• DocumentCode
    1526408
  • Title

    Bit error probability reduction in direct detection optical receivers using RZ coding

  • Author

    Pauer, Martin ; Winter, P.J. ; Leeb, Walter R.

  • Author_Institution
    Vienna Univ. of Technol., Austria
  • Volume
    19
  • Issue
    9
  • fYear
    2001
  • fDate
    9/1/2001 12:00:00 AM
  • Firstpage
    1255
  • Lastpage
    1262
  • Abstract
    We analyze the bit error probability reduction for direct detection ON-OFF keying optical receivers using return-to-zero (RZ) coding instead of the nonreturn-to-zero (NRZ) format. For the same average optical power, RZ is shown to outperform NRZ, even when employing the same receiver bandwidth. Results are given for receivers whose noise variance is i) dominated by a signal-independent term (e.g., simple pin diode receivers), ii) dominated by a signal-dependent term (e.g., optically preamplified receivers), and iii) made up of two equally important contributions [e,g,, avalanche photodiode (APD) receivers]. Based on semianalytic simulations including intersymbol interference, we show that the achievable RZ sensitivity gain is typically less for dominating signal-independent noise than for dominating signal-dependent noise, where it amounts to about 3 dB. We also quantitatively discuss the influence of the optical pulse shape on the achievable RZ coding gain, and show that finite extinction ratios can significantly reduce that gain, especially when the RZ signals are produced by direct-modulation methods
  • Keywords
    amplitude shift keying; encoding; error statistics; optical modulation; optical pulse shaping; optical receivers; RZ coding; bit error probability reduction; direct detection ON-OFF keying optical receivers; direct detection optical receivers; direct-modulation methods; extinction ratios; intersymbol interference; noise variance; optical power; optical pulse shape; receiver bandwidth; return-to-zero coding; semianalytic simulations; sensitivity gain; signal-dependent term; signal-independent term; Bandwidth; Error analysis; Error probability; Noise shaping; Optical detectors; Optical noise; Optical pulse shaping; Optical receivers; Optical sensors; Optical signal processing;
  • fLanguage
    English
  • Journal_Title
    Lightwave Technology, Journal of
  • Publisher
    ieee
  • ISSN
    0733-8724
  • Type

    jour

  • DOI
    10.1109/50.948272
  • Filename
    948272