Title :
Analytical Modeling of the Suspended-Gate FET and Design Insights for Digital Logic
Author :
Akarvardar, K. ; Eggimann, C. ; Tsamados, D. ; Chauhan, Y. ; Wan, G.C. ; Ionescu, A.M. ; Wong, H.-S.P.
Author_Institution :
Stanford Univ., Stanford
Abstract :
We present a new, analytical model for the SGFET that is suitable for hand calculations and time-efficient circuit simulations. Our model expresses the pull-in, pull-out voltages and the stable travel range in terms of the structural parameters and the moving gate position as a function of the gate voltage. Starting from our model, we discuss the influence of the structural parameters on the transistor characteristics and the potential of the SGFET for logic circuits. We also introduce the SGFET SRAM cell to demonstrate the use of our model and to illustrate the interest of the SGFET for ultra-low power applications. SGFET logic gates exhibit a significantly reduced off-state power dissipation and improved functionality as compared to CMOS gates.
Keywords :
MOS logic circuits; MOSFET circuits; SRAM chips; integrated circuit design; logic gates; low-power electronics; semiconductor device models; SGFET logic gates; SRAM cell; analytical SGFET model; digital logic; logic circuits; off-state power dissipation; pull-in voltages; pull-out voltages; suspended-gate FET design; time-efficient circuit simulation; Analytical models; CMOS logic circuits; Circuit simulation; FETs; Logic circuits; Logic design; Random access memory; Semiconductor device modeling; Structural engineering; Voltage;
Conference_Titel :
Device Research Conference, 2007 65th Annual
Conference_Location :
Notre Dame, IN
Print_ISBN :
978-1-4244-1101-6
Electronic_ISBN :
1548-3770
DOI :
10.1109/DRC.2007.4373670
