The application of low-chirp MQW (multiquantum well)-EA (electro-absorption) modulators to subcarrier multiplexing (SCM) optical transmission systems is studied. The authors show that a third-order predistortion circuit is feasible for compensating the nonlinearity of this type of modulator. The degree of frequency chirping per optical intensity modulation depth of the modulator is theoretically determined to be about 1.4 MHz. A 42-channel AM-SCM signal transmitter with the predistortion circuit realizes both composite second-order distortion (CSO) and composite triple beat distortion (CTB) values under 057 dBc after 200-km-long transmission. The authors confirm dispersioninduced distortion of the MQW-EA modulator is as small as that of the LiNbO3 modulator. Carrier-to-noise ratios (CNR's) of 45.2 dB for channel 1 and 43.8 dB for channel 42 were measured after 100 km transmission. It is found that the deterioration of a CNR is caused by the cascaded erbium doped fiber amplifiers (EDFA's), Rayleigh backscattered power and the optical phase noise. Theoretical CNR's show that the output power of the modulator should be higher to improve CNR.
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