Abstract

Dispersion post compensated 160 Gbit/s transmission systems are optimized for a wide range of transmission fiber and DCF input powers. The simulation results for SMF, NZDSFHD, NZDSFLD fiber types and for NRZ, RZ, CSRZ and CSRZ-DPSK modulation formats are presented. CSRZ-DPSK modulation, balanced receiver (Bal-Rx) and NZDSFHD transmission fiber combination found to be superior to others, giving 880 km system reach with Q > 6. The alternating dispersion compensation is then applied and optimized for various modulation format and fiber types. This simple dispersion management technique provided significant system reach extension of 60% when CSRZ-DPSK modulation, Bal-Rx and SMF transmission fiber combination is used.

© 2005 Optical Society of America

Full Article  |  PDF Article

References

  • View by:
  • |

  1. Lucent Technol. Press Release, http://www.lucent.com/press/0501/010523.nsa.html, 2001 <a href="http://www.lucent.com/press/0501/010523.nsa.html, 2001">http://www.lucent.com/press/0501/010523.nsa.html, 2001</a>
  2. Lightreading News, �??MCI Claims ULH Speed Record�??, <a href= "http://www.lightreading.com/document.asp?doc_id=54478&site=lightreading, 2004">http://www.lightreading.com/document.asp?doc_id=54478&site=lightreading, 2004</a>
  3. 3. U. Feiste, R. Ludwig, C. Schubert, J. Berger, C. Schmidt, H.G. Weber, B. Schmauss, A. Munk, B. Buchold, D. Briggmann, F. Kueppers, F. Rumpf, �??160 Gbit/s transmission over 116 km field-installed fibre using 160 Gbit/s OTDM and 40 Gbit/s ETDM,�?? Electron. Lett. 37, 443 �?? 445 (2001 )
    [CrossRef]
  4. J.P. Turkiewicz, E. Tangdiongga, G. Lehmann, H. Rohde, W. Schairer, Y.R. Zhou, E.S.R. Sikora, A. Lord, D.B. Payne, G.-D Khoe, H. de Waardt, �??160 Gb/s OTDM networking using deployed fiber,�?? IEEE J. Lightwave Technol. 23, 225-235 (2005)
    [CrossRef]
  5. T. Tokle, B. Zsigri, C. Peucheret, P. Jeppesen, �??Generation and transmission of 160 Gbit/s polarization multiplexed RZ-DBPSK-ASK signal,�?? Electron. Lett. 41, 433 �?? 435 (2005)
    [CrossRef]
  6. S. Vorbeck, R. Leppla, �??Dispersion and Dispersion Slope Tolerance of 160-Gb/s Systems, Considering the Temperature Dependence of Chromatic Dispersion,�?? IEEE Photonics Technol. Lett. 15, 1470-1472 (2002)
    [CrossRef]
  7. Y. Miyamoto, A. Hirano, S. Kuwahara, M. Tomizawa, Y. Tada, �??Novel modulation and detection for bandwidth-reduced RZ formats using duobinary-mode splitting in wideband PSK/ASK conversion,�?? IEEE J. Lightwave Technol. 20, 2067 �?? 2078 (2002)
    [CrossRef]
  8. M.I. Hayee, A.E. Willner, �??NRZ versus RZ in 10-40-Gb/s dispersion-managed WDM transmission systems,�?? IEEE Photonics Technol. Lett. 11, 991-993 (1999)
    [CrossRef]
  9. D. Breuer and K. Peterman, �??Comparison of NRZ- and RZ- modulation format for 40 Gbit/s TDM standard-fiber systems,�?? IEEE Photonics Technol. Lett. 9, 398-400 (1997)
    [CrossRef]
  10. A. Hirano, Y. Miyamoto, S. Kuwahara, �??Performances of CSRZ-DPSK and RZ-DPSK in 43-Gbit/s/ch DWDM G.652 single-mode-fiber transmission,�?? in OFC 2003, 2, pp. 454 �?? 456
  11. B. Konrad, K. Petermann, �??Optimum fiber dispersion in high-speed TDM systems,�?? IEEE Photonics Technol. Lett. 13, 299 �?? 301 (2001)
    [CrossRef]
  12. D. Breuer, K. Jürgensen, F. Küppers, A. Mattheus, I. Gabitov and S. K. Turitsyn, �??Optimal schemes for dispersion compensation of standard monomode fiber based links,�?? Opt. Commun. 140, 15-18 (1997)
    [CrossRef]
  13. C. Peucheret, N. Hanik, R. Freund, L. Molle, P. Jeppesen, �??Optimization of pre- and post-dispersion compensation schemes for 10-Gbits/s NRZ links using standard and dispersion compensating fibers,�?? IEEE Photonics Technol. Lett. 12, 992 �?? 994 (2000)
    [CrossRef]
  14. P.J. Winzer, S. Chandrasekhar, Kim Hoon, �??Impact of filtering on RZ-DPSK reception,�?? IEEE Photonics Technol. Lett. 15, 840 �?? 842 (2003)
    [CrossRef]
  15. K. Yonenaga, S. Aizawa, N. Takachio, and K. Iwashita, �??Reduction of four-wave mixing induced penalty in unequally spaced WDM transmission system by using optical DPSK,�?? Electron. Lett. 32, 2118�??2119 (1996)
    [CrossRef]
  16. Xu Zhenbo, K. Rottwitt, P. Jeppesen, �??Evaluation of Modulation Formats at 160 Gb/s Transmission Systems Using Raman Amplification,�?? in LEOS 2004. The 17th Annual Meeting of the IEEE, pp 613 - 614

Electron. Lett. (3)

3. U. Feiste, R. Ludwig, C. Schubert, J. Berger, C. Schmidt, H.G. Weber, B. Schmauss, A. Munk, B. Buchold, D. Briggmann, F. Kueppers, F. Rumpf, �??160 Gbit/s transmission over 116 km field-installed fibre using 160 Gbit/s OTDM and 40 Gbit/s ETDM,�?? Electron. Lett. 37, 443 �?? 445 (2001 )
[CrossRef]

T. Tokle, B. Zsigri, C. Peucheret, P. Jeppesen, �??Generation and transmission of 160 Gbit/s polarization multiplexed RZ-DBPSK-ASK signal,�?? Electron. Lett. 41, 433 �?? 435 (2005)
[CrossRef]

K. Yonenaga, S. Aizawa, N. Takachio, and K. Iwashita, �??Reduction of four-wave mixing induced penalty in unequally spaced WDM transmission system by using optical DPSK,�?? Electron. Lett. 32, 2118�??2119 (1996)
[CrossRef]

IEEE J. Lightwave Technol. (2)

J.P. Turkiewicz, E. Tangdiongga, G. Lehmann, H. Rohde, W. Schairer, Y.R. Zhou, E.S.R. Sikora, A. Lord, D.B. Payne, G.-D Khoe, H. de Waardt, �??160 Gb/s OTDM networking using deployed fiber,�?? IEEE J. Lightwave Technol. 23, 225-235 (2005)
[CrossRef]

Y. Miyamoto, A. Hirano, S. Kuwahara, M. Tomizawa, Y. Tada, �??Novel modulation and detection for bandwidth-reduced RZ formats using duobinary-mode splitting in wideband PSK/ASK conversion,�?? IEEE J. Lightwave Technol. 20, 2067 �?? 2078 (2002)
[CrossRef]

IEEE Photonics Technol. Lett. (6)

M.I. Hayee, A.E. Willner, �??NRZ versus RZ in 10-40-Gb/s dispersion-managed WDM transmission systems,�?? IEEE Photonics Technol. Lett. 11, 991-993 (1999)
[CrossRef]

D. Breuer and K. Peterman, �??Comparison of NRZ- and RZ- modulation format for 40 Gbit/s TDM standard-fiber systems,�?? IEEE Photonics Technol. Lett. 9, 398-400 (1997)
[CrossRef]

C. Peucheret, N. Hanik, R. Freund, L. Molle, P. Jeppesen, �??Optimization of pre- and post-dispersion compensation schemes for 10-Gbits/s NRZ links using standard and dispersion compensating fibers,�?? IEEE Photonics Technol. Lett. 12, 992 �?? 994 (2000)
[CrossRef]

P.J. Winzer, S. Chandrasekhar, Kim Hoon, �??Impact of filtering on RZ-DPSK reception,�?? IEEE Photonics Technol. Lett. 15, 840 �?? 842 (2003)
[CrossRef]

S. Vorbeck, R. Leppla, �??Dispersion and Dispersion Slope Tolerance of 160-Gb/s Systems, Considering the Temperature Dependence of Chromatic Dispersion,�?? IEEE Photonics Technol. Lett. 15, 1470-1472 (2002)
[CrossRef]

B. Konrad, K. Petermann, �??Optimum fiber dispersion in high-speed TDM systems,�?? IEEE Photonics Technol. Lett. 13, 299 �?? 301 (2001)
[CrossRef]

LEOS 2004 (1)

Xu Zhenbo, K. Rottwitt, P. Jeppesen, �??Evaluation of Modulation Formats at 160 Gb/s Transmission Systems Using Raman Amplification,�?? in LEOS 2004. The 17th Annual Meeting of the IEEE, pp 613 - 614

OFC 2003 (1)

A. Hirano, Y. Miyamoto, S. Kuwahara, �??Performances of CSRZ-DPSK and RZ-DPSK in 43-Gbit/s/ch DWDM G.652 single-mode-fiber transmission,�?? in OFC 2003, 2, pp. 454 �?? 456

Opt. Commun. (1)

D. Breuer, K. Jürgensen, F. Küppers, A. Mattheus, I. Gabitov and S. K. Turitsyn, �??Optimal schemes for dispersion compensation of standard monomode fiber based links,�?? Opt. Commun. 140, 15-18 (1997)
[CrossRef]

Other (2)

Lucent Technol. Press Release, http://www.lucent.com/press/0501/010523.nsa.html, 2001 <a href="http://www.lucent.com/press/0501/010523.nsa.html, 2001">http://www.lucent.com/press/0501/010523.nsa.html, 2001</a>

Lightreading News, �??MCI Claims ULH Speed Record�??, <a href= "http://www.lightreading.com/document.asp?doc_id=54478&site=lightreading, 2004">http://www.lightreading.com/document.asp?doc_id=54478&site=lightreading, 2004</a>

Cited By

OSA participates in CrossRef's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.


Figures (7)

Fig. 1.
Fig. 1.

System setup used in numerical simulations

Fig. 2.
Fig. 2.

Number of spans with Q > 6 for SMF at 160 Gbit/s for the modulation formats RZ, NRZ, CSRZ, and CSRZ-DPSK (Bal-Rx and Single-Rx). The colorbar shown for CSRZ-DPSK-Single-Rx is valid for all plots.

Fig. 3.
Fig. 3.

Number of spans at 40 Gbit/s with Q > 6 for SMF for the modulation formats CSRZ and CSRZ-DPSK-Single-RX.

Fig. 4.
Fig. 4.

Number of spans with Q > 6 for NZDSFHD at 160 Gbit/s for the modulation formats RZ, NRZ, CSRZ, and CSRZ-DPSK (Bal-Rx and Single-Rx).

Fig. 5.
Fig. 5.

Number of spans with Q > 6 for NZDSFLD at 160 Gbit/s for the modulation formats RZ, NRZ, CSRZ, and CSRZ-DPSK (Bal-Rx and Single Rx).

Fig. 6.
Fig. 6.

Alternating dispersion compensation setup

Fig. 7.
Fig. 7.

Alternating dispersion compensation scheme system reach limits: Number of spans with Q>6 for CSRZ-DPSK-Bal-Rx at 160 Gbit/s and for fiber types of SMF and NZDSFHD.

Tables (1)

Tables Icon

Table 1. Transmission and Dispersion Compensating Fiber Parameters

Metrics