catalogue
foreword
Chapter I Semiconductor Devices
Section 1 Basic knowledge of semiconductors
Semiconductor diode in the second quarter
Section 3 Semiconductor Triode
Section 4 Acoustic Effect Transistor (FET)
Summary of this chapter
Thinking and practicing.
Chapter II Basic Unit Circuits
Section 1 Concept of Amplification and Performance Index of Amplification Circuit
Section 2 Composition and Working Principle of Amplifier Circuit
Section 3 Analysis Method of Amplifier Circuit
The fourth quarter working point stability circuit
Section 5 Three Configurations of Amplifier Circuits and Their Performance Comparison
Section 6 Basic Amplification Circuit of FET
Section 7 Differential amplifier circuit
Section 8 Current power supply circuit
Summary of this chapter
Thinking and practicing.
Chapter III Multistage Amplifier Circuit and Frequency Response
Section 1 General Problems of Multistage Amplification Circuits
Section 2 Direct Coupling Amplifier Circuit
Section 3 Resistance-Capacitance Coupled Multiplex Circuit
Section 4 Frequency Response of Amplifier Circuit
Summary of this chapter
Thinking and practicing.
Chapter IV Integrated Operational Amplifier
Section 1 Introduction of Integrated Operational Amplifier
Section 2 General Integrated Operational Amplifier
Section 3 Main parameters of integrated operational amplifier
Section 4 Some Practical Problems in the Use of Integrated Operational Amplifiers
Section 5 Ideal Import and Three Basic Input Methods
Summary of this chapter
Thinking and practicing.
Chapter V Power Amplification Circuit
Section 1 Characteristics and Classification of Power Amplifier Circuits
Section 2 Basic OCL Circuit and Cross Distortion
Section 3 Distortionless OCL Circuit
Introduction of OCL track in the fourth quarter
Section 5 Analysis and Calculation Examples of Complementary Symmetric Power Amplifier
Section 6 Integrated Power Amplifier Circuit
Summary of this chapter
Thinking and practicing.
Chapter VI Feedback in Amplification Circuit
Section 1 Basic concepts of feedback
In the second section, the block diagram of feedback amplifier circuit and the general expression of closed-loop magnification are given.
Section 3 Four Configurations of Negative Feedback Amplifier Circuit
The fourth quarter negative feedback to improve the performance of amplifier circuit
The fifth section introduces the principle of negative feedback correctly.
Section 6 Calculation of Depth Negative Feedback Amplifier Circuit
Section 7 Calculation of Negative Feedback Amplifier Circuit
Summary of this chapter
Thinking and practicing.
Chapter 7 Application of Integrated Operational Amplifier
The first section basic operation circuit
Section 2 Integrated Analog Multiplier
Section 3 Active Filter Circuit
The fourth quarter switched capacitor filter
Section 5 Voltage Comparator
Summary of this chapter
Thinking and practicing.
Chapter VIII Signal Generation Circuit
Section 1 Overview
Section 2 RC sine wave oscillation circuit
Section 3 LC sine wave oscillation circuit
Brief Introduction of Quartz Crystal Oscillator in Section 4
Section 5 Rectangular Wave Generation Circuit
Section 6 Triangular Wave Generation Circuit
Section 7 sawtooth wave generating circuit
Section 8 Introduction of Integrated Function Generator 8038
Summary of this chapter
Thinking and practicing.
Chapter 9 DC voltage stabilizing circuit
Section 1 Rectifier Circuit
Section 2 Filter Circuit
Section 3 Voltage Stabilizing Circuit
The fourth quarter switching power supply circuit (SMR circuit)
Summary of this chapter
Thinking and practicing.
refer to
The electric counter could not be found.
Fundamentals of circuit
catalogue
Chapter 2-Circuit Model and Circuit Law
1- 1 circuit and circuit diagram
1-2 current, voltage and reference direction
1-3 electric power
1-4 resistor element
1-5 capacitor
1-6 inductor
1-7 voltage source and current source
1-8 controlled source
1-9 Kirchhoff's law
Kirchhoff's Law 1- 10 Circuit Matrix Topology Diagram
Exercise 1
Chapter II Equivalent Transformation and Simplification of Resistance Circuits
2- 1 Circuit Equivalence Concept
Series and parallel connection of 2-2 resistors
Y-Delta Connection of 2-3 Resistors and Its Equivalent Exchange
Series and parallel connection of 2-4 power supplies
Equivalent transformation of 2-5 active resistance circuit
2-6 Simple Resistance Circuit Analysis
Exercise 2
Chapter III Network Analysis Methods and Network Theorems
3- 1 branch current method
3-2 loop current method
3-3 node voltage method
3-4 Analysis of Circuit with Controlled Source
3-5 superposition theorem
3-6 substitution theorem
3-7 Thevenin Theorem and Norton Theorem
3-8 Tellegen Theorem
3-9 Reciprocity Theorem
3- 10 duality principle
Exercise 3
The fourth chapter is the basic concept of sine circuit.
Some concepts of 4- 1 sine quantity
4-2 Use phasor to represent sine quantity.
Characteristics of Resistance, Inductance and Capacitance Elements in 4-3 Sine Circuit
4-4 phasor form of Kirchhoff's law
4-5 complex impedance and complex admittance
Exercise 4
Chapter 5: Steady-state analysis of sinusoidal circuit.
Analysis of 5- 1 Series-Parallel Circuit
5-2 Complex Circuit Analysis
Power in 5-3 sine circuit
5-4 Maximum Power Transmission
Exercise 5
Chapter VI Three-phase Circuit
6- 1 symmetrical three-phase power supply
Calculation of 6-2 Symmetric Three-phase Circuit
6-3 Concept of Asymmetric Three-phase Circuit
Power and measurement of 6-4 three-phase circuit
Exercise 6
Chapter VII Mutual Inductance Circuit
7-L mutual inductance coefficient and coupling coefficient
7-2 mutual inductance voltage and terminal with the same name
Coupling and decoupling equivalent circuit of 7-3 mutual inductance element
Analysis of 7-4 Sinusoidal Circuit with Mutual Inductance
7-5 air-core transformer
Exercise 7
Chapter VIII Resonance Circuit
Resonance of 8-L Series Circuit
Resonance curve and passband of 8-2 series circuit
Resonance of 8-3 parallel circuit
Resonance of 8-4 Mutual Inductance Coupling Circuit
Exercise 9
Chapter 9 Periodic Non-sinusoidal Circuits
Decomposition of 9-L periodic function into Fourier series
9-2 RMS average power of periodic non-sinusoidal voltage and current
Calculation of 9-3 Period Nonsinusoidal Circuits
The concept of 9-4 filter circuit
Exercise 9
Chapter 10-Step Circuit
Initial conditions of 10-L circuit
10-2 zero input response
10-3 zero state response
10-4 full response
10-5 three-factor method
10-6 step response and impulse response
10-7 convolution integral
10-8 capacitor voltage and inductor current jump
Exercise 10
Chapter 10-second-order circuit
Zero input response of11-1RLC series circuit
Response of LL-2 RLC Series Circuit to Constant Input
Exercise 10—
There are two kinds of circuits, the theoretical basis of the circuit.
catalogue
The first chapter is the basic concept of circuit.
1. 1 actual circuit and circuit model
Physical quantities in 1.2 circuit
1.3 circuit structure
Exercise 1
Chapter II Basic Laws and Components of Circuits
2. 1 Kirchhoff current law
2.2 Kirchhoff's voltage law
2.3 Double-ended resistor element
2.4 Independent power supply
2.5 Double-ended capacitive element
2.6 Double-ended inductance element
2.7 Double-port resistance
2.8 Mutual inductance element
2.9 controlled power source
2. 10 ideal operational amplifier
Exercise 2
The third chapter is the network equation analysis method of linear DC circuit.
3. 1 circuit diagram
3.2 Independent Kirchhoff's Law Equation
3.3 Complete mathematical model of circuit and branch method
3.4 Independent and complete circuit variables
3.5 node method
3.6 cut set method
3.7 grid method and loop method
3.8 the relationship between [a], [B] and [C] matrices
Exercise 3
Chapter 4 Circuit Theorem and Equivalent Simplification of Circuits
4. 1 superposition theorem and homogeneous theorem
4.2 permutation theorem
4.3 Tellegen Theorem
4.4 Reciprocity Theorem
4.5 Equivalent Network and Equivalent Transformation
4.6 Equivalent simplification of single-port networks without independent sources
4.7 Equivalent simplification and equivalent source theorem of one-port network with source.
4.8 Equivalent parameters of two-port network without independent source
4.9 Equivalent circuit of two-port network without independent power supply
4. Equivalent parameters of10 interconnection dual ports
4. 1 1 duality principle
Exercise 4
Chapter 5: Phasor method for steady-state analysis of linear sinusoidal current circuits.
5. Basic concept of1sine quantity
5.2 sine and phasor transformation
5.3 Kirchhoff's Law in Phasor Form
5.4 Constraint Equation of Circuit Components in Phasor Form
5.5 Complex impedance and complex admittance
5.6 phasor method for steady-state analysis of sinusoidal current circuit
5.7 Circuit with Mutual Inductance Elements
5.8 Power of Sine Current Circuit
Exercise 5
Chapter VI Non-sinusoidal Periodic Current Circuits
6. Harmonic Analysis of1Non-sinusoidal Periodic Quantity
6.2 Effective value and almost average power in non-sinusoidal periodic current circuit
6.3 Analysis of Non-sinusoidal Periodic Current Circuit
Exercise 6
Chapter VII Frequency Characteristics and Resonance
7. 1 Frequency characteristics and filtering
7.2 Series resonant circuit
7.3 Parallel resonant circuit
Exercise 7
Chapter VIII Three-phase Circuit
8. 1 Basic concept of three-phase circuit
8.2 Voltage, current and power of symmetrical three-phase circuit
8.3 Calculation of Symmetric Three-phase Circuit
8.4 The concept of asymmetric three-phase circuit
Exercise 8
Chapter 9: Time domain analysis of transient process of dynamic circuit.
9. 1 Transient process and circuit equation of dynamic circuit
9.2 Initial value of transient process of dynamic circuit
9.3 Differential equation of first-order circuit and general form of its solution
9.4 Zero input response of first-order circuit
9.5 Zero-state Response of First-order Circuit
9.6 Full Response of First-order Circuit
……
Chapter 10 Complex Frequency Domain Analysis of Dynamic Circuits
Chapter 11 Simple Nonlinear Resistor Circuit
Chapter 12 Pspice Analysis Circuit
Answers to some exercises
Main bibliography