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dc.contributor.author陳芷右
dc.contributor.author劉雅娟
dc.contributor.author陳怡馨
dc.date102學年度第二學期
dc.date.accessioned2015-05-30T08:35:13Z
dc.date.accessioned2020-07-30T08:10:59Z-
dc.date.available2015-05-30T08:35:13Z
dc.date.available2020-07-30T08:10:59Z-
dc.date.issued2015-05-30T08:35:13Z
dc.date.submitted2015-05-30
dc.identifier.otherD9973194 D9973103  D9973057
dc.identifier.urihttp://dspace.fcu.edu.tw/handle/2377/31446-
dc.description.abstract本專題研究FinFET元件在不同鰭寬(10nm與25nm)之電特性研究,經由量測曲線圖:n-type FinFET 在Wfin=10nm與Wfin=25nm時的ID-VD圖、ID-VG圖、IG-VG圖及n-type的VTH - Wfin圖、VTH - Lg圖來分析元件的臨界電壓、次臨界斜率(subthreshold swing,SS)及汲極引發能障下降值(drain induced barrier lowering,DIBL)效應、元件導通電流等基本特性,並比較鰭寬10nm及25nm下double gate n-type FinFET的電性差異,測量結果顯示鰭寬10nm的FinFET其DIBL值與SS值都比鰭寬25nm的小,此結果可得知鰭較窄的元件對於短通道效應有較好的抵抗力。另外,我們在論文中探討元件雜訊對於元件的影響。半導體材料若不是在絕對零度的環境下,導體中的電子或電洞會受到溫度影響,產生隨機的擾動,在元件內發生的雜訊又分為四種:熱雜訊(thermal noise)、產生-復合雜訊(G-R noise)、閃爍雜訊1/f (flicker noise)和散射雜訊(shot noise),其中我們使用低頻雜訊(low-frequency noise)來分析氧化層陷阱電荷分佈及矽鰭載子電荷分佈,在LFN的分析上,透過實驗求出的數據 α 可得知Fin越窄雜訊曲線斜率會越大,且缺陷分佈於深層氧化層內,同時影響FinFET元件的性能,透過這種方式來探討矽鰭載子分佈與元件的可靠度。
dc.description.abstractOur study mainly focuses on the electrical characteristics of FinFET at different fin width (10nm and 25 nm).Through the measureable graph : figure ID-VD, figure ID-VG, figure IG-VG with n-type FinFET in Wfin=10nm and Wfin=25nm and the figure VTH - Wfin, figure VTH - Lg of n-type to analyze the threshold voltage, subthreshold swing (SS), and drain induced barrier lowering (DIBL) effect, on-current of device. In addition, to compare the different electrical properties between the fin’s width is10nm and 25nm in the n-type double gate. The results show that the value of DIBL and SS in fin width of 10nm are both smaller than that of 25nm.This result can find out that short-channel effect of the narrow fin width have better immunity. In addition, we discuss the property of the device based on the noise in our study. If Semiconductor material is not in an environment of absolute zero, the electrons and holes in the conductor will be affected by temperature to generate a random disturbance. Noise occurring in the device are divided into four categories: thermal noise, generation-recombination noise, flicker noise 1/f and shot noise. Where we use the low-frequency noise to analyze the distribution of the trap in oxide layer and the distribution of the charge in silicon fin. In the analysis of LFN, the exponent value of α that obtain from the experiment can know that the fin width is more narrow ,then the curve slope of noise more larger and the distribution of the defect are in the deep oxide layer, at the same time, it will affect the performance of FinFET. Though this way to investigate the distribution of charge in silicon fin and the reliability of device.
dc.description.tableofcontents第一章 元件結構與基本電性 1 1-1 FinFET簡介 1 1-1.1 FinFET基本結構 3 1-1.2 Bulk FinFET 4 1-1.3 SOI FinFET (silicon-on-insulator FinFET) 5 1-1.4 矽奈米線電晶體 (silicon nanowire transistors) 6 1-2 基本電性 7 1-2.1 短通道效應 (short channel effect) 7 1-2.2 汲極引致能障下降效應(Drain induced barrier lowering) 8 1-2.3 次臨界擺幅 (Subthreshold Swing) 9 1-2.4 依時性介電層崩潰(Time-Dependent Dielectric Breakdown) 10 1-2.5 負偏壓溫度不穩定(Negative-Bias Temperature) 11 第二章 元件雜訊 12 2-1 雜訊簡介 12 2-2低頻雜訊 (Low-Frequency Noise) 13 2-3 隨機電報信號雜訊 (Random Telegraph Noise) 14 2-3.1 RTN分析 16 1.傳統的分析方式 16 2.非傳統的分析方式- 17 第三章 實驗結果與討論 21 3-1實驗元件製程 21 3-1.1 量測機台 22 3-2 N-type FinFET ID-VD圖 23 3-3 N-type FinFET ID-VG圖 24 3-4 N-type FinFET IG-VG圖 25 3-5鰭寬(Fin Width)和臨界電壓(VTH)的關係圖 26 3-6通道長度(Lg)和臨界電壓(VTH)的關係圖 27 3-7 SId/Id2與頻率關係圖 28 第四章 總結 30 4-1結論 30
dc.format.extent33p.
dc.language.isozh
dc.rightsopenbrowse
dc.subject鰭式場效電晶體(FinFET)
dc.subject次臨界擺幅(SS)
dc.subject汲極能障降低(DIBL)
dc.subject低頻雜訊(LFN)
dc.subject矽鰭載子分布
dc.subject元件可靠度
dc.subjectFinFET
dc.subjectsubthreshold swing (SS)
dc.subjectdrain induced barrier lowering(DIBL)
dc.subjectlow-frequency noise
dc.subjectthe distribution of charge in silicon fin
dc.subjectreliability
dc.title鰭式電晶體矽鰭載子電荷分佈探討及可靠度研究
dc.title.alternativeOxide-trap Charges and Fin Carriers Distribution of Fin-type FET (FinFET) and the Reliability Analysis
dc.description.course專題研究
dc.contributor.department電子工程學系, 資訊電機學院
dc.description.instructor林成利
dc.description.programme電子工程學系, 資訊電機學院
分類:資電102學年度

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