The authors present an electrical signal to noise ratio (SNR) formula considering intersymbol interference of transmitter/receiver pairs, which yield measurement error in SNR measurement of long haul optical amplifier systems. Experimental results confirm the validity of the formula.
References
-
-
1)
-
M. Murakami ,
T. Takahashi ,
M. Aoyama ,
M. Amemiya ,
M. Sumida ,
N. Ohkawa ,
Y. Fukada ,
T. Imai ,
M. Aiki
.
2.5 Gbit/s-9720 km, 10 Gbit/s-6480 km transmission in the FSA commercialsystem with 90 km spaced optical amplifier repeaters and dispersion-managedcables.
Electron. Lett.
,
10 ,
814 -
816
-
2)
-
C.J. Anderson ,
J.A. Lyle
.
Technique for evaluating system performance using Q in numerical simulationsexhibiting intersymbol interference.
Electron. Lett.
,
1 ,
71 -
72
-
3)
-
N.S. Bergano ,
F.W. Kerfoot ,
C.R. Davidson
.
Margin measurements in optical amplifier systems.
IEEE Photonics Technol. Lett.
,
3 ,
304 -
306
-
4)
-
Mazurczyk, V.J., Duff, D.G.: `Effect of intersymbol interference on signal-to-noise measurement', WQ1, OFC '95 Tech. Dig., 1995, p. 188–189.
-
5)
-
A. Naka ,
S. Saito
.
A noise loading method for evaluating in-line amplifier systems.
IEEE Photonics Technol. Lett.
,
8 ,
925 -
927
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