Half SRAM cells with strained Si nanowire complementary Tunnel-FETs (CTFET) have been fabricated to explore the capability of TFETs for 6T-SRAM. Static measurements on cells with outward faced n-TFET access transistors have been performed to determine the SRAM butterfly curves, allowing the assessment of cell functionality and stability. The forward p-i-n leakage at certain bias configuration of the access transistor may lead to malfunctioning storage operation, even without the contribution of the ambipolar behavior. Lowering the bit-line bias is found to mitigate such effect resulting in functional hold, read and write operation.

Experimental characterization of the Static Noise Margins of strained Silicon complementary Tunnel-FET SRAM

STRANGIO, Sebastiano;PALESTRI, Pierpaolo;
2017-01-01

Abstract

Half SRAM cells with strained Si nanowire complementary Tunnel-FETs (CTFET) have been fabricated to explore the capability of TFETs for 6T-SRAM. Static measurements on cells with outward faced n-TFET access transistors have been performed to determine the SRAM butterfly curves, allowing the assessment of cell functionality and stability. The forward p-i-n leakage at certain bias configuration of the access transistor may lead to malfunctioning storage operation, even without the contribution of the ambipolar behavior. Lowering the bit-line bias is found to mitigate such effect resulting in functional hold, read and write operation.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/1117672
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