3-8
Reference
Fiber-Optic Connectors
Fiber-Optic Connectors
Today, advances in measurement capabilities make connectors and connec-
tion techniques more important than ever. Damage to the connectors on cali-
bration and verification devices, test ports, cables, and other devices can
degrade measurement accuracy and damage instruments. Replacing a dam -
aged connector can cost thousands of dollars, not to mention lost time! This
expense can be avoided by observing the simple preca utions presented in this
book. This book also contains a brief list of tips for caring for electrical connec-
tors.

Choosing the Right Connector

A critical but often overlooked factor in making a good li gh twave measure-
ment is the selection of the fiber-optic connector. The diff erences in connec-
tor types are mainly in the mechanical assembly that holds the fe rr ule in
position against another identical ferrule. Connectors also vary in t he polish,
curve, and concentricity of the core within the cladding. Mating one style of
cable to another requires an adapter. Agilent Technologies offers adapters for
most instruments to allow testing with many different cabl e s. Figure3-1 on
page 3-9 shows the basic components of a typical connectors.
The system tolerance for reflection and insertion loss must be known w he n
selecting a connector from the wide variety of currently available connectors.
Some items to consider when selecting a connector are:
How much insertion loss can be allowed?
Will the connector need to make multiple connections? Some connectors are
better than others, and some are very poor for making repeated connections.
What is the reflection tolerance? Can the system take reflection de gra dation?
Is an instrument-grade connector with a precision core alignment required?
Is repeatability tolerance for reflection and loss important? Do your specifica-