Optical time domain reflectometry
First Claim
1. Optical time domain reflectometry apparatus, for sensing a parameter to be measured in a region of interest, which apparatus comprises:
- an optical fibre;
source means operable to launch optical radiation into the optical fibre at a probe wavelength; and
detection means operable to produce electrical output signals in response to optical radiation backscattered from the optical fibre;
characterised in that the optical fibre comprises a first section, into which the optical radiation at the probe wavelength is launched, and a second section deployed in the region of interest, the first section having a higher intensity threshold for the onset of non-linear effects than the second section, the said source means being operable to launch optical radiation at the probe wavelength into the first section at an intensity lower than the non-linear effects intensity threshold of the first section but higher than the non-linear effects intensity threshold of the second section, the attenuation characteristics of the first section being chosen such that the intensity of the optical radiation at the probe wavelength reaching the second section is below the threshold for the onset of non-linear effects of the second section.
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Abstract
An optical time domain reflectometry apparatus for sensing a parameter in a region of interest is characterized in that the optical fiber includes a first section into which optical radiation at the probe wavelength is launched and a second section deployed in the region of interest. The first section has a higher intensity threshold for the onset of non-linear effects than the second section. The source launches the optical radiation into the first section at an intensity lower than the non-linear effects intensity threshold of the first section but higher than the non-linear effects intensity threshold of the second section. The attenuation characteristics of the first section are chosen such that the intensity of the optical radiation at the probe wavelength that reaches the second section is below the threshold for the onset of non-linear effects of the second section.
26 Citations
7 Claims
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1. Optical time domain reflectometry apparatus, for sensing a parameter to be measured in a region of interest, which apparatus comprises:
- an optical fibre;
source means operable to launch optical radiation into the optical fibre at a probe wavelength; and
detection means operable to produce electrical output signals in response to optical radiation backscattered from the optical fibre;
characterised in that the optical fibre comprises a first section, into which the optical radiation at the probe wavelength is launched, and a second section deployed in the region of interest, the first section having a higher intensity threshold for the onset of non-linear effects than the second section, the said source means being operable to launch optical radiation at the probe wavelength into the first section at an intensity lower than the non-linear effects intensity threshold of the first section but higher than the non-linear effects intensity threshold of the second section, the attenuation characteristics of the first section being chosen such that the intensity of the optical radiation at the probe wavelength reaching the second section is below the threshold for the onset of non-linear effects of the second section.
- an optical fibre;
- 2. An optical time domain reflectometry method of sensing a parameter to be measured in a region of interest, which method comprises launching optical radiation at a probe wavelength into an optical fibre and producing electrical output signals in response to optical radiation backscattered from the optical fibre, characterised in that the optical fibre comprises first and second sections, the second section having a lower intensity threshold for the onset of non-linear effects than the first section, the second section being deployed in the region of interest and optical radiation at the probe wavelength being launched into the first section at an intensity lower than the non-linear effects intensity threshold of the first section but higher than the non-linear effects intensity threshold of the second section, the attenuation characteristics of the first section being chosen so that the intensity of the optical radiation at the probe wavelength reaching the second section is below that of the non-linear effects intensity threshold of the second section.
Specification