完整後設資料紀錄
DC 欄位語言
dc.contributor.author吳宇勝
dc.date100學年度第二學期
dc.date.accessioned2013-04-29T01:19:03Z
dc.date.accessioned2020-07-30T08:09:40Z-
dc.date.available2013-04-29T01:19:03Z
dc.date.available2020-07-30T08:09:40Z-
dc.date.issued2013-04-29T01:19:03Z
dc.date.submitted2013-04-24
dc.identifier.otherD9775779
dc.identifier.urihttp://dspace.fcu.edu.tw/handle/2377/31344-
dc.description.abstract在此專題內,我們將探討臭氧水處理形成氧化層的砷化鋁鎵/砷化銦鎵金屬-氧化物-半導體擬晶性高電子遷移率電晶體與未經臭氧水處理的高電子遷移率電晶體特性做為比較,分析兩者對元件特性之影響,如:電流電壓特性、外部轉導值及崩潰電壓等。   藉由Microwave Office 電腦軟體,建立電晶體小訊號等效模型。然而,在相關於金屬-氧化物-半導體高電子遷移率電晶體之高頻元件模型建立與參數分析及其相較於具有傳統閘極結構之元件之間之差異與探討其物理意義,極少在文獻上有提出完整詳細之研究討論。因此本專題研擬藉由電腦輔助設計(CAD)軟體,及經由矩陣運算逐步萃取外質與本質之小訊號元件參數,針對金屬-氧化物-半導體高電子遷移率電晶體及具有傳統閘極結構高速元件結構,建構出完整之RF 元件模型;進而比對元件結構差異,針對每一小訊號元件參數,詳細探討其重要之物理意義。本專題可經由高頻參數萃取,成功建立具有高精準且具物理意義之MOS-HEMT 高頻元件模型,所研擬出之高頻元件模型與參數萃取平台亦可直接提供MMIC 設計技術之產業應用。
dc.description.abstractAbstract In this topic, we will explore the ozone water treatment to form the oxide layer of AlGaAs /InGaAs metal - oxide – semiconductor contemplated the crystalline high electron mobility transistors without ozone water treatment high electron mobility ratethe transistor characteristics as a comparison, analysis of both the impact on the device characteristics, such as: the current-voltage characteristic, extrinsic transconductance values and breakdown voltage. By the Microwave Office computer software, create transistors small-signal equivalent model. However, in the metal - oxide - semiconductor high electron mobility transistors established with the participation of the high-frequency component model number analysis and compared with the difference between the structure of the components of the traditional gate and explore its physical significance, very little in proposed the complete details of the study discussed in the literature. The topic develop by computer-aided design (CAD) software, and gradually through the matrix operations extrinsic nature of small-signal components extracted parameters for metal - oxide - semiconductor high electron mobility transistor and a traditional gate structure structure of the high-speed components to construct a complete RF components model; thus faster than the device structure differences, small signal components for each parameter, discussed in detail the important physical significance. The topic via the high-frequency parameters extracted successfully established with high precision quasi possessed the physical significance of the MOS-HEMT high frequency component model, which develop a high-frequency component model parameter extraction platform can also provide direct MMIC design technology of industrial applications .
dc.description.tableofcontents中文摘要 1 Abstract 2 第 1 章 序論 6 第 2 章 高電子遷移率電晶體基本工作原理及模型 9 2-1 高電子遷移率電晶體結構 12 2-2 小訊號元件模型 18 2-2-1 寄生電感 ( Ls, Lg, Ld ) 20 2-2-2 寄生電阻 ( Rs, Rg, Rd ) 21 2-2-3 襯墊電容 ( Cpd, Cpg ) 21 2-2-4 本質電容 ( Cgs, Cgd, Cds ) 22 2-2-5 轉導 ( gm ) 22 2-2-6 輸出電阻 ( Rds ) 23 2-2-7 轉導延遲 ( τ ) 23 2-2-8 充電電阻 ( Ri ) 24 第 3 章 高頻參數萃取 25 3-1 介紹 25 3-1-1 晶圓量測 25 3-1-2 參數量測與模型建立 27 3-1-3 S參數量測法 27 3-2 各種偏壓條件下模型之方程式化 30 3-3 本質元件參數萃取 30 3-4 外質元件參數萃取 38 3-4-1 HEMT 在夾止區的簡化模型 38 3-4-2 襯墊電容 39 3-4-3 外質電感及電阻 40 第 4 章 實驗結果與討論 42 4-1 基本直流特性 42 4-1-1 電流-電壓特性 42 4-1-2 外部轉導特性 44 4-1-3 閘-汲極兩端電流-電壓特性 47 4-2 射頻特性 48 4-3 元件模擬分析 51 4-3-1 傳統HEMT高頻模型建立 51 4-3-2 MOS-HEMT高頻模型建立 59 4-3-3 討論分析 67 第 5 章 結論 70 參考文獻 71
dc.format.extent85p.
dc.language.isozh
dc.rightsopenbrowse
dc.subject臭氧水
dc.subject高電子遷移率電晶體
dc.subject小訊號元件參數
dc.subjectOzone water
dc.subjectHEMT
dc.subjectsmall signal parameters
dc.title砷化鋁鎵/砷化銦鎵金屬-氧化物-半導體擬晶性高電子遷移率電晶體高頻參數萃取與元件模型分析
dc.title.alternativeParametric Extraction and High-Frequency Model Build-Up for AlGaAs/InGaAs MOS-pHEMTs
dc.typeUndergraReport
dc.description.course微波元件
dc.contributor.department電子工程學系, 資訊電機學院
dc.description.instructor李景松
dc.description.programme電子工程學系, 資訊電機學院
分類:資電100學年度

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