Collection Name: Textbooks for the Twelfth Five-Year Plan of Colleges and Universities

Book number: 978-7-113-13069-5.

Version: 1- 1

Format: 16

Page number: 300 pages

Author: Sun

Release date: 2011-08-01

Pricing: 33 yuan

Applicable major: non-physics.

Suitable level: undergraduate class II

Press: China Railway Press This book systematically introduces the basic concepts, theories and analysis methods of circuits.

This book is divided into ten chapters, including: basic concepts and laws of circuit analysis, equivalent analysis of circuits, general analysis of resistance circuits, important theorems of circuit analysis, steady-state analysis of sinusoidal steady-state circuits, three-phase circuits, coupled inductor and transformer circuits, resonant circuits, transient time-domain analysis of linear circuits, and computer-aided analysis of circuits. In order to deepen understanding, this book has compiled a wealth of examples, exercises and exercises, and attached the answers to the exercises at the end of the book.

This book is suitable as a teaching material for basic courses of circuit analysis or electrician in telecommunications, electronics, electrical control, automation, computer and other majors in ordinary colleges and universities, and can also be used as a teaching material for adult colleges and universities, as well as for reference by relevant scientific and technological personnel.

Digital electronic technology (second edition) is revised on the basis of the first edition. The book is divided into nine chapters, which are digital circuit foundation, logic gate circuit, combinational logic circuit, integrated flip-flop, sequential logic circuit, pulse generation and shaping, digital/analog and analog/digital converter, semiconductor memory and programmable logic device.

This book is not only suitable for the basic teaching of electronics, automation, communication, computer, automotive electronics, mechatronics and other majors in higher vocational colleges, but also suitable for similar majors in staff universities and amateur universities, and can also be used for self-study and reference by relevant technicians. Chapter 1 Basic concepts and laws of circuits

1. 1 circuit analysis

Basic variables of 1.2 circuit

1.3 Basic Laws of Circuits

1.4 passive components and their characteristics

Active components of 1.5 and their characteristics

Exercise 1

Chapter II Equivalent Analysis of Circuits

2. 1 Equivalent Concept and Resistance Equivalent Analysis

2.2 Resistance star connection and triangle connection, etc.

Effect exchange

2.3 Power Equivalent Analysis

2.4 Input resistance of two-terminal network without independent source

2.5 Circuit analysis with operational amplifier

2.6 duality of the circuit

Exercise 2

Chapter III General Analysis of Resistance Circuits

3. 1 Independence of circuit equation

3.2 Branch current method

3.3 mesh analysis method

3.4 Node Analysis Method

3.5 loop current method

Exercise 3

Chapter 4 Important Theorems of Circuit Analysis

4. 1 superposition theorem

4.2 Substitution Theorem

4.3 Thevenin Theorem and Norton Theorem

4.4 Maximum Power Transmission Theorem

4.5 Reciprocity Theorem

4.6 Tellegen Theorem

Exercise 4

Chapter 5: Steady-state Analysis of Sine Circuit

5. Basic concept of1sine quantity

5.2 phasor representation of sine quantity

5.3 grams of phasor forms and elements of Shikhov's law

Phasor form of volt-ampere relationship

5.4 Impedance and admittance

5.5 Sine steady-state circuit analysis

5.6 Power of sinusoidal current circuit

5.7 Maximum Power Transfer Theorem of Sinusoidal Current Circuits

Exercise 5

Chapter 6 Three-phase Circuit

6. 1 symmetrical three-phase power supply and three-phase load

6.2 symmetrical three-phase circuit analysis

6.3 Analysis of Asymmetric Three-phase Circuit

6.4 Symmetric component method

6.5 Power of three-phase circuit

6.6 Power measurement of three-phase circuit

Exercise 6

Chapter 7 Coupling Inductor and Transformer Circuit

7. 1 Voltammetric relation of coupling inductor and homonym terminal

7.2 Decoupling Equivalent of Coupling Inductor

7.3 Calculation of Sinusoidal Steady-state Mutual Inductance Coupling Circuit

7.4 Circuit Analysis of Air-core Transformer

7.5 Ideal transformer

7.6 Fully-coupled transformer and common transformer

Exercise 7

Chapter VIII Resonance Circuit

8. 1 series resonant circuit

8.2 Frequency characteristics and passband of series resonant circuit

8.3 Influence of signal source internal resistance and load on series resonant circuit

8.4 Parallel resonant circuit

8.5 Frequency characteristics and passband of parallel resonant circuit

8.6 Influence of signal source internal resistance and load resistance on parallel resonant circuit

Exercise 8

2. Fundamentals of circuit analysis

Chapter 9 Time domain analysis of linear circuit transients

9. 1 Transient and Switching Laws

9.2 Calculation of initial value of circuit

9.3 Classical Method for Transient Analysis of First Order Circuits

9.4 Three-element method of first-order circuit

Chapter 10 Computer Aided Circuit Analysis

Circuit analysis of 10. 1 Multisim DC

Computer aided analysis of common circuit theorems in 10.2

Analysis of 10.3 Multisim sinusoidal steady-state circuit

Frequency response analysis of 10.4 Multisim

Analysis of 10.5 Multisim Dynamic Circuit

Partial reference answer

refer to