Title :
The effect of channel hot-carrier stressing on gate-oxide integrity in MOSFETs
fDate :
12/1/1988 12:00:00 AM
Abstract :
The correlation between channel hot-carrier stressing and gate-oxide integrity is studied. It is found that channel hot carriers have no detectable effect on gate-oxide integrity even when other parameters (e.g., ΔVT and ΔI D) have become intolerably degraded. In the extreme cases of stressing at VG≈VT with measurable hole injection current, however, the oxide charge to breakdown decreases linearly with the amount of hole fluence injected during the channel hot-hole stressing. This may limit the endurance of a nonvolatile memory using hot holes for erasing. This can also explain the gate-to-drain breakdown of a device biased in the snap-back region, since snap-back at low gate voltage is favorable for hole injection. Snap-back-induced oxide breakdown could be an ESD (electrostatic discharge) failure mechanism
Keywords :
PROM; electrostatic discharge; field effect integrated circuits; hot carriers; insulated gate field effect transistors; integrated memory circuits; reliability; silicon compounds; ESD failure mechanism; MOSFETs; SiO2 integrity; channel hot carriers; channel hot-carrier stressing; channel hot-hole stressing; charge decreases with hole fluence injection; correlation; electrostatic discharge; extreme cases of stressing; gate-oxide integrity; gate-to-drain breakdown; hot holes erasing; measurable hole injection current; nonvolatile memory endurance; oxide charge; snap back induced oxide breakdown; snap back region bias; snap-back at low gate voltage; thin gate oxide wearout; Breakdown voltage; Charge measurement; Current measurement; Degradation; Electric breakdown; Electrostatic discharge; Hot carrier effects; Hot carriers; Nonvolatile memory; Stress measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
