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  • Over 20 years’ dedication to meeting the global needs of the most demanding fibre optic specialists
  • Our focus on delivering customer satisfaction; attention to detail, expert advice and competitive pricing
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  • OEM accounts
  • Blanket and scheduled orders welcome – just ask
  • In-house expertise and training capability in all types of fibre terminations, including complex terminations, expanded beam and harsh environments


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How does an OTDR work?

Unlike sources and power meters, which measure the loss of the fibre optic cable plant directly, the OTDR works indirectly. The source and meter duplicate the transmitter and receiver of the fibre optic transmission link, so the measurement correlates well with actual system loss. The OTDR, however, uses unique phenomena of fibre to imply loss.

The biggest factor in optical fibre loss is scattering. It is like billiard balls bouncing off each other, but occurs on an atomic level between photons (particles of light) and atoms or molecules. If you have ever noticed the beam of a flashlight shining through foggy or smokey air, you have seen scattering. Scattering is very sensitive to the colour of the light, so as the wavelength of the light gets longer, toward the red end of the spectrum, the scattering gets less. Very much less in fact, by a factor of the wavelength to the fourth power - that's squared-squared. Double the wavelength and you cut the scattering by sixteen times!

You can see this wavelength sensitivity by going outside on a sunny day and looking up. The sky is blue because the sunlight filtering through the atmosphere scatters like light in a fibre. Since the blue light scatters more, the sky takes on a hazy blue cast.

Figure 1 Scattering in an Optical Fibre

In the fibre, light is scattered in all directions, including back toward the source as shown in Figure 1. The OTDR uses this "backscattered light" to make its measurements. It sends out a very high power pulse and measures the light coming back. At any point in time, the light the OTDR sees is the light scattered from the pulse passing through a region of the fibre. Think of the OTDR pulse as being a "virtual source" that is testing all the fibre between itself and the OTDR as it moves down the fibre. Since it is possible to calibrate the speed of the pulse as it passes down the fibre, the OTDR can correlate what it sees in backscattered light with an actual location in the fibre. Thus it can create a display of the amount of backscattered light at any point in the fibre.

Figure 2 OTDR Display

There are some calculations involved. Remember the light has to go out and come back, so you have to factor that into the time calculations, cutting the time in half and the loss calculations, since the light sees loss both ways. The power loss is a logarithmic function, so the power is measured in dB.

The amount of light scattered back to the OTDR is proportional to the backscatter of the fibre, peak power of the OTDR test pulse and the length of the pulse sent out. If you need more backscattered light to get good measurements, you can increase the pulse peak power or pulse width as shown below.

Figure 3 Increasing the pulse width increases the backscatter level

Note on the display shown in Figure 2, some events like connectors show a big pulse above the backscatter trace. That is a reflection from a connector, splice or the end of the fibre. They can be used to mark distances or even calculate the "back reflection" of connectors or splices, another parameter we want to test in singlemode systems.




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Tech Optics Ltd provides leading companies worldwide with an extensive range of the best available fibre-optic communications products, customised cable assemblies and fibre-optic expertise. We will give you our best possible service, technical assistance and support along with competitive pricing on our world-class range of products.

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Phone: +44 (0)1732 770466
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Unit 6, Tannery Road
Kent TN9 1RF