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Integrated Ferroelectrics
An International Journal
Volume 67, 2004 - Issue 1
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Original Articles

A Novel Metal-Ferroelectric-Semiconductor Field-Effect Transistor Memory Cell Design

THOMAS A. PHILLIPS Marshall Space Flight Center, SD43, Huntsville, Alabama, U.S.A., 35812
,
MARK BAILEY Tec-Masters, Inc., Huntsville, Alabama, U.S.A., 35806
&
FAT DUEN HO The University of Alabama in Huntsville, Department of Electrical and Computer Engineering, Huntsville, Alabama, U.S.A., 35899
Pages 229-234 | Received 01 Apr 2004, Accepted 01 Aug 2004, Published online: 12 Aug 2010
 
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Abstract

The use of a Metal-Ferroelectric-Semiconductor Field-Effect Transistor (MFSFET) in a resistive-load SRAM memory cell has been investigated. A typical two-transistor resistive-load SRAM memory cell architecture is modified by replacing one of the NMOS transistors with an n-channel MFSFET. The gate of the MFSFET is connected to a polling voltage pulse instead of the other NMOS transistor drain. The polling voltage pulses are of sufficient magnitude to saturate the ferroelectric gate material and force the MFSFET into a particular logic state. The memory cell circuit is further modified by the addition of a PMOS transistor and a load resistor in order to improve the retention characteristics of the memory cell. The retention characteristics of both the “1” and “0” logic states are simulated. The simulations show that the MFSFET memory cell design can maintain both the “1” and “0” logic states for a long period of time.

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