Title :
Switching-induced substrate noise and mixed-signal receiver design
Author_Institution :
Lucent Technol., AT&T Bell Labs., Murray Hill, NJ
Abstract :
We use a stochastic model of the switching current to describe the power spectral density of current noise waveforms induced by digital switching events. We discuss common impedance paths, particularly arising from non-ideal properties of electronic packages, that couple this noise into the substrate of an integrated circuit. We derive estimates of the noise spectrum for modest digital power and typical package characteristics and evaluate the noise in the context of RF mixed-signal designs. Common TQFP packages show significantly worse noise performance than BGA packages with low inductance substrate ground, and are less suitable for demanding applications. The adoption of differential design methods can eliminate this source of common-mode noise, at the expense of added power or higher noise figure
Keywords :
integrated circuit modelling; integrated circuit noise; integrated circuit packaging; mixed analogue-digital integrated circuits; radio receivers; stochastic processes; substrates; switching; BGA packages; IC substrate; RF mixed-signal designs; TQFP packages; common impedance paths; common-mode noise elimination; current noise waveforms; differential design methods; digital switching events; electronic packages; integrated circuit; low inductance substrate ground; mixed-signal receiver design; noise figure; noise spectrum estimation; nonideal properties; power spectral density; stochastic model; switching current; switching-induced substrate noise; Coupling circuits; Design methodology; Electronics packaging; Impedance; Inductance; Integrated circuit noise; Integrated circuit packaging; Noise figure; Radio frequency; Stochastic resonance;
Conference_Titel :
Mixed-Signal Design, 2000. SSMSD. 2000 Southwest Symposium on
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-5975-5
DOI :
10.1109/SSMSD.2000.836458
