Optical Communication Technology, Volume. 48, Issue 4, 21(2024)
Low-cost half-duplex transceiver scheme and key technology implementation for FTTR
[3] [3] RAZAVI B. Design of integrated circuits for optical communications [M]. 2nd Edition. Hoboken: John Wiley & Sons, 2012.
[4] [4] VAN J P. Characteristics of 1.3-um InGaAsP lasers used as photodetectors[J]. Journal of Lightwave Technology, 1989, 7(2): 347-352.
[5] [5] KASHIMA N. A new approach to an optical attenuator for a time compression multiplex system using a laser diode as both transmitter and receiver[J]. Journal of Lightwave Technology, 1991, 9(8): 987-990.
[6] [6] KASHIMA N. Time compression multiplex transmission system using a 1.3-um semiconductor laser as a transmitter and a receiver[J]. IEEE Transactions on Communications, 1992, 40(3): 584-590.
[7] [7] LI D, LI J, HUANG W, et al. Low-cost high-speed rapidly reconfigurable integrated half-duplex optical transceiver front-end[J]. Optics Express, 2023, 31(2): 2386-2393.
[8] [8] IEEE. IEEE draft standard for Information technology-telecommunications and information exchange between systems local and metropolitan area networks-specific requirements: IEEE Std 802.11bb-2023[S]. New York: IEEE, 2023: 1-37.
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LI Jia, XIA Yifei, ZHAO Wanqing, YANG Yuye, MA Shuaizhe, RAN Nianquan, LI Dan. Low-cost half-duplex transceiver scheme and key technology implementation for FTTR[J]. Optical Communication Technology, 2024, 48(4): 21
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Received: Dec. 12, 2023
Accepted: --
Published Online: Oct. 11, 2024
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