基于碳纳米管场效应管的新型双输出比较器第二代电流控制传送器

Q3 Engineering
P. V. S. M. Krishna, Avireni Srinivasulu, R. K. Lal
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引用次数: 0

摘要

电流比较器在许多模拟电路和通信系统中是有用的。在远程医疗和生物医学应用中集成可穿戴健康监测系统的需求越来越大,这有助于早期检测患者的异常情况,比较器是其核心之一。可穿戴和植入式医疗设备主要用于信号采集和无线传输。在信号采集中,模数转换器(ADC)是主要模块。使用采样过程进行转换,并且通过将输入信号与阈值电平进行比较来生成样本。为此目的,比较电路是更优选的。本文提出了一种利用碳纳米管场效应晶体管第二代电流控制传送器(CNCCCII)设计的新型双输出比较器。这种CNCCCII是用目前称为碳纳米管场效应晶体管(CNFETs)的技术实现的。所提出的比较器拓扑结构是使用Cadence Virtuoso模拟器工具用32 nm CNFET技术文件设计的,电源电压为±0.9 V。使用瞬态分析、蒙特卡罗分析、温度扫描对所提出的设计的性能进行了测试,并最终与现有模型进行了比较。所提出的比较器具有只需要具有一个电阻器的单个CNCCCII的优点,并且优选用于单片IC制造。与现有技术相比,所提出的使用CNFET实现的电路在电源电压需求方面有了实质性的改进,并且在输出电压电平方面的变化较小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Dual Output Comparator Based on Carbon Nano Tube Field Effect Transistors Second Generation Current Controlled Conveyor
Current comparators are useful in many analog circuits and communication systems. The increasing demand to integrate wearable health monitoring systems in telemedicine and biomedical applications that helps in early detection of abnormal conditions in patients, comparator is one of its core. Wearable and implantable medical devices work primarily on signal acquisition and wireless transmission. In signal acquisition, analogue to digital converter (ADC) is the prime module. Conversion is done using the sampling process and samples are generated by comparing the input signal with the threshold level. For this purpose, comparator circuits are more preferable. This manuscript presents a novel dual output comparator design by using carbon nanotube field effect transistor second generation current controlled conveyor (CNCCCII). This CNCCCII is realized with the present day technology called carbon nanotube field effect transistors (CNFETs). The proposed comparator topology is designed with 32 nm CNFET technology files with a supply voltage of ±0.9 V using Cadence Virtuoso simulator tool. The performance of the proposed design is tested using transient analysis, Montecarlo analysis, temperature sweep, and finally compared with the existing models. The proposed comparator has the advantage of requiring single CNCCCII with only one resistor and is preferable for monolithic IC fabrication. The proposed circuit implemented using CNFETs gives a substantial improvement in supply voltage requirement and less variation in output voltage levels over the existing technologies.
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来源期刊
Micro and Nanosystems
Micro and Nanosystems Engineering-Building and Construction
CiteScore
1.60
自引率
0.00%
发文量
50
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