Title :
Modelling the PDF evolution in a CMOS inverter during switching
Author_Institution :
Sch. of Electr. Eng. & Comput., Curtin Univ., Perth, WA, Australia
Abstract :
A model which facilitates the simulation of switching in a CMOS inverter, and a model for the associated PDF evolution, are proposed. The latter model is based on a Gaussian basis set. Simulation results, for the additive Gaussian white noise case, show, first, that the Gaussian assumption for the probability density function of the output jitter is valid at high input noise levels but with deviations from the Gaussian form for the propagation delay. Second, the output noise variance at a set time varies and is a maximum close to the midpoint between the high and low states. Third, the rms jitter of the output signal increases with the input rise time and the output load capacitance but decreases with increasing noise bandwidth. Fourth, the high correlation between the input and output signals leads to lower propagation delay jitter than expected.
Keywords :
AWGN; CMOS integrated circuits; circuit simulation; delays; integrated circuit modelling; integrated circuit noise; jitter; probability; switching convertors; CMOS inverter; Gaussian basis set; PDF evolution modelling; additive Gaussian white noise; input noise level; output load capacitance; output noise variance; output rms jitter; probability density function; propagation delay jitter; switching inverter; CMOS integrated circuits; Inverters; Jitter; Noise; Noise level; Propagation delay; Semiconductor device modeling; CMOS inverter; PDF evolution; jitter; switching;
Conference_Titel :
Noise and Fluctuations (ICNF), 2013 22nd International Conference on
Conference_Location :
Montpellier
Print_ISBN :
978-1-4799-0668-0
DOI :
10.1109/ICNF.2013.6578962
