Considering the increasing demands of bandwidth and the limited spectrum resources, it is necessary to organize several plans for the upgradation of the Super-PON system. Generally, two schemes have been proposed as the improvement involving the increment of the line-rate per channel up to 25 Gbit/s and using bidirectional transmission on one wavelength. Here, the influence of Cross-Phase Modulation (XPM) in the case of line-rate/ channel increment and Stimulated Raman Scattering (SRS) in the case of bidirectional transmission on one wavelength has been investigated, respectively. For the former, XPM obviously causes degradation impact on 25 Gbit/s non-return-to-zero (NRZ)/4-level pulse amplitude modulation (PAM4) signal transmission, resulting in an unpredictable sensitivity penalty (cannot reach the bit error rate (BER) of 1 x 10-2), which can be counteracted in use of optical duobinary (ODB) modulation format demonstrating a sensitivity penalty of 1-dB under the same condition. For the later, the SRS effect causes a power depletion of 1 dB/0.6 dB for pump frequencies of downstream/upstream during the 10 Gbit/s bidirectional transmission on the same wavelength.
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机译:考虑到日益增长的带宽需求和有限的频谱资源,有必要组织几个超级PON系统的升级方案。通常,已经提出了两种方案作为改进,涉及将每个通道的线速率增加到25 Gbit/s,并在一个波长上使用双向传输。在这里,分别研究了交叉相位调制(XPM)和受激拉曼散射(SRS)在单波长双向传输情况下的影响。对于前者,XPM显然会对25 Gbit/s不归零(NRZ)/4级脉冲幅度调制(PAM4)信号传输造成劣化影响,导致不可预测的灵敏度损失(无法达到1 x 10-2的误码率(BER),在相同条件下,使用光学双二进制(ODB)调制格式可以抵消1 dB的灵敏度损失。对于后者,在同一波长的10 Gbit/s双向传输期间,SRS效应导致下行/上行的泵浦频率功耗为1 dB/0.6 dB。
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