Title :
Hot-carrier stress damage in the gate `off´ state in n-channel transistors
Author :
Doyle, B.S. ; Mistry, K.R.
Author_Institution :
Digital Equipment Corp., Hudson, MA, USA
fDate :
7/1/1992 12:00:00 AM
Abstract :
Hot-carrier damage in the `of´ state (Vg⩽ Vt while Vd is high, V g(off)) in silicon n-MOS transistors is examined. This condition commonly occurs due to capacitively coupled noise at the input of a CMOS inverter. It is shown that damage can occur under these conditions in the form of oxide trapped charge. Contrary to interface state creation, Vg(off) damage increases with increasing temperature, resulting in this type of damage dominating over interface state creation at high temperatures. It is concluded that care must be taken to ensure that the gate voltage at the input of an inverterlike circuit stays well below the threshold voltage when the output is high
Keywords :
electron device noise; electron traps; hot carriers; insulated gate field effect transistors; interface electron states; CMOS invertor input; NMOS; Si; capacitively coupled noise; gate offstate; gate voltage; high temperatures; hot carrier stress damage; interface state creation; inverterlike circuit; n-channel transistors; oxide trapped charge; temperature effect; threshold voltage; Circuits; Electron traps; Focusing; Hot carriers; Interface states; Ion beams; Optical devices; Silicon; Stress; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
