用不同源成分的纳米线TFET设计的低压降稳压器实验数据

Q4 Engineering
R. Tolêdo, J. Martino, Paula Ghedini Der Agopian
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引用次数: 0

摘要

本文介绍了使用纳米线隧道场效应晶体管(TFET)和纳米线MOSFET设计的低压差稳压器(LDO)。使用用具有不同源成分(Si、SiGe和Ge)的TFET和MOSFET的实验测量实现的查找表来对器件进行建模。为了比较设计,所有LDO中的差分放大器的晶体管被偏置为gm/ID=8V-1,负载为1μa和10pF。结果表明,即使对于更高的负载电容,所有基于TFET的LDO都是稳定的,不需要补偿电容器(CC)。对于MOSFET LDO,使用5-pF电容器的CC。研究表明,基于TFET的LDO由于可以在低偏置电流下工作,因此具有更高的效率。瞬态分析表明,TFET LDO具有较低的过冲但较高的延迟。Ge TFET LDO为负载和线路瞬态提供了接近MOSFET LDO的稳定时间,分别为15μs和30μs。SiGe TFET LDO显示出最佳的环路增益(60dB),而Si-TFET LDO呈现出最低的静态电流(300pA),并且Ge-TFET具有最佳的GBW(70KHz)和PSR(-52dB)。得出的结论是,即使不需要CC并且功耗更低,基于TFET的LDO也可以提供与MOSFET LDO类似或更好的规格。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-Dropout Voltage Regulator Designed with Nanowire TFET with Different Source Composition Experimental Data
This paper presents the design of low-dropout volt-age regulators (LDO) using nanowire tunnel field-effect tran-sistors (TFETs) and nanowire MOSFET. The devices are mod-eled using lookup tables implemented with experimental measures of TFETs with different source compositions (Si, SiGe and Ge) and MOSFET. In order to compare the designs, the transistors of the differential amplifier in all LDOs is biased with gm/ID = 8 V-1 with a load of 1 μA and 10-pF. It is shown that all TFET based LDOs are stables without the need of a compensator capacitor (CC) even for higher load capacitance. For the MOSFET LDO, a CC of 5-pF capacitor was used. The study shows that the TFET based LDOs deliver higher effi-ciency due to the possibility to operate with low bias current. In the transient analysis it is shown that the TFET LDOs have lower overshoot but higher delay. The Ge-TFET LDO pre-sented settling times for load and line transient close to the MOSFET LDO with 15 μs and 30 μs. The SiGe-TFET LDO shows the best loop gain (60 dB), while the Si-TFET LDO deliv-ers lowest quiescent current (300 pA) and the Ge-TFET have the best GBW (70 KHz) and PSR (-52 dB). It is concluded that the TFET based LDOs can deliver specifications similar or bet-ter than the MOSFET LDO even without the need of CC and with less power consumption.
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来源期刊
Journal of Integrated Circuits and Systems
Journal of Integrated Circuits and Systems Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
39
期刊介绍: This journal will present state-of-art papers on Integrated Circuits and Systems. It is an effort of both Brazilian Microelectronics Society - SBMicro and Brazilian Computer Society - SBC to create a new scientific journal covering Process and Materials, Device and Characterization, Design, Test and CAD of Integrated Circuits and Systems. The Journal of Integrated Circuits and Systems is published through Special Issues on subjects to be defined by the Editorial Board. Special issues will publish selected papers from both Brazilian Societies annual conferences, SBCCI - Symposium on Integrated Circuits and Systems and SBMicro - Symposium on Microelectronics Technology and Devices.
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