Course Objectives

Through the learning of this course, students can learn several methods of analysis and calculations of linear electronic circuits, and be able to skillfully apply these methods to complete the analysis of actual circuits.

1.The working principle and basic characteristics of semiconductor devices：

1) Understand the conduction mechanism of semiconductor, PN junction and its characteristics, and master the working principles, characteristics and parameters of diode, bipolar transistor and MOSFET.

2) Master diode, bipolar transistor and FET big signal and small signal model. Master the meaning of the basic parameters of the model.

2.Diode Circuits：

Master the analysis methods of diode voltage regulator circuit, limiter circuit and clamping circuit.

3.Amplifying circuits：

1) Master the circuit composition, working principle, static and dynamic analysis methods and main performance characteristics of three basic configuration amplifiers composed of Bipolar Junction Transistor and MOSFET.

2) Master graphic analysis and equivalent circuit analysis, and simplify the circuit according to the engineering approximation.

3) Master the concept and basic analysis methods of gain, input and output impedance and frequency characteristics of amplifier.

4) Master the working principle and analysis methods of active load amplifier and multistage amplifier.

5) Understand the performance requirements of the power amplifier and the main factors that affect the output power and efficiency of the power amplifier.

6) Understand the characteristics of class a power amplifier, and master the circuit composition, working principle, analysis method and performance characteristics of class B push-pull power amplifier.

7) Master the relationship power amplifier between output power, efficiency, nonlinear distortion and device operation status, load and circuit form. Master the calculation of output power and efficiency.

8) Master the circuit composition and working principle of differential amplifier, as well as the analysis methods and performance characteristics of small signal and large signal.

9) Master the use of computer software for transistor and FET circuit model parameter setting and basic analysis methods.

4.Negative feedback amplifier:

1) Master the concept of negative feedback and identify the type of feedback in negative feedback circuit.

2) Master the influence of negative feedback on the performance of amplifying circuit and the conditions to produce these effects.

3) Master the engineering estimation method of deep negative feedback amplifier.

4) Understand the stability and phase compensation method of the negative feedback amplifying circuit.

5.Frequency characteristic analysis:

1) Master the basic concepts and analysis methods of circuit frequency.

2) Master the high-frequency small signal models and applications of BJT and FET.

3) Master the analysis method of high frequency characteristics of single tube common emission circuit, and understand the high-frequency characteristics of common base and common set.

4) Understand the low frequency characteristic analysis method of single tube common emitter circuit.

5) Understand the high frequency characteristic analysis method of common source JFET.

6.Operational amplifier circuit:

1) Understand the process characteristics and circuit characteristics of IC.

2) Master the block diagram and basic characteristics of the operational amplifier circuit. Understand the main performance indicators of integrated op amp.

3) Master the structure, working principle and analysis method of current source circuit commonly used in operational amplifiers, and understand the constant voltage source circuit.

4) Understand the internal circuit structure and working principle of the general bipolar and MOS operational amplifiers.

7.The operation and processing of analog signals:

1) Master the analogue operation circuit analysis method composed of operational amplifier and analog multiplier.

2) Master the working principle and application of the voltage comparator.

3) Master the composition, working principle and analysis method of the multivibrator.

教材：《电子电路基础（第二版）》，刘宝玲等编，高等教育出版社，2013年5月出版

参考书目：

1、 刘宝玲等，《电子电路基础与通信电子电路学习指导书》，高等教育出版社，2009年8月

2、 Robert L.Boylestad,  Louis Nashelsky（作者）, 李立华, 李永华 (译者)， 模拟电子技术，电子工业出版社; 第1版 (2008年6月1日)，国外电子与通信教材系列

3、 童诗白、华成英，模拟电子技术基础（第三版），高等教育出版社，2001年

本课程采用闭卷考试

成绩构成：平时成绩：期中考试：期末考试 = 20%：20%：60%

1． 器件的工作状态与信号源及负载的关系

2． 放大电路的基本组态及性能分析

3． 工程简化与放大器指标的估算

4． 负反馈电路的识别、工程估算及其负反馈对放大电路的影响

5． 放大器频率特性分析

6． 功率输出级电路及性能指标分析

7． 运算放大器的构成及基本单元电路分析

8． 运算放大器的应用

9.  模拟相乘器、电压比较器的工作原理及应用

以课堂教学为主，少量课堂讨论、课堂练习