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Optics Express

Optics Express

  • Editor: Michael Duncan
  • Vol. 13, Iss. 13 — Jun. 27, 2005
  • pp: 5100–5105

Improvement of dispersion tolerance for electrical-binary-signal-based duobinary transmitters

Byungjik Kim, Jichai Jeong, Jaehoon Lee, Hanlim Lee, Hoon Kim, Sung Kee Kim, Yonggyoo Kim, Seongtaek Hwang, Yunje Oh, and Changsup Shim  »View Author Affiliations


Optics Express, Vol. 13, Issue 13, pp. 5100-5105 (2005)
http://dx.doi.org/10.1364/OPEX.13.005100


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Abstract

We present a way to improve the dispersion tolerance of an electrical-binary-signal-based duobinary transmitter, implemented by using a dual-arm Mach-Zehnder modulator driven with two complementary binary signals. Successful transmission over 200 km of single-mode fiber is achieved by optimizing the relative time delay between the binary signals and the driving voltage.

© 2005 Optical Society of America

OCIS Codes
(060.2330) Fiber optics and optical communications : Fiber optics communications
(060.4080) Fiber optics and optical communications : Modulation
(060.4510) Fiber optics and optical communications : Optical communications

ToC Category:
Research Papers

History
Original Manuscript: April 29, 2005
Revised Manuscript: June 2, 2005
Published: June 27, 2005

Citation
Byungjik Kim, Jichai Jeong, Jaehoon Lee, Hanlim Lee, Hoon Kim, Sung Kee Kim, Yonggyoo Kim, Seongtaek Hwang, Yunje Oh, and Changsup Shim, "Improvement of dispersion tolerance for electrical-binary-signal-based duobinary transmitters," Opt. Express 13, 5100-5105 (2005)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-13-13-5100


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References

  1. H. Kim, C. X. Yu, and D. T. Neilson, �??Demonstration of optical duobinary transmission system using phase modulator and optical filter,�?? IEEE Photon. Technol. Lett. IEEE Photon. Technol. Lett. 14, 1010-1012, (2002). [CrossRef]
  2. T. Franck, P.B. Hansen, T.N. Nielsen, and L. Eskildsen, �??Novel duobinary transmitter,�?? in Proceedings of the European Conference on Optics and Communications, (1997), pp. 67-70
  3. P. J. Winzer and S. Chandrasekhar, �??Return-to-zero modulation with electrically continuously tunable duty cycle using single NRZ modulator,�?? Electron. Lett. 39, 859-860, (2003). [CrossRef]
  4. J. Yu, �??Generation of modified duobinary RZ signals by using one single dual-arm LiNbO3 modulator,�?? IEEE Photon. Technol. Lett. 15, 1455-1457, (2003). [CrossRef]
  5. A. Djupsjöbacka, �??Prechirped Duobinary Modulation,�?? IEEE Photon. Technol. Lett. 10, 1159-1161, (1998). [CrossRef]
  6. D. Penninckx, �??Enhanced-phase-shaped binary transmission,�?? Electron. Lett. 36, 478-480, (2000). [CrossRef]
  7. H. Kim and C. X. Yu, �??Optical duobinary transmission system featuring improved receiver sensitivity and reduced optical bandwidth,�?? IEEE Photon. Technol. Lett. 14, 1205-1207, (2002). [CrossRef]
  8. J.M. Gené, R. Nieves, A. Buxens, C. Peucheret, J. Prat, and P. Jeppesen, �??Reduced driving voltage optical duobinary transmitter and its impact on transmission performance over standard single-mode fiber,�?? IEEE Photon. Technol. Lett. 14, 843-845, (2002). [CrossRef]
  9. W. Kaiser, T. Wuth, M. Wichers, and W. Rosenkranz, �??Reduced complexity optical duobinary 10-Gb/s transmitter setup resulting in an increased transmission distance,�?? IEEE Photon. Technol. Lett., 13, 884-886, (2001). [CrossRef]
  10. H. Kim, G. Lee, H. Lee, S. K. Kim, I. Kang, S. Hwang, and Y. Oh, �??On the use of 2.5-Gb/s Mach-Zehnder modulators to generate 10-Gb/s optical duobinary signals,�?? IEEE Photon. Technol. Lett., 16, 2577-2579, (2004). [CrossRef]

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