Distributed multiplexed optical fiber Bragg grating sensor arrangeement

US 4,996,419 A
Filed: 12/26/1989
Issued: 02/26/1991
Est. Priority Date: 12/26/1989
Status: Expired due to Term

First Claim

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1. An arrangement for determining the magnitudes of selected physical quantities at a multitude of spaced locations, comprisingan elongated optical fiber having a waveguiding core and including a multitude of separate longitudinally spaced Bragg sensing gratings of substantially identical initial periodicity for all of said sensing gratings, each of said sensing gratings being situated at a different one of the locations;

means for applying to said optical fiber longitudinal stresses the magnitude of which at each of the locations is dependent on the extent of deviation of the magnitude of the respective physical quantity being monitored at that particular location from its initial value, with attendant change in said periodicity;

means for launching light pulses into said core for propagation longitudinally thereof and for return from any of said sensing gratings of a detectable light echo at a central wavelength determined by instantaneous value of said periodicity of the respective sensing grating when the wavelength of the light reaching said respective sensing grating at least momentarily coincides with said central wavelength thereof;

means for so controlling the wavelength at which said launching means issues light as to coincide, at different times of a detection cycle, with at least all of said central wavelengths at which said sensing gratings return said echoes within the range of longitudinal stresses expected to be applied to said gratings by said applying means;

means for conducting said light echoes to a detecting location spaced from said optical fiber;

means for detecting said light echoes as they arrive at said detecting location and for issuing a series of detection signals in response thereto; and

means for allocating said detection signals to the respective sensing gratings on the basis of time intervals elapsed between the issuance of the respective light pulses and the arrival of said echoes responsive thereto at said detecting means, and to the respective longitudinal stresses applied by said applying means to said respective sensing gratings on the basis of the respective wavelengths of said light pulses in response to which said respective gratings return said echoes.

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Abstract

An arrangement for determining the magnitudes of selected physical quantities at a multitude of spaced locations includes an elongated optical fiber having a multitude of separate longitudinally spaced Bragg sensing gratings of substantially identical initial periodicity situated at such locations. Light pulses are launched into the core for propagation longitudinally thereof and for return from any of the sensing gratings of a detectable light echo at a central wavelength determined by the instantaneous value of the periodicity of the respective sensing grating that depends on the longitudinal stress applied to such grating as a result of the action of the physical quantity being monitored at the location of such grating. The light echoes are detected and allocated to the respective sensing gratings on the basis of time intervals elapsed between the issuance of the respective light pulses and the arrival of the echoes responsive thereto, and to the respective longitudinal stresses applied to the respective sensing gratings on the basis of the respective wavelengths of the echoes returned from the respective gratings.

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13 Claims

1. An arrangement for determining the magnitudes of selected physical quantities at a multitude of spaced locations, comprisingan elongated optical fiber having a waveguiding core and including a multitude of separate longitudinally spaced Bragg sensing gratings of substantially identical initial periodicity for all of said sensing gratings, each of said sensing gratings being situated at a different one of the locations;
- means for applying to said optical fiber longitudinal stresses the magnitude of which at each of the locations is dependent on the extent of deviation of the magnitude of the respective physical quantity being monitored at that particular location from its initial value, with attendant change in said periodicity;
  
  means for launching light pulses into said core for propagation longitudinally thereof and for return from any of said sensing gratings of a detectable light echo at a central wavelength determined by instantaneous value of said periodicity of the respective sensing grating when the wavelength of the light reaching said respective sensing grating at least momentarily coincides with said central wavelength thereof;
  
  means for so controlling the wavelength at which said launching means issues light as to coincide, at different times of a detection cycle, with at least all of said central wavelengths at which said sensing gratings return said echoes within the range of longitudinal stresses expected to be applied to said gratings by said applying means;
  
  means for conducting said light echoes to a detecting location spaced from said optical fiber;
  
  means for detecting said light echoes as they arrive at said detecting location and for issuing a series of detection signals in response thereto; and
  
  means for allocating said detection signals to the respective sensing gratings on the basis of time intervals elapsed between the issuance of the respective light pulses and the arrival of said echoes responsive thereto at said detecting means, and to the respective longitudinal stresses applied by said applying means to said respective sensing gratings on the basis of the respective wavelengths of said light pulses in response to which said respective gratings return said echoes.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The arrangement as defined in claim 1, wherein said launching means includes a tunable laser;
    - and wherein said controlling means includes a variable grating of the same type, and of substantially the same initial periodicity, as said sensing gratings and interposed between said laser and said sensing gratings, and means for applying selectively varying longitudinal stresses to said variable grating with attendant changes in said periodicity thereof and thus in the instantaneous central wavelength at which said variable grating returns said echoes to said tunable laser to cause said wavelength issued by the latter to coincide with said instantaneous central wavelength of said variable grating.
  - 3. The arrangement as defined in claim 2, wherein said core of said optical fiber has an input portion that incorporates said variable grating.
  - 4. The arrangement as defined in claim 3, wherein said conducting means includes an auxiliary optical fiber coupled to said optical fiber between said variable grating and said sensing gratings and leading to said detecting means.
  - 5. The arrangement as defined in claim 1, wherein said allocating means includes means for displaying the information contained in said detection signals in respective grid rows and columns that are associated with said sensing gratings and quantities.
  - 6. The arrangement as defined in claim 5, wherein said allocating means includes means for demultiplexing said detection signals on the basis of said time intervals and wavelengths, and means for supplying the demultiplexed detection signals to said displaying means.
  - 7. The arrangement as defined in claim 1, wherein said sensing gratings are embedded in said core.

8. An arrangement for determining stresses in a structure, comprising:
- an elongated optical fiber having a core including a multitude of separate longitudinally spaced embedded sensing gratings constituted by periodic refractive index variations of substantially identical initial periodicity for all of said sensing gratings, said sensing gratings being situated at spaced regions of the structure and so attached to the latter that structural stresses at each of said regions are transmitted to that of said sensing gratings that is situated thereat with attendant change in said periodicity;
  
  means for launching light pulses into said core for propagation longitudinally thereof and for return from any of said sensing gratings of a detectable light echo at a central wavelength determined by instantaneous value of said periodicity of the respective sensing grating when the wavelength of the light reaching said respective sensing grating at least momentarily coincides with said central wavelength thereof;
  
  means for so controlling the wavelength at which said launching means issues light as to coincide, at different times of a detection cycle, with at least all of said central wavelengths at which said sensing gratings return said echoes under all expected structural stresses;
  
  means for conducting said light echoes to a detecting location spaced from said optical fiber;
  
  means for detecting said light echoes as they arrive at said detecting location and for issuing a series of detection signals in response thereto; and
  
  means for allocating said detection signals to the respective sensing gratings on the basis of time intervals elapsed between the issuance of the respective light pulses and the arrival of said echoes responsive thereto at said detecting means, and to the respective structural stresses then existing at said regions associated with said respective sensing gratings on the basis of the respective wavelengths of said light pulses in response to which said respective gratings return said echoes.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The arrangement as defined in claim 8, wherein said launching means includes a tunable laser;
    - and wherein said controlling means includes a variable grating of the same type, and of substantially the same initial periodicity, as said sensing gratings and interposed between said laser and said sensing gratings, and means for applying selectively varying longitudinal stresses to said variable grating with attendant changes in said periodicity thereof and thus in the instantaneous central wavelength at which said variable grating returns said echoes to said tunable laser to cause said wavelength issued by the latter to coincide with said instantaneous central wavelength of said variable grating.
  - 10. The arrangement as defined in claim 9, wherein said core of said optical fiber has an input portion that incorporates said variable grating.
  - 11. The arrangement as defined in claim 10, wherein said conducting means includes an auxiliary optical fiber coupled to said optical fiber between said variable grating and said sensing gratings and leading to said detecting means.
  - 12. The arrangement as defined in claim 8, wherein said allocating means includes means for displaying the information contained in said detection signals in respective grid rows and columns that are associated with said sensing gratings and stresses.
  - 13. The arrangement as defined in claim 12, wherein said allocating means includes means for demultiplexing said detection signals on the basis of said time intervals and wavelengths, and means for supplying the demultiplexed detection signals to said displaying means.

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Current Assignee
United Technologies Corporation (Raytheon Technologies Corporation d/b/a RTX)
Original Assignee
United Technologies Corporation (Raytheon Technologies Corporation d/b/a RTX)
Inventors
Morey, William W.
Primary Examiner(s)
Nelms, David C.
Assistant Examiner(s)
Allen, Stephone B.

Application Number

US07/456,441
Time in Patent Office

427 Days
Field of Search

250/227.23, 250/227.14, 250/227.18, 250/231.10, 73/800, 356/32
US Class Current

250/227.18
CPC Class Codes

G01D 5/35383 using multiple sensor devic...

G01L 1/246 using integrated gratings, ...

Distributed multiplexed optical fiber Bragg grating sensor arrangeement

First Claim

1 Assignment

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Abstract

189 Citations

13 Claims

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Distributed multiplexed optical fiber Bragg grating sensor arrangeement

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

189 Citations

13 Claims

Specification

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Solutions

Use Cases

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