電工基礎（雙語版）

本書從最基本的科學定律（歐姆定律、基爾霍夫定律）入手，導入了電路分析的常用分析方法和分析工具。本書首先介紹電路的基本組成及基本概念和參量，然後結合基爾霍夫定律，輔以適量例題及習題介紹支路電流法、結點電壓法、電源模型及等效變換、疊加定理和戴維南定理。暫態回響分析以一階電路為主，詳細分析其三種回響模式。交流電路分析以電容和電感的交流特性為基礎，分析了RLC串並聯電路的正弦穩態回響及其功率計算方法，還對三相電路原理、三相異步電動機的原理及控制做了詳細介紹。本書注重理論與實踐相結合，採取中英文對照的方式，強化學生的專業英文能力，為後續課程學習及深造打下良好基礎。

本書可作為高等院校電子信息類、電氣類、計算機類等相關專業師生的中英文雙語教學用書，也可作為從事電子技術、電氣工程、通信工程領域的工程技術人員的參考書。

第1章電路的基本概念和基本定律1

1·1電路的組成及作用1

1·1·1電路的組成及其模型1

1·1·2電流、電壓及其參考方向2

1·1·3電位3

1·2電路的工作狀態5

1·2·1額定值與實際值5

1·2·2電路的工作狀態5

1·2·3最大功率傳輸8

1·3電路的基本元件9

1·3·1無源元件9

1·3·2獨立電源(元件)12

1·3·3受控電源14

1·4基爾霍夫定律及套用15

1·4·1基爾霍夫電流定律（KCL）15

1·4·2基爾霍夫電壓定律（KVL）17

1·4·3基爾霍夫定律的基本套用18

第2章電路分析的方法21

2·1支路電流法21

2·2結點電壓法23

2·3電阻的串並聯分析23

2·3·1等效變換的概念23

2·3·2電阻的串並聯24

2·4電源的兩種模型及其等效變換26

2·4·1電壓源模型26

2·4·2電流源模型27

2·4·3電源兩種模型之間的等效變換27

2·5疊加定理30

2·6戴維南定理與諾頓定理32

2·6·1戴維南定理32

2·6·2諾頓定理34

第3章電路的暫態分析37

3·1暫態過程及換路定則37

3·1·1暫態過程37

3·1·2換路定則及初始值的確定37

3·1·3一階線性微分方程40

3·2RC電路的回響41

3·2·1RC電路的零輸入回響41

3·2·2RC電路的零狀態回響42

3·2·3RC電路的全回響45

3·3一階線性電路暫態分析的三要素法45

3·4RL電路的回響47

3·4·1RL電路的零輸入回響47

3·4·2RL電路的零狀態回響48

3·4·3RL電路的全回響48

第4章正弦交流電路51

4·1正弦交流電路的基本概念51

4·1·1正弦量的三要素51

4·1·2正弦量的相量表示法53

4·2單元件的正弦交流電路55

4·2·1電阻元件的正弦交流電路55

4·2·2電感元件的正弦交流電路56

4·2·3電容元件的正弦交流電路58

4·3電路定律的相量形式60

4·4簡單正弦交流電路的分析61

4·4·1正弦交流電路的阻抗61

4·4·2正弦交流電路的功率64

4·4·3功率因數的提高65

第5章三相電路67

5·1三相電壓67

5·2負載星形連線的三相電路69

5·3負載三角形連線的三相電路72

5·4三相功率74

第6章變壓器與電動機76

6·1磁路的分析方法76

6·2變壓器77

6·2·1變壓器的工作原理78

6·2·2變壓器的運行特性80

6·2·3特殊變壓器81

6·3三相異步電動機82

6·3·1三相異步電動機的構造82

6·3·2三相異步電動機的工作原理83

6·3·3三相異步電動機的機械特性86

6·3·4三相異步電動機的運行特性88

6·3·5三相異步電動機的使用92

第7章繼電接觸器控制系統94

7·1常用低壓電器94

7·1·1刀開關和熔斷器94

7·1·2自動開關96

7·1·3交流接觸器96

7·1·4熱繼電器和時間繼電器98

7·1·5按鈕和行程開關99

7·2電氣系統的基本控制環節100

7·2·1點動和長動控制100

7·2·2電動機的正反轉控制102

7·3套用舉例103

7·3·1籠型電動機能耗制動的控制

線路104

7·3·2加熱爐自動上料控制線路104

習題106

部分習題參考答案120

常見術語中英對照122

Chapter 1Basic concepts and laws of the

electronic circuit125

1·1The circuit composition and role125

1·1·1Compositions of electronic circuit

and model125

1·1·2The current、the voltage and their

reference directions126

1·1·3Electric potential128

1·2Electrical circuit operating modes130

1·2·1The rated value and the actual

value130

1·2·2The operation mode of the

circuit131

1·2·3Maximum power transmission134

1·3Basic circuit components136

1·3·1Passive components136

1·3·2Independent power supply

(components)139

1·3·3Dependent power sources141

1·4Kirchhoff′s law and applications143

1·4·1Kirchhoff′s current law

(KCL)143

1·4·2Kirchhoff′s voltage law

（KVL）145

1·4·3Basic applications of Kirchhoff′s

law146

Chapter 2The circuit analysis

methods149

2·1Branch current method149

2·2Nodevoltage method151

2·3The series connection and the parallel

connection of resistors152

2·3·1The concept of equivalent

transformation152

2·3·2The resistors series connection and

parallel connection152

2·4The power source models

and equivalent transformation155

2·4·1Voltage source model155

2·4·2Current source model156

2·4·3The power source models and

transformations156

2·5The superposition theory160

2·6The Thevenin theorem and the Nortons

theorem162

2·6·1The Thevenin theorem162

2·6·2Nortons theorem164

Chapter 3The transient state analysis168

3·1The transient process and the switching

theory168

3·1·1The transient process168

3·1·2The switching rule and the initial

value determination 169

3·1·3The first order linear differential

equation172

3·2RC circuit responses173

3·2·1The zeroinput response of the

RC circuit173

3·2·2RC circuit zero state response 175

3·2·3RC circuit complete response 177

3·3The threeelement method of the first

order linear circuit transient response

analysis178

3·4RL circuit transient response180

3·4·1RL circuit zero input response180

3·4·2RL circuit zero state response181

3·4·3RL circuit complete response181

Chapter 4The sinusoidal alternating

current(AC)circuit184

4·1Basic concepts of the sinusoidal

alternating current (AC) circuit184

4·1·1Three elements of the sinusoidal

quantity184

4·1·2The phasor representation method

of the sine function187

4·2Singlecomponent sinusoidal AC

circuit189

4·2·1The sinusoidal AC circuit for the

resistor190

4·2·2The sinusoidal AC circuit for the

inductor191

4·2·3The sinusoidal AC circuit for the

capacitor193

4·3The phasor form of the circuit

laws195

4·4The analysis of the simple sinusoidal

AC circuit196

4·4·1The impedance of the sinusoidal

AC circuit197

4·4·2Power of the sinusoidal AC

circuit199

4·4·3The enhancement of the power

factor201

Chapter 5 Threephase circuit203

5·1Three phase voltage203

5·2Threephase circuit with the star

connection load206

5·3The load triangular connection of the

threephase circuit210

5·4Threephase circuit power212

Chapter 6The transformer and

electric motor214

6·1The analysis method of the magnetic

circuit 214

6·2The transformer216

6·2·1The operation fundamental of

the transformer216

6·2·2The transformer′s operating

character220

6·2·3Special transformers221

6·3Threephase asynchronous electrical

motor222

6·3·1The structure of the threephase

asynchronous electrical motor

structure223

6·3·2The threephase asynchronous

motor fundamentals 223

6·3·3The mechanical characteristics of

the threephase asynchronous

motor227

6·3·4The operation characteristics of

the threephase asynchronous

motor229

6·3·5Threephase asynchronous motor′s

usage234

Chapter 7The relay contact device

control system237

7·1The ordinary lowvoltage control

apparatus237

7·1·1The knife switch and the fuse237

7·1·2Automatic switch239

7·1·3The AC contactor240

7·1·4Thermorelay and time relay242

7·1·5Buttons and the position

switches244

7·2Basic control units of the electrical

system245

7·2·1Point start and long dynamic

control 245

7·2·2The motor control and

reversing246

7·3Applicable instances249

7·3·1The dynamic braking control circuit

for caged type motor249

7·3·2The heat furnace automatic

material loading control circuit249

參考文獻251