Title :
Design of a 32nm Independently-Double-Gated FlexFET SOI Transistor
Author :
Modzelewski, K. ; Chintala, R. ; Moolamalla, H. ; Parke, S. ; Hackler, D.
Author_Institution :
Tennessee Tech Univ., Cookeville, TN
Abstract :
Considerable recent research has focused on developing vertical FinFET-type double-gated CMOS devices. Planar independently-double-gated FlexFET CMOS transistors have recently been reported, exhibiting strong dynamic threshold voltage control. The FlexFET device design utilizes a mid-gap metal top gate self-aligned to an implanted JFET bottom gate. A simple analytical dynamic threshold model is developed in this work and verified by extensive device simulation. Optimization of the top gate oxide thickness, silicon thickness, and gate work functions for a 32 nm node FlexFET CMOS technology is achieved by device simulation using SILVACO. Ideal dynamic threshold control of this 32 nm device is achieved with relatively thick llnm silicon and 4 nm gate oxide thicknesses.
Keywords :
CMOS integrated circuits; circuit optimisation; integrated circuit design; junction gate field effect transistors; silicon-on-insulator; FinFET-type double-gated CMOS device; JFET bottom gate; device simulation; dynamic threshold voltage control; field effect transistor; silicon-on-insulator; size 32 nm; Analytical models; CMOS technology; FinFETs; MOSFET circuits; Semiconductor device modeling; Silicon; Thickness control; Threshold voltage; Transistors; Voltage control;
Conference_Titel :
University/Government/Industry Micro/Nano Symposium, 2008. UGIM 2008. 17th Biennial
Conference_Location :
Louisville, KY
Print_ISBN :
978-1-4244-2484-9
Electronic_ISBN :
978-1-4244-2485-6
DOI :
10.1109/UGIM.2008.24
