Syllabus for Technology of Analog Electronics
PHYS3117
Current Lecturer
Prof. Liang FANG Email: lfang@suda.edu.cn
Course Time
3rd Semester
Lectures: 3 sessions/week, 50min /session. 18 weeks.
Course Description
Technology of Analog Electronics is one of the core courses for electrical and related engineering students. It provides a foundation for analyzing and designing analog circuits. Various approaches for students to understand the operation, characteristics, and limitations of analog circuits are also discussed. The topics include: basic physical models of the operation of semiconductor devices such as diodes, bipolar junction transistor, and field effect transistor. Analyzing simple diode circuit, transistor amplifies circuit, operation amplifies circuit, and power amplifies circuit, and feedback circuit.
Prerequisites
Circuit Theory (PHYS1020)
Textbooks
Robert L. Boylestad and Louis Nashelsky, Electronic Device and Circuit Theory, 9th ed. Upper Saddle River, NJ: Prentice Hall, 2008
Kang Huaguang, Analog Electronics, 6th ed. High Education Press
Main contents
Week | Teaching Contents | Sessions | Objectives |
1 | Introduction to the course Semiconductor Diodes | 3 | Grasp the basic concept of Semiconductor Materials and their Properties Chapter 1.1-1.4 |
2 | The pn Junction Diode Equivalent Circuits Zener diode | 3 | The characteristic of an ideal diode The dc resistance of a diode The ac resistance of a diode Chapter 1.5-1.12 |
3 | Load-Line Analysis Equivalent Model Analysis Diode Applications(I)
| 3 | Determine the state of a diode AND/OR Gates Half, Full-Wave Rectification Chapter: 2.1-2.6 |
4 | Diode Applications(II) Basic Bipolar Junction (BJT) Transistor | 1+2 | Clipper and Clamper Circuits Zener Diode Circuits Transistor Construction Current-Voltage Characteristic of BJT BJT Main Parameters Chapter 2.7-2.9 Chapter 3.1-3.7
|
5 | DC Biasing of BJTS (I) | 3 | DC Analysis of Common-Emitter Circuit Basic Transistor Application Bipolar Transistor Biasing Chapter 4.1-4.5 |
6 | DC Biasing of BJTS (II) | 2+1 | DC Bias with Voltage Feedback Miscellaneous Bias Configurations Chapter 4.6-4.8 Quiz1 |
7 | BJT AC Analysis (I) | 3 | Graphical Analysis Small-Signal Model Analysis Common-Emitter Amplifiers Chapter 5.1-5.11 |
8 | BJT AC Analysis (II) | 3 | Common-Collector Circuits Common-Base Circuits Multistage Amplifiers Chapter 5.12-5.19 |
9 | BJT AC Analysis (III) Field-Effect Transistor (FET, I) | 1+2 | Darlington Connection Current Mirror Circuits Current Source Circuits Construction and Characteristics of JFETs Depletion-Type MOSFET Chapter 5.20-5.23, Chapter 6.1-6.6 |
10 | Field-Effect Transistor(II) FET Biasing(I) | 1+2 | Enhancement- Type MOSFET, CMOS The Current-Voltage Characteristics and Parameters of MOSFETs MOSFET DC Circuit Analysis Chapter 6.7-6.9, Chapter 7.1-7.5 |
11 | FET Biasing(II) FET Amplifiers(I) | 1+2 | JFET DC Circuit Analysis AC Analysis of JFET Circuits Chapter 7.6-7.9, Chapter 8.1-8.7 |
12 | FET Amplifiers(II) | 3 | AC Analysis of MOSFET Circuits Cascade configuration Chapter 8.5-8.14 |
13 | Operational Amplifier(I) | 3 | Characteristics of Ideal Op-Amps Analysis of Op-Amp Circuits Chapter 10.1-10.5 |
14 | Op-Amp Application (I) | 2+1 | Inverting Amplifier Summing Amplifier Noninverting Amplifier Chapter 11.1-11.2 Quiz2 |
15 | Op-Amp Application (II) | 3 | Difference Amplifier Integrator Differentiator Schmitt Trigger Chapter 11.3-11.4 |
16 | Power Amplifier | 3 | Class A Amplifier operation Class B Amplifier operation Chapter 12.1-12.5 |
17 | Feedback Circuits | 3 | General Feedback Configuration General Feedback Closed-Loop Transfer Function Analysis of Feedback Circuits Chapter 13.1-13.4 |
18 | Review of the whole course | 3 | General Review and Preparation for final exams |
Marking Scheme:
Homework | Quiz | Final exam |
10% | 20% | 70% |
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