DocumentCode
1204937
Title
A Multi-Standard 1.5 to 10 Gb/s Latch-Based 3-Tap DFE Receiver With a SSC Tolerant CDR for Serial Backplane Communication
Author
Pozzoni, Massimo ; Erba, Simone ; Viola, Paolo ; Pisati, Matteo ; Depaoli, Emanuele ; Sanzogni, Davide ; Brama, Riccardo ; Baldi, Daniele ; Repossi, Matteo ; Svelto, Francesco
Author_Institution
Studio di Microelettronica, STMicroelectronics, Pavia
Volume
44
Issue
4
fYear
2009
fDate
4/1/2009 12:00:00 AM
Firstpage
1306
Lastpage
1315
Abstract
This paper presents a 1.5 to 10 Gb/s SATA/SAS/FC receiver in 65 nm CMOS. The multiple constraints set by industry standards ask for a receiver architecture capable of simultaneously addressing channel loss impairments, high frequency-difference tracking and low serial to parallel latency. An adaptive 3-tap DFE data recovery is based on a direct-feedback topology to provide a continuous equalized signal assuring a robust clock-data self alignment. A latch-based DFE topology has been developed to overcome the classical DFE feedback loop-delay issue. A digital early-late clock recovery has been proven for plusmn5000 ppm SSC tracking. Extensive digital features allow self-calibration and internal eye analysis. The device, realized in a 65 nm technology, supports more than 36" FR4 at 6 Gb/s with SSC and 28" at 8.5 Gb/s while keeping 0.4 UI of additional sinusoidal jitter tolerance, consuming 140 mW from 1V.
Keywords
decision feedback equalisers; receivers; SATA-SAS-FC receiver; SSC tolerant CDR; channel loss impairments; frequency-difference tracking; multi-standard latch-based 3-tap DFE receiver; receiver architecture; serial backplane communication; serial-to-parallel latency; Adaptive equalizers; Backplanes; Clocks; Decision feedback equalizers; Delay; Feedback loop; Frequency; Robustness; Synthetic aperture sonar; Topology; Adaptive equalizers; clock and data recovery; current-mode logic; data communication; decision feedback equalizers;
fLanguage
English
Journal_Title
Solid-State Circuits, IEEE Journal of
Publisher
ieee
ISSN
0018-9200
Type
jour
DOI
10.1109/JSSC.2009.2014203
Filename
4804979
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