Title :
Delay-insensitive logic in software-defined radio applications
Author :
Chester, David B. ; McCardle, John
Author_Institution :
Extensil Inc., Sunnyvale, CA, USA
fDate :
1/1/2003 12:00:00 AM
Abstract :
This article describes how one of the fundamental hardware stumbling blocks to fully achieving software-defined radio, high speed, and wide dynamic range data conversion can be overcome with the selective application of a class of asynchronous logic referred to as delay-insensitive logic. Certain characteristics of delay-insensitive logic can be exploited using unique architectures to reduce digital switching noise and whiten the noise signature. The result is enhanced mixed mode performance in highly integrated systems. The performance enhancement of an interpolating digital-to-analog converter is presented as a specific example. Because the concept of delay-insensitive logic is not familiar to most engineers, a brief introduction to the general concept is given.
Keywords :
combinational circuits; digital signal processing chips; digital-analogue conversion; software radio; asynchronous logic; data conversion; delay-insensitive logic; digital switching noise; enhanced mixed mode performance; highly integrated systems; interpolating digital-to-analog converter; noise signature; software-defined radio; Acoustic noise; Application software; Boolean functions; Circuit noise; Clocks; Delay; Logic circuits; Phase distortion; Semiconductor device noise; Timing;
Journal_Title :
Communications Magazine, IEEE
DOI :
10.1109/MCOM.2003.1166668
