Abstract

This is the second of a two-part paper intended to provide technical insight and rationales behind the recently approved ITU-T G.989.2 Recommendation: the physical media dependent layer specification of the 40-gigabit-capable passive optical networks (NG-PON2). While Part 1 of the paper discusses topics related to the optical link design, Part 2 focuses on wavelength control, technology feasibility, management and control channel design, and potential future standardization directions of such a multi-wavelength PON system. As the NG-PON2 system will continue to evolve, technology extensions are also discussed to provide guidance for future research.

© 2015 Optical Society of America

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References

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    [Crossref]
  3. W. Poehlmann, D. van Veen, R. Farah, Th. Pfeiffer, and P. Vetter, “Wavelength drift of burst-mode DML for TWDM-PON,” J. Opt. Commun. Netw., vol.  7, no. 1, pp. A44–A51, 2015.
    [Crossref]
  4. C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
    [Crossref]
  5. R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.
  6. “High sensitivity 10Gb/s surface mount coplanar APD preamp receiver AT10XGC,” Bookham Data Sheet, , Rev 2.0, Jan.2007.
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  10. M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.
  11. M. Gokhale, J. Johnson, and J. Zhang, “Performance of optically amplified 10  G sources,” in IEEE P802.3av 10GEPON Task Force Meeting, Monterey, California, Jan. 2007.
  12. C. Caillaud, P. Chanclou, F. Blache, P. Angelini, B. Duval, P. Charbonnier, D. Lanteri, G. Glastre, and M. Achouche, “Integrated SOA-PIN detector for high-speed short reach applications,” J. Lightwave Technol., vol.  33, no. 8, pp. 1596–1601, Apr. 2015.
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    [Crossref]
  14. W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
    [Crossref]
  15. L. Bertignono, V. Ferrero, M. Valvo, and R. Gaudino, “Photon ranging for upstream ONU activation signaling in TWDM-PON,” J. Lightwave Technol., to be published.

2015 (2)

2014 (1)

2013 (1)

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

2008 (1)

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

2007 (1)

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

2006 (1)

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Achouche, M.

Angelini, P.

Antony, C.

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

Aufiero, J. M.

R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.

Bartolini, G. D.

R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.

Bauwelinck, J.

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

Bertignono, L.

L. Bertignono, V. Ferrero, M. Valvo, and R. Gaudino, “Photon ranging for upstream ONU activation signaling in TWDM-PON,” J. Lightwave Technol., to be published.

Blache, F.

Blumenthal, D. J.

M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.

Cahill, M. J. L.

R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.

Caillaud, C.

Chanclou, P.

Charbonnier, P.

Coldren, L. A.

M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.

Deppisch, B.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Duque, A.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Duval, B.

Earnshaw, M.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Eiselt, M. H.

Elbers, J.-P.

Fan, Z. F.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Farah, R.

Farah, R. L.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Ferrari, C.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Ferrero, V.

L. Bertignono, V. Ferrero, M. Valvo, and R. Gaudino, “Photon ranging for upstream ONU activation signaling in TWDM-PON,” J. Lightwave Technol., to be published.

Fujiwara, N.

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

Galaro, J.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Gaudino, R.

L. Bertignono, V. Ferrero, M. Valvo, and R. Gaudino, “Photon ranging for upstream ONU activation signaling in TWDM-PON,” J. Lightwave Technol., to be published.

Glastre, G.

Gokhale, M.

M. Gokhale, J. Johnson, and J. Zhang, “Performance of optically amplified 10  G sources,” in IEEE P802.3av 10GEPON Task Force Meeting, Monterey, California, Jan. 2007.

Grobe, K.

Ishii, H.

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

Johnson, J.

M. Gokhale, J. Johnson, and J. Zhang, “Performance of optically amplified 10  G sources,” in IEEE P802.3av 10GEPON Task Force Meeting, Monterey, California, Jan. 2007.

Kawaguchi, Y.

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

Kondo, Y.

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

Kotch, J.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Kumar, R. A.

R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.

Lanteri, D.

Lau, M. F.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Lealman, I.

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

Liao, C.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Mahgerefteh, D.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Matsui, Y.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

McCallion, K.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Morrison, G. P.

M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.

Murano, R.

R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.

Okamoto, H.

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

Oohashi, H.

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

Pachnicke, S.

Pfeiffer, Th.

W. Poehlmann, D. van Veen, R. Farah, Th. Pfeiffer, and P. Vetter, “Wavelength drift of burst-mode DML for TWDM-PON,” J. Opt. Commun. Netw., vol.  7, no. 1, pp. A44–A51, 2015.
[Crossref]

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Poehlmann, W.

W. Poehlmann, D. van Veen, R. Farah, Th. Pfeiffer, and P. Vetter, “Wavelength drift of burst-mode DML for TWDM-PON,” J. Opt. Commun. Netw., vol.  7, no. 1, pp. A44–A51, 2015.
[Crossref]

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Raring, J. W.

M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.

Smith, D. W.

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

Sysak, M. N.

M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.

Talli, G.

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

Tayebati, P.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Townsend, P. D.

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

Valvo, M.

L. Bertignono, V. Ferrero, M. Valvo, and R. Gaudino, “Photon ranging for upstream ONU activation signaling in TWDM-PON,” J. Lightwave Technol., to be published.

van Veen, D.

van Veen, D. T.

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Vetter, P.

W. Poehlmann, D. van Veen, R. Farah, Th. Pfeiffer, and P. Vetter, “Wavelength drift of burst-mode DML for TWDM-PON,” J. Opt. Commun. Netw., vol.  7, no. 1, pp. A44–A51, 2015.
[Crossref]

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Zhang, J.

M. Gokhale, J. Johnson, and J. Zhang, “Performance of optically amplified 10  G sources,” in IEEE P802.3av 10GEPON Task Force Meeting, Monterey, California, Jan. 2007.

Zheng, X.

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Bell Labs Tech. J. (1)

W. Poehlmann, B. Deppisch, Th. Pfeiffer, C. Ferrari, M. Earnshaw, A. Duque, R. L. Farah, J. Galaro, J. Kotch, M. F. Lau, D. T. van Veen, and P. Vetter, “Low cost TWDM by wavelength-set division multiplexing,” Bell Labs Tech. J., vol.  18, no. 3, pp. 173–193, Dec. 2013.
[Crossref]

Electron. Lett. (1)

C. Antony, G. Talli, P. D. Townsend, J. Bauwelinck, D. W. Smith, and I. Lealman, “High extinction switching of SOAs for in-band cross-talk reduction in PON,” Electron. Lett., vol.  44, no. 14, pp. 872–873, 2008.
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (1)

N. Fujiwara, H. Ishii, H. Okamoto, Y. Kawaguchi, Y. Kondo, and H. Oohashi, “Suppression of thermal wavelength drift in super-structure grating distributed Bragg reflector (SSG-DBR) laser with thermal drift compensator,” IEEE J. Sel. Top. Quantum Electron., vol.  13, no. 5, pp. 1164–1169, 2007.
[Crossref]

J. Lightwave Technol. (2)

J. Opt. Commun. Netw. (1)

Photon. Technol. Lett. (1)

Y. Matsui, D. Mahgerefteh, X. Zheng, C. Liao, Z. F. Fan, K. McCallion, and P. Tayebati, “Chirp-managed directly modulated, laser,” Photon. Technol. Lett., vol.  18, no. 2, pp. 385–387, 2006.
[Crossref]

Other (8)

L. Bertignono, V. Ferrero, M. Valvo, and R. Gaudino, “Photon ranging for upstream ONU activation signaling in TWDM-PON,” J. Lightwave Technol., to be published.

“40-gigabit-capable passive optical networks (NG-PON2): Physical media dependent (PMD) layer specification,” , 2014.

R. A. Kumar, R. Murano, M. J. L. Cahill, J. M. Aufiero, and G. D. Bartolini, “Cross-talk performance analysis of low cost 8 × 10  Gb/s tunable receiver for TWDM,” in Optical Fiber Communication Conf. and the Nat. Fiber Optic Engineers Conf. (OFC/NFOEC), 2013, paper NTh3F.5.

“High sensitivity 10Gb/s surface mount coplanar APD preamp receiver AT10XGC,” Bookham Data Sheet, , Rev 2.0, Jan.2007.

“Specification for SFP+ 10 Gb/s and low speed electrical interface,”, Rev. 4.1 and Addendum, Sept.15, 2013.

“10Gb/s limiting APD receiver AT10XGC,” , Issue 06, Oclaro, Jan.2013 [Online]. Available: http://www.oclaro.com/wp-content/uploads/2014/08/AT10XGC-Datasheet-D00010-PB-06.pdf .

M. N. Sysak, J. W. Raring, G. P. Morrison, D. J. Blumenthal, and L. A. Coldren, “Monolithically integrated, sampled grating DBR laser transmitter with an asymmetric quantum well electroabsorption modulator,” in Int. Semiconductor Laser Conf., Sept. 2006, paper TuB6.

M. Gokhale, J. Johnson, and J. Zhang, “Performance of optically amplified 10  G sources,” in IEEE P802.3av 10GEPON Task Force Meeting, Monterey, California, Jan. 2007.

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Figures (10)

Fig. 1.
Fig. 1. Operation principle of the dithering mechanism applied to ONU wavelength locking.
Fig. 2.
Fig. 2. Dithering result for a mistuned ONU. (a) Negative correction required. (b) Positive correction required.
Fig. 3.
Fig. 3. Optical spectrum of a 10 Gb/s EML Tx measured with a resolution bandwidth of 2.5 GHz.
Fig. 4.
Fig. 4. Gaussian-shaped filter and optical spectrum of a 10 Gb/s DML Tx measured with a resolution bandwidth of 2 GHz and tuned to fit within MSE.
Fig. 5.
Fig. 5. Impact to OLT Rx sensitivity by tuning a DML laser across the WM filter center wavelength.
Fig. 6.
Fig. 6. Cyclic AWG US wavelength routing. The four colors represent four different OLT channel terminations.
Fig. 7.
Fig. 7. Example configurations of OLT.
Fig. 8.
Fig. 8. Example study of the relationship between the channel spacing and adjacent channel cross-talk of AWGs with various passbands.
Fig. 9.
Fig. 9. Relationship of the AMCC TC layer with other system functions for the transparent (left) and transcoded (right) options.
Fig. 10.
Fig. 10. Uncalibrated ONU discovery using the time-gap approach.

Tables (1)

Tables Icon

TABLE I MSE Values for the NG-PON2 US Direction (the MSE for Intermediate Values of CS is Interpolated)