Performance investigation of emerging nano devices for low power analog circuits

机译：用于低功耗模拟电路的新兴纳米器件的性能研究

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Differential amplifiers are essential part of several analog systems. This paper proposes a design of Single Stage Differential Amplifier based on the 32 nm FinFET technologies. We have designed a differential amplifier for certain specifications such as Slew Rate, Gain, CMRR, Unity Gain Bandwidth and Frequency Response and its comparison with 32 nm differential amplifiers using conventional MOSFET, FinFET and CNFET is made. The proposed typical Single Stage Differential Amplifier is given a supply voltage of 1.0V and it generates an open loop Gain of 19.39 dB, Slew Rate of 8.74E+6 V/μsec, Unity Gain Bandwidth of 256 MHz. All Simulations are done on Hspice simulation software. The simulations focus that, at the existing stage, the FinFET circuit performs best than the MOSFET and CNFET in terms of Gain, CMRR and Slew Rate.

机译：差分放大器是几种模拟系统的重要组成部分。本文提出了一种基于32 nm FinFET技术的单级差分放大器的设计。我们针对某些规格（例如转换速率，增益，CMRR，单位增益带宽和频率响应）设计了差分放大器，并与使用传统MOSFET，FinFET和CNFET的32 nm差分放大器进行了比较。拟议的典型单级差分放大器的电源电压为1.0V，可产生19.39 dB的开环增益，8.74E + 6 V /μsec的转换速率，256 MHz的单位增益带宽。所有仿真均在Hspice仿真软件上完成。仿真的重点是，在现有阶段，就增益，CMRR和转换速率而言，FinFET电路的性能优于MOSFET和CNFET。

著录项

来源
《International Conference on Automatic Control and Dynamic Optimization Techniques》|2016年|718-722|共5页
会议地点
作者
Satish M. Turkane; A. K. Kureshi;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
FinFETs; Differential amplifiers; CNTFETs; Gain; Logic gates; Power demand;

机译：FinFET;差分放大器; CNTFET;增益;逻辑门;功率需求;

相似文献

外文文献
中文文献
专利

1. Subthreshold Performance of Dual-Material Gate CMOS Devices and Circuits for Ultralow Power Analog/Mixed-Signal Applications [J] . Chakraborty S., Mallik A., Sarkar C. K. IEEE Transactions on Electron Devices . 2008,第3期

机译：用于超低功耗模拟/混合信号应用的双材料门CMOS器件和电路的亚阈值性能
2. Impact of Halo Doping on the Subthreshold Performance of Deep-Submicrometer CMOS Devices and Circuits for Ultralow Power Analog/Mixed-Signal Applications [J] . Saurav Chakraborty, Abhijit Mallik, Chandan Kumar Sarkar, IEEE Transactions on Electron Devices . 2007,第期

机译：晕轮掺杂对超低功耗模拟/混合信号应用中深亚微米CMOS器件和电路的亚阈值性能的影响
3. Nano watt power rail-to-rail CMOS amplifier with adaptive biasing circuits for ultralow-power analog LSIs [J] . Ozaki Toshihiro, Hirose Tetsuya, Tsubaki Keishi, Japanese journal of applied physics . 2015,第4s期

机译：具有自适应偏置电路的纳瓦功率轨到轨CMOS放大器，用于超低功耗模拟LSI
4. Performance Investigation of Emerging Nano Devices for Low Power Analog Circuits [C] . Satish M. Turkane, A. K. Kureshi International Conference on Automatic Control and Dynamic Optimization Techniques . 2016

机译：低功率模拟电路新兴纳米器件的性能研究
5. A Family of High-Performance Analog/Mixed Signal Circuits Based on Low-Voltage, Low-Power, Multiple Output Op-Amp and Buffering Techniques [D] . Rico-Aniles, Hector Daniel. 2020

机译：基于低压，低功耗，多输出运算放大器和缓冲技术的高性能模拟/混合信号电路系列
6. Characteristic Fluctuations of Dynamic Power Delay Induced by Random Nanosized Titanium Nitride Grains and the Aspect Ratio Effect of Gate-All-Around Nanowire CMOS Devices and Circuits [O] . Yiming Li, Chieh-Yang Chen, Min-Hui Chuang, 2019

机译：随机纳米氮化钛晶粒引起的动态功率延迟的特性波动以及全能门纳米线CMOS器件和电路的纵横比效应
7. Performance of Gate Engineered Symmetric Double Gate MOS Devices and circuits for ultra-low power Analog and RF applications [O] . Mohankumar N 2020

机译：用于超低功耗模拟和RF应用的栅极工程对称双栅极MOS装置和电路的性能

Performance investigation of emerging nano devices for low power analog circuits

摘要

著录项

相似文献

相关主题

期刊订阅