Transmission at 1 Gbit/s over 7.4 km of single-mode fibre using an edge-emitting LED and PINFET receiver

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Transmission at 1 Gbit/s over 7.4 km of single-mode fibre using an edge-emitting LED and PINFET receiver

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© The Institution of Electrical Engineers
Published

Transmission at 1 Gbit/s over 7.4 km of 1300 nm optimised single-mode fibre has been demonstrated using a standard, 1300 nm edge-emitting LED with 150 MHz 3 dB bandwidth and a PINFET receiver. Computer simulation was used to accurately assess each of the system degradations: LED rise/fall, extinction ratio, dispersion penalty and receiver noise.

Inspec keywords: light emitting diodes; optical links; optical communication equipment; receivers

Other keywords: PINFET receiver; dispersion penalty; 150 MHz; 1300 nm; receiver noise; single-mode fibre; 1 Gbit/s; computer simulation; LED rise/fall; edge-emitting LED; optical communication; extinction ratio

Subjects: Light emitting diodes; Optical communication

References

    1. 1)
      • Ujie, T., Shihada, M., Fujita, S., Hayaslui, J., Isoda, Y.: `565 Mbit/s-5 km and 140 Mbit/s-25 km single-mode fiber transmission using 1.3 μm mesa-structure surface-emitting LED', ECOC/IOOC, October 1985, Venice, Italy.
    2. 2)
      • J.L. Gimlett , M. Stern , R.S. Vodhanel , N.K. Cheung , G.K. Chang , H.P. Leblanc , P.W. Shumate , A. Suzuki . Transmission experiments at 560 Mbit/s and 140 Mbit/s using single-mode fibre and 1300nm LEDs. Electron. Lett. , 1198 - 1200
    3. 3)
      • M. Stern , J.L. Gimlett . Advances in LED/single-mode technology. Proc. SPIE
    4. 4)
      • Elrefaie, A.E., Romeiser, M.B.: `Computer simulation of single-mode fiber systems', OFC '86, January 1986, Atlanta.
    5. 5)
      • M. Stern , J.L. Gimlett , N.K. Cheung . Dispersion-limited transmission and spectral filtering in LED/single-mode fiber optics communications systems. Opt. Lett. , 584 - 586
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