更新时间:2018-12-28 18:39:51
封面
版权信息
前言
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
Session 3 Band Model
3.1 Introduction to Quantum Mechanics
3.2 Band
3.3 Effective Mass Theory
Session 4 The Semiconductor in Equilibrium
4.1 Charge Carriers in Semiconductor
4.2 Intrinsic Semiconductor
4.3 Extrinsic Semiconductor
Session 5 Carrier Transport
5.1 Overview of Carrier Transport
5.2 Low Field Transport
5.3 High Field Transport
5.4 Diffusion Current
Session 6 Nonequilibrium Excess Carriers in Semiconductor
6.1 Recombination
6.2 Minority Carrier Lifetime
6.3 Ambipolar Transport
Session 7 The pn Junction(Ⅰ)
7.1 Introduction
7.2 Basic Structure of the pn Junction
7.3 Energy Bands for a pn Junction
7.4 Ideal Current-Voltage Relationship
7.5 Characteristics of a Practical Diode
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
Session 9 Metal-Semiconductor Contacts
9.1 Schottky Contacts
9.2 Ohmic Contacts
Session 10 Heterojunctions
10.1 Strain and Stress at Heterointerfaces
10.2 Heterojunction Materials
10.3 Energy-Band Diagrams
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
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
Session 13 Basics of MOSFETs
13.1 Introduction
13.2 General Characteristics of a MOSFET
13.3 MOS System
13.4 Work Function Differences
13.5 Flat-Band Voltage
13.6 Threshold Voltage
Session 14 Nonideal Effects of MOSFETs
14.1 Introduction
14.2 Effective Mobility
14.3 Velocity Saturation
14.4 Channel-length Modulation
14.5 DIBL
14.6 Hot-carrier Effect
14.7 GIDL
Session 15 Advanced MOSFET Devices
15.1 Introduction
15.2 Channer Doping Profile
15.3 Gate Stack
15.4 Source/Drain Design
15.5 Schottky-Barrier Source/Drain
15.6 Raised Source/Drain
15.7 SOI
15.8 Three Dimensional Structure
Session 16 Introduction to Integrated Circuits
16.1 Introduction
16.2 Size and Complexity of Integrated Circuits
16.3 Semiconductor Device for Integrated Circuits
16.4 IC Design Process
