微電子專業英語——集成電路專業英語(第2版)
李聰 呂紅亮
- 出版商: 電子工業
- 出版日期: 2025-10-01
- 售價: $480
- 語言: 簡體中文
- ISBN: 7121515555
- ISBN-13: 9787121515552
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相關分類:
微電子學 Microelectronics
下單後立即進貨 (約4週~6週)
相關主題
商品描述
本書是微電子與集成電路設計相關技術的專業 英語教材,緊扣基本概念、基本理論和分析方法。 全書共27講,分為4部分:半導體物理基礎,主要內 容包括半導體概述、晶體結構、能帶模型、平衡半 導體、載流子輸運、半導體中的非平衡過剩載流子 ;半導體器件,主要內容包括pn結、金屬-半導體 接觸、異質結、雙極晶體管、現代雙極晶體管結構 、MOSFET基礎、MOSFET的非理想效應、 的 MOSFET器件;集成電路設計,主要內容包括集成電 路簡介、模擬集成電路設計、數字集成電路設計、 半導體存儲器、射頻集成電路設計、仿真與驗證; 半導體技術與工藝,主要內容包括:半導體技術簡 介、雙極技術和砷化鎵數字邏輯工藝、CMOS工藝、 可靠性等。本書提供兩個附錄半導體微波與功率器 件和 摩爾定律,可掃描書中二維碼拓展閱讀; 配套電子課件、習題參考答案、部分課文錄音、英 文閱讀材料譯文等,請登錄華信教育資源網註冊下 載。本書既可作為高等學校微電子、集成電路、電 子及相關專業高年級本科生和研究生相關課程的教 材,也可作為職業本科和高職高專相關課程的教材 ,還可供集成電路領域相關科研工作者和工程技術 人員學習參考。
目錄大綱
Session 1 Introduction to Semiconductor
1.1 What Is Semiconductor
1.2 Classification of Semiconductor
Reading Materials
Session 2 Crystal Structure
2.1 Primitive Cell and Crystal Plane
2.2 Atomic Bonding
Reading Materials
Session 3 Band Model
3.1 Introduction to Quantum Mechanics
3.1.1 The Principle of Energy Quanta
3.1.2 Schrodinger’s Wave Equation
3.2 Band
3.3 Effective Mass Theory
Reading Materials
Session 4 The Semiconductor in
Equilibrium
4.1 Charge Carriers in Semiconductor
4.2 Intrinsic Semiconductor
4.3 Extrinsic Semiconductor
Reading Materials
Session 5 Carrier Transport
5.1 Overview of Carrier Transport
5.2 Low Field Transport
5.2.1 Mobility
5.2.2 Microscopic Scattering Processes
5.3 High Field Transport
5.4 Diffusion Current
Reading Materials
Session 6 Nonequilibrium Excess Carriers
in Semiconductor
6.1 Recombination
6.1.1 Band to Band Recombination
6.1.2 Free-Exciton Recombination
6.1.3 Auger Recombination
6.1.4 Band-Impurity Recombination
6.1.5 Surface Recombination
6.2 Minority Carrier Lifetime
6.3 Ambipolar Transport
Reading Materials
Session 7 The pn Junction (Ⅰ)
7.1 Introduction
7.2 Basic Structure of the pn Junction
7.3 Energy Band Diagram for a pn
Junction
7.4 Ideal Current-Voltage Relationship
7.5 Characteristics of a Practical Diode
Reading Materials
Session 8 The pn Junction(Ⅱ)
8.1 Breakdown in pn Junction
8.2 Small-Signal Diffusion Resistance
of the pn Junction
8.3 Junction Capacitance
8.4 Diffusion or Storage Capacitance
8.5 Diode Transients
8.6 Circuit Models for Junction Diodes
Reading Materials
Session 9 Metal-Semiconductor
Contacts
9.1 Schottky Contacts
9.1.1 Schottky Contacts in Equilibrium
9.1.2 Schottky Contacts under Applied
Bias
9.2 Ohmic Contacts
Reading Materials
Session 10 Heterojunctions
10.1 Strain and Stress at Heterointerfaces
10.2 Heterojunction Materials
10.3 Energy-Band Diagram
Reading Materials
Session 11 The Bipolar Junction
Transistor (Ⅰ)
11.1 The Bipolar Junction Transistor Construction
11.2 Transistor Action
11.3 Nonideal Effects
11.4 Base Resistance
Reading Materials
Session 12 The Bipolar Junction
Transistor (Ⅱ)
12.1 Breakdown Voltage
12.2 Frequency Limits of BJT
12.3 The Schottky-Clamped Transistor
12.4 Small-Signal Transistor Model
Reading Materials
Session 13 Modern BJT Structures
13.1 Introduction
13.2 Deep-Trench Isolation
13.3 Polysilicon Emitter
13.4 Self-Aligned Polysilicon Base
Contact
13.5 Pedestal Collector
13.6 SiGe-Base
Reading Materials
Session 14 Basics of MOSFETs
14.1 Introduction
14.2 General Characteristics of a
MOSFET
14.3 MOS System
14.4 Work Function Differences
14.5 Flat-Band Voltage
14.6 Threshold Voltage
Reading Materials
Session 15 Nonideal Effects of
MOSFETs
15.1 Introduction
15.2 Effective Mobility
15.3 Velocity Saturation
15.4 Channel-Length Modulation
15.5 DIBL
15.6 Hot-Carrier Effect
15.7 GIDL
Reading Materials
Session 16 Advanced MOSFET
Devices
16.1 Introduction
16.2 Channel Doping Profile
16.3 Gate Stack
16.4 Source/Drain Design
16.5 Schottky-Barrier Source/Drain
16.6 Raised Source/Drain
16.7 SOI
16.8 Three Dimensional Structure
Reading Materials
Session 17 Introduction to Integrated
Circuits
17.1 Introduction
17.2 Size and Complexity of Integrated Circuits
17.3 Semiconductor Device for Integrated Circuits
17.4 IC Design Process
Reading Materials
Session 18 Analog Integrated Circuits
Design
18.1 Introduction
18.2 Analog Signal Processing
18.3 CMOS Technology
18.4 Amplifiers
18.5 Differential Amplifiers
18.6 Operational Amplifiers
18.7 Characterization of Op Amps
Reading Materials
Session 19 Digital
