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Common Source Amplifier and Ring Oscillator Circuit Performance Optimization Using Multi-Bridge Channel FETs

V. Bharath Sreenivasulu, N. Aruna Kumari, Vakkalakula Lokesh, Santosh Kumar Vishvakarma, V. Narendar

2023ECS Journal of Solid State Science and Technology25 citationsDOIOpen Access PDF

Abstract

In this paper the DC, analog/RF device and circuit applications of nanosheet (NS) FET is performed. To enhance power performance co-optimization geometry parameters like NS width (NS W ) and NS thickness (NS H ) are varied for high performance (HP) and low power (LP) applications. A rise in 1.47x in I ON and a rise of 5.8x in I OFF is noticed with increase in NS H due to enlarged effective width ( W eff ). In addition, a rise of 3.8x in I ON and a fall of 76.4% in I OFF is noticed with higher NS W . Larger the NS W ensures better transconductance (g m ), transconductance generation factor (TGF), cut-off frequency ( f T ), gain-band width product (GBW), transconductance frequency product (TFP), and intrinsic delay ( τ ). The optimized supply voltage ( V DD ) for maximum voltage gain of common source (CS) amplifier and 3 stage ring oscillators (RO) with varied NS W is performed. Moreover, the impact of number of stages (N) of 3 stage RO for better frequency of oscillations ( f OSC ) is studied towards high frequency circuit applications.

Topics & Concepts

TransconductanceRing oscillatorMaterials scienceAmplifierOptoelectronicsTransistorOperational transconductance amplifierVoltageDuty cyclePower–delay productElectrical engineeringPhysicsOperational amplifierCMOSEngineeringAdvancements in Semiconductor Devices and Circuit DesignSemiconductor materials and devicesNanowire Synthesis and Applications
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