Abstract

We demonstrate four conventional TDM PONs with symmetric 2.5-Gb/s line rate and extended reach, sharing a common infrastructure. A hybrid SOA-Raman amplifier provides 150-nm bidirectional gain over the PONs' downstream and upstream CWDM wavelength plan.

© 2008 IEEE

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References

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  1. ITU-T Recommendation G.984.
  2. I. Van de Voorde, C. M. Martin, I. Vandewege, X. Z. Oiu, "The superpon demonstrator: An exploration of possible evolution paths for optical access networks," IEEE Commun. Mag. 38, 74-82 (2000).
  3. D. B. Payne, R. P. Davey, "The future of fibre access systems?," BT Technol. J 20, 104-114 (2002).
  4. M. Bouda, P. Palacharla, Y. Akasaka, A. Umnov, C. Tian, T. Naito, "Cost-effective optical access upgrades using wavelength shared hybrid passive optical network architecture," Proc. Nat. Fiber Opt. Eng. Conf. (NFOEC 2007) (2007).
  5. P. P. Iannone, H. H. Lee, K. C. Reichmann, X. Zhou, M. Du, B. Pálsdóttir, K. Feder, P. Westbrook, K. Brar, J. Mann, L. Spiekman, "Hybrid CWDM amplifier shared by multiple TDM PONs," Proc. Opt. Fiber Commun. Conf. (OFC 2007) (2007).
  6. P. P. Iannone, K. C. Reichmann, X. Zhou, S. Grey, "A discrete SOA-raman hybrid amplifier with 80-nm bandwidth," Proc. Europ. Conf. Opt. Commun. (ECOC 2006) (2006).
  7. S. G. Grubb, T. Erdogan, V. Mizrahi, T. Strasser, W. Y. Cheung, W. A. Reed, P. J. Lemaire, A. E. Miller, S. G. Kosinski, G. Nycolak, P. C. Becker, "1.3 µm Cascaded raman amplifiers and their applications," Optical Amplifiers and Their Applications (1994) Postdeadline paper PD3.
  8. Y. Chen, R. Pavlik, C. Visone, F. Pan, E. Gonzales, A. Turukhin, L. Lunardi, D. Al-Salameh, S. Lumish, "40 nm Broadband SOA-raman hybrid amplifier," Proc. OFC 2002 (2002) pp. 390-391.
  9. K. C. Reichmann, P. P. Iannone, X. Zhou, N. J. Frigo, B. R. Hemenway, "240-km CWDM transmission using cascaded SOA raman hybrid amplifiers with 70-nm bandwidth," IEEE Photon. Technol. Lett 18, 328-330 (2006).
  10. M. D. Feuer, R. D. Feldman, J. L. Zyskind, S. C. Shunk, J. Sulhoff, T. H. Wood, "Remotely-pumped self-amplified star network for local access," Proc. OFC 1996 (1996) pp. 146-147.
  11. N. Suzuki, J. Nakagawa, "First demonstration of full burst optical amplified GE-PON uplink with extended systems budget of up to 128 ONU splits and 58 km reach," Proc. Europ. Conf. Opt. Commun. (ECOC 2005) (2005).
  12. A. Bononi, M. Papararo, "Transient gain dynamics in saturated counter-pumped raman amplifiers," Proc. OFC 2002 (2002) pp. 511-512.
  13. S. Gray, "Transient gain dynamics in wide bandwidth discrete raman amplifiers," Proc. OFC 2002 (2002) pp. 512-513.
  14. M. Z. Iqbal, K. B. Ma, C. E. Zah, T. P. Lee, N. K. Cheung, "Effects of gain ripples in semiconductor optical amplifiers on very high speed lightwave systems," IEEE Photon. Technol. Lett 2, 48-50 (1990).

2006 (1)

K. C. Reichmann, P. P. Iannone, X. Zhou, N. J. Frigo, B. R. Hemenway, "240-km CWDM transmission using cascaded SOA raman hybrid amplifiers with 70-nm bandwidth," IEEE Photon. Technol. Lett 18, 328-330 (2006).

2002 (1)

D. B. Payne, R. P. Davey, "The future of fibre access systems?," BT Technol. J 20, 104-114 (2002).

2000 (1)

I. Van de Voorde, C. M. Martin, I. Vandewege, X. Z. Oiu, "The superpon demonstrator: An exploration of possible evolution paths for optical access networks," IEEE Commun. Mag. 38, 74-82 (2000).

1994 (1)

S. G. Grubb, T. Erdogan, V. Mizrahi, T. Strasser, W. Y. Cheung, W. A. Reed, P. J. Lemaire, A. E. Miller, S. G. Kosinski, G. Nycolak, P. C. Becker, "1.3 µm Cascaded raman amplifiers and their applications," Optical Amplifiers and Their Applications (1994) Postdeadline paper PD3.

1990 (1)

M. Z. Iqbal, K. B. Ma, C. E. Zah, T. P. Lee, N. K. Cheung, "Effects of gain ripples in semiconductor optical amplifiers on very high speed lightwave systems," IEEE Photon. Technol. Lett 2, 48-50 (1990).

BT Technol. J (1)

D. B. Payne, R. P. Davey, "The future of fibre access systems?," BT Technol. J 20, 104-114 (2002).

IEEE Commun. Mag. (1)

I. Van de Voorde, C. M. Martin, I. Vandewege, X. Z. Oiu, "The superpon demonstrator: An exploration of possible evolution paths for optical access networks," IEEE Commun. Mag. 38, 74-82 (2000).

IEEE Photon. Technol. Lett (1)

K. C. Reichmann, P. P. Iannone, X. Zhou, N. J. Frigo, B. R. Hemenway, "240-km CWDM transmission using cascaded SOA raman hybrid amplifiers with 70-nm bandwidth," IEEE Photon. Technol. Lett 18, 328-330 (2006).

IEEE Photon. Technol. Lett (1)

M. Z. Iqbal, K. B. Ma, C. E. Zah, T. P. Lee, N. K. Cheung, "Effects of gain ripples in semiconductor optical amplifiers on very high speed lightwave systems," IEEE Photon. Technol. Lett 2, 48-50 (1990).

Optical Amplifiers and Their Applications (1)

S. G. Grubb, T. Erdogan, V. Mizrahi, T. Strasser, W. Y. Cheung, W. A. Reed, P. J. Lemaire, A. E. Miller, S. G. Kosinski, G. Nycolak, P. C. Becker, "1.3 µm Cascaded raman amplifiers and their applications," Optical Amplifiers and Their Applications (1994) Postdeadline paper PD3.

Other (9)

Y. Chen, R. Pavlik, C. Visone, F. Pan, E. Gonzales, A. Turukhin, L. Lunardi, D. Al-Salameh, S. Lumish, "40 nm Broadband SOA-raman hybrid amplifier," Proc. OFC 2002 (2002) pp. 390-391.

ITU-T Recommendation G.984.

M. Bouda, P. Palacharla, Y. Akasaka, A. Umnov, C. Tian, T. Naito, "Cost-effective optical access upgrades using wavelength shared hybrid passive optical network architecture," Proc. Nat. Fiber Opt. Eng. Conf. (NFOEC 2007) (2007).

P. P. Iannone, H. H. Lee, K. C. Reichmann, X. Zhou, M. Du, B. Pálsdóttir, K. Feder, P. Westbrook, K. Brar, J. Mann, L. Spiekman, "Hybrid CWDM amplifier shared by multiple TDM PONs," Proc. Opt. Fiber Commun. Conf. (OFC 2007) (2007).

P. P. Iannone, K. C. Reichmann, X. Zhou, S. Grey, "A discrete SOA-raman hybrid amplifier with 80-nm bandwidth," Proc. Europ. Conf. Opt. Commun. (ECOC 2006) (2006).

M. D. Feuer, R. D. Feldman, J. L. Zyskind, S. C. Shunk, J. Sulhoff, T. H. Wood, "Remotely-pumped self-amplified star network for local access," Proc. OFC 1996 (1996) pp. 146-147.

N. Suzuki, J. Nakagawa, "First demonstration of full burst optical amplified GE-PON uplink with extended systems budget of up to 128 ONU splits and 58 km reach," Proc. Europ. Conf. Opt. Commun. (ECOC 2005) (2005).

A. Bononi, M. Papararo, "Transient gain dynamics in saturated counter-pumped raman amplifiers," Proc. OFC 2002 (2002) pp. 511-512.

S. Gray, "Transient gain dynamics in wide bandwidth discrete raman amplifiers," Proc. OFC 2002 (2002) pp. 512-513.

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