Paper Info
Title
Current-mode full-duplex (CMFD) signaling for high-speed chip-to-chip interconnect
Abstract
In this work we propose a new current-mode full-duplex (CMFD) signaling scheme for high-speed chip-to-chip data communication. In this scheme, all the internal nodes of the link are maintained at low-impedance, facilitating high-speed data communication. A new hybrid circuit topology required for separating the inbound signal from the outbound signal is presented. The proposed current-mode hybrid is realized by a source-coupled main driver, a scaled down replica stage and a common-gate (CG) transimpedance amplifier (TIA). Detailed design, analysis, noise and jitter characterization of the proposed hybrid is presented. The hybrid is realized in 1.8V, 0.18@mm digital CMOS technology. Using this hybrid circuit topology, CMFD signaling over a chip-to-chip interconnect is demonstrated. The post-layout performance shows 8Gb/s data transfer rate over a FR4 PCB trace of length 7.5in. for a target bit-error rate (BER) of 10^-^1^2. The FR4 PCB trace is modeled by measured 4-port S-parameters in the frequency range from 100MHz to 20GHz. The input-referred noise current of the receiver and output-noise voltage of transmitter are 1.76@mA and 5.34mV, respectively. The standalone power consumption of the hybrid is 14.64mW.
Year
DOI
Venue
2011
10.1016/j.mejo.2011.04.007
Microelectronics Journal
Keywords
Field
DocType
proposed current-mode hybrid,new hybrid circuit topology,fr4 pcb trace,inbound signal,proposed hybrid,high-speed chip-to-chip data communication,hybrid circuit topology,input-referred noise,high-speed data communication,data transfer rate,current-mode full-duplex,hybrid,chip,data transfer,transimpedance amplifier,bit error rate,full duplex
Data transmission,Circuit design,Electronic engineering,Chip,Transimpedance amplifier,Jitter,Engineering,Hybrid integrated circuit,Duplex (telecommunications),Topology (electrical circuits)
Journal
Volume
Issue
ISSN
42
7
Microelectronics Journal
Citations 
PageRank 
References 
2
0.49
8
Authors
2
Name
Order
Citations
PageRank
P. Vijaya Sankara Rao1113.39
Pradip Mandal28423.04