This work presented in this paper is on the transmission of 10 Gbps data and 60 GHz millimeter-wave signals over various lengths of optical fiber for 5G networks. As 5G networks typically operate in the millimeter-wave frequency range, Radio over Fiber (RoF) presents a transformative approach to efficiently transmit these signals over long distances. A comparative analysis is conducted using the Non-Return to Zero (NRZ) modulation technique across fiber lengths ranging from 0 to 70 km, using different channel configurations of 1, 2, 4, and 8. The performance evaluation is carried out using metrics such as Q-factor, Bit Error Rate (BER), and eye diagrams. The findings confirm the reliable transmission of high-speed 10 Gbps data and 60 GHz millimeter-wave signals across various fiber lengths.

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10 Gbps RoF Transmission Model at 60 GHz Using NRZ for 5G Networks

  • Rohini R. Mergu,
  • Rupali J. Shelke,
  • Asha V. Thalange,
  • Pradhyumna Ramgirwar,
  • Aachal Sharma,
  • Manasi Raut

摘要

This work presented in this paper is on the transmission of 10 Gbps data and 60 GHz millimeter-wave signals over various lengths of optical fiber for 5G networks. As 5G networks typically operate in the millimeter-wave frequency range, Radio over Fiber (RoF) presents a transformative approach to efficiently transmit these signals over long distances. A comparative analysis is conducted using the Non-Return to Zero (NRZ) modulation technique across fiber lengths ranging from 0 to 70 km, using different channel configurations of 1, 2, 4, and 8. The performance evaluation is carried out using metrics such as Q-factor, Bit Error Rate (BER), and eye diagrams. The findings confirm the reliable transmission of high-speed 10 Gbps data and 60 GHz millimeter-wave signals across various fiber lengths.