Title :
A physical short-channel model for the thin-film SOI MOSFET applicable to device and circuit CAD
Author :
Veeraraghavan, Surya ; Fossum, Jerry G.
Author_Institution :
Dept. of Electr. Eng., Florida Univ., Gainesville, FL, USA
fDate :
11/1/1988 12:00:00 AM
Abstract :
A charge-based large-signal transient model for the enhancement-mode thin-film SOI MOSFET in strong inversion, suitable for circuit simulators such as SPICE, is presented. The model physically accounts for the predominant short-channel effects in MOSFET´s (namely threshold-voltage reduction, drain-induced conductivity enhancement, velocity saturation with mobility degradation, and channel-length modulation) as influenced by the unique features of thin SOI devices (i.e. the presence of an additional back gate and the possibility of a floating film body). It includes a description of generation current due to (weak) impact ionization, which can have a far greater influence on SOI (as compared to bulk) MOSFET´s due to the associated charging of the floating body. Measurements on devices of varied geometry show good agreement with model predictions. The model is implemented in SPICE2, to be used for circuit and device CAD, and TECAP, for automated parameter extraction
Keywords :
CAD; electronic engineering computing; insulated gate field effect transistors; semiconductor device models; semiconductor-insulator boundaries; thin film transistors; SPICE; SPICE2; TECAP; automated parameter extraction; channel-length modulation; charge-based large-signal transient model; circuit CAD; circuit simulators; device CAD; drain-induced conductivity enhancement; floating film body; generation current; impact ionization; mobility degradation; short-channel model; strong inversion; thin-film SOI MOSFET; threshold-voltage reduction; velocity saturation; Circuit simulation; Conductive films; Conductivity; Degradation; Geometry; Impact ionization; MOSFET circuits; SPICE; Thin film circuits; Transistors;
Journal_Title :
Electron Devices, IEEE Transactions on
