CHAPTER 1 Diodes
一
1.1 Physical Operations of Diodes
1.4 Zener Diodes
1.2 Terminal Characteristics of Junction Diodes
1.5 Rectifier Circuits
1.3 Modeling the Diode Forward Characteristics
1.6 Limiting Circuits (Clipping Circuits)
3
CHAPTER 3 MOS Field-Effect Transistors (MOSFETs)
4
電 子 學
5
2.1
2.2
2.3
2.4
2.5
2.6 Graphical Analysis
2.7 BJT Circuits at DC
2.8 Biasing in BJT Amplifier Circuits
2.9 Small-Signal Operation and Models
2.10 Single-Stage BJT Amplifiers
Device Structure and Physical Operation
Current-Voltage Characteristics
Large-Signal Model (in Active Mode)
Operation as a Switch
Graphical Representation of Transistor Characteristics
3.1 Device Structure and Physical Operation
3.6 Small-Signal Operations and Models
3.2 Current-Voltage Characteristics
3.7 Single-Stage Discrete-Circuit MOS Amplifiers
3.3 Large-Signal Model
3.8 Single-Stage Integrated-Circuit MOS Amplifiers
3.4 MOSFET Circuits at DC
3.5 Biasing in MOS Amplifier Circuits
3.9 Depletion –Type MOSFET
CHAPTER 4 Operational Amplifiers
4.1 The Ideal Op-Amp
4.4 Difference Amplifiers
4.2 The Inverting Configuration
4.5 DC Imperfections
4.3 The Noninverting Configuration
4.6 Integrators and Differentiators
CHAPTER 5 Differential Amplifiers
5.1 BJT Differential Pair
5.4 Constant-Current Source
二
5.2 MOS Differential Pair
5.5 Differential Amplifier with Active Load2
5.3 Other Nonideal Characteristics of Differential Amplifier
5.6 Multistage Amplifier-A Bipolar Op. Amplifier
6
CHAPTER 6 Frequency Response
7
CHAPTER 7 Feedback
6.1
6.2
6.3
6.4
6.5
S-Domain Analysis
Amplifier Transfer Function
Low-Frequency Response
High-Frequency Response of CS and CE Amplifier
Common-Gate and Common-Base Amplifiers
6.6
6.7
6.8
6.9
Cascode Amplifier (CS-CG Cascode)
High-Frequency Response of Source (Emitter) Follower
Other Transistor Pairings
High Frequency Response of the Differential Amplifier
7.1 General Feedback Structure
7.7 Shunt-Series Feedback Amplifier
7.2 Some Properties of Negative Feedback
7.8 Determining the Loop Gain
7.3 Basic Feedback Topologies
7.9 Stability Problem
7.4 Series-Shunt Feedback Amplifier
7.10 Stability Study Using Bode Plots
7.5 Series-Series Feedback Amplifier
7.11 Frequency Compensation
7.6 Shunt-Shunt Feedback Amplifier
8
CHAPTER 8 Output Stages and Power Amplifiers
電 子 學
8.1 Classification of Output Stages
8.4 Class AB Output Stage
8.2 Class A Output Stage
8.5 Power BJTs
8.3 Class B Output Stage
9
CHAPTER 9 Operational-Amplifier and Data-Converter Circuits
三
9.1
9.2
9.3
9.4
The 741 Op-Amp Circuit
DC Analysis of the 741
Small-Signal Analysis of the 741
Gain, Frequency Response, and Slew Rate
of the 741
9.5 The Two-Stage CMOS Op-Amp
9.6 The Folded-Cascode CMOS Op-Amp
9.7 Data Converters – an Introduction
9.8 D/A Converter Circuits
9.9 A/D Converter Circuits
10
CHAPTER 10 Signal Generators and Waveform-Shaping Circuits
11
CHAPTER 11 Digital Logic Circuits
10.1
10.2
10.3
10.4
10.5
Basic Principles of Sinusoidal Oscillators
Op-Amp-RC Oscillator Circuits
LC-Tuned Oscillators
Bistable Multivibrators
Generation of Square and Triangular Waveform
Using Astable. Multivibrators
11.1 Logic Circuits Families
10.6 Generation of a Standardized Pulse –
Monostable Multivibrator
10.7 Integrated-Circuit Timers – 555 IC
10.8 Nonlinear Waveform-Shaping Circuits
10.9 Precision Rectifier Circuits
11.8 BJT Inverter (Switch)
11.2 Complementary CMOS Logic Circuits
11.9 Early Forms of BJT Digital Circuits
11.3 Pseudo-NMOS Logic Circuits
11.10 Transistor-Transistor Logic (TTL)
11.4 Pass-Transistor Logic Circuits
11.11 Characteristics of Standard TTL
11.5 Dynamic Logic Circuits
11.12 Schottky TTL
11.6 Latches and Flip-Flops
11.13 Emitter-Coupled Logic (ECL)
11.7 Multivibrator Circuits
Contents
2
CHAPTER 2 Bipolar Junction Transistors (BJTs)
電子學目錄
電 子 學
1