Distributed sensor array and method using a pulsed signal source

US 4,770,535 A
Filed: 06/23/1986
Issued: 09/13/1988
Est. Priority Date: 02/08/1985
Status: Expired due to Term

First Claim

Patent Images

1. An apparatus for remotely sensing environmental effects comprising:

a source of pulsed optical signals;

a first optical waveguide optically coupled to the signal source;

an environmentally sensitive waveguide segment optically coupled to the first optical waveguide,said sensitive segment influencing optical signals propagating within said sensitive segment in response to particular environmental conditions;

a second optical waveguide optically coupled to the first optical waveguide in a configuration such that the second optical waveguide and theenvironmentally sensitive waveguide segment form at least portions of arms of a first unbalanced interferometer; and

a second unbalanced interferometer optically coupled to the first unbalanced interferometer for receiving optical signals from said first interferometer, wherein the second interferometer provides a pair of optical paths having an optical path length difference which substantially matches an optical path length difference defined by the first interferometer, such that the second interferometer combines optical signals received from the first interferometer to form a phase difference output signal representative of environmental influence on the environmetally sensitive waveguide segment.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A distributed sensor system using pulsed optical signals optionally produced by a short coherence length source to provide a phase difference output signal representative of conditions affecting a selected sensor. In one preferred embodiment, an array of fiber-optic sensors are organized in a ladder configuration, with the sensors positioned in spaced relation and defining the rungs of the ladder. Light pulses transmitted through the sensors are multiplexed onto a return arm of the ladder. The multiplexed signals are received by an optical fiber compensating interferometer which coherently couples portions of adjacent multiplexed light signals to produce a phase difference signal representing conditions influencing selected sensors. In other preferred embodiments, the system is configured to define a plurality of adjacent Mach-Zehnder interferometers which provide output signal pairs which coherently couple to yield a phase difference signal directly representing the environmental effects on a particular sensor. Functional equivalents of the Mach-Zehnder interferometer configurations comprise configurations including adjacent Michelson interferometers. A phase and amplitude modulation technique is disclosed for providing heterodyned output signals from the distributed sensor system.

100 Citations

View as Search Results

28 Claims

1. An apparatus for remotely sensing environmental effects comprising:
- a source of pulsed optical signals;
  
  a first optical waveguide optically coupled to the signal source;
  
  an environmentally sensitive waveguide segment optically coupled to the first optical waveguide,said sensitive segment influencing optical signals propagating within said sensitive segment in response to particular environmental conditions;
  
  a second optical waveguide optically coupled to the first optical waveguide in a configuration such that the second optical waveguide and theenvironmentally sensitive waveguide segment form at least portions of arms of a first unbalanced interferometer; and
  
  a second unbalanced interferometer optically coupled to the first unbalanced interferometer for receiving optical signals from said first interferometer, wherein the second interferometer provides a pair of optical paths having an optical path length difference which substantially matches an optical path length difference defined by the first interferometer, such that the second interferometer combines optical signals received from the first interferometer to form a phase difference output signal representative of environmental influence on the environmetally sensitive waveguide segment.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. An apparatus for remotely sensing environmental effects as defined in claim 1, wherein the environmentally sensitive waveguide segment comprises a portion of the first optical waveguide.
  - 3. An apparatus for remotely sensing environmental effects as defined in claim 2, wherein the first interferometer comprises a third optical waveguide optically coupled to the first waveguide at a location such that the environmentally sensitive waveguide is located between the coupling locations of the second and third waveguides.
  - 4. An apparatus for remotely sensing environmental effects as defined in claim 3, further comprising a fourth optical waveguide optically coupled to extend between ends of the second and third waveguides which are opposite from the ends coupled to the first waveguide, and wherein the first interferometer defines a first optical path through the second waveguide, and a second optical path through the environmentally sensitive waveguide segment, and the third and fourth waveguides.
  - 5. An apparatus for remotely sensing environmental effects as defined in claim 4, wherein the optical signals combined in the second interferometer include only one optical signal which propagated through the environmentally sensitive waveguide segment, thereby making the phase difference output signal directly representative of environmental conditions influencing said optical signal as it propagated through said environmentally sensitive waveguide segment.
  - 6. An apparatus for remotely sensing environmental effects as defined in claim 1, wherein the source of pulsed optical signals comprises a short coherence length light source.

7. An apparatus for remotely sensing environmental effects comprising:
- a source of pulsed optical signals;
  
  means defining a first optical path of a first length for carrying a portion of a pulsed optical signal;
  
  means defining a second optical path of a second length which is different than the first length for carrying another portion of said pulsed optical signal;
  
  means defining a third optical path for carrying optical signals received from the first and second paths;
  
  means defining a fourth optical path for carrying optical signals received from the third optical path;
  
  means defining a fifth optical path of a length differing from a length of the fourth optical path in an amount substantially equal to the difference between said first and second lengths for carrying optical signals received from the third optical path;
  
  wherein at least a portion of at least one of the means defining the first, second, fourth and fifth optical paths comprises a selected sensing region which is sensitive to an environmental effect and influences optical signals propagating in said sensing region in response to said environmental effect; and
  
  means for combining and interfering coherent components of a pair of optical signals, one of said pair of optical signals being from the fourth optical path and the other of said pair of optical signals being from the fifth optical path, wherein only one of said pair of optical signals has propagated through said selected sensing region, thereby providing an output signal representative of the environmental effect which influenced said one of said pair of optical signals that propagated through the selected sensing region.
- View Dependent Claims (8, 9, 10, 11, 12, 13)
- - 8. An apparatus for remotely sensing environmental effects as defined in claim 7, wherein the source of pulsed optical signals comprises a short coherence length light source.
  - 9. An apparatus for remotely sensing environmental effects as defined in claim 7, further comprising means for controlling the source of pulsed optical signals so that optical signals received on the third optical path from a first optical pulse from said signal source do not interfere with optical signals received on the third optical path from a second optical pulse from said signal source.
  - 10. An apparatus for remotely sensing environmental effects as defined in claim 9, further comprising means for synchronizing production of said pulsed optical signals so that a last signal reaching the fourth and fifth optical paths from a first pulsed optical signal is spaced from a first signal reaching the fourth and fifth optical paths from a second pulsed optical signal by an amount permitting said last and first signals to be combined in said combining means to obtain a phase difference output signal between those signals and to provide for a substantially continuous duty cycle in apparatus operation.
  - 11. An apparatus for remotely sensing environmental effects as defined in claim 7, wherein the means defining first and second optical paths comprise arms of an interferometer which receives a signal optical pulse signal from the signal source, and which provides a corresponding pair of optical signals to the third optical path;
    - wherein the means defining fourth and fifth optical paths comprise arms of another interferometer, with a portion of one of said arms comprising the sensing region; and
      
      wherein the combining means comprises an optical coupler joining an output end of each of the arms of said another interferometer to provide a coupled, pulsed output signal comprising the combination of said coherent components of said pair of optical signals from said fourth and fifth optical paths and representing environmental effects which influenced said one of said pair of optical signals that propagated through the selected sensing region.
  - 12. An apparatus for remotely sensing environmental conditions as defined in claim 7, further comprising:
    - a detector optically coupled to the second interferometer for forming an output which corresponds to the phase difference of the combined coherent components of said pair of optical signals from said fourth and fifth optical paths; and
      
      a circuit for amplitude modulating the output to produce a first signal having selected harmonics which contain both sine and cosine components of the output, thereby providing for analysis of the output signal to identify environment effects influencing the first and second light paths.
  - 13. An apparatus for remotely sensing environmental conditions as defined in claim 12 further comprising:
    - a signal generator for providing a phase modulation signal at a selected modulation frequency;
      
      a phase modulator, responsive to the signal generator for phase modulating the light waves in one of the first, second, fourth and fifth optical paths at the selected modulation frequency; and
      
      wherein the circuit functions to amplitude modulate the output at the selected modulation frequency.

14. An apparatus for remotely sensing environmental effects comprising:
- a source of pulsed optical signals;
  
  a first optical waveguide optically coupled to the signal source, with at least one portion of the first optical waveguide comprising a sensing region which is sensitive to an environmental effect and which influences optical signals propagating in said sensing region in response to said environmental effect;
  
  a second optical waveguide optically coupled at one end to the first optical waveguide;
  
  a third optical waveguide optically coupled at one end to the first optical waveguide at a location on the first optical waveguide separated from the coupling location of the second optical waveguide by the sensing region;
  
  a fourth optical waveguide optically coupled to other ends of said second and third optical waveguides, such that the first, second, third and fourth waveguides define a first optical interferometer forming a first optical signal path carrying a portion of a pulsed optical signal from the first waveguide through said second waveguide to the fourth waveguide and a second optical signal path carrying another portion of said pulsed optical signal through the sensing region and the third waveguide to the fourth waveguide; and
  
  a second optical interferometer optically coupled to receive the pulsed optical signals from the fourth waveguide,wherein the second optical interferometer includes waveguides defining third and fourth optical signal paths for carrying portions of each of said pulsed optical signals, and wherein the third and fourth optical signal path length difference is substantially equal to the first and second optical signal path length difference so that pulsed optical signals in the second interferometer which have traveled substantially identical path lengths are coupled and interfere to provide an optical output signal representative of the environmental effects which influenced the optical signal that propagated through the sensing region.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. An apparatus for remotely sensing environmental effects as defined in claim 14, wherein the optical output signal comprises the phase difference of the coupled interfering pulsed optical signals, said phase difference representative of environmental effects influencing that optical signal which propagated through the sensing region.
  - 16. An apparatus for remotely sensing environmental effects as defined in claim 14, further comprising:
    - a plurality of sensing regions located in spaced relation in the first optical waveguide, each of said sensing regions being sensitive to an environmental effect so as to influence optical signals propagating in said sensing region in response to said environmental effect;
      
      a plurality of optical waveguide segments, with each said optical waveguide segment coupled at one end to the first optical waveguide at locations separated by at least one sensing region from other optical waveguide segments, and with each said optical waveguide coupled at its other end to the fourth optical waveguide, whereby each adjacent pair of optical waveguide segments respectively comprise at least a portion of a pair of arms of an unbalanced optical interferometer defining an optical path length difference which substantially matches the path length difference of the first and second optical signal paths so that optical signals from each of the unbalanced optical interferometers are combined, at different times for each interferometer, in the second optical interferometer to form phase difference signals representative of environmental influence on the sensing region of the corresponding unbalanced interferometer.
  - 17. An apparatus for remotely sensing environmental conditions as defined in claim 14, further comprising:
    - a detector optically coupled to the second interferometer, said detector forming an output which corresponds to the phase difference of the coupled interfering pulsed optical signals; and
      
      a circuit for amplitude modulating the output to produce a first signal having selected harmonics which contain both sine and cosine components of the output, thereby providing for analysis of the output signal to indentify environmental effects influencing the first and second optical signal paths.
  - 18. An apparatus for remotely sensing environmental conditions as defined in claim 17 further comprising:
    - a signal generator for providing a phase modulation signal at a selected modulation frequency;
      
      a phase modulator, responsive to the signal generator for phase modulating the light waves in the second interferometer at the selected modulation frequency; and
      
      wherein the circuit functions to amplitude modulate the output at the selected modulation frequency.
  - 19. An apparatus for remotely sensing environmental effects as defined in claim 14, wherein the source of pulsed optical signals comprises a short coherence length light source.

20. A distributed sensor system comprising:
- a source of pulsed optical signals;
  
  a plurality of fiber-optic sensing interferometers, each sensing interferometer defining a pair of optical paths, and at least a portion of each said interferometer having light transmission characteristics which vary in response to environmental conditions, which each said sensing interferometer having input and output terminals which are optically coupled together to form a ladder network, said input terminals being opically coupled to the light source; and
  
  at least one fiber-optic compensating interferometer optically coupled to the output terminals of the sensing interferometers and defining a pair of optical paths whose optical path length difference substantially matches an optical path length difference of the pair of optical paths in a selected sensing interferometer, such that portions of a pulsed optical signal transmitted from the optical signal source through the sensor system will couple and interfere at an output of the compensating interferometer to provide an optical signal representative of conditions causing change in light transmission characteristics of said selected sensing interferometer.
- View Dependent Claims (21, 22)
- - 21. A distributed sensor system as defined in claim 20, wherein the light source comprises an optical source having a short coherence length.
  - 22. A distributed sensor system as defined in claim 20, wherein the path length difference between the pair of optical paths in each sensing interferometer substantially equals the optical path length difference between the pair of optical paths in the compensating interferometer.

23. An apparatus for remotely sensing environmental effects comprising:
- a source of pulsed optical signals;
  
  a first optical waveguide optically coupled to the signal source, with at least one portion of the optical waveguide comprising a sensing region which is sensitive to an environmental effect and which influences optical signals propagating in said sensing region in response to said environmental effect;
  
  second and third optical waveguides optically coupled at one end on either side of the sensing region to the first optical waveguide;
  
  means optically coupled to the other ends of each of said second and third optical waveguides for reflecting optical signals from said second and third waveguide back into said second and third waveguide, such that the first, second and third waveguides and reflecting means define a first optical interferometer forming a first optical signal path carrying a portion of a pulsed optical signal from the first optical waveguide into the second optical waveguide until reflected back into the first waveguide, and forming a second optical signal path carrying a portion of said pulsed optical signal through the sensing region and into the third waveguide untilreflected back through the sensing region into the first waveguide; and
  
  a second optical interferometer optically coupled to receive the reflected pulsed optical signals from the first waveguide, wherein the second optical interferometer includes waveguides defining third and fourth optical signal paths for carrying portions of each of said reflected, pulsed optical signals, and wherein the third and fourth optical signal paths are substantially equal in length, respectively, to the first and second optical signal paths so that pulsed optical signals in the second interferometer which have traveled substantially equal path lengths are coupled and interfere to provide an optical output signal representative of the environmental effects which influenced the optical signal that propagated through the sensing region.
- View Dependent Claims (24, 25)
- - 24. A distributed sensor system as defined in claim 23 wherein the first interferometer is configured to define a Michelson interferometer and the second interferometer is configured to define a Mach-Zehnder interferometer.
  - 25. An appartus for remotely sensing environmental effects as defined in claim 23 wherein the source of pulsed optical signals comprise a short coherence length light source.

26. A distributed sensor system comprising:
- a source of pulsed optical signals;
  
  a first optical waveguide optically coupled to the pulsed optical signal source;
  
  at least one Michelson interferometer defining first and second optical paths and optically coupled to the first optical waveguide to receive at least a portion of a pulsed optical signal and to return a corresponding pair of pulsed optical signals to the first optical waveguide; and
  
  another optical interferometer optically coupled to receive said pair of pulsed optical signals from the first waveguide, wherein said another interferometer includes waveguides defining third and fourth optical signal paths for carrying portions of said pair of optical signals, and wherein the third and fourth signal paths are substantially equal in length, respectively, to the first and second optical signal paths so that pulsed optical signals in said another interferometer which have traveled substantially equal path lengths are coupled and interfere to provide an optical output signal representative of the environmental effects which influenced the optical signal that propagated through the sensing region.
- View Dependent Claims (27, 28)
- - 27. A distributed sensor system as defined in claim 26 wherein said another interferometer comprises a Mach-Zehnder interferometer.
  - 28. An apparatus for remotely sensing environmental effects as defined in claim 26 wherein the source of pulsed optical signals comprise a short coherence length light source.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Board of Trustees of the Leland Stanford Junior University (Stanford Management Co.)
Original Assignee
Board of Trustees of the Leland Stanford Junior University (Stanford Management Co.)
Inventors
Tur, Moshe, Fesler, Kenneth A., Shaw, Herbert J., Kim, Byoung Y., Brooks, Janet L.
Primary Examiner(s)
Willis, Davis L.
Assistant Examiner(s)
Koren, Matthew W.

Application Number

US06/877,296
Time in Patent Office

813 Days
Field of Search

356/345, 250/227
US Class Current

356/478
CPC Class Codes

G01D 5/35383 using multiple sensor devic...

Distributed sensor array and method using a pulsed signal source

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

100 Citations

28 Claims

Specification

Use Cases

Quick Links

Others

Distributed sensor array and method using a pulsed signal source

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

100 Citations

28 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others