第1章电路的基本概念和基本定律
1.1电路的组成及作用
1.1.1电路的组成及其模型
1.1.2电流、电压及其参考方向
1.1.3电位
1.2电路的工作状态
1.2.1额定值与实际值
1.2.2电路的工作状态
1.2.3最大功率传输
1.3电路的基本元件
1.3.1无源元件
1.3.2独立电源元件
1.3.3受控电源
1.4基尔霍夫定律及应用
1.4.1基尔霍夫电流定律(KCL)
1.4.2基尔霍夫电压定律(KVL)
1.4.3基尔霍夫定律的基本应用
第2章电路分析的方法
2.1支路电流法
2.2结点电压法
2.3电阻的串并联分析
2.3.1等效变换的概念
2.3.2电阻的串并联
2.4电源的两种模型及其等效变换
2.4.1电压源模型
2.4.2电流源模型
2.4.3电源两种模型之间的等效变换
2.5叠加定理
2.6戴维南定理与诺顿定理
2.6.1戴维南定理
2.6.2诺顿定理
第3章电路的暂态分析
3.1暂态过程及换路定则
3.1.1暂态过程
3.1.2换路定则及初始值的确定
3.1.3一阶线性微分方程
3.2RC电路的响应
3.2.1RC电路的零输入响应
3.2.2RC电路的零状态响应
3.2.3RC电路的全响应
3.3一阶线性电路暂态分析的三要素法
3.4RL电路的响应
3.4.1RL电路的零输入响应
3.4.2RL电路的零状态响应
3.4.3RL电路的全响应
第4章正弦交流电路
4.1正弦交流电路的基本概念
4.1.1正弦量的三要素
4.1.2正弦量的相量表示法
4.2单元件的正弦交流电路
4.2.1电阻元件的正弦交流电路
4.2.2电感元件的正弦交流电路
4.2.3电容元件的正弦交流电路
4.3电路定律的相量形式
4.4简单正弦交流电路的分析
4.4.1正弦交流电路的阻抗
4.4.2正弦交流电路的功率
4.4.3功率因数的提高
第5章三相电路
5.1三相电压
5.2负载星形连接的三相电路
5.3负载三角形连接的三相电路
5.4三相功率
第6章变压器与电动机
6.1磁路的分析方法
6.2变压器
6.2.1变压器的工作原理
6.2.2变压器的运行特性
6.2.3特殊变压器
6.3三相异步电动机
6.3.1三相异步电动机的构造
6.3.2三相异步电动机的工作原理
6.3.3三相异步电动机的机械特性
6.3.4三相异步电动机的运行特性
6.3.5三相异步电动机的使用
第7章继电接触器控制系统
7.1常用低压电器
7.1.1刀开关和熔断器
7.1.2自动开关
7.1.3交流接触器
7.1.4热继电器和时间继电器
7.1.5按钮和行程开关
7.2电气系统的基本控制环节
7.2.1点动和长动控制
7.2.2电动机的正反转控制
7.3应用举例
7.3.1笼型电动机能耗制动的控制
线路
7.3.2加热炉自动上料控制线路
习题
部分习题参考答案
常见术语中英对照
Chapter 1Basic concepts and laws of the
electronic circuit
1.1The circuit composition and role
1.1.1Compositions of electronic circuit
and model
1.1.2The current、the voltage and their
reference directions
1.1.3Electric potential
1.2Electrical circuit operating modes
1.2.1The rated value and the actual
value
1.2.2The operation mode of the
circuit
1.2.3Maximum power transmission
1.3Basic circuit components
1.3.1Passive components
1.3.2Independent power supply
components
1.3.3Dependent power sources
1.4Kirchhoff′s law and applications
1.4.1Kirchhoff′s current law
KCL
1.4.2Kirchhoff′s voltage law
(KVL)
1.4.3Basic applications of Kirchhoff′s
law
Chapter 2The circuit analysis
methods
2.1Branch current method
2.2Node?voltage method
2.3The series connection and the parallel
connection of resistors
2.3.1The concept of equivalent
transformation
2.3.2The resistors series connection and
parallel connection
2.4The power source models
and equivalent transformation
2.4.1Voltage source model
2.4.2Current source model
2.4.3The power source models and
transformations
2.5The superposition theory
2.6The Thevenin theorem and the Nortons
theorem
2.6.1The Thevenin theorem
2.6.2Nortons theorem
Chapter 3The transient state analysis
3.1The transient process and the switching
theory
3.1.1The transient process
3.1.2The switching rule and the initial
value determination
3.1.3The first order linear differential
equation
3.2RC circuit responses
3.2.1The zero?input response of the
RC circuit
3.2.2RC circuit zero state response
3.2.3RC circuit complete response
3.3The three?element method of the first
order linear circuit transient response
analysis
3.4RL circuit transient response
3.4.1RL circuit zero input response
3.4.2RL circuit zero state response
3.4.3RL circuit complete response
Chapter 4The sinusoidal alternating
currentACcircuit
4.1Basic concepts of the sinusoidal
alternating current AC circuit
4.1.1Three elements of the sinusoidal
quantity
4.1.2The phasor representation method
of the sine function
4.2Single?component sinusoidal AC
circuit
4.2.1The sinusoidal AC circuit for the
resistor
4.2.2The sinusoidal AC circuit for the
inductor
4.2.3The sinusoidal AC circuit for the
capacitor
4.3The phasor form of the circuit
laws
4.4The analysis of the simple sinusoidal
AC circuit
4.4.1The impedance of the sinusoidal
AC circuit
4.4.2Power of the sinusoidal AC
circuit
4.4.3The enhancement of the power
factor
Chapter 5 Three?phase circuit
5.1Three ?phase voltage
5.2Three?phase circuit with the star
connection load
5.3The load triangular connection of the
three?phase circuit
5.4Three?phase circuit power
Chapter 6The transformer and
electric motor
6.1The analysis method of the magnetic
circuit
6.2The transformer
6.2.1The operation fundamental of
the transformer
6.2.2The transformer′s operating
character
6.2.3Special transformers
6.3Three?phase asynchronous electrical
motor
6.3.1The structure of the three?phase
asynchronous electrical motor
structure
6.3.2The three?phase asynchronous
motor fundamentals
6.3.3The mechanical characteristics of
the three?phase asynchronous
motor
6.3.4The operation characteristics of
the three?phase asynchronous
motor
6.3.5Three?phase asynchronous motor′s
usage
Chapter 7The relay contact device
control system
7.1The ordinary low?voltage control
apparatus
7.1.1The knife switch and the fuse
7.1.2Automatic switch
7.1.3The AC contactor
7.1.4Thermorelay and time relay
7.1.5Buttons and the position
switches
7.2Basic control units of the electrical
system
7.2.1Point start and long dynamic
control
7.2.2The motor control and
reversing
7.3Applicable instances
7.3.1The dynamic braking control circuit
for caged type motor
7.3.2The heat furnace automatic
material loading control circuit
参考文献