Title :
Generalized Charge-Based Model of Double-Gate Junctionless FETs, Including Inversion
Author :
Jazaeri, Farzan ; Barbut, Lucian ; Sallese, Jean-Michel
Author_Institution :
Swiss Fed. Inst. of Technol., Lausanne, Switzerland
Abstract :
In this brief, we have developed a charge-based model for the symmetric double-gate junctionless (JL) field effect transistor (FET) that also accounts for the inversion layer when the gate voltage is biased in deep depletion. Basically, this approach represents a generalization of a former model and aims at giving a unified description of JL FETs beyond the domain of operation for which they have been designed. In addition, to its interest for providing technology design rules, the new model is able to explain the unexpected increase in the gate capacitance when biasing the device in deep depletion as well as the theoretical limit for the OFF-current in deep depletion.
Keywords :
MOSFET; carrier mobility; semiconductor device models; FET inversion; deep depletion; device biasing; double gate junctionless FET; field effect transistor; generalized charge model; technology design rule; Capacitance; Electric potential; Field effect transistors; Logic gates; Semiconductor process modeling; Silicon; Capacitance; OFF-current; double-gate (DG); inversion; junctionless (JL); nanowire (NW); off-current;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2345097
