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A 90 nm CMOS DSP MLSD Transceiver With Integrated AFE for Electronic Dispersion Compensation of Multimode Optical Fibers at 10 Gb/s | IEEE Journals & Magazine | IEEE Xplore

A 90 nm CMOS DSP MLSD Transceiver With Integrated AFE for Electronic Dispersion Compensation of Multimode Optical Fibers at 10 Gb/s


Abstract:

This paper presents the architecture and circuit design of a single chip 32 mm$^2$ 90 nm CMOS DSP transceiver for electronic dispersion compensation (EDC) of multimode f...Show More

Abstract:

This paper presents the architecture and circuit design of a single chip 32 mm$^2$ 90 nm CMOS DSP transceiver for electronic dispersion compensation (EDC) of multimode fibers at 10 Gb/s, based on maximum likelihood sequence detection (MLSD). This is the first MLSD-based transceiver for multimode fibers and the first fully integrated DSP based transceiver for optical channels reported in the technical literature. The digital receiver incorporates equalization, Viterbi detection, channel estimation, timing recovery, and gain control functions. The analog front-end incorporates an 8-way interleaved ADC with self-calibration, a programmable gain amplifier, a phase interpolator, and the transmitter. Also integrated are a XAUI interface, the physical coding sublayer (PCS), and miscellaneous test and control functions. Experimental results using the stressors specified by the IEEE 10 GBASE-LRM standard , as well as industry-defined worst-case fibers are reported. A sensitivity of ${-}$ 13.68 dBm is demonstrated for the symmetric stressor of in a line card application with a 6 inch FR4 interconnect.
Published in: IEEE Journal of Solid-State Circuits ( Volume: 43, Issue: 12, December 2008)
Page(s): 2939 - 2957
Date of Publication: 31 December 2008

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