Recent Progress of EDC Commercialization in Addressing Datacom and Telecom Challenges to Enable High-speed Optical Enterprise, Metro and Long-haul Networks

“…EDC using CMOS technology has been previously proposed [1] to compensate for optical channel multi-path modal, chromatic and polarization-mode dispersions. The first success of EDC commercial deployment with significant shipping volume in term of X2/SFP+ form factors [1][2] has been identified in enterprise networks to upgrade the large installed base of legacy MMFs running at 1Gb/s. Its optical interfaces were specified by 10GBASE-LRM (long-reach multimode) ratified by IEEE 802.3aq task force [3] for serial 10 GbE over worst-case legacy MMF (OM1) up to 220m.…”

“…Both x-cut MZ modulator and EML have been tested with good results. The EDC chips tested were based on variants of mixed signal FFE and/or DFE implementations [1][2] to meet the cost and power budget of the Small Form Factor (SFF) modules. Different EDC chips are annotated as X, Y, and Z.…”

Status of Industry Efforts to Deploy EDC and Advanced Modulation Schemes for Extended Reach Transport Applications

“…EDC using CMOS technology has been previously proposed [1] to compensate for optical channel multi-path modal, chromatic and polarization-mode dispersions. The first success of EDC commercial deployment with significant shipping volume in term of X2/SFP+ form factors [1][2] has been identified in enterprise networks to upgrade the large installed base of legacy MMFs running at 1Gb/s. Its optical interfaces were specified by 10GBASE-LRM (long-reach multimode) ratified by IEEE 802.3aq task force [3] for serial 10 GbE over worst-case legacy MMF (OM1) up to 220m.…”

“…Both x-cut MZ modulator and EML have been tested with good results. The EDC chips tested were based on variants of mixed signal FFE and/or DFE implementations [1][2] to meet the cost and power budget of the Small Form Factor (SFF) modules. Different EDC chips are annotated as X, Y, and Z.…”

Status of Industry Efforts to Deploy EDC and Advanced Modulation Schemes for Extended Reach Transport Applications

“…This is the common platform for multi-mode fiber, single-mode fiber and backplane applications, and has been widely deployed in enterprise applications. The details of the FFE/DFE-based EDC structure can be found elsewhere [5]. Several implementation trade-offs has been considered.…”

“…In the receive side, the last several years have witnessed the introduction and commercialization of FFE/DFEbased EDC techniques for intersymbol interference (ISI) mitigation in optical networks [5]. The FFE (feed-forward equalizer) combined with DFE (decision-feedback equalizer) realized within one IC provides a rational balance between good performance and additional aspects that have to be considered for modular applications: i.e., size, power consumption and cost.…”

“…Chirp managed laser (CML) provides high optical output power, long transmission distance in standard single-mode fibers. In addition, this new transmitter requires a low driving voltage and, by eliminating the external modulator offers a reduced footprint, which fits into a small form factor XFP TOSA (Transmitter Optical Sub-Assembly) package.In the receive side, the last several years have witnessed the introduction and commercialization of FFE/DFEbased EDC techniques for intersymbol interference (ISI) mitigation in optical networks [5]. The FFE (feed-forward equalizer) combined with DFE (decision-feedback equalizer) realized within one IC provides a rational balance between good performance and additional aspects that have to be considered for modular applications: i.e., size, power consumption and cost.…”

Performance demonstration of 300-km dispersion uncompensated transmission using tunable chirp-managed laser and EDC integratable into small-form-factor MSAs

Performance demonstration of 300-km dispersion uncompensated transmission using tunable chirp-managed laser and EDC integratable into small-form-factor XFP