The performance limitation of 10-Gbps-per-channel-based coarse wavelength division multiplexed passive optical network

Montha, Pimchanok; Maneekut, Radiata; Kaewplung, Pasu

doi:10.1109/icact.2014.6779127

16th International Conference on Advanced Communication Technology 2014

DOI: 10.1109/icact.2014.6779127

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The performance limitation of 10-Gbps-per-channel-based coarse wavelength division multiplexed passive optical network

Pimchanok Montha

Radiata Maneekut

Pasu Kaewplung

Abstract: Abstract-In this paper, we study the performance limitation of the 10-Gbps-per-channel-based coarse wavelength division multiplexed passive optical network (CWDM-PON). The computer simulation results, which are in a good agreement with the theoretical calculation results, show that the transmission of all 16 CWDM channels (1,271-1,571 nm) is successfully obtained at the maximum reach of 68.2 km under FEC limit (BER= 10 -4 ). Both fiber attenuation and fiber dispersion are the main factors that limit the achiev… Show more

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2018

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“…Focusing on the FTTx system based on fiber access network, it can be improved the efficiency of bandwidth utilization by accommodating different data rate into one port of optical line terminal (OLT), and ensuring the flexible allocation of bandwidth to meet the different demands of subscribers [11]. The research about the performance limitation of 10 Gbps per channel based 16 channels CWDM-PON by using arrayed waveguide gratings (AWGs) as a multiplexer at optical line terminal (OLT) side and a passive wavelength splitter at optical network unit (ONU) [12] has been successfully conducted. Moreover, the high data bit rate transmission with 40…”

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Flexible optical fiber access networks using wavelength selective switches

Htwe

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The optical switching crosstalk is the important considerable issue in the optical fiber communication system, it tends to the signal distortion and decreasing of the system performance. This dissertation research is proposed a guideline to design a flexible fiber to the x (FTTx) system based on wavelength division multiplexing passive optical network (WDM-PON) combining with wavelength selective switches (WSSs). For the system configuration, the 4 wavelengths-10 ONUs system with the data bit rate of 10-Gbps/? and 40-Gbps/ ? are studied in this dissertation. Moreover, to be active switching, the dynamic wavelength bandwidth allocation (DWBA) controller is used to control WSSs. The modulation format NRZ-OOK is applied for 10 Gbps/? system and the advanced modulation format NRZ-DQPSK is applied for 40 Gbps/? system. The investigation of this dissertation is mainly focus on the improvement of system performance such as the minimum received optical power and power budget related with bit error rate(BER). In order to improve the system performance, the signal distortion reduction methodology is applied by adding the proper delay times in switching characteristics of 3 different types of WSS. The results of investigation come from only the computer simulation by using the commercial OptiSystem software without performing real experiments. The maximum reach of data transmission is limited to 20 km over ITU-T G652.D SMF fiber with the limited BER=10?? (without using forward error correction: FEC). As the results based on worst case BER, the received optical power for both system designs are improved after providing proper delay times in switching characteristics of WSS. Obviously, the power budget is improved by about 3 dB after providing 3? delay time of electro-optic switch for both system designs.

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Flexible optical fiber access networks using wavelength selective switches

Htwe

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Performance analysis of 16-channel CWDM system with EDFA and SOA amplifiers

Kumari

Srivastava

2018

2018 3rd International Conference on Microwave and Photonics (ICMAP)

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The performance limitation of 10-Gbps-per-channel-based coarse wavelength division multiplexed passive optical network

Cited by 2 publications

References 3 publications

Flexible optical fiber access networks using wavelength selective switches

Flexible optical fiber access networks using wavelength selective switches

Performance analysis of 16-channel CWDM system with EDFA and SOA amplifiers

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