scholarly journals Low-power and high-performance Automatic Gain Control systems based on nanoscale Field Effect Diode and SOI-MOSFET

2010 ◽  
Vol 7 (5) ◽  
pp. 371-376 ◽  
Author(s):  
Farzan Jazayeri ◽  
Farshid Raissi ◽  
Behjat Forouzandeh
Keyword(s):  
Low Power ◽  
Control Systems ◽  
Field Effect ◽  
High Performance ◽  
Automatic Gain Control ◽  
Gain Control ◽  
Soi Mosfet

Pseudo-linear Automatic Gain Control system based on Nanoscale Field Effect Diode and SOI-MOSFET

2008 ◽  
Author(s):  
Farzan Jazayeri ◽  
Samaneh Soleimani-Amiri ◽  
Behzad Ebrahimi ◽  
Behjat Forouzandeh ◽  
Hamid-Reza Ahmadi ◽  
...  
Keyword(s):  
Control System ◽  
Field Effect ◽  
Automatic Gain Control ◽  
Gain Control ◽  
Soi Mosfet

DESIGN FEATURES OF NANOTRANSISTORS BASED ON CARBON TUBES

2021 ◽  
Author(s):  
Марина Евгеньевна Сычева ◽  
Светлана Анатольевна Микаева
Keyword(s):  
Carbon Nanotubes ◽  
Carbon Nanotube ◽  
Low Power ◽  
Field Effect ◽  
High Performance ◽  
Field Effect Transistors ◽  
Manufacturing Technology ◽  
Nanoscale Devices ◽  
Design Features

В статье рассмотрены основные типы CNTFET транзисторов, изготовленных на углеродных нанотрубках. Представлена классификация, особенности конструкции и основные этапы технологии изготовления CNTFET транзисторов. Полевые транзисторы из углеродных нанотрубок (CNTFET) являются перспективными наноразмерными устройствами для реализации высокопроизводительных схем с очень плотной и низкой мощностью. The article considers the main types of CNTFET transistors made on carbon nanotubes. The classification, design features and the main stages of the CNTFET transistor manufacturing technology are presented. Carbon nanotube field effect transistors (CNTFET) are promising nanoscale devices for implementing high-performance circuits with very dense and low power.

CARBON TUBE-BASED NANOTRANSISTORS

2021 ◽  
Author(s):  
Марина Евгеньевна Сычева ◽  
Светлана Анатольевна Микаева
Keyword(s):  
Carbon Nanotube ◽  
Low Power ◽  
Field Effect ◽  
High Performance ◽  
Field Effect Transistors ◽  
Manufacturing Technology ◽  
Nanoscale Devices ◽  
Conducting Channel ◽  
Carbon Tube

В статье рассмотрены нанотранзисторы и основные свойства нанотрубок. Представлен обзор CNTFET транзисторов и основные особенности технологии их изготовления. Полевые транзисторы из углеродных нанотрубок (CNTFET) являются перспективными наноразмерными устройствами для реализации высокопроизводительных схем с очень плотной и низкой мощностью. Проводящий канал CNTFET представляет собой углеродную нанотрубку. The article deals with nanotransistors and the main properties of nanotubes. An overview of CNTFET transistors and the main features of their manufacturing technology is presented. Carbon nanotube field effect transistors (CNTFETs) are promising nanoscale devices for implementing high-performance circuits with very dense and low power. The CNTFET conducting channel is a carbon nanotube.

scholarly journals Low Power based Dynamic TSPC D flip flop for High Performance Applications

2020 ◽  
Vol 9 (8) ◽  
pp. 758-762
Keyword(s):  
Low Power ◽  
Field Effect ◽  
High Performance ◽  
Field Effect Transistor ◽  
Memory Cell ◽  
Research Center ◽  
Short Channel ◽  
Flip Flop ◽  
Force Application ◽  
Effect Transistor

D flip-flop is viewed as the most basic memory cell in by far most of computerized circuits, which brings it broad usage, particularly under current conditions where high-thickness pipeline innovation is as often as possible utilized in advanced coordinated circuits and flip-flop modules are key segments. As a constant research center, various sorts of zero flip-flops have been concocted and explored, and the ongoing exploration pattern has gone to rapid low-control execution, which can be come down to low power-defer item. To actualize superior VLSI, picking the most proper D flip-flop has clearly become an incredibly huge part in the structure stream. The quick headway in semiconductor innovation made it practicable to coordinate entire electronic framework on a solitary chip. CMOS innovation is the most doable semiconductor innovation yet it neglects to proceed according to desires past and at 32nm innovation hub because of the short channel impacts. GNRFET is Graphene Nano Ribbon Field Effect Transistor, it is seen that GNRFET is a promising substitute for low force application for its better grasp over the channel. In this paper, an audit on Dynamic Flip Flop and GNRFET is introduced. The power is improved in the proposed circuit for the D flip flop TSPC.

Optimal design for a high performance H-JLTFET using HfO2 as a gate dielectric for ultra low power applications

RSC Advances ◽  
2014 ◽  
Vol 4 (43) ◽  
pp. 22803-22807 ◽  
Author(s):  
Pranav Kumar Asthana ◽  
Bahniman Ghosh ◽  
Shiromani Bal Mukund Rahi ◽  
Yogesh Goswami
Keyword(s):  
Optimal Design ◽  
Low Power ◽  
Field Effect ◽  
High Performance ◽  
Field Effect Transistor ◽  
Gate Dielectric ◽  
Ultra Low Power ◽  
Effect Transistor ◽  
Tunnel Field Effect Transistor

In this paper we have proposed an optimal design for a hetero-junctionless tunnel field effect transistor using HfO2 as a gate dielectric.

scholarly journals A Simulation Study of a Gate-All-Around Nanowire Transistor with a Core–Insulator

Micromachines ◽  
2020 ◽  
Vol 11 (2) ◽  
pp. 223 ◽  
Author(s):  
Yannan Zhang ◽  
Ke Han ◽  
and Jiawei Li
Keyword(s):  
Metal Oxide ◽  
Low Power ◽  
Energy Efficient ◽  
Field Effect ◽  
High Performance ◽  
Field Effect Transistors ◽  
Future Generation ◽  
Metal Oxide Semiconductor ◽  
Oxide Semiconductor ◽  
Ultra Low Power

Ultra-low power and high-performance logical devices have been the driving force for the continued scaling of complementary metal oxide semiconductor field effect transistors which greatly enable electronic devices such as smart phones to be energy-efficient and portable. In the pursuit of smaller and faster devices, researchers and scientists have worked out a number of ways to further lower the leaking current of MOSFETs (Metal oxide semiconductor field effect transistor). Nanowire structure is now regarded as a promising candidate of future generation of logical devices due to its ultra-low off-state leaking current compares to FinFET. However, the potential of nanowire in terms of off-state current has not been fully discovered. In this article, a novel Core–Insulator Gate-All-Around (CIGAA) nanowire has been proposed, investigated, and simulated comprehensively and systematically based on 3D numerical simulation. Comparisons are carried out between GAA and CIGAA. The new CIGAA structure exhibits low off-state current compares to that of GAA, making it a suitable candidate of future low-power and energy-efficient devices.

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