Abstract

We proposed a simple and cost-effective burst mode bit discrimination circuit for dual rate reach extender based on 10 gigabit Ethernet passive optical network. To distinguish the dual rate burst mode packets, periodic idle patterns which have specific frequency components in the frequency domain and radio frequency power detection technique were used. The burst mode dual rate upstream transmission was demonstrated to confirm the feasibility of our suggested method in a coexisted gigabit Ethernet passive optical network and 10 gigabit Ethernet passive optical network. We achieved the dual rate burst mode receiver sensitivity of – 32 dBm for 1.25 Gbit/s signal and −27 dBm for 10.3 Gbit/s signal, respectively.

© 2011 OSA

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References

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  1. S. Kimura, “10-Gbit/s TDM-PON and over-40-Gbit/s WDM/TDM-PON systems with OPEX-effective burst mode technologies,” in Proceedings of Optical Fiber Communication Conference, Paper OMS4 (2009).
  2. E. Wang, “Current and Next-Generation Broadband Access Technologies,” in Proceedings of Optical Fiber Communication Conference, Paper NMD1 (2011).
  3. ITU-T Recommendation G.984.6, “SERIES G: TRANSMISSION SYSTEMS AND MEDIA, DIGITAL SYSTEMS AND NETWORKS Digital sections and digital line system – Optical line systems for local and access networks: Gigabit-capable Passive Optical Networks (GPON): Reach extension (ex G.984.re - GPON optical reach extension)” (2008).
  4. K.-O. Kim, K. W. Doo, and S. S. Lee, “Design of a hybrid PON system for GPON reach extension on the basis of colorless DWDM-PON and 3R regenerator,” in Proceedings of IEEE Globecom Conference, Paper ANS05–04 (2010).
  5. J. H. Lee, S.-H. Cho, H. H. Lee, E.-S. Jung, J.-H. Yu, B.-W. Kim, S.-H. Lee, J.-S. Koh, B. H. Sung, S. J. Kang, J. H. Kim, K.-T. Jeong, and S. S. Lee, “First Commercial Deployment of a Colorless Gigabit WDM/TDM Hybrid PON System Using Remote Protocol Terminator,” J. Lightwave Technol. 28(4), 344–351 (2010).
    [CrossRef]
  6. IEEE Standard 802.3avTM, “Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications, Amendment 1: Physical Layer Specifications and Management Parameters for 10 Gb/s Passive Optical Network” (2009).
  7. K. Hara, S. Kimura, H. Nakamura, N. Yoshimoto, and K. Kumozaki, “Burst-mode Bit-rate Discrimination Circuit for 1.25/10.3-Gbit/s Dual-rate PON Systems,” in Proceedings of Optical Fiber Communication Conference, Paper OWH2 (2009).
  8. M. Noda, S. Yoshima, K. Ishii, S. Shirai, M. Nogami, and J. Nakagawa, “Dual-rate Optical Transceiver Incorporating Fully Optimized Burst-mode AGC/ATC Functions for 10GEPON Systems,” in Proceedings of European Conference on Optical Communication, Paper MO.2 B.2 (2010).
  9. J.-H. Yu, N. Kim, and B.-W. Kim, “Remodulation schemes with reflective SOA for colorless DWDM PON,” J. Opt. Netw. 6(8), 1041–1054 (2007).
    [CrossRef]
  10. K. Hara, S. Kimura, H. Nakamura, N. Yoshimoto, and H. Hadama, “New AC-Coupled Burst Mode Optical Receiver Using Transient-Phenomena Cancellation Techniques for 10 Gbi/s-Class High-Speed TDM-PON Systems,” J. Lightwave Technol. 28(19), 2775–2782 (2010).
    [CrossRef]
  11. T. Nagahori, “Upstream 10G Sync Pattern/Delimiter for reducing burst mode receiver sensitivity penalty,” IEEE 802.3av Munich meeting, http://ieee802.org/3/av/public/2008_05/3av_0805_nagahori_1.pdf , (2008).
  12. T. Nagahori, “Supplement for proposal on data-like sync pattern/delimiter,” http://www.ieee802.org/3/av/public/2008_07/3av_0807_nagahori_1.pdf , (2008).

2010 (2)

2007 (1)

Cho, S.-H.

Hadama, H.

Hara, K.

Jeong, K.-T.

Jung, E.-S.

Kang, S. J.

Kim, B.-W.

Kim, J. H.

Kim, N.

Kimura, S.

Koh, J.-S.

Lee, H. H.

Lee, J. H.

Lee, S. S.

Lee, S.-H.

Nakamura, H.

Sung, B. H.

Yoshimoto, N.

Yu, J.-H.

J. Lightwave Technol. (2)

J. Opt. Netw. (1)

Other (9)

T. Nagahori, “Upstream 10G Sync Pattern/Delimiter for reducing burst mode receiver sensitivity penalty,” IEEE 802.3av Munich meeting, http://ieee802.org/3/av/public/2008_05/3av_0805_nagahori_1.pdf , (2008).

T. Nagahori, “Supplement for proposal on data-like sync pattern/delimiter,” http://www.ieee802.org/3/av/public/2008_07/3av_0807_nagahori_1.pdf , (2008).

IEEE Standard 802.3avTM, “Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications, Amendment 1: Physical Layer Specifications and Management Parameters for 10 Gb/s Passive Optical Network” (2009).

K. Hara, S. Kimura, H. Nakamura, N. Yoshimoto, and K. Kumozaki, “Burst-mode Bit-rate Discrimination Circuit for 1.25/10.3-Gbit/s Dual-rate PON Systems,” in Proceedings of Optical Fiber Communication Conference, Paper OWH2 (2009).

M. Noda, S. Yoshima, K. Ishii, S. Shirai, M. Nogami, and J. Nakagawa, “Dual-rate Optical Transceiver Incorporating Fully Optimized Burst-mode AGC/ATC Functions for 10GEPON Systems,” in Proceedings of European Conference on Optical Communication, Paper MO.2 B.2 (2010).

S. Kimura, “10-Gbit/s TDM-PON and over-40-Gbit/s WDM/TDM-PON systems with OPEX-effective burst mode technologies,” in Proceedings of Optical Fiber Communication Conference, Paper OMS4 (2009).

E. Wang, “Current and Next-Generation Broadband Access Technologies,” in Proceedings of Optical Fiber Communication Conference, Paper NMD1 (2011).

ITU-T Recommendation G.984.6, “SERIES G: TRANSMISSION SYSTEMS AND MEDIA, DIGITAL SYSTEMS AND NETWORKS Digital sections and digital line system – Optical line systems for local and access networks: Gigabit-capable Passive Optical Networks (GPON): Reach extension (ex G.984.re - GPON optical reach extension)” (2008).

K.-O. Kim, K. W. Doo, and S. S. Lee, “Design of a hybrid PON system for GPON reach extension on the basis of colorless DWDM-PON and 3R regenerator,” in Proceedings of IEEE Globecom Conference, Paper ANS05–04 (2010).

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Figures (8)

Fig. 1
Fig. 1

Our proposed link architecture of 1G/10G coexisted WDM-TDM-Hybrid-PON by using dual rate reach extender.

Fig. 2
Fig. 2

Detail configuration of dual rate reach extender based on 10G-EPON.

Fig. 3
Fig. 3

Functional block diagram of dual rate burst mode receiver including BM-BDC.

Fig. 4
Fig. 4

Basic operating principle of BM-BDC by means of band pass filtering and RF power detection techniques.

Fig. 5
Fig. 5

Experimental setup for burst mode upstream transmission.

Fig. 6
Fig. 6

Measured waveforms at the each reference point which are already depicted in Fig. 3.

Fig. 7
Fig. 7

Measured delay time of 10G burst mode signal.

Fig. 8
Fig. 8

Measured BER plots for both 1G and 10G burst mode upstream signals.

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