A low jitter clock and data recovery with a single edge sensing bang-bang PD

Taek Joon Ahn; Sang Soon Im; Yong Sung Ahn; Jin Ku Kang

doi:10.1587/elex.11.20140088

A low jitter clock and data recovery with a single edge sensing bang-bang PD

Taek Joon Ahn, Sang Soon Im, Yong Sung Ahn, Jin Ku Kang

Inha University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This letter describes a low jitter clock and data recovery (CDR) circuit with a modified bang-bang phase detector (BBPD). The proposed PD senses the phase relationship using a single edge of input data to reduce ripples in the VCO control voltage. A 2.5 Gbps CDR circuit with a proposed BBPD has been designed and compared with conventional BBPD using 0.13 μm CMOS technology. Measured results reveal that proposed CDR shows the peak-to-peak jitter of 17 ps on 2⁵_1 PRBS input pattern compared to 26 ps with the CDR with a conventional BBPD. The proposed CDR can be best applied to 8B10B encoded input data. Power consumption can also be saved by about 3mW with the proposed BBPD.

Original language	English
Article number	20140088
Journal	IEICE Electronics Express
Volume	11
Issue number	7
DOIs	https://doi.org/10.1587/elex.11.20140088
State	Published - 24 Mar 2014

Keywords

Alexander PD
Bang-bang PD (BBPD)
CDR
Jitter
PRBS

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10.1587/elex.11.20140088

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title = "A low jitter clock and data recovery with a single edge sensing bang-bang PD",

abstract = "This letter describes a low jitter clock and data recovery (CDR) circuit with a modified bang-bang phase detector (BBPD). The proposed PD senses the phase relationship using a single edge of input data to reduce ripples in the VCO control voltage. A 2.5 Gbps CDR circuit with a proposed BBPD has been designed and compared with conventional BBPD using 0.13 μm CMOS technology. Measured results reveal that proposed CDR shows the peak-to-peak jitter of 17 ps on 25\_1 PRBS input pattern compared to 26 ps with the CDR with a conventional BBPD. The proposed CDR can be best applied to 8B10B encoded input data. Power consumption can also be saved by about 3mW with the proposed BBPD.",

keywords = "Alexander PD, Bang-bang PD (BBPD), CDR, Jitter, PRBS",

author = "Ahn, \{Taek Joon\} and Im, \{Sang Soon\} and Ahn, \{Yong Sung\} and Kang, \{Jin Ku\}",

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language = "English",

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T1 - A low jitter clock and data recovery with a single edge sensing bang-bang PD

AU - Ahn, Taek Joon

AU - Im, Sang Soon

AU - Ahn, Yong Sung

AU - Kang, Jin Ku

PY - 2014/3/24

Y1 - 2014/3/24

N2 - This letter describes a low jitter clock and data recovery (CDR) circuit with a modified bang-bang phase detector (BBPD). The proposed PD senses the phase relationship using a single edge of input data to reduce ripples in the VCO control voltage. A 2.5 Gbps CDR circuit with a proposed BBPD has been designed and compared with conventional BBPD using 0.13 μm CMOS technology. Measured results reveal that proposed CDR shows the peak-to-peak jitter of 17 ps on 25_1 PRBS input pattern compared to 26 ps with the CDR with a conventional BBPD. The proposed CDR can be best applied to 8B10B encoded input data. Power consumption can also be saved by about 3mW with the proposed BBPD.

AB - This letter describes a low jitter clock and data recovery (CDR) circuit with a modified bang-bang phase detector (BBPD). The proposed PD senses the phase relationship using a single edge of input data to reduce ripples in the VCO control voltage. A 2.5 Gbps CDR circuit with a proposed BBPD has been designed and compared with conventional BBPD using 0.13 μm CMOS technology. Measured results reveal that proposed CDR shows the peak-to-peak jitter of 17 ps on 25_1 PRBS input pattern compared to 26 ps with the CDR with a conventional BBPD. The proposed CDR can be best applied to 8B10B encoded input data. Power consumption can also be saved by about 3mW with the proposed BBPD.

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KW - Jitter

KW - PRBS

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A low jitter clock and data recovery with a single edge sensing bang-bang PD

Abstract

Keywords

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