MOS decision and clock-recovery circuits for Gb/s optical-fiber receivers

MOS decision and clock-recovery circuits for Gb/s optical-fiber receivers

Low-cost interface electronics are key for wider acceptance of 1-GHz optical-fiber data links for local area networks. ICs for the transmitter and receiver functions have been developed in GaAs and high-speed silicon bipolar technologies, but the prospect of implementing the requisite functions as M...

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Bibliographic Details
Published in:1992 IEEE International Solid-State Circuits Conference Digest of Technical Papers pp. 96 - 97
Main Authors: Enam, S.K., Abidi, A.A.
Format: Conference Proceeding
Language:English
Published: IEEE 1992
Subjects:
Circuit synthesis
Clocks
Gallium arsenide
High speed optical techniques
Integrated circuit technology
Optical fiber LAN
Optical fiber networks
Optical receivers
Optical transmitters
Silicon
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Summary:Low-cost interface electronics are key for wider acceptance of 1-GHz optical-fiber data links for local area networks. ICs for the transmitter and receiver functions have been developed in GaAs and high-speed silicon bipolar technologies, but the prospect of implementing the requisite functions as MOS ICs has so far remained unfulfilled. Circuit designs for on-chip clock recovery and data regeneration at low error rates pose the greatest challenges. The authors report the first integrated versions of these elements exceeding 1 Gb/s operation fabricated in a 1- mu m nMOS technology. Fully differential and quasi-complimentary circuits are used for immunity from on-chip high-frequency noise. All clock phases are generated on-chip, requiring a single clock and complementary data inputs.< >
ISBN:9780780305731
0780305736
DOI:10.1109/ISSCC.1992.200429