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Floating Fin Shaped Stacked Nanosheet MOSFET for Low Power Logic Application

Munhyeon Kim, Sihyun Kim, Kitae Lee, Jong‐Ho Lee, Byung‐Gook Park, Daewoong Kwon

2023IEEE Journal of the Electron Devices Society14 citationsDOIOpen Access PDF

Abstract

In this paper, floating fin structured vertically stacked nanosheet gate-all-around (GAA) metal oxide semiconductor field-effect transistor (FNS) is proposed for low power logic device applications. To verify the electrical performance of the proposed device, three-dimensional (3-D) technology computer-aided design (TCAD) device/circuit simulations are performed with calibrated device model parameters. As a result, it is found that gate propagation delay (tdelay) and dynamic power (Pdyn) are improved by 8% and 19%. respectively as compared to conventional vertically stacked lateral nanosheet (LNS). Through the rigorous analysis on the resistance and capacitance components of FNS and LNS, it is clearly revealed that the τdelay and Pdyn are improved at the same Pdyn (50 μW) and tdelay (187 GHz) by the reduced effective capacitance which results from the diminished gate-to-sorece/drain overlap area. Based on the TCAD simulation studies, it is expected that the FNS is suitable for next generation logic digital applications.

Topics & Concepts

NanosheetLogic gateCapacitanceMaterials scienceMOSFETFinOptoelectronicsElectronic engineeringTransistorPropagation delayField-effect transistorAND gateElectrical engineeringEngineeringNanotechnologyPhysicsVoltageComposite materialQuantum mechanicsElectrodeSemiconductor materials and devicesAdvancements in Semiconductor Devices and Circuit DesignNanowire Synthesis and Applications
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