• DocumentCode
    1252634
  • Title

    FM-FDM optical CATV transmission experiment and system design for MUSE HDTV signals

  • Author

    Maeda, Mikio ; Yamamoto, Makoto

  • Author_Institution
    Japan Broadcasting Corp., Tokyo, Japan
  • Volume
    8
  • Issue
    7
  • fYear
    1990
  • fDate
    9/1/1990 12:00:00 AM
  • Firstpage
    1257
  • Lastpage
    1267
  • Abstract
    FM-FDM (frequency division multiplexing) optical transmission equipment has been developed for 34-channel MUSE HDTV (high-definition television) signals to realize optical CATV (cable television) systems. The equipment uses an LD (laser diode) with a 1.3 μm wavelength, a single-mode optical fiber, and an avalanche photodiode (APD). A good picture is received after a 42 km transmission. A part of the multiplexed signals is distorted near or below the threshold of an LD. When the number of transmission channels is small and the total optical modulation depth is large, this nonlinearity governs the power ratio of an FM signal to one distortion component-the DU ratio. However, when the number of transmission channels is large, the DU ratio is determined by the effective optical modulation depth rather than the total optical modulation depth. Furthermore, the method of system design is clarified for an optical trunk line CATV system. If no restriction on the transmission bandwidth of optical devices exists, approximately 30 km transmission of 100-channel MUSE HDTV signals is available with a received CN ratio of 17.5 dB
  • Keywords
    cable television; frequency division multiplexing; frequency modulation; high definition television; optical communication equipment; optical links; video signals; 1.3 micron; 17.5 dB; 30 km; 42 km; APD; CATV system; DU ratio; FM signal; FM-FDM; MUSE HDTV signals; avalanche photodiode; cable television; frequency division multiplexing; high-definition television; laser diode; multiplexed signals; optical CATV; optical devices; optical modulation depth; optical transmission equipment; optical trunk line; power ratio; single-mode optical fiber; system design; transmission bandwidth; transmission channels; Avalanche photodiodes; Bandwidth; Cable TV; Diode lasers; Frequency division multiplexing; Frequency modulation; HDTV; Optical distortion; Optical fibers; Optical modulation;
  • fLanguage
    English
  • Journal_Title
    Selected Areas in Communications, IEEE Journal on
  • Publisher
    ieee
  • ISSN
    0733-8716
  • Type

    jour

  • DOI
    10.1109/49.59125
  • Filename
    59125