Loop-back loss test procedure using a source & meter, or one LTS
For standards compliant test procedures & equipment, please refer to Standards Center. For more background theory, please read on...
In this example, characterisation is performed from one end of a link, so it is generally much faster than Example 1. The other end is looped back. The pass / fail uncertainty of each fiber increases as more loops are added, so this method is best suited to situations where relaxed specifications can be accepted. Therefore, this may be unsuitable for long distance links. This arrangement may also be useful to verify links while jumping a repeater site.
The Bi-directional method could also be performed easily, which would help compensate for the reduced accuracy.
Communication from end to end is not required.
The actual method of operation is the same as Example 1, except that:
- The DUT comprises two or more fibers, and loop-backs need to be arranged.
- Allowance needs to be made for extra loop back losses.
- Due to the higher uncertainty, marginal results may require additional validation using Example 1.
In this situation 'Autotest' type features can result in better measurement confidence, lower skill requirements and twice the productivity for dual wavelength measurements, since both wavelengths are measured in one operation.
|Source, incl. mandrel wrap if multimode|
|DUT Device Under Test (system being tested)|
[instructions on use of the relative mode are in italics]
Kingfisher International are specialist designers and manufacturers of handheld fiber optic test equipment.
Our equipment is used in all phases of fiber optic manufacture, installation and maintenance. Our comprehensive documentation and resources help you get started easily.
Kingfisher Products are Australian made, with a global distribution & support network spanning over 70 countries.