Title :
Hot-carrier effects and reliable lifetime prediction in deep submicron N- and P-channel SOI MOSFETs
Author :
Renn, Shing-Hwa ; Pelloie, Jean-Luc ; Balestra, Francis
Author_Institution :
Lab. de Physique des Composants & Semicond., CNRS, Grenoble, France
fDate :
11/1/1998 12:00:00 AM
Abstract :
Hot-carrier effects are thoroughly investigated in deep submicron N- and P-channel SOI MOSFETs, for gate lengths ranging from 0.4 μm down to 0.1 μm. The hot-carrier-induced device degradations are analyzed using systematic stress experiments with three main types of hot-carrier injections-maximum gate current (Vg≈Vd ), maximum substrate current (Vg≈Vd/2) and parasitic bipolar transistor (PBT) action (Vg≈0). A two-stage hot-carrier degradation is clearly observed for all the biasing conditions, for both N- and P-channel devices and for all the gate lengths. A quasi-identical threshold value between the power time dependence and the logarithmic time dependence is also highlighted for all the stress drain biases for a given channel length. These new findings allow us to propose a reliable method for lifetime prediction using accurate time dependence of degradation in a wide gate length range
Keywords :
MOSFET; hot carriers; semiconductor device models; semiconductor device reliability; silicon-on-insulator; 0.1 to 0.4 micron; N-channel SOI MOSFET; P-channel SOI MOSFET; biasing conditions; deep submicron SOI MOSFET; device degradations; hot-carrier effects; hot-carrier injections; lifetime prediction; maximum gate current; maximum substrate current; parasitic bipolar transistor action; reliable lifetime prediction; stress experiments; two-stage hot-carrier degradation; Bipolar transistors; CMOS memory circuits; Degradation; Electrons; Frequency; Hot carrier effects; Hot carriers; Low voltage; MOSFET circuits; Stress;
Journal_Title :
Electron Devices, IEEE Transactions on
