- Document Number:
20240302230
- Appl. No:
18/588592
- Application Filed:
February 27, 2024
- Abstract:
A fiber Bragg grating sensor arrangement includes a resonant cavity light emitting diode for outputting light; a fiber having a first end disposed to receive light output from the resonant cavity light emitting diode, the fiber including fiber Bragg grating etched at one or more locations along a length thereof. A strain mount or beam supports the fiber and to which the fiber is attached or bonded. A light detection circuit disposed at a second end of the fiber receives light traveling through the fiber, the light detection circuit sensing intensity of the received light that corresponds to strain or force applied to the fiber that is bonded to the strain mount. Another fiber Bragg grating sensor arrangement includes a second reference fiber that does not receive a force or strain. The reference fiber provides an output used to prevent temperature/humidity from affecting the output of the FBG sensor arrangement.
- Claim:
1. A fiber Bragg grating sensor arrangement comprising: a resonant cavity light emitting diode for outputting light; a fiber having a first end disposed to receive light output from the resonant-cavity light emitting diode, the fiber including fiber Bragg grating etching; a bonding agent coupling the fiber to a subject of measurement; and a light detection circuit disposed at a second end of the fiber for receiving light traveling through the fiber, the light detection circuit for sensing intensity of the received light that corresponds to strain or force applied to the subject of measurement.
- Claim:
2. The fiber Bragg grating sensor arrangement of claim 1, wherein the light detection circuit includes a power source, a photodetector, and an operational amplifier.
- Claim:
3. The fiber Bragg grating sensor arrangement of claim 1, wherein the fiber Bragg grating sensor arrangement is free from an optical circulator.
- Claim:
4. The fiber Bragg grating sensor arrangement of claim 1, wherein the fiber is a single-mode fiber.
- Claim:
5. The fiber Bragg grating sensor arrangement of claim 1, wherein the fiber is a multimode fiber.
- Claim:
6. The fiber Bragg grating sensor arrangement of claim 1, wherein the fiber is mounted to a pylon for sensing strain thereon.
- Claim:
7. The fiber Bragg grating sensor arrangement of claim 1, wherein the fiber is mounted to a bridge support for sensing strain thereon.
- Claim:
8. The fiber Bragg grating sensor arrangement of claim 1, wherein the bonding agent is an adhesive securing a length of the fiber to the subject.
- Claim:
9. The fiber Bragg grating sensor arrangement of claim 1, wherein the bonding agent is a cement bonding the fiber to the subject formed by the cement.
- Claim:
10. A fiber Bragg grating sensor arrangement comprising: a resonant cavity light emitting diode for outputting light; a fiber having a first end disposed to receive light output from the resonant cavity light emitting diode, the fiber including fiber Bragg grating etching; a bonding agent coupling the fiber to a subject of measurement; a light detection circuit disposed at a second end of the fiber for receiving light traveling through the fiber, the light detection circuit for sensing intensity of the received light that corresponds to strain or force applied to the subject of measurement; a reference fiber having a first end disposed to receive light output from the resonant cavity light emitting diode; and a reference light detection circuit disposed at a second end of the reference fiber for receiving light traveling through the reference fiber, the reference light detection circuit for sensing intensity of the received light that corresponds to no strain or force applied to the reference fiber.
- Claim:
11. The fiber Bragg grating sensor arrangement of claim 10, further comprising: a reference unit for receiving a light intensity signal from the light detection circuit and a light intensity signal from the reference light detection circuit, the reference unit determining the tensile, force or strain based on a comparison of the light intensity signal from the light detection circuit and the light intensity signal of the reference light detection circuit.
- Claim:
12. The fiber Bragg grating sensor arrangement of claim 11, wherein the light detection circuit includes a power source, a photodetector, and an amplifier.
- Claim:
13. The fiber Bragg grating sensor arrangement of claim 11, wherein the fiber Bragg grating sensor arrangement is free from an optical circulator.
- Claim:
14. The fiber Bragg grating sensor arrangement of claim 11, wherein the fiber is a single-mode fiber.
- Claim:
15. The fiber Bragg grating sensor arrangement of claim 14, wherein the reference fiber is a single-mode fiber, and the reference fiber includes fiber Bragg grating etching.
- Claim:
16. The fiber grating sensor arrangement of claim 12, wherein the reference fiber is a single-mode fiber, and the reference fiber is free from fiber Bragg grating etching.
- Claim:
17. The fiber Bragg grating sensor arrangement of claim 10, wherein the bonding agent is an adhesive securing a length of the fiber to the subject.
- Claim:
18. The fiber Bragg grating sensor arrangement of claim 10, wherein the bonding agent is a cement bonding the fiber to the subject formed by the cement.
- Claim:
19. The fiber Bragg grating sensor arrangement of claim 11, wherein the fiber is a multimode fiber.
- Current International Class:
01
- Accession Number:
edspap.20240302230
Processing Request
No Comments.