sampler drive signal to a substantially exact sub-harmonic of the known fundamental frequency;
  
  c) repetitively sampling a preselected time instant of the modulated input signal to produce a predetermined number of first data samples;
  
  d) filtering the predetermined number of first data samples;
  
  e) storing the filtered first data samples as a first data point;
  
  f) incrementing the power of the modulated input signal to provide a modified modulated input signal;
  
  g) repetitively sampling the modified modulated input signal at the preselected time instant to produce a predetermined number of next data samples;
  
  h) filtering the predetermined number of next data samples;
  
  i) storing the filtered next data samples as a next data point; and
  
  j) repeating steps f), g), h), and i) until a preselected number of data points has been stored to provide a record of the modulated amplitude versus power with respect to the preselected time instant and known fundamental frequency.

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Current Assignee
Agilent Technologies, Inc.
Original Assignee
Hewlett-Packard Company (HP Inc.)
Inventors
Marzalek, Michael S., Peterson, Stephen R., Wendler, John A., Hogan, Ronald J., Keiter, Richard C.
Primary Examiner(s)
Wieder, Kenneth A.
Assistant Examiner(s)
Solis, Jose M.

Application Number

US07/654,451
Time in Patent Office

638 Days
Field of Search

364/485, 364/484, 455/330, 455/295, 324/78 F, 324/78 D, 324/77 B, 324/121 R, 324/83 D, 324/78 E
US Class Current

324/76.19
CPC Class Codes

G01R 23/16 Spectrum analysis; Fourier ...

Sampling signal analyzer

First Claim

3 Assignments

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Abstract

122 Citations

21 Claims

Specification

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Sampling signal analyzer

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

122 Citations

21 Claims

Specification

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Solutions

Use Cases

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