A multichannel 3.5mW/Gbps/channel gated oscillator based CDR in a 0.18µm digital CMOS technology

Tajalli, Armin
Muller, Paul
Atarodi, Mojtaba
Leblebici, Yusuf

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Publication date

December 2005

DOI

10.1109/ESSCIR.2005.1541592

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Abstract

This article presents a very low-power clock and data recovery (CDR) circuit with 8 parallel channels achieving an aggregate data rate of 20 Gbps. A structural top-down design methodology has been applied to minimize the power dissipation while satisfying the required specifications for short-haul receivers. Implemented in a 0.18µm digital CMOS technology, total power dissipation is 70.2mW or 3.51mW/Gbps/Ch and each channel occupies 0.045µm2 silicon area

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A multichannel 3.5mW/Gbps/channel gated oscillator based CDR in a 0.18µm digital CMOS technology

Abstract

Extracted data

A multichannel 3.5mW/Gbps/channel gated oscillator based CDR in a 0.18µm digital CMOS technology

Abstract

Extracted data

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