Title :
An algorithm for finding all the DC solutions of short-channel MOS transistor circuits
Author :
Tadeusiewicz, Michal ; Halgas, Stanislaw
Author_Institution :
Tech. Univ. Lodz, Poland
Abstract :
A broad class of electronic circuits containing short-channel MOS transistors, having multiple DC solutions, is considered in this paper. The transistors are represented by the nth power law model, developed by Sakurai and Newton, that is valid at least down to 0.25 μm channel length. The algorithm operates on original nonlinearities and no piecewise-linear approximation is used. The idea of successive contraction, division and elimination is adopted and a new contraction procedure is developed. Under the realistic assumption that we identify two solution voltages that differ less than 0.001 V the algorithm enables us to find all the DC solutions. A numerical example shows effectiveness of this approach
Keywords :
MOS integrated circuits; VLSI; circuit simulation; integrated circuit modelling; nonlinear network analysis; 0.25 micron; DC solutions; channel length; division; elimination; nth power law model; short-channel MOS transistor circuits; solution voltages; successive contraction; Approximation algorithms; Circuit analysis; Electronic circuits; Flip-flops; Linear approximation; MOSFETs; Resistors; Threshold voltage; Transistors; Very large scale integration;
Conference_Titel :
Electronics, Circuits and Systems, 2000. ICECS 2000. The 7th IEEE International Conference on
Conference_Location :
Jounieh
Print_ISBN :
0-7803-6542-9
DOI :
10.1109/ICECS.2000.913027
