Title :
Velocity saturation limitations of lightly doped drain transistors
Author :
Reich, Robert K. ; Ju, D.-H. ; Sekela, Albert M.
Author_Institution :
Honeywell Inc., Plymouth, MN, USA
fDate :
4/1/1988 12:00:00 AM
Abstract :
Carrier velocity saturation in the lightly doped drain (LDD) region of an n-channel transistor decreases the saturated transconductance. This effect is modeled by inclusion of a gate-voltage-dependent source resistance in the expression for the saturated drain-source current. Experimental results are given that are consistent with the model. Velocity saturation diminishes transconductance more severely as the temperature is reduced from room temperature. Higher saturated channel velocity and lower critical electric field for the onset of LDD velocity saturation are obtained at reduced temperatures and magnify the effect of LDD velocity saturation. As the transistor is cooled to near the boiling point of nitrogen, surface roughness scattering also affects the saturated transconductance
Keywords :
insulated gate field effect transistors; semiconductor device models; 300 to 77 K; LDD; Si; carrier velocity saturation limitations; gate-voltage-dependent source resistance; lightly doped drain transistors; model; n-channel transistor; reduced temperatures; saturated drain-source current; saturated transconductance; surface roughness scattering; MOSFETs; Nitrogen; Rough surfaces; Scattering; Solid state circuits; Springs; Surface roughness; Temperature; Transconductance; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
