Title :
8-Gb/s source-synchronous I/O link with adaptive receiver equalization, offset cancellation, and clock de-skew
Author :
Jaussi, James E. ; Balamurugan, Ganesh ; Johnson, David R. ; Casper, Bryan ; Martin, Aaron ; Kennedy, Joseph ; Shanbhag, Naresh ; Mooney, Randy
Author_Institution :
Circuits Res., Intel Labs., Hillsboro, OR, USA
Abstract :
A source-synchronous I/O link with adaptive receiver-side equalization has been implemented in 0.13-μm bulk CMOS technology. The transceiver is optimized for small area (360 μm × 360 μm) and low power (280 mW). The analog equalizer is implemented as an 8-way interleaved, 4-tap discrete-time linear filter. The equalization improved the data rate of a 102 cm backplane interconnect by 110%. On-die adaptive logic determines optimal receiver settings through comparator offset cancellation, data alignment of the transmitter and receiver, clock de-skew and setting filter coefficients for equalization. The noise-margin degradation due to statistical variation in converged coefficient values was less than 3%.
Keywords :
CMOS logic circuits; adaptive equalisers; delays; discrete time filters; low-power electronics; phase comparators; radio receivers; transceivers; 0.13 micron; 280 mW; 4-tap discrete-time linear filter; 8 Gbits/s; 8-way interleaved linear filter; adaptive equalizers; adaptive receiver equalization; analog equalization; bulk CMOS technology; clock de-skew; comparator offset cancellation; data alignment; high-speed I/O; on-die adaptive logic; optimal receiver settings; source-synchronous I/O link; statistical variation; transceiver; waveform capture; Adaptive equalizers; Adaptive filters; Backplanes; CMOS logic circuits; CMOS technology; Clocks; Noise cancellation; Nonlinear filters; Transceivers; Transmitters; Adaptive equalizers; analog equalization; high-speed I/O; offset cancellation; transceivers; waveform capture;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2004.838009
