Title :
A 14-mW 6.25-Gb/s Transceiver in 90-nm CMOS
Author :
Poulton, John ; Palmer, Robert ; Fuller, Andrew M. ; Greer, Trey ; Eyles, John ; Dally, William J. ; Horowitz, Mark
Author_Institution :
Rambus, Inc., Chapel Hill
Abstract :
This paper describes a 6.25-Gb/s 14-mW transceiver in 90-nm CMOS for chip-to-chip applications. The transceiver employs a number of features for reducing power consumption, including a shared LC-PLL clock multiplier, an inductor-loaded resonant clock distribution network, a low- and programmable-swing voltage-mode transmitter, software-controlled clock and data recovery (CDR) and adaptive equalization within the receiver, and a novel PLL-based phase rotator for the CDR. The design can operate with channel attenuation of -15 dB or greater at a bit-error rate of 10-15 or less, while consuming less than 2.25 mW/Gb/s per transceiver.
Keywords :
CMOS integrated circuits; adaptive equalisers; clocks; error statistics; multiplying circuits; phase locked loops; transceivers; CMOS integrated circuits; LC-PLL clock multiplier; PLL-based phase rotator; adaptive equalization; bit rate 6.25 Gbit/s; bit-error rate; channel attenuation; inductor-loaded resonant clock distribution network; power 14 mW; power consumption; programmable-swing voltage-mode transmitter; receiver; size 90 nm; software-controlled clock and data recovery; transceiver; Adaptive equalizers; Application software; Attenuation; Bit error rate; Clocks; Energy consumption; Resonance; Transceivers; Transmitters; Voltage; Low power; transceiver;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2007.908692
