Abstract

CPRI between BBU and RRU equipment is carried by self-seeded WDM-PON prototype system within commercial LTE end-to-end environment. Delay and jitter meets CPRI requirements while services demonstrated show the same performance as bare fiber.

© 2015 Optical Society of America

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References

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  1. F. Saliou, P. Chanclou, B. Charbonnier, B. Le Guyader, Q. Deniel, A. Pizzinat, N. Genay, Z. Xu, and H. Lin, “Up to 15km cavity self seeded WDM-PON system with 90km maximum reach and up to 4.9Gbit/s CPRI links,” presented at European Conference and Exhibition on Optical Communication, paper We.1.B.6, Amsterdam Netherlands, September 2012.
    [Crossref]
  2. F. Saliou, G. Simon, P. Chanclou, M. Brunero, L. Marazzi, P. Parolari, M. Martinelli, R. Brenot, A. Maho, S. Barbet, G. Gavioli, G. Parladori, S. Gebrewold, and J. Leuthold, “Self-Seeded RSOAs WDM PON Field Trial for Business and Mobile Fronthaul Applications,” presented at Optical Fiber Communication Conference, paper M2A.2, Los Angeles, USA, March 2015.
    [Crossref]
  3. Y. Ma, D. Liu, J. Yu, and X. Wang, “System evaluation of economic 16/32chs 1.25Gbps WDM-PON with self-seeded RSOA,” Opt. Express 20(20), 22523–22530 (2012).
    [Crossref] [PubMed]
  4. A. Chiuchiarelli, M. Presi, and E. Ciaramella, “Effective architecture for 10 Gb/s upstream WDM-PONs exploiting self-seeding and external modulation,” presented at Optical Fiber Communication Conference, paper JTh2A, Los Angeles, USA, March 2012.
    [Crossref]
  5. F. Xiong, W. Zhong, M. Zhu, H. Kim, Z. Xu, and D. Liu, “Characterization of Directly Modulated Self-Seeded Reflective Semiconductor Optical Amplifiers Utilized as Colorless Transmitters in WDM-PONs,” J. Lightwave Technol. 31(11), 1727–1733 (2013).
    [Crossref]
  6. U. R. Duarte, R. S. Penze, F. R. Pereira, F. F. Padela, J. B. Rosolem, and M. A. Romero, “Combined Self-Seeding and Carrier Remodulation Scheme for WDM-PON,” J. Lightwave Technol. 31(8), 1323–1330 (2013).
    [Crossref]
  7. T. Komljenovic, D. Babic, and Z. Sipus, “C and L band Self-seeded WDM-PON Links using Injection-locked Fabry-Pérot Lasers and Modulation Averaging,” presented at Optical Fiber Communication Conference, paper W3G.1, San Francisco, USA, March 2014.
  8. P. Parolari, L. Marazzi, M. Brunero, M. Martinelli, R. Brenot, A. Maho, S. Barbet, G. Gavioli, G. Simon, S. Le, F. Saliou, and P. Chanclou, “C- and O-Band Operation of RSOA WDM PON Self-Seeded Transmitters up to 10 Gb/s,” J. Opt. Commun. Netw. 7(2), A249–A255 (2015).
    [Crossref]
  9. J. Zhu, S. Pachnicke, M. Lawin, S. Mayne, A. Wonfor, R. V. Penty, R. Cush, R. Turner, P. Firth, M. Wale, I. H. White, and J. Elbers, “First Demonstration of a WDM-PON System Using Full C-band Tunable SFP+ Transceiver Modules,” J. Opt. Commun. Netw. 7(1), A28–A36 (2015).
    [Crossref]
  10. S. Le, A. Lebreton, F. Saliou, Q. Deniel, B. Charbonnier, and P. Chanclou, “Up to 60 km Bidirectional Transmission of a 16 Channels × 10 Gb/s FDM-WDM PON Based on Self-Seeded Reflective Semiconductor Optical Amplifiers,” presented at Optical Fiber Communication Conference, paper Th3G.8, San Francisco, USA, March 2014.
    [Crossref]
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2015 (2)

2013 (2)

2012 (1)

Barbet, S.

Brenot, R.

Brunero, M.

Chanclou, P.

Cush, R.

Duarte, U. R.

Elbers, J.

Firth, P.

Gavioli, G.

Kim, H.

Lawin, M.

Le, S.

Liu, D.

Ma, Y.

Maho, A.

Marazzi, L.

Martinelli, M.

Mayne, S.

Pachnicke, S.

Padela, F. F.

Parolari, P.

Penty, R. V.

Penze, R. S.

Pereira, F. R.

Romero, M. A.

Rosolem, J. B.

Saliou, F.

Simon, G.

Turner, R.

Wale, M.

Wang, X.

White, I. H.

Wonfor, A.

Xiong, F.

Xu, Z.

Yu, J.

Zhong, W.

Zhu, J.

Zhu, M.

J. Lightwave Technol. (2)

J. Opt. Commun. Netw. (2)

Opt. Express (1)

Other (7)

F. Saliou, P. Chanclou, B. Charbonnier, B. Le Guyader, Q. Deniel, A. Pizzinat, N. Genay, Z. Xu, and H. Lin, “Up to 15km cavity self seeded WDM-PON system with 90km maximum reach and up to 4.9Gbit/s CPRI links,” presented at European Conference and Exhibition on Optical Communication, paper We.1.B.6, Amsterdam Netherlands, September 2012.
[Crossref]

F. Saliou, G. Simon, P. Chanclou, M. Brunero, L. Marazzi, P. Parolari, M. Martinelli, R. Brenot, A. Maho, S. Barbet, G. Gavioli, G. Parladori, S. Gebrewold, and J. Leuthold, “Self-Seeded RSOAs WDM PON Field Trial for Business and Mobile Fronthaul Applications,” presented at Optical Fiber Communication Conference, paper M2A.2, Los Angeles, USA, March 2015.
[Crossref]

A. Chiuchiarelli, M. Presi, and E. Ciaramella, “Effective architecture for 10 Gb/s upstream WDM-PONs exploiting self-seeding and external modulation,” presented at Optical Fiber Communication Conference, paper JTh2A, Los Angeles, USA, March 2012.
[Crossref]

T. Komljenovic, D. Babic, and Z. Sipus, “C and L band Self-seeded WDM-PON Links using Injection-locked Fabry-Pérot Lasers and Modulation Averaging,” presented at Optical Fiber Communication Conference, paper W3G.1, San Francisco, USA, March 2014.

S. Le, A. Lebreton, F. Saliou, Q. Deniel, B. Charbonnier, and P. Chanclou, “Up to 60 km Bidirectional Transmission of a 16 Channels × 10 Gb/s FDM-WDM PON Based on Self-Seeded Reflective Semiconductor Optical Amplifiers,” presented at Optical Fiber Communication Conference, paper Th3G.8, San Francisco, USA, March 2014.
[Crossref]

Y. Ma, Z. Xu, H. Lin, M. Zhou, H. Wang, C. Zhang, J. Yu, and X. Wang, “Demonstration of CPRI over Self-seeded WDM-PON in Commercial LTE Environment,” presented at Optical Fiber Communication Conference, paper M2J.6, Los Angeles, USA, March 2015.
[Crossref]

P. Chanclou, F. Effenberger, R. Heron, D. Hood, D. Khotimsky, and A. Rafel, “Next-generation 2 access network technology,” Full-service access network white paper, 2012.

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Figures (7)

Fig. 1
Fig. 1 Schematic diagram of self-seeded WDM-PON system.
Fig. 2
Fig. 2 Experimental optical spectra: (a) ASE spectrum with different bias current; (b) Lasing wavelength at different AWG channels; (c) Modulated spectrum with different drop fiber length.
Fig. 3
Fig. 3 Measurement of self-seeded emitting eye diagram: (a) Eye diagram of ASE modulation; (b) Eye diagram at channel 1 with 0km drop fiber; (c) Eye diagram at channel 8 with 0km drop fiber; (d) Eye diagram at channel 16 with 0km drop fiber; (e) Eye diagram at channel 1 with 5km drop fiber; (f) Eye diagram at channel 8 with 5km drop fiber; (g) Eye diagram at channel 16 with 5km drop fiber.
Fig. 4
Fig. 4 WDM-PON prototype system.
Fig. 5
Fig. 5 Trial setup (MME: Mobility Management Entity; HSS: Home Subscriber Server).
Fig. 6
Fig. 6 Phase noise of (a) bare fiber and (b) WDM-PON with 20 km fiber.
Fig. 7
Fig. 7 Service performance comparison of bare fiber and WDM-PON with 20 km fiber (a) UDP upstream transmission; (b) UDP downstream transmission; (c) FTP downstream transmission.

Tables (4)

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Table 1 Measurement results of received power sensitivity, laser linewidth, bit error ratio, lasing power and loss budget for different channels with different drop fiber length

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Table 2 CPRI requirement and Performance of WDM-PON to carry CPRI

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Table 3 CPRI EVM for bare fiber and WDM-PON with 20 km fiber

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Table 4 CPRI phase noise of bare fiber and WDM-PON with 20 km fiber

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