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What Causes Poor IL/RL in Fiber Optic Connectors?

Authors: Chris Rollinson and Dan Rocheleau

Most likely, your testing specifications present minimum requirements for a Low IL and High RL.

If your production facility is challenged with meeting the desired IL/RL specs, there are common causes you can investigate and address.<

However, before addressing common causes of poor IL/RL, let's quickly explain the terms:

  • Insertion Loss (IL) – The loss of signal power resulting from inserting a device in an optical fiber.This can be referred to as attenuation and is usually expressed as a ratio, in dB, relative to the input power.
  • Return Loss (also called Back Reflection) – The reflection of signal power, usually resulting from inserting a device (such as a connector or other component) in an optical fiber path.Again, this is usually expressed as a ratio, in dB, relative to the input power.

What Causes Poor IL RL

The goal: Connectors are aligned and contacted optimally

The ideal (minimum-loss) fiber path would have NO connections.Instead, it would be one continuous, straight-through glass fiber from Point A to Point B – with no interruptions.Since fiber networks usually require connectors for modularity, path splits, etc., we need a connection with perfectly aligned, intimate "glass to glass" contact that emulates the continuous fiber and gives us the desired Low IL and High RL.

When this perfectly aligned, intimate "glass to glass" contact is not achieved, reduced IL/RL performance is the result.Briefly, here are some common causes.

  1. End-face quality and cleanliness

At the risk of stating the obvious, fiber end-face defects (scratches, pits, cracks) and particle contamination have a direct impact on the performance of the connector, which contributes to poor IL/RL.Any irregularity that impedes light transmission from one fiber to the other will negatively affect IL and RL.If the fiber, anywhere within the assembly, is bent or pinched beyond its "minimum bend radius," significant increase in IL will result.

Many of our customers report that contamination on the end-face is the #1 end-user complaint.Thankfully, contamination can be identified and controlled in the production environment.You may want to investigate the process your technicians follow to ensure end-faces are clean, and then shore up training as necessary.

  1. Misalignment between the 2 cores

In simple terms, the primary purpose of the connector is to hold the fibers precisely, ensuring the core of one fiber abuts neatly and accurately with the core of the other fiber.The goal is for every connector to be able to mate with another connector with precise core alignment and core-to-core contact.

When you encounter poor IL/RL, check these common alignment issues:

  • Contamination on the outside of the ferrule or inside the adapter sleeve– For example, epoxy on the technician's finger transfers to the outside of the ferrule during in-process product handling.This accidental contamination may result in a fiber that is not centered perfectly within the adapter sleeve and, therefore, not aligned.Such process issues can be remedied by improved process controls.Also, the adapter sleeves within adapters can become contaminated and/or damaged after use.Always have new adapters available to try when troubleshooting IL/RL problems.
  • The hole in the ferrule is not perfectly centered– This physical characteristic of the ferrule will cause an alignment issue: if the ferrule hole is not perfectly centered, the fiber it holds will obviously never be perfectly centered.If you are using ferrules with poorly centered holes, consider purchasing ferrules with more exacting tolerances.Measuring hole centricity, however, usually requires specialized equipment not commonly used in standard production lines, so you may need to trust the ferrule supplier's data and shop for the best tolerances.
  • The diameter of the ferrule's hole bore is larger than the outside diameter of the fiber– The ferrule hole bore must be slightly larger in diameter than the fiber to allow the fiber to be inserted into the hole.The smaller the ferrule hole diameter, the more precisely the fiber will be centered in the ferrule (thus, lower Insertion Loss can be expected).However, smaller/tighter-tolerance ferrules are more expensive, and can be more difficult to insert the fiber into.Conversely, the larger the ferrule hole, the more opportunity for the fiber to not sit perfectly centered within the ferrule!thus higher Insertion Loss can be expected (but such large-bore holes will be very easy to insert a fiber into).Knowing the hole specifications for the ferrules you are using is critical to achieve desired IL results.If you are targeting minimum Insertion Loss, you should use the tightest-tolerance ferrule hole diameter available.If you can see a clearly defined "epoxy ring" around the fiber OD when viewing after polishing (usually seen as a thin "crescent-moon" around the fiber), this is the result of the fiber sitting off-center within an oversized ferrule hole.When using a terminated 125um fiber, a 126.0um +/- .5um should be the largest ferrule hole used for most low-loss applications.If your ferrule hole specification is larger than this and you are facing IL performance problems, consider purchasing ferrules with more exacting tolerances.
  1. Poor core-to-core contact

Optimum core-to-core contact is a must to achieve the desired Low IL and High RL.In fact, that's a primary purpose of the various industry-standardized geometry specifications.In your testing, when you have good geometry specifications for radius, fiber height and apex, you should have good core-to-core contact.(This applies to both single-fiber connectors and multi-fiber connectors, although multi-fiber connectors have additional geometry parameters to worry about, such as fiber height differences between the fibers, co-planarity, etc.).

If you have poor IL/RL, investigate whether the ferrule end-face geometries are meeting common industry specifications.&#20048;&#21160;&#23448;&#26041;&#32593;&#22336;It is recommended that any high-quality cable assembly production includes 100% verification that polished ferrules meet these geometry specifications.

Do you have a specific issue regarding meeting your desired IL/RL specs?

We're here to help!Send us your question, and we'll do our best to provide guidance.FOC is committed to helping you manufacture the best fiber optic cable assemblies possible.

FOC is a resource for questions on this and all technical subjects.AskFOC can be found at://www.spnnc.com/askfoc/where our technical experts answer your questions.

About the Author
Chris Rollinson Chris Rollinson, Business Development, Test, Technical Sales Chris began his career at Fiber Optic Center in 2013 with 40 years of experience in test and measurement.Chris handles Business Development for Test and Measurement with a specialty area in the MAP passive component tester.Chris has nearly 20 years in fiber optics, mostly as application engineer and later product line manager in instrumentation at JDSU, where, in the fiber boom, he designed and installed several complex optical measurement systems.Further back he was involved with shock , vibration and sound measurements with the Danish company Bruel & Kjaer.Chris Graduated from the University of Leeds (UK) with a BSc.in Physics.He Lives in Ottawa, Canada with his Wife, Dog, several old cars and a motorcycle.
Dan Rocheleau Dan Rocheleau, Business Development, Technical Sales Dan has worked in fiber optic cable assembly since 1986: starting as a part-time line operator for a local cable production company and working his way up through to management positions in large global companies.His experience includes positions in process training, supervision, product and process engineering, quality system development and management, factory general management, global factory startups, and global project management roles.He has held several overseas positions, opening and managing factories in Mexico, India, China, and Czech Republic.He has led global project efforts in sourcing / supplier auditing, global process standardization, and global operations strategic planning.Dan's extensive experience gives him a unique ability to relate to our customer's needs and challenges, helping Fiber Optic Center better help our customers continue to adapt and grow in the evolving and competitive fiber cable assembly market.
About Fiber Optic Center, Inc.
Fiber Optic Center, Inc., (FOC), is an international leader in distributing fiber optic components, equipment and supplies and has been helping customers make the best cable assemblies in the world for over two decades.Several areas of specialization and expertise, in which they are the industry leader, make them the preferred choice for many of the world's fiber professionals.In these key technology areas, FOC is "at least as technical as the manufacturer" about the products they sell.Striving to "make the business part easy," they offer outstanding and personal customer service, low or no minimum purchase order values, and from-stock delivery on industry-leading products and technology.FOC is the industry connection to the most innovative optical products, technologies and technical experts who integrate their manufacturing knowledge and vast experience into customers' worldwide operations. @FiberOpticCntr

For further information contact:
Fiber Optic Center, Inc., 23 Centre Street, New Bedford, MA 02740-6322
Toll Free in US: 800-IS-FIBER or 800-473-4237 .Direct 508-992-6464.Email: sales@www.spnnc.comor fiberopticcenter@www.spnnc.com

For media contact:
Kathleen Skelton, Director of Strategic Marketing, C: 617-803-3014 .E: kskelton@www.spnnc.com
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