User Manual

Introducing the FTB-5800 Chromatic Dispersion Analyzer

Chromatic Dispersion Analyzer 3

Basic Theory

Chromatic dispersion is the natural broadening of light pulses as they travel

through optical fiber. The propagation characteristics of each wavelength

depend on the refractive index of the medium and on the non-linearity of

the propagation constant. These affect the travel time of each wavelength

through the fiber medium. An initially narrow pulse is widened as a result

of this, and as the pulses spread, they begin to overlap, causing the bit error

rate to increase.

High data rates mean pulses are closely spaced in time and have less room

to spread before they overlap. High channel count increases the difficulty

in correcting dispersion since each channel experiences different levels of

dispersion.

Long distances between regenerators require that dispersion be managed

very precisely because the effects accumulate over distance. As link length

and bit rate increase, the effects of chromatic dispersion also increase.

Chromatic dispersion is therefore one of the main factors limiting data

transfer for modern optical networks.

Typical Applications

Getting precise chromatic dispersion parameters helps you select the right

dispersion-compensated fiber or material in order to reverse the dispersion

and dispersion slope before data are interpreted by the receiver.