Cutback technique: Difference between revisions
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In [[telecommunication]], a '''cutback technique''' is a destructive technique for determining certain [[optical fiber]] [[transmission (telecommunications)|transmission]] characteristics, such as [[attenuation]] and [[bandwidth]], by (a) performing the desired measurements on a long length of the fiber under test, (b) cutting the fiber under test at a point near the launching end, (c) repeating the measurements on the short length of fiber, and (d) subtracting the results obtained on the short length to determine the results for the residual long length. |
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In [[telecommunications]], a '''cutback technique''' is a destructive technique for determining certain [[optical fiber]] [[transmission characteristic]]s, such as [[attenuation (electromagnetic radiation)|attenuation]] and [[Bandwidth (computing)|bandwidth]]. |
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==Procedure== |
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The cut should not be made less than 1 meter from the launch end. However, cutting the fiber so close to the launch end (in a multimode fiber) will introduce errors in the measurements because at that point, modal equilibrium conditions have not been established. The errors so introduced will result in conservative results (<i>i.e.</i>, higher transmission losses and lower bandwidths) than would be realized under equilibrium conditions. |
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The measurement technique consists of: |
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#performing the desired measurements on a long length of the fiber under test, |
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#cutting the fiber under test at a point near the launching end, |
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#repeating the measurements on the short length of fiber, and |
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#subtracting the results obtained on the short length to determine the results for the residual long length. |
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The cut should be made to retain 1 meter or more of the fiber, in order to establish [[equilibrium mode distribution]] conditions for the second measurement. In a [[multimode fiber]], the lack of an equilibrium mode distribution could introduce errors in the measurement due to output coupling effects. In a [[single-mode fiber]], measuring a shorter cutback fiber could result in significant transmission of cladding modes (light carried in the cladding rather than the core of the optical fiber), distorting the measurement. The errors introduced will result in conservative results (''i.e.'', higher transmission losses and lower bandwidths) than would be realized under equilibrium conditions. |
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== Benefits == |
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| ⚫ | A variation of the cutback technique is the [[substitution method]], in which measurements are made on a full |
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The benefit of this technique is that it allows measurement of the fiber characteristics without introducing errors due to variation in the launch conditions. For example, the [[Coupling loss|coupling efficiency]] of the light source is kept consistent between the initial and the cutback measurements. |
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== Attenuation measurement == |
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Since the attenuation is defined as proportional to the logarithm of the ratio between <math>P(x)</math> and <math>P(y)</math>, where <math>P</math> is the [[Radiant power|power]] at point <math>x</math> and <math>y</math> respectively. Using the cutback technique, the power transmitted through a fiber of known length is measured and compared with the same measurement for the same fiber cut to a length of <math>2m</math> approximately. |
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== Related techniques == |
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| ⚫ | A variation of the cutback technique is the [[substitution method]], in which measurements are made on a full-length of fiber, and then on a short length of fiber having the same characteristics ([[Fiber optics#Principle of operation|core]] size, [[numerical aperture]]), with the results from the short length being subtracted to give the results for the full length. |
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==References== |
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{{FS1037C}} |
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==External links== |
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*[https://web.archive.org/web/20080517011112/http://electron9.phys.utk.edu/optics421/modules/m9/optical_fiber_measurements.htm Optical Fiber Measurements] |
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[[Category:Telecommunications]] |
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[[Category:Fiber optics]] |
[[Category:Fiber optics]] |
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Latest revision as of 20:44, 13 September 2021
 | This article includes a list of references, related reading, or external links, but its sources remain unclear because it lacks inline citations. (January 2013) |
In telecommunications, a cutback technique is a destructive technique for determining certain optical fiber transmission characteristics, such as attenuation and bandwidth.
Procedure
[edit]The measurement technique consists of:
- performing the desired measurements on a long length of the fiber under test,
- cutting the fiber under test at a point near the launching end,
- repeating the measurements on the short length of fiber, and
- subtracting the results obtained on the short length to determine the results for the residual long length.
The cut should be made to retain 1 meter or more of the fiber, in order to establish equilibrium mode distribution conditions for the second measurement. In a multimode fiber, the lack of an equilibrium mode distribution could introduce errors in the measurement due to output coupling effects. In a single-mode fiber, measuring a shorter cutback fiber could result in significant transmission of cladding modes (light carried in the cladding rather than the core of the optical fiber), distorting the measurement. The errors introduced will result in conservative results (i.e., higher transmission losses and lower bandwidths) than would be realized under equilibrium conditions.
Benefits
[edit]The benefit of this technique is that it allows measurement of the fiber characteristics without introducing errors due to variation in the launch conditions. For example, the coupling efficiency of the light source is kept consistent between the initial and the cutback measurements.
Several characteristics may be determined using the same test fiber.
Attenuation measurement
[edit]Since the attenuation is defined as proportional to the logarithm of the ratio between and , where is the power at point and respectively. Using the cutback technique, the power transmitted through a fiber of known length is measured and compared with the same measurement for the same fiber cut to a length of approximately.
Related techniques
[edit]A variation of the cutback technique is the substitution method, in which measurements are made on a full-length of fiber, and then on a short length of fiber having the same characteristics (core size, numerical aperture), with the results from the short length being subtracted to give the results for the full length.
References
[edit]
This article incorporates public domain material from Federal Standard 1037C. General Services Administration. Archived from the original on 2022-01-22.