Title :
Random telegraph signals in deep submicron n-MOSFET´s
Author :
Shi, Zhongming ; Miéville, Jean-Paul ; Dutoit, Michel
Author_Institution :
Waterloo Univ., Ont., Canada
fDate :
7/1/1994 12:00:00 AM
Abstract :
Random telegraph signals (RTS) in the drain current of deep-submicron n-MOSFET´s are investigated at low and high lateral electric fields. RTS are explained both by number and mobility fluctuations due to single electron trapping in the gate oxide. The role of the type of the trap (acceptor or donor), the distance of the trap from the Si-SiO2 interface, the channel electron concentration (which is set by the gate bias) and the electron mobility (which is affected by the drain voltage) is demonstrated. The effect of capture and emission on average electron mobility is demonstrated for the first time. A simple theoretical model explains the observed effect of electron heating on electron capture. The mean capture time depends on the local velocity and the nonequilibrium temperature of channel electrons near the trap. The difference between the forward and reverse modes (source and drain exchanged) provides an estimate of the effective trap location along the channel
Keywords :
carrier density; carrier mobility; electric fields; electron traps; insulated gate field effect transistors; semiconductor device models; Si-SiO2; channel electron concentration; deep submicron NMOSFET; drain current; electron heating; electron mobility; gate oxide; lateral electric fields; mobility fluctuations; model; n-channel MOSFET; random telegraph signals; single electron trapping; Electron mobility; Electron traps; Fluctuations; Frequency; Heating; MOS devices; MOSFET circuits; Radioactive decay; Telegraphy; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
