Measuring Signal-To-Noise Ratios - Agilent Technologies Agilent 86120B User Manual

Measurements Applications

Measuring Signal-to-Noise Ratios

Measuring Signal-to-Noise Ratios
Signal-to-noise measurements provide a direct indication of system perfor-
mance. Signal-to-noise measurements are especially important in WDM sys-
tems because there is a direct relation between signal-to-noise and bit error
rate. The Agilent 86120B displays signal-to-noise measurements in the third
column. For example, the selected signal in the following figure has a signal-
to-noise ratio of 30.0 dB.
Signal-to-noise display.
During a signal-to-noise measurement, the absolute power of the carrier, in
dBm, is compared to the absolute power of the noise at the carrier wave-
length. See the following figure. The noise power at the carrier must be deter-
mined by interpolation because the carrier, in most cases, can not or should
not be turned off.
You can select one of two methods used to determine the wavelength where
the noise is measured: automatic interpolation or a user-entered wavelength.
In the figure above, notice that "S/N AUTO" is displayed to indicate that
automatic interpolation is selected.
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