Paper Info
Title
A 5 Gbps 1.6 mW/G bps/CH Adaptive Crosstalk Cancellation Scheme With Reference-less Digital Calibration and Switched Termination Resistors for Single-Ended Parallel Interface
Abstract
A low power adaptive crosstalk cancellation for single-ended parallel interface is presented. A fast digital calibration which accurately detects the amount of crosstalk without a reference clock (reference-less) is proposed. To transfer calibration information from a receiver to a transmitter without additional channels, switched termination resistors (STR) are implemented. The reference-less adaptation and STR schemes achieve low power consumption and small area. A crosstalk compensator with simple structure is placed at transmitter-side, and it requires less design effort and low power. The proposed adaptive crosstalk cancellation scheme rapidly determines the optimum calibration point only during 4-cycle calibration time, and eliminates from 50% to 87.1% of the crosstalk-induced jitter (CIJ). It operates up to 5 Gbps consuming 1.6 mW/Gbps/CH in a 130 nm CMOS.
Year
DOI
Venue
2014
10.1109/TCSI.2014.2333362
IEEE Trans. on Circuits and Systems
Keywords
Field
DocType
referenceless digital calibration,cmos integrated circuits,calibration,single-ended parallel interface,adaptive crosstalk cancellation scheme,fast digital calibration,size 130 nm,adaptation,low-power electronics,far-end crosstalk,crosstalk,single ended parallel interface,integrated circuit design,termination resistor,crosstalk-induced jitter,clock and data recovery circuits,switched termination resistors
Computer science,Electronic engineering,Resistor,Crosstalk cancellation,Parallel port,Calibration
Journal
Volume
Issue
ISSN
61
10
1549-8328
Citations 
PageRank 
References 
1
0.36
11
Authors
2
Name
Order
Citations
PageRank
Kyu-Dong Hwang1172.67
Lee-Sup Kim270798.58