DAC-Less and DSP-Free 112 Gb/s PAM-4 Transmitter Using Two Parallel Electroabsorption Modulators

Jochem Verbist; Joris Lambrecht; Michiel Verplaetse; Joris Van Kerrebrouck; Ashwyn Srinivasan; Peter De Heyn; Timothy De Keulenaer; Xin Yin; Guy Torfs; Joris Van Campenhout; Gunther Roelkens; Johan Bauwelinck

Journal of Lightwave Technology
Vol. 36,
Issue 5,
pp. 1281-1286
(2018)

DAC-Less and DSP-Free 112 Gb/s PAM-4 Transmitter Using Two Parallel Electroabsorption Modulators

Jochem Verbist, Joris Lambrecht, Michiel Verplaetse, Joris Van Kerrebrouck, Ashwyn Srinivasan, Peter De Heyn, Timothy De Keulenaer, Xin Yin, Guy Torfs, Joris Van Campenhout, Gunther Roelkens, and Johan Bauwelinck

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Jochem Verbist, Joris Lambrecht, Michiel Verplaetse, Joris Van Kerrebrouck, Ashwyn Srinivasan, Peter De Heyn, Timothy De Keulenaer, Xin Yin, Guy Torfs, Joris Van Campenhout, Gunther Roelkens, and Johan Bauwelinck, "DAC-Less and DSP-Free 112 Gb/s PAM-4 Transmitter Using Two Parallel Electroabsorption Modulators," J. Lightwave Technol. 36, 1281-1286 (2018)

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Abstract

Four-level pulse amplitude modulation (PAM-4) is widely regarded as the modulation format of choice for the next generation of 400 gigabit Ethernet short-reach optical transceiver. However, generating and receiving PAM-4 at line rates of 112 Gb/s has proven challenging, without relying on power-hungry tools as digital signal processing and digital-to-analog converters, as it requires linearity from the E/O-components in the link and/or predistortion techniques. Moving the binary to multilevel conversion to the optical domain would greatly relax these requirements. Electroabsorption-based transceivers would be ideally suited for this type of data center interconnects as they are capable of combining low-power and high bandwidth operation with a very compact layout, removing the need for large travelling wave structures and dedicated 50 Ω terminations. In this paper, we present a novel transmitter topology for generating PAM-4 using two binary-driven electroabsorption modulators in parallel. Using this approach, we achieve superior performance with respect to a single, but identical multilevel-driven EAM. Finally, we demonstrate the first silicon-based modulator capable of transmitting single-lane 112 Gb/s PAM-4 over 2 km of standard single-mode fiber without any electrical digital-to-analog converter, DSP, or long transmission line structures and terminations.

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Journal of Lightwave Technology