1.3 μm 35 km fibre-optic microwave multicarrier transmission system for satellite Earth stations

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1.3 μm 35 km fibre-optic microwave multicarrier transmission system for satellite Earth stations

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© The Institution of Electrical Engineers
Published

A field experiment that transmits the full bandwidth of C-band satellite downlink signals over 35 km of 1.3 μm single-mode fibre was demonstrated. Analytical results of the fibre-optic link match well with the measured data.

Inspec keywords: optical fibres; optical links; satellite ground stations

Other keywords: C-band; field experiment; satellite downlink signals; single-mode fibre; 35 km; satellite Earth stations; 1.3 micron; fibre-optic microwave multicarrier transmission system

Subjects: Satellite communication systems; Optical communication

References

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      • J.E. Bowers , A.C. Chipaloski , S. Boodaghians , J.W. Carlin . Direct fibre-optic transmission of entire microwave satellite antenna signals. Electron. Lett. , 185 - 187
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      • : `Electrical performance standards for television relay', RS-250B, Electronics Industries Association (EIA) report, 1976, p. 30.
    3. 3)
      • Way, W.I., Krain, M., Wolff, R.S.: `A 35 km satellite Earth station 1.3 μm fiber optic microwave multicarrier transmission system', Postdeadline paper PDP18, OFC '87, 1987, Reno, NA.
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      • C.A. Siocos . Satellite FM television channel bandwidth. Space Commun. & Broadcast. , 363 - 369
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      • Way, W.I., Elrefaie, A.F.: `Fiber optic transmission of microwave 16-ary quadrature-amplitude-modulated signal at 1.3 μm wavelength region', Tech. digest, ICC'87, 1987, Seattle, WA.
    6. 6)
      • Way, W.I., Gardina, M.F.: `Fiber optic transmission of microwave 8 phase-PSK signal', Tech. digest of SPIE '87 Southeast Conf. on Optics/Electro-optics, 1987, .
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      • Way, W.I., Afrashteh, A.: `Linearity characterization of connectorized laser diodes under microwave intensity modulation by AM/AM and AM/PM measurements', Tech. digest IEEE international microwave symposium, 1986, Baltimore, MD, p. 659–662.
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      • W.I. Way . Large signal nonlinear distortion prediction for a single-mode laser diode under microwave intensity modulation. J. Lightwave Technol.
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