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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
  • We distribute only the best quality brands with no minimum order
  • ISO 9001:2008 certified production and distribution
  • Next-day delivery for all stocked items for customers throughout the UK and Europe
  • Two-day delivery for customers based outside Europe
  • Rapid sourcing of special and high-value capital equipment not already in stock
  • All products available for personal collection from our trade counter 8.30am-5.30pm
  • 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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Examples of using OTDR

Here are some actual examples of how to use an OTDR properly (and improperly) and some tricks to overcome some of the problems you may encounter. The most adamant advice we will give is this: Do not blindly accept the data without interpretation. Most of today's OTDRs have "automatic modes" where they will find splices and connectors and calculate all the losses, if the data follows preprogrammed guidelines. In our experience, these numbers are not to be used without human interpretation of the results, as the OTDR is basically a PC, isn't too smart, and the software has limitations if the cable plant has high reflections or short cable runs.

 

What does a good OTDR trace look like?

Take a look at Figure 10. You can see the end of the "pulse suppressor" cable, the first fibre out from the OTDR, allows time for the OTDR to recover from the initial pulse. Note the fibres are all straight lines between "events", as splices and connectors are called in OTDR jargon. Markers for loss measurements should always be set far enough on either side of an event to be on the straight part of the fibre trace. If there is any curve, it is likely caused by the resolution of the OTDR or recovery from an overload.

Figure 10. Good OTDR trace for analysis

Setting the markers slightly away from the event won't affect the loss measurement by adding significant fibre loss. Remember fibre loss is only 0.01 dB per 10 metres (33 feet) at 1300 nm! By going further from the event, you reduce the possibility that the measurement is in error because of instrument limitations.

If the trace never shows a straight line between events, like Figure 5, it means either the distance between events is too short for the OTDR resolution or reflections are too high for the recovery time needed before the next event. In this case, you cannot get good data on either fibre loss or event loss.

 

This "trick" can help

There is a trick you can try if you are desperate. The reflection at an event that causes overloading the OTDR receiver can be tamed by using "index matching fluid" to reduce the effect that causes the reflection. The reflection is caused by an air gap between the ends of the fibres. Connectors are particularly bad at having this air gap and resulting high reflections. An index matching fluid replaces the air with a fluid or gel that closely matches the optical characteristics of the glass, causing the reflections to be greatly diminished.

Figure 11 two traces of the same fibre. It is only 700 feet or 200 metres long, which is normally considered quite short for OTDR analysis. The initial trace shows the connector on the OTDR end has high reflections, saturating the OTDR and causing the baseline of the trace to decay slowly. Even the second pulse, from the connector at the far end of the cable has very high reflections. Both reflections caused ghosts also.

Since the baseline between the two ends never becomes flat or straight, there is no reliable reference point for making a loss measurement.

But we can reduce the reflections by adding index matching fluid. We just add a drop of gel or fluid between the two connectors that matches the index of reflection of the glass in the fibre, reducing the reflections. Once we reduce the reflections, causing the receiver overload to go away, the OTDR will give us a good fibre trace just beyond the connector and a flat fibre trace which we can use for measuring the actual loss! We even got rid of the confusing ghosts!

Figure 11. Improving OTDR Traces with Index Matching Gel

Index matching fluid can be purchased from Tech Optics. It is available in a convenient 6cc syringe. Mineral oil or plain petroleum jelly work almost as well! If you can get silicone "high vacuum grease", it works very well too.

Using this technique gives us visibility we would never have otherwise, but the technique requires care. The index matching fluid or gel must be thoroughly cleaned from the connectors after use with the OTDR. The splice bushing used must not be one in the network hardware, but a separate item that can be used and discarded or thoroughly cleaned in solvent afterwards. Index matching fluid or gel will act like a magnet for dirt if it gets on any hardware or stays on the connectors, as its sticky texture will grab and hold lots of airborne dirt to attenuate the signal in the fibre link.

 

Summary

Testing fibre optic cable plants are easy if you have the right instruments and follow industry testing standards. When diagnosing problems, you must be creative to develop techniques that help reveal problems that show up on standard tests. It is most important to know your tools operation and limitations, and how to work around them. Get to know the applications support staff at your instrument vendor so you can call with questions. Finally, it is most helpful to have good cable plant documentation, since knowing what you are looking at will make it much easier to find problems. Information on our Micro OTDRs

 

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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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Address:
Unit 6, Tannery Road
Tonbridge
Kent TN9 1RF
England