Signal transfer device measurement system and method

US 6,405,147 B1
Filed: 09/10/1999
Issued: 06/11/2002
Est. Priority Date: 09/10/1999
Status: Expired due to Fees

First Claim

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1. A system for measuring the signal transfer characteristics of a device under test (DUT) having an analog input port and an analog output port comprising:

a stimulus waveform generator that produces a stimulus waveform, the stimulus waveform comprising a time sequence of pairs of narrow bandwidth, modulated signals, wherein the stimulus waveform is applied to the input port of the device under test, thereby producing an output response signal at the output port of the device under test;

an analog-to-digital converter (ADC) for digitizing the output response signal and producing digital data; and

a signal processor for processing the digital data, thereby producing measured results, wherein each pair of signals of the sequence of pairs of narrow bandwidth, modulated signals comprises a reference frequency modulated signal, and a variable frequency modulated signal, wherein the reference frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a reference carrier frequency, the reference frequency modulated signal being modulated by a low frequency modulation signal, the low frequency modulated signal being a sine wave, wherein the variable frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a variable carrier frequency, the variable frequency modulated signal being modulated by the low frequency modulation signal, and the variable carrier frequency being variable from pair to pair in the sequence of pairs, and wherein the stimulus waveform generator comprises;

a reference frequency signal generator that generates a reference frequency output signal;

a low frequency modulation signal generator that produces a low frequency sine wave;

a variable frequency signal generator that generates a variable frequency output signal;

a signal splitter for splitting the low frequency sine wave signal into a first copy and a second copy;

a first double sideband modulator and a second double sideband modulator each having a first input, a second input and an output, wherein the first copy of the sine wave signal is applied to the first input of the first double sideband modulator and the second copy of the sine wave signal is applied to the first input of the second double sideband modulator;

wherein the reference frequency output signal is applied to the second input of the first double sideband modulator, such that a modulated reference frequency signal is produced at the output of the first double sideband modulator, the modulated reference frequency signal being modulated by the low frequency sine wave signal, and wherein the variable frequency output signal is applied to the second input of the second double sideband modulator such that a modulated variable frequency signal is produced at the output of the second double sideband modulator, the modulated variable frequency signal being modulated by the low frequency sine wave signal; and

a signal combiner, wherein the modulated reference frequency signal and the modulated variable frequency signal are combined by the signal combiner to produce the stimulus waveform.

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Abstract

A signal transfer device measurement system and method of the present invention measures the signal transfer characteristics of a device under test (DUT) having an analog input port and either an analog output port or a digital output port. The measurement system and method comprise a stimulus waveform generator that produces a stimulus waveform. The stimulus waveform comprises a time sequence of pairs of narrow bandwidth, modulated signals. The stimulus waveform is applied to the input port of the DUT thereby producing an output response signal at the output port of the DUT. For a DUT with an analog output port, the measurement system and method further comprise an analog-to-digital converter (ADC) for digitizing the output response signal and producing digital data and a signal processor for processing the digital data thereby producing measured results. For a DUT with a digital output port that produces digital data representing the DUT response, an ADC of digitizing is eliminated from the measurement system and method. In the preferred embodiment, the each pair of signals of the sequence of pairs of narrow bandwidth, modulated signals of the stimulus waveform comprises a reference frequency modulated signal and a variable frequency modulated signal, wherein a variable carrier frequency is varied from pair to pair in the sequence of pairs. Moreover, the reference frequency modulated signal and the variable frequency modulated signal are each double sideband, suppressed carrier, modulated signals modulated with a low frequency modulation signal.

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11 Claims

1. A system for measuring the signal transfer characteristics of a device under test (DUT) having an analog input port and an analog output port comprising:
- a stimulus waveform generator that produces a stimulus waveform, the stimulus waveform comprising a time sequence of pairs of narrow bandwidth, modulated signals, wherein the stimulus waveform is applied to the input port of the device under test, thereby producing an output response signal at the output port of the device under test;
  
  an analog-to-digital converter (ADC) for digitizing the output response signal and producing digital data; and
  
  a signal processor for processing the digital data, thereby producing measured results, wherein each pair of signals of the sequence of pairs of narrow bandwidth, modulated signals comprises a reference frequency modulated signal, and a variable frequency modulated signal, wherein the reference frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a reference carrier frequency, the reference frequency modulated signal being modulated by a low frequency modulation signal, the low frequency modulated signal being a sine wave, wherein the variable frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a variable carrier frequency, the variable frequency modulated signal being modulated by the low frequency modulation signal, and the variable carrier frequency being variable from pair to pair in the sequence of pairs, and wherein the stimulus waveform generator comprises;
  
  a reference frequency signal generator that generates a reference frequency output signal;
  
  a low frequency modulation signal generator that produces a low frequency sine wave;
  
  a variable frequency signal generator that generates a variable frequency output signal;
  
  a signal splitter for splitting the low frequency sine wave signal into a first copy and a second copy;
  
  a first double sideband modulator and a second double sideband modulator each having a first input, a second input and an output, wherein the first copy of the sine wave signal is applied to the first input of the first double sideband modulator and the second copy of the sine wave signal is applied to the first input of the second double sideband modulator;
  
  wherein the reference frequency output signal is applied to the second input of the first double sideband modulator, such that a modulated reference frequency signal is produced at the output of the first double sideband modulator, the modulated reference frequency signal being modulated by the low frequency sine wave signal, and wherein the variable frequency output signal is applied to the second input of the second double sideband modulator such that a modulated variable frequency signal is produced at the output of the second double sideband modulator, the modulated variable frequency signal being modulated by the low frequency sine wave signal; and
  
  a signal combiner, wherein the modulated reference frequency signal and the modulated variable frequency signal are combined by the signal combiner to produce the stimulus waveform.

2. A system for measuring the signal transfer characteristics of a device under test (DUT) having an analog input port and an analog output port comprising:
- a stimulus waveform generator that produces a stimulus waveform, the stimulus waveform comprising a time sequence of pairs of narrow bandwidth, modulated signals, wherein the stimulus waveform is applied to the input port of the device under test, thereby producing an output response signal at the output port of the device under test;
  
  an analog-to-digital converter (ADC) for digitizing the output response signal and producing digital data; and
  
  a signal processor for processing the digital data, thereby producing measured results, wherein each pair of signals of the sequence of pairs of narrow bandwidth, modulated signals comprises a reference frequency modulated signal, and a variable frequency modulated signal, wherein the reference frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a reference carrier frequency, the reference frequency modulated signal being modulated by a low frequency modulation signal, the low frequency modulation signal being a sine wave, wherein the variable frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a variable carrier frequency, the variable frequency modulated signal being modulated by the low frequency modulation signal, and the variable carrier frequency being variable from pair to pair in the sequence of pairs, and wherein a sampling frequency, ƒ
  
  _s, of the ADC determines the reference carrier frequency ƒ
  
  _rof the reference frequency modulated signal through the application of $f_{r, out} = \frac{f_{s}}{N} (\frac{N}{4} + G)$ where ƒ
  
  _ris related to an output reference carrier frequency ƒ
  
  _r,outproduced by the DUT as described by
- View Dependent Claims (3, 4, 5)
- - 3. The system for measuring of claim 2 wherein the stimulus waveform generator is an arbitrary waveform generator.
  - 4. The system for measuring of claim 2, wherein a normalized group delay {circumflex over (τ
    - )}_N(ω
      
      _V) as a function of frequency that is calculated from the measured results by the signal processor by applying $\begin{matrix} {\hat{τ}}_{N} (ω_{V}) = {\hat{τ}}_{V} - {\hat{τ}}_{R} \\ = \frac{1}{2 ω_{M}} (angle (FY (ω_{VH})) \cdot conj (FY (ω_{VL})) - \\ angle (FY (ω_{RH})) \cdot conj (FY (ω_{RL}))) \end{matrix}$ wherein FY is an FFT of the N time samples and wherein conj(·
      
      ) means complex conjugate of an argument and angle(·
      
      ) means the phase angle of the complex argument.
  - 5. The system for measuring of claim 2, wherein the stimulus waveform further comprises a short duration synchronization pulse inserted immediately preceding each of the pairs of signals wherein the synchronization pulse is a sine wave pulse and wherein the presence of the synchronization pulse is used to trigger the analog-to-digital converter.

6. A system for measuring the signal transfer characteristics of a device under test having an analog input port and a digital output port comprising:
- a stimulus waveform generator that produces a stimulus waveform, the stimulus waveform comprising a sequence of pairs of narrow bandwidth, modulated signals, wherein the stimulus waveform is applied to the input port of the device under test, thereby producing an output signal at the output port of the device under test; and
  
  a signal processor for processing the digital data, thereby producing measured results, wherein each pair of signals of the sequence of pairs of narrow bandwidth, modulated signals comprises a reference frequency modulated signal, and a variable frequency modulated signal, wherein the reference frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a reference carrier frequency, the reference frequency modulated signal being modulated by a low frequency modulation signal, the low frequency modulation signal being a sine wave, and wherein the variable frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a variable carrier frequency, the variable frequency modulated signal being modulated by the low frequency modulation signal, the variable carrier frequency being variable from pair to pair in the sequence of pairs, and wherein a sampling frequency, ƒ
  
  _s, of the device under test determines the reference carrier frequency ƒ
  
  _rof the reference frequency modulated signal through the application of $f_{r, out} = \frac{f_{s}}{N} (\frac{N}{4} + G)$ where ƒ
  
  _ris related to an output reference carrier frequency ƒ
  
  _r,outproduced by the device under test as described by
- View Dependent Claims (7, 8, 9)
- - 7. The system for measuring of claim 6, wherein the stimulus waveform generator is an arbitrary waveform generator.
  - 8. The system for measuring of claim 6 wherein the stimulus waveform further comprises a short duration synchronization pulse inserted immediately preceding each of the pairs of signals wherein the synchronization pulse is a sine wave pulse and wherein the presence of the synchronization pulse is used to trigger the analog-to-digital converter.
  - 9. The system for measuring of claim 6 wherein a normalized group delay {circumflex over (τ
    - )}_N(ω
      
      _V) as a function of frequency is calculated from the measured results by the signal processor by applying $\begin{matrix} {\hat{τ}}_{N} (ω_{V}) = {\hat{τ}}_{V} - {\hat{τ}}_{R} \\ = \frac{1}{2 ω_{M}} (angle (FY (ω_{VH})) \cdot conj (FY (ω_{VL})) - \\ angle (FY (ω_{RH})) \cdot conj (FY (ω_{RL}))) \end{matrix}$ wherein FY is an FFT of the N time samples and wherein conj(·
      
      ) means complex conjugate of an argument and angle(·
      
      ) means the phase angle of the complex argument.

10. A method for measuring signal transfer characteristics of a device under test (DUT) having all input port and an output port comprising the steps of:
- generating a stimulus waveform, the stimulus waveform comprising a time sequence of pairs of narrowband modulated signals, each of the pairs comprising a reference frequency modulated signal, and a variable frequency modulated signal, wherein the reference frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a reference carrier frequency modulated by a low frequency modulation signal, and wherein the variable frequency modulated signal is a double sideband, suppressed carrier, modulated signal having a variable carrier frequency modulated by the low frequency modulation signal, the variable carrier frequency being variable from pair to pair in the sequence of pairs;
  
  applying the stimulus waveform to the input port of the DUT such that an output response signal is generated at the output port of the DUT;
  
  sampling and digitizing the output response signal to produce digital data; and
  
  processing the digital data, thereby producing measured results, wherein a sampling frequency, ƒ
  
  _s, of the step of sampling determines the reference carrier frequency ƒ
  
  _rof the reference frequency modulated signal through the application of $f_{r, out} = \frac{f_{s}}{N} (\frac{N}{4} + G)$ where ƒ
  
  _ris related to an output reference carrier frequency ƒ
  
  _r,outproduced by the DUT as described by
- View Dependent Claims (11)
- - 11. The method for measuring of claim 10 wherein the step of processing comprises the step of calculating a normalized group delay {circumflex over (τ
    - )}_N(ω
      
      _V) as a function of frequency by applying $\begin{matrix} {\hat{τ}}_{N} (ω_{V}) = {\hat{τ}}_{V} - {\hat{τ}}_{R} \\ = \frac{1}{2 ω_{M}} (angle (FY (ω_{VH})) \cdot conj (FY (ω_{VL})) - \\ angle (FY (ω_{RH})) \cdot conj (FY (ω_{RL}))) \end{matrix}$ wherein FY is an FFT of the N time samples and wherein conj(·
      
      ) means complex conjugate of an argument and angle(·
      
      ) means the phase angle of the complex argument.

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Current Assignee
Harris Corporation (L3Harris Technologies, Inc.)
Original Assignee
Condor Systems, Inc. (L3Harris Technologies, Inc.)
Inventors
Fera, Peter P.
Primary Examiner(s)
Hoff, Marc S.
Assistant Examiner(s)
TSAI, CAROL S W

Application Number

US09/393,408
Time in Patent Office

1,005 Days
Field of Search

702/57, 702/58, 702/59, 702/62, 702/66, 702/70, 702/71, 702/72, 702/74, 702/75, 702/79, 702/108-112, 702/116, 702/117, 702/122, 702/124-126, 702/182, 702/183, 702/185, 702/188, 702/189, 702/103, 702/FOR.104, 702/107, 702/110, 702/134, 702/135, 702/170, 702/171, 324/763, 324/764, 324/158.1, 324/607, 324/76.22, 324/76.47, 375/225, 714/699
US Class Current

702/112
CPC Class Codes

G01R 31/2837   Characterising or performan...

H04B 1/62   for providing a predistorti...

H04B 17/391   Modelling the propagation c...

Signal transfer device measurement system and method

First Claim

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Signal transfer device measurement system and method

First Claim

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Abstract

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