Title :
Low-Voltage Topologies for 40-Gb/s Circuits in Nanoscale CMOS
Author :
Chalvatzis, Theodoros ; Yau, Kenneth H K ; Aroca, Ricardo A. ; Schvan, Peter ; Yang, Ming-Ta ; Voinigescu, Sorin P.
Author_Institution :
Toronto Univ., Toronto
fDate :
7/1/2007 12:00:00 AM
Abstract :
This paper presents low-voltage circuit topologies for 40-Gb/s communications in 90-nm and 65-nm CMOS. A retiming flip-flop implemented in two different 90-nm CMOS technologies employs a MOS-CML Master-Slave latch topology with only two vertically stacked transistors. Operation at 40 Gb/s is achieved by a combination of low and high-VT MOSFETs in the latch. Full-rate retiming with jitter reduction is demonstrated up to 40 Gb/s. Low-power broadband amplifiers based on resistor-inductor transimpedance feedback are realized in 90-nm and 65-nm CMOS to investigate the portability of high-speed building blocks between technology nodes. Experiments show that the transimpedance amplifier based on the CMOS inverter can reach 40-Gb/s operation with a record power consumption of 0.15 mW/Gb/s. A comparison between CMOS technologies underlines the importance of General Purpose rather than Low Power processes for high-speed digital design.
Keywords :
CMOS integrated circuits; low-power electronics; nanoelectronics; network topology; wideband amplifiers; CMOS inverter; MOS-CML Master-Slave latch topology; decision circuit; full-rate retiming; high-speed building blocks; high-speed digital design; jitter reduction; low-power broadband amplifiers; low-voltage topologies; nanoscale CMOS; resistor-inductor transimpedance feedback; retiming flip-flop; size 65 nm; size 90 nm; transimpedance amplifier; Broadband amplifiers; CMOS technology; Circuit topology; Feedback; Flip-flops; Jitter; Latches; MOSFETs; Master-slave; Operational amplifiers; Decision circuit; GP CMOS; LP CMOS; MOS-CML; flip-flop; retimer; transimpedance amplifier;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2007.899093
