Distributed sampling of electrical and optical signals using coded switched electrode travelling wave modulators

US 4,843,586 A
Filed: 04/28/1987
Issued: 06/27/1989
Est. Priority Date: 04/28/1987
Status: Expired due to Fees

First Claim

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1. A sampler comprising:

a test input for a signal to be sampled;

an output; and

modulation means, responsive to a set of R reference signals R_r (t) (r=0, . . . , R-1) and to a test signal S(t) applied to the test input, for producing at the output an output signal O(t) proportional to ##EQU10## where [8 h^r (t)S₂ (t)]][h^r (t)S(t)] denotes the convolution of h^r (t) with S(t), where * denotes the correlation of R_r (t) with [[h^r (t)S₂ (t)]][h^r (t)S(t)], where h^r (t) is the impulse response function of the sampler when S(t) and R^s (t) (for s≠

r) are constant and R^r (t) is a delta function, and where ##EQU11## is substantially equal to a delta function plus an error function that has a peak amplitude much smaller than the integral of the delta function.

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Abstract

A sampler that can be used to sample optical or electrical signals, having an improved sensitivity-resolution product compared to conventional samplers. A coded switched electrode modulator has electrodes that produce polarity reversals in an applied voltage signal in accordance with a pseudorandom code having small sidelobes. An optical signal is injected into an optical waveguide that is oriented parallel to the electrodes. When the optical signal is proportional to the coded electrode pattern, the device is used as an electrical sampler. When the applied voltage signal is proportional to the coded electrode pattern, the device is used as an optical sampler.

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19 Claims

1. A sampler comprising:
- a test input for a signal to be sampled;
  
  an output; and
  
  modulation means, responsive to a set of R reference signals R_r (t) (r=0, . . . , R-1) and to a test signal S(t) applied to the test input, for producing at the output an output signal O(t) proportional to ##EQU10## where [8 h^r (t)S₂ (t)]][h^r (t)S(t)] denotes the convolution of h^r (t) with S(t), where * denotes the correlation of R_r (t) with [[h^r (t)S₂ (t)]][h^r (t)S(t)], where h^r (t) is the impulse response function of the sampler when S(t) and R^s (t) (for s≠
  
  r) are constant and R^r (t) is a delta function, and where ##EQU11## is substantially equal to a delta function plus an error function that has a peak amplitude much smaller than the integral of the delta function.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. A sampler as in claim 1 wherein each h^r (t) is substantially equal to ##EQU12## wherein each R^r (t) is substantially equal to ##EQU13## where p(t-mw) equals 1 if m·
    - w<
      
      t≦
      
      (m+1)·
      
      w and where ##EQU14## is much smaller for k≠
      
      0 than it is for k=0.
  - 3. A sampler as in claim 2 wherein R=1 and wherein P⁰_m for each value of m and wherein (P⁰₀, . . . , P⁰_M-1) is a Barker code.
  - 4. A sampler as in claim 2 wherein said modulation means comprises a coded switched electrode travelling wave modulator having R optical paths, the rth such optical path having an associated coded switched electrode for modulating the optical signal in that path in accordance with the code (P^r₀, . . . , P^r_M-1).
  - 5. A sampler as in claim 4 wherein said test input is electrically connected to each of the coded switched electrodes;
    - said sampler further comprising;
      
      optical input means for applying an optical signal R_r (t) to an input of the rth optical path (for r=0, . . . , R-1).
  - 6. A sampler as in claim 5 wherein said optical input means comprises, at an input of the rth optical path (for r=0, . . . , R-1), an associated coded switched electrode travelling wave modulator having an electrode coded in accordance with the code (Q^r₀, . . . , Q^r_M-1).
  - 7. A sampler as in claim 4 wherein the test input is optically coupled to the input of each of the optical paths;
    - said sampler further comprising;
      
      electrical input means for applying an electrical signal R_r (t) to the coded electrode of the rth reference optical path (for r=0, . . . , R-1), whereby the sampler functions as an optical signal sampler.
  - 8. A sampler as in claim 7 wherein said electrical input means comprises, coupled to an input to the coded electrodes of the rth optical path (for r=0, . . . , R-1), a tapped delay line in which the taps produce an electrical signal that is coded in accordance with the code Q^r.
  - 9. A sampler as in claim 2 wherein R=2, wherein P^r_m =Q^r_m for each value of r and m, wherein (P⁰₀, . . . , P⁰_M-1) is a Golay code G¹ of length M and wherein (P¹₀, . . . , P¹_M-1) is the Golay code G2 conjugate to G¹.
  - 10. A sampler as in claim 1 wherein the modulation means includes:
    - a set of R channels 0, . . . , R-1;
      
      in the rth channel, an intermediate digital electrical signal I_r (t) is produced equal to [h^r (t)S(t)];
      
      each reference signal R_r (t) is substantially equal to a delta function so that the intermediate electrical signal I_r (t) is substantially equal to h^r (t)S(t);
      
      said modulation means further comprising;
      
      a digital correlator for digitally correlating each I_r (t) with R^r (t) and producing the output signal O(t) as the sum of these digital correlations.
  - 11. A sampler as in claim 7 wherein S(t) is substantially constant, whereby the sampler functions as a fast optical pulse generator.
  - 12. A sampler as in claim 4 wherein the coded switched electrode travelling wave modulator is of the Mach-Zehnder type.
  - 13. A sampler as in claim 4 wherein each optical path contains a Mach-Zehnder modulator and each of these optical paths has its output coupled to a common optical output to produce the output signal as the sum of the output signals from these optical paths.
  - 14. A sampler as in claim 4 wherein the travelling wave modulator has a single optical input path that branches into R optical paths that merge at a common optical output, each branch having its own associated set of coded switched electrodes, the rth such branch coded with the code (P^r₁, . . . P^r_R-1).
  - 15. A sampler as in claim 12 wherein R=2 and wherein the electrode configurations and the bias voltages produce a push-pull relationship between these two optical paths so that a voltage signal applied to the electrodes produces a phase shift in one optical path that is minus the phase shift in the other.
  - 16. A sampler as in claim 15 wherein the travelling wave modulator has a geometric bias that introduces an additional constant phase offset between the two branches.
  - 17. A sampler as in claim 15 wherein the travelling wave modulator has an electrical bias that introduces an additional constant phase offset between the two branches.
  - 18. A sampler as in claim 15 wherein the Mach-zehnder modulator has two optical paths that, in response to an electrical signal at the coded switched electrode, are in a push-pull phase shift relationship, and that have an additional phase offset of an odd multiple of π
    - /2, whereby the output signal O(t) is a substantially linear function of the applied voltage and optical signals.
  - 19. A sampler as in claim 15 wherein the Mach-Zehnder modulator has two optical paths that, in response to an electrical signal at the coded switched electrode, are in a push-pull phase shift relationship, and that have an additional phase offset of an even multiple of π
    - /2, whereby the portion of the output signal O(t) is suppressed that arises from sidelobes in the correlation ##EQU15##

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Current Assignee
Hewlett-Packard Company (HP Inc.)
Original Assignee
Hewlett-Packard Company (HP Inc.)
Inventors
Nazarathy, Moshe, Dolfi, David W., Kolner, Brian H.
Primary Examiner(s)
RUGGIERO, JOSEPH F

Application Number

US07/043,506
Time in Patent Office

791 Days
Field of Search

364/822, 364/807, 364/845, 364/728, 364/604, 350/96.12, 350/96.13, 350/96.14, 350/162.12, 350/162.13, 350/162.14, 356/345, 356/349, 356/351, 455/600, 455/609-612, 332/7.51
US Class Current

708/816
CPC Class Codes

G01R 23/17 with optical or acoustical ...

G02F 1/2255 controlled by a high-freque...

Distributed sampling of electrical and optical signals using coded switched electrode travelling wave modulators

First Claim

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Abstract

22 Citations

19 Claims

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Distributed sampling of electrical and optical signals using coded switched electrode travelling wave modulators

First Claim

1 Assignment

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Accused Products

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Abstract

22 Citations

19 Claims

Specification

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Solutions

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