Title :
Operation of short-channel depletion-mode MOS devices at liquid-nitrogen temperature
Author :
Gautier, Jacques ; Guegan, Georges ; Guerin, Michel ; Lerme, Michel
Author_Institution :
LETI, CENG, Grenoble, France
fDate :
8/1/1991 12:00:00 AM
Abstract :
Experimental observations that depletion-mode MOS devices optimized for room temperature can also work well when immersed in liquid nitrogen are reported in which the classical impurity freeze-out effect seems to vanish on short-channel devices if the drain voltage is not too small. This is attributed to field-assisted ionization mechanisms such as the Poole-Frenkel effect, with possible enhancement by self-heating. The MINIMOS 4 device simulator was modified to introduce this effect and then to check the validity of this assumption by comparison with experimental results. To prove that it is possible to take advantage of this effect a 3-bit feedback adder, used as a benchmark circuit, has been processed in an enhancement-depletion 0.5-μm NMOS technology optimized for room temperature wherein the cooling from 300 to 77 K results in an improvement from 1 to 1.3 GHz for the maximum clock frequency of operation
Keywords :
MOS integrated circuits; adders; digital integrated circuits; insulated gate field effect transistors; semiconductor device models; 0.5 micron; 1 to 1.3 GHz; 300 to 77 K; MINIMOS 4 device simulator; Poole-Frenkel effect; benchmark circuit; drain voltage; experimental results; feedback adder; field-assisted ionization mechanisms; maximum clock frequency; optimized for room temperature; self-heating; short-channel depletion-mode MOS devices; short-channel devices; Adders; Circuit simulation; Cooling; Feedback circuits; Impurities; Ionization; MOS devices; Nitrogen; Temperature; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
