J.T. Stonick scite author profile

Abstract-In this tutorial paper, we present a general architecture for digital clock and data recovery (CDR) for high-speed binary links. The architecture is based on replacing the analog loop filter and voltage-controlled oscillator (VCO) in a typical analog phase-locked loop (PLL)-based CDR with digital components. We provide a linearized analysis of the bang-bang phase detector and CDR loop including the effects of decimation and self-noise. Additionally, we provide measured results from an implementation of the digital CDR system which are directly comparable to the linearized analysis, plus measurements of the limit cycle behavior which arises in these loops when incoming jitter is small. Finally, the relative advantages of analog and digital implementations of the CDR for high-speed binary links is considered.Index Terms-Clock and data recovery (CDR), clock recovery, digital phase-locked loop (DPLL), jitter.

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Adaptive digital correction of analog errors in MASH ADCs. II. Correction using test-signal injection

Kiss

Silva

Wiesbauer

et al. 2000

IEEE Trans. Circuits Syst. II

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A multigigabit backplane transceiver core in 0.13-/spl mu/m CMOS with a power-efficient equalization architecture

Kant

Yokoyama-Martin

Caffee

et al. 2005

IEEE J. Solid-State Circuits

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A Digital Clock and Data Recovery Architecture for Multi-Gigabit/s Binary Links

Sonntag

Stonick

2006

IEEE J. Solid-State Circuits

112

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J.T. Stonick

An adaptive pam-4 5-Gb/s backplane transceiver in 0.25-μm CMOS

A digital clock and data recovery architecture for multi-gigabit/s binary links

Adaptive digital correction of analog errors in MASH ADCs. II. Correction using test-signal injection

A multigigabit backplane transceiver core in 0.13-/spl mu/m CMOS with a power-efficient equalization architecture

A Digital Clock and Data Recovery Architecture for Multi-Gigabit/s Binary Links

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